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Home My WebLink About41693-Z �Q�S�FFOtp�O�� Town of Southold 10/1/2018 a P.O.Box 1179 6 co 53095 Main Rd Southold,New York 11971 CERTIFICATE OF OCCUPANCY No: 39921 Date: 10/1/2018 THIS CERTIFIES that the building ALTERATION Location of Properly: 1675 Pine Neck Rd, Southold SCTM#: 473889 Sec/Block/Lot: 70.-5-42 Subdivision: Filed Map No. Lot No. conforms substantially to the Application for Building Permit heretofore filed in this office dated 5/30/2017 pursuant to which Building Permit No. 41693 dated 6/2/2017 was issued, and conforms to all of the requirements of the applicable provisions of the law. The occupancy for which this certificate is issued is: ALTERATIONS TO AN EXISTING NON-HABITABLE,NON-SLEEPING ACCESSORY BUILDING AS APPLIED FOR The certificate is issued to Weitzman,Adam&Rachel of the aforesaid building. SUFFOLK COUNTY DEPARTMENT OF HEALTH APPROVAL ELECTRICAL CERTIFICATE NO. 41693 08-23-2018 PLUMBERS CERTIFICATION DATED ho ' Signature o�su ol�coG TOWN OF SOUTHOLD BUILDING DEPARTMENT TOWN CLERK'S OFFICE o • SOUTHOLD, NY BUILDING PERMIT (THIS PERMIT MUST BE KEPT ON THE PREMISES WITH ONE SET OF APPROVED PLANS AND SPECIFICATIONS UNTIL FULL COMPLETION OF THE WORK AUTHORIZED) Permit##: 41693 Date: 6/2/2017 Permission is hereby granted to: Weitzman, Adam & Rachel 151 W 21st St Apt 2B New York, NY 10011 To: construct alterations to existing accessory building as applied for. At premises located at: 1675 Pine Neck Rd, Southold SCTM # 473889 Sec/Block/Lot# 70.-5-42 Pursuant to application dated 5/30/2017 and approved by the Building Inspector. To expire on 12/2/2018. Fees: ACCESSORY $201.20 CO -ACCESSORY BUILDING $50.00 Total: $251.20 t 1-11, Buil ' g I ector Form No.6 TOWN OF SOUTHOLD BUILDING DEPARTMENT TOWN HALL 765-1802 APPLICATION FOR CERTIFICATE OF OCCUPANCY This application must be filled in by typewriter or ink and submitted to the Building Department with the following: A. For new building or new use: 1. Final survey of property with accurate location of all buildings,property lines,streets,and unusual natural or topographic features. 2. Final Approval from Health Dept. of water supply and sewerage-disposal (S-9 form). 3. Approval of electrical installation from Board of Fire Underwriters. 4. Sworn statement from plumber certifying that the solder used in system contains less than 2/10 of 1%lead. 5. Commercial building, industrial building,multiple residences and similar buildings and installations,a certificate of Code Compliance from architect or engineer responsible for the building. 6. Submit Planning Board Approval of completed site plan requirements. B. For existing buildings(prior to April 9, 1957) non-conforming uses,or buildings and "pre-existing"land uses: 1. Accurate survey of property showing all property lines, streets,building and unusual natural or topographic features. 2. A properly completed application and consent to inspect signed by the applicant.If a Certificate of Occupancy is denied,the Building Inspector shall state the reasons therefor in writing to the applicant. C. Fees 1. Certificate of Occupancy-New dwelling$50.00,Additions to dwelling$50.00,Alterations to dwelling$50.00, Swimming pool$50.00,Accessory building$50.00,Additions to accessory building$50.00,Businesses$50.00. 2. Certificate of Occupancy on Pre-existing Building- $100.00 3. Copy of Certificate of Occupancy-$.25 4. Updated Certificate of Occupancy- $50.00 5. Temporary Certificate of Occupancy-Residential $15.00, Commercial $15.00 Date. jS ,?.?jj-7 New Construction: Old or Pre-existing Building: (check one) Location of Property: RNE N F—c rL ZA!� SO.r 1-(a (� House No. Street Hamlet v Owner or Owners of Property: /.Q tlm �NJAP- WCC 1 2 MAi�', Suffolk County Tax Map No 1000, Section t70 Block 65 Lot `f Z Subdivision Filed Map. Lot: q(CP No. I CP Date of Permit. Applicant: --RrRw Y'r}L Health Dept. Approval: Underwriters Approval: Planning Board Approval: Request for: Temporary Certificate Final Certificate: (check one) Fee Submitted: $ 5 0 A t Signature pF SOUTyoI Town Hall Annex Telephone(631)765-1802 54375 Main Road N Fax(631)765-9502 P.O.Box 1179 G Q ,c► • io roger.riche rtAtown.south old.ny.us Southold,NY 11971-0959 BLULDING DEPARTMENT TOWN OF SOUTHOLD CERTIFICATE OF ELECTRICIAL COMPLIANCE SITE LOCATION Issued To: Weitzman Address: 1675 Pine Neck Rd City. Southold St: New York Zip: 11971 Building Permit# 41693 Section 70 Block 5 Lot* 42 WAS EXAMINED AND FOUND TO BE IN COMPLIANCE WITH THE NATIONAL ELECTRIC CODE Contractor: DBA: Paul Burns Electric License No: SITE DETAILS Office Use Only Residential X Indoor X Basement Service Only Commerical Outdoor 1st Floor X Pool New Renovation 2nd Floor Hot Tub Addition Survey Attic Garage INVENTORY Service 1 ph Heat Duplec Recpt 8 Ceiling Fixtures HID Fixtures Service 3 ph Hot Water GFCI Recpt 2 Wall Fixtures 1 Smoke Detectors Main Panel A/C Condenser 1 Single Recpt Recessed Fixtures 6 CO Detectors 1 Sub Panel A/C Blower 1 Range Recpt Fluorescent Fixture Pumps Transformer Appliances Dryer Recpt Emergency Fixture Time Clocks Disconnect Switches 3 Twist Lock Exit Fixtures TVSS Other Equipment: "POOL HOUSE", (section of existing garage) Notes: Inspector Signature: Date: August 23 2018 81-Cert Electrical Compliance Form.xls SOF so h0� Ol0 courm,��' TOWN OF SOUTHOLD BUILDING DEPT. 765-1802 - INSPECTION [ FOUNDATION 1ST [ ] ROUGH PLEIG. [ ] OUNDATION 2ND [ ] INSULATION [ FRAMING / STRAPPING [ ] FINAL [ ] FIREPLACE & CHIMNEY [ ] FIRE SAFETY INSPECTION [ ] FIRE RESISTANT CONSTRUCTION [ ] FIRE RESISTANT PENETRATION [ ] ELECTRICAL (ROUGH) [ ] ELECTRICAL (FINAL) i REMARKS: - tnA 41 0 piWh DATE _L 19 INSPECTOR f V it) SOUjy� TOWN OF SOUTHOLD BUILDING DEPT. 765-1802 -INSPECTION [ ] FOUNDATION 1ST [ ] UGH PLEIG. [ ] FOUNDATION 2ND [ INSULATION [ ] FRAMING / STRAPPING [ ] FINAL [ ] FIREPLACE & CHIMNEY [ ] FIRE SAFETY INSPECTION [ ] FIRE RESISTANT CONSTRUCTION [ ] FIRE RESISTANT PENETRATION [ ] ELECTRICAL (ROUGH) [ ] ELECTRI AL (FINAL) REMARKS DATE INSPECTOR SO(/lyo� cou TOWN OF SOUTHOLD BUILDING DEPT. 765-1802 INSPECTION [ ] FOUNDATION 1ST [ ] ROUGH PLSG. [ ] FOUNDATION 2ND [ ] INSULATION [ ] FRAMING / STRAPPING [ ] FINAL ( ] FIREPLACE & CHIMNEY [ ] FIRE SAFETY INSPECTION [ ] FIRE RESISTANT CONSTRUCTION [ ] FIRE RESISTANT PENETRATION �f ELECTRICAL (ROUGH) [ ] ELECTRICAL (FINAL) REMARKS: DATE dill INSPECTOR2 ` VfZ--- I / �aOF SO(/Ty� # TOWN OF SOUTHOLD BUILDING DEPT. `ycourm N�' 765-1802 INSPECTION .' [ ] FOUNDATION 1ST [ ] ROUGH PLBG. [ ] FOUNDATION 2ND [ ] I ULATION [ ] FRAMING /STRAPPING [VT FINAL [ ] FIREPLACE & CHIMNEY [ ] FIRE SAFETY INSPECTION [ ] FIRE RESISTANT CONSTRUCTION [ ] FIRE RESISTANT PENETRATION [ ] ELECTRICAL (ROUGH) [ ] ELECTRICAL (FINAL) [ ] CODE VIOLATION [ ] CAULKING REMARKS: �p Lt, Y�t~i P �✓ ISAA �f m . Att DATE INSPECTORAft VIK, OF SOUTy�� * TOWN OF SOUTHOLD BUILDING DEPT. `ycourm, 765-1802 INSPECTION re [ ] FOUNDATION 1ST [ ] ROUGH PLBG. [ ] FOUNDATION 2ND [ ]-INSULATION [ ] FRAMING /STRAPPING [ ] FINAL [ ] FIREPLACE & CHIMNEY [ ] FIRE SAFETY INSPECTION [ ] FIRE RESISTANT CONSTRUCTION [ ] FIRE RESISTANT PENETRATION [ ] ELECTRICAL (ROUGH) J l ELECTRICAL (FINAL) [ ] CODE VIOLATION [ ] CAULKING REMARKS: DATE I INSPECTOR <�c� . •. • • .• w STATE • cr • • • r rOWN, �. ima woo � fI!I�. ► Ohl !l .�.r.a f � /�i�I„[�!�Id 1� .. I � � .71 JAA I /WT W" CIA c ►.. r I TOWN OF SOUTHOLD BUILDING PERMIT APPLICATION CHECKLIST BUILDING DEP AaRTMENT Do you have or need the following,before applying? TOWN HALE. Board of Health SOUTHOLD,NY 11971 4 sets of Building Plans TEL: (631) 765-1802 Planning Board approval FAX: (631) 765-9502 2 �l Survey. SoutholdTown.NorthFork.net PERMIT NO. Check Septic Form N.Y.S.D.E.C. Trustees C.O.Application Flood Permit Examined 20n Single&Separate Storm-Water Assessment Form / Contact: Approved 20 Mail to: K1=tiL- kgstq i k gsSOC.. 1_l.C.., Disapproved a/c 96S�S PkSk-A QK 1-14, Sa.r kkLUft i�N`I• Phone: Expiration 20 B spector BP PLICATION FOR BUILDING PERMIT M AY 011 Date 53 20 l°'7 INSTRUCTIONS a. This 10Wano ompletely filled in by Typewriter or in ink and submitted to the Building Inspector with 4 sets of plans i tP pscale.Fee according to schedule. b.Plot plan showing location of lot and of buildings on premises,relationship to adjoining premises or public streets or areas, and waterways. c. The work covered by this application may not be commenced before issuance of Building Permit. d.Upon approval of this application,the Building Inspector will issue a Building Permit to the applicant. Such a permit shall be kept on the premises available for inspection throughout the work. e.No building shall be occupied or used in whole or in part for any purpose what so ever until the Building Inspector issues a Certificate of Occupancy. f. Every building permit shall expire if the work authorized has not commenced within 12 months after the date of issuance or has not been completed within 18 months from such date.If no zoning amendments or other regulations affecting the property have been enacted in the interim,the Building Inspector may authorize,in writing,the extension of the permit for an addition six months. Thereafter,a new permit shall be required. APPLICATION IS HEREBY MADE to the Building Department for the issuance of a Building Permit pursuant to the Building Zone Ordinance of the Town of Southold, Suffolk County,New York, and other applicable Laws,Ordinances or Regulations,for the construction of buildings, additions,or alterations or for removal or demolition as herein described. The applicant agrees to comply with all apQicable laws,ordinances,building code,housing code,and regulations, and to admit authori (cam uilding for necessary inspections. ® �C blot!'' 4 Id MAY (Signa a applicant or name,if a corporation) EUILDING DE1Rf:'• SA air- A-S fFe;S J� (Mailing address of applicant) TOWN OF SOUTHOLD State whether applicant is owner, lessee, agent, architect, engineer, general contractor, electrician,plumber or builder A4 Ns Name of owner of premises AdAM Z RAC."l:t-- W E-1 i z M PtA (As on the tax roll or latest deed) If app oration, signature of duly authorized officer and title of corporate officer) Builder's—License No. Plumbers License No. ATt��S ►1F- Electricians License No. Other Trade's License No. 1. Location of land on which proposed work will be done: i(`/9- PINFE NF-(—le-- Rt),f,-,�A SOy 7 140u,*'s House Number Street Hamlet County Tax Map No. 1000 Section 70 Block �s Lot y� Scott A. Russell ,��°Su �v STOIKIMMIWAkXIEIRZ SUPERVISOR MANAGEMENT SOUTHOLD TOWN HALL-P.O.Box 1179 0 A 53095 Main Road-SOUTHOLD,NEW YORK n971 C Town of Southold CHAPTER 236 - STORMWATER MANAGEMENT WORK SHEET ( TO BE COMPLETED BY THE APPLICANT ) DOES THIS PROJECT INVOLVE ANY OF THE lFO LfOM71NG: Yes No (CHECK ALL THAT APPLY) ❑� A. Clearing, grubbing, grading or stripping of land which affects more than 5,000 square feet of ground surface. ❑® B. Excavation or filling involving more than 200 cubic yards of material within any parcel or any contiguous area. ❑® C. Site preparation on slopes which exceed 10 feet vertical rise to 100 feet of horizontal distance. ❑� D. Site preparation within 100 feet of wetlands, beach, bluff or coastal erosion hazard area. ❑® E. Site preparation within the one-hundred-year f loodplain as depicted on FIRM Map of any watercourse. E][D F. Installation of new or resurfaced impervious surfaces of 1,000 square feet or more, unless prior approval of a Stormwater Management Control Plan was received by the Town and the proposal includes in-kind replacement of impervious surfaces. If you answered NO to all of the questions above, STOP! Complete the Applicant section below with your Name, Signature, Contact Information, Date & County Tag Map Number! Chapter 236 does not apply to your project. If you answered YES to one or more of the above,please submit Two copies of a Stormwater Management Control Plan and a completed Check List Form to the Building Department with your Building Permit Application. APPLICANT- (Property Owner, tgn Professional gent, ontractor,Other) S.C.T.M. 1000 Date- �ry �/� DPtnct [NAME- fit IT �� 1��1�L _v7_0_ 0`�ncL 2- dS-Z3-I"T Section Block Lot 3E fl FOR BUILDING DEPARTMENT USE ONLY**** Contact Information fr,l,*L N-5.i � "r, Reviewed By: 1�"�--�` -� — — — — — — — — — — — — — — — — Date: 6' Property Address /Location of Construction Work: — — — — — — — — — — — — — — — — — Approved for processing Building Permit. 1V7S ?WF_ ►AEC(_ _�?,OPZs Stormwater Management Control Plan Not Required. Stormwater Management Control Plan is Required (Forward to Engineering Department for Review.) FORM # SMCP-TOS MAY 2014 F04 BUILDING DEPARTMENT-Electrical Inspector TOWN OF SOUTHOLD cz Town Hail Annex-54375 Main Road - PO Box 1179 oy • �� Southold, New York 11971-0959 Telephone(631) 765-1802- FAX(631) 765-9502 roger.richert _town.southold.ny.us APPLICATION FOR ELECTRICAL INSPECTION REQUESTED BY: 3,b ,,, Date: y 8 Company Name: Pei- t wr.. Name: r o^-s License No.: �g9->_ME email: zu Address: RO f=>r 6 -A�16I4O Phone No.: Y?--(S JOB SITE INFORMATION: (All Information Required) Name: Wei z A4 a'% Address: J675 -1,61a$ Cross Street: Ale Phone No.: Bldg.Permit#: email: Tax Map District: 1000 Section: Block: Lot: Ll BRIEF DESCRIPTION OF WORK(Please Print Clearly) GtJ"rr- ,ate,I A, Circle All That Apply: Is job ready for inspection?: YE NO Rough In Final Do'you need a Temp Certificate?: YES/LIW Issued On Temp Information: (All information required) Service Size 1 Ph 3 Ph Size: A #Meters Old Meter# New Service-Fire Reconnect-Flood Reconnect-Service Reconnected-Underground-Overhead #Underground Laterals _ 1 2 H Frame Pole Work done on Service? Y N Adoitional Information: D PAYMENT DUE WITH APPLICATION APR 1 9 2018 BVQRWALVQ9wonFwmjd9 TO QY SOUTHOLD � 1)O _l 1 I i SOUTHOL]7 SITE DATA i SCTM# 1000-70.06-42 PROPERTY: 1676 PINE NECK ROAD I ADDRESS SOUTHOLD,NY 11971 OWNER: JOHN FISCHETTI&DEBORAH DEAVER P� SITE: 47,904 sP=1.100 ac .JOCKEY CREEK RD ZONING: R-40 G EK I I � ,10G�EY I SURVEYOR: NATHAN TAFT CORWIN 111 _LOCATION -- PO BOX-1931-- --- q RIVERHEAD,NY 11901 Q9 LICENSE# 60467 I DATED 4/30109 1v A*w7 Z P ALLEY I k N/0/F LOCATION MAP SCOT SCHULMAN ✓ENNIFER SCHULMAN I LOT N 05°00'00" E � 1—I 0 8 S 21 Z T i `_•CJI xz�R• ��- OVERHVERHEAD WIRES WIRES FENCE �z 477.73o'W IRREGULAR WIRE O ' �� / l WIRESri •' ; . • b rs� I_ ACTS u - IIw ,b m, p, I �/ payy Lm CO d. ®7 L'BZ 7lD kn m l/ / v Pkv 00,p A GRAVEL DRA'LWgy , • LOT $ w . al, 9 a I w Avbo V ON00 35(tOH 3WtlMdN LoI<cuRB •� ' b mB, mols z "o !r . O t b ! • a �_ - 1r }b b ' ,o Y. . f1., ST'DT'U 1N3rv3SVV �O �� 0 / / V �-i b O; � � e, . ° •.�0�� to _ .A d �� $`-.mL,L N N ,L'ZC o � / / o Rl v yyqq �n `,cA ,B;BS la • � �•'b I� ' �Rt'.� NO30 00014 OVEIHEAO WIRES $ �g E9 .4 �aC FENCE-�-�-� +.-.� • 9 ro ��+ ,�/ 6�V ^' 3 0 p.P'E. �•�-�. Imo' \' 0 � � F tS � I` ii 5 04°57'10" W _-_-_-_ y I - OVERHEAD WIRES -� �- - • -- — ° ul p• N I� • �° - �--EMAIN=OF IRREGU=R�WIAg RE NCE LOT ® a�q� /478.09' co WILLIAM EDCAR(COLDER, RICHARD L 9 FF ALLISON HATCH COL R NOTES: I 1. ELEVATIONS ARE REFERENCED TO N.G.V.D. 1929 DATUM EXISTING ELEVATIONS ARE SHOWN THUS:s.0 0- EXIST NG CONTOUR LINES ARE SHOWN THUS: —5— FFL - FIRST ROAR 'N\ 50 r CFL - CAPAOE FLOOR ---- - - _ 7B - TOP OF BULKHEAD BB - BOTTOM OF BULKHEAD T W - TOP OF WALL BW - BOTTOM OF WALL SITE PLAN - _ SCALE: V=20'-0" N OAKLAWN _ AV- .NUE FINAL DRAWING --------- ------— ------ ------ --- ------ —-------- Donald Starzee D/B/A Star Mechanical Date Invoice No. P.O. Box 797 04/17/18 12514 Cutchogue, NY 11935 Phone/Fax(631)734-6882 D [99 [Pill Hs– SEP 2 6 2018 Bill To: Ship To Dan WestBuilder R �� r DrnFT• Rachel Weitzman 48110 Main Road, Route 25 °�F� �+* " �' i, �D 1675 Pine Neck Road Southold, NY 11971 Southold, NY 11971 Phone Terms 765-9214 Due on receipt Description Amount Installed 9,000 BTU split system LG heat pump,condenser(model#LSN090HSV4)and air handler(model# 0.00 LSU090HSV5). Installed all necessary control wiring. Installed necessary copper line set and PVC drain. Installed outside condenser pad. Ran system to check. Sales Tax 0.00 i Note: Please sign and return the enclosed certificate of capital improvement with your Payments/Credits $0.00 payment. A 10%sevice charge will be added to all outstanding balances over 30 Balance Due $0.00 Job Name/Location: Tag No.: LS09-0��SV5 (V &%�� Date: • • . • Mount Life,C Outdoor Unit(ODU) 090 ... • 090PO No.: Z3 a �N v j N � 10.112(267) •(' • t ( �'�,�IIS � r x E I w O - c , I ` � I tiE � )fr E " ` E J913205) 12-31132(330 21.112(545) �T 732332 453) T g O T 0 -D V r t r e 6 j _ 9-5116.236 12-1,16(306) a�C� MA s 2! 0� o = '% m o m ti" LH -1 1' ! -I 1L ;M 1 ) For continual product development,LG reserves the right to change specifications without notice 5B_52_H,Eff_Std_WallMount_LS090HSV5_2017_12_08_075603 ©LG Electronics U 5 A,Inc,Englewood Cliffs,NJ All rights reserved %G Life's Good",s a registered trademark of LG Corp /www Ighvac com Page 2 of 3 Job Name/Location: Tag#: Date: For:❑File ❑Resubmit PO No.: ❑Approval Other Architect: GC: Engr: Mech: - i Rep: 0(Company) (Project Manager) LG(V LU L , 11"11P Single Zone High Efficiency Standard Wall Mount Outdoor Unit(ODU)-LSU090HSV5, Indoor Unit[IDU)-LSN090HSV5 Life's C;ooe ��+• Performance: Operating Range: Cooling: Outdoor Unit: Cooling Capacity Cooling(°F DB) 14-118 (Min—Rated—Max)(Btu/h) 1,023—9,000"•12,625 Heating(°F WB) -4—+65 SEER 23.5 Indoor Unit: EER 14.52 Cooling(°F WB) 53-75 SEER-Seasonal Energy Efficiency Ratio EER-Energy Efficiency Ratio Heating(°F DB) 60-86 Heating: Electrical: Heating Capacity (Min—Rated—Max)(Btu/h) 1,023—10,900—17,061 Power Supply(VyHz/0) 208-230/60/1 HSPF 11.3 System Data: Max.Heating @ Indoor 70°F DB Outdoor 19°F DB/17°F WB 11,080(102%) Refrigerant Type R410A EEV Outdoor 6°F DB/5°F WB 9.570(88%) Refrigerant Control . Outdoor-3°F DB/-4°F WB 8,310(76%) Refrigerant Charge(lbs.) 221 .21 HSPF-Heating Seasonal Performance Factor ODU Sound Pressure Cooling Nominal Test Conditions Heating Nominal Test conditions. (Cooling/Heating)(±3 dB[A])3 45/48 Indoor.80'F DB/67,-F WB Indoor:70°F DB/60•F WB IDU Sound Pressure Outdoor:95•F DB/75°F WB Outdoor:47°F DB/43°F W B Cooling(H/M/L/Sleep)(±3 dB[A])3 39/33/23/19 Outdoor Unit: Heating(H/M/L)(±3 dB[A])3 39/33/23 MOP(A) 15 ODU Net/Shipping Weight(Ibs.) 74.1/78.9 MCA(A) 10 IDU Net/Shipping Weight(lbs.) 18.3/25.6 Cooling/Heating Rated Amps(A) 7.4/7.4 Heat Exchanger Coating GoldFin'm Compressor(A) 7 Fan Motor(A) 0.4 Fan: MOP-MaximumOvercurrentProtection MCA-Minimum CircuitAmpacity ODU Type Propeller IDU Type Cross Flow Total Power'Input: Fan Speeds(Fan/Cool/Heat) 6/6/6 Cooling Power Input(kW) 0.fi2 Quantity(ODU+IDU) 1+1 Heating Power Input(kW) 0.71 Motor/Drive Brushless Digitally Controlled/Direct ODU Max.Air Flow Rate(CFM) 1,165 Piping: IDU Air Flow Liquid Line(in.,O.D.) m1/4 Cooling,Max/H/M/L(CFM) 459/338/317/194 Vapor Line(in.,O.D.) 03/8 Heating,Max/H/M/L(CFM) 459/338/317/229 Additional Refrigerant(oz./ft.) 0.22 Dehumidification(pts./hr.) 2.7 Min./Max.Pipe Length(ft.)2 9.8/82 Notes: Piping Length(no add']refrig.,ft.) 41 1.Acceptable operating voltage.187V-253V 2 Piping lengths are equivalent. Max.Elevation(ft.) 49.2 3 Sound Pressure levels are tested in an anechoic chamber under ISO Standard 3745 4.All communication/connection(power)cable from the outdoor unit to the indoor unit is field supplied Controls Features and is to be minimum four-conductor,18 AWG,stranded,shielded or unshielded(if shielded,it must be • grounded to the chassis of the outdoor unit only),and must comply with applicable local and national codes •24-Hour on/off timer •Condensate Sensor •Self-cleaning indoor coil 5 See Engineering Manual for sensible and latent capacities 6 Power wiring cable size must comply with the applicable local and national code •4-Way auto swing Connection •Sleep mode 7 The indoor unit comes with a dry helium charge •Auto changeover •Inverter(variable speed •Cooling only function 8 This data is rated 0ft above sea level,with 246ft of refrigerant line and a0ft level difference between •Auto restart ' compressor) •Built-In Wi-Fi via Smart outdoor and indoor units •Jet cool/Jet heat •IDU compatible with ThmQ app 9.Must follow installation instructions in the applicable LG installation manual •Built-in low ambi- Multi F CIDUs Built-in basean heater 10 Multi compatible 18k IDUs include socket adapters for refrigerant pipe connections with Multi F systems ent standard,down to •Smart Diagnosis (9/12k•optional for 18k) BACnet°is a registered trademark of ASHRAE LonWorks°is a trademark of Echelon Corporation 14°F(cooling mode) •3M Micro Filter Optional Accessories: ❑MultiSITE"CRC1-PREMTBVCO ❑AC Smart IV BACnet®Gateway- ❑MultiSITE CRCl+-PREMTBVC1 PBACNA000 ❑MUItISITE Comm.Mgr.-PBACNBTROA ❑ACP IV BACnet Gateway-PQNFB17C2 ❑PI-485-PMNFP14A1 ❑Base Pan Heater for 18k-PQSH1201 c • r i ,i ❑Dry Contact-PDRYCB300 ❑Low Ambient Wind Baffle Kit(Cooling Intertek LlLonWorks®Gateway-PLNWKB100 to 0°F)-ZLABGPOlA For a complete list of available accessories,contact your LG representative. For continual product development,LG reserves the right to change specifications without notice SB_SZ_HiEff_Std_WallMount_LS090HSV5_2017_32_08_075603 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved "LG Life's Good"is a registered trademark of LG Corp./www Ighvac com Page 1 of 3 "., m �o � m 'I to 0 19 CL Unit : ti Unit : Inch (mm) > M I ~•` p m V16 967) Air Intake Hole ! ��~ -- 1 0 Rear - - -_��_- _ __ -•Rear ------- - - - Left -- -- --- - - - --- TRIO, ai Z m J,a O > a 32-15116(837) 7.7116(169) 32-15116(837) 3.2152(93) 1'2.1118(306) 31116t94 1: 3 Air Intake aor nd Cabl. f Display&Remote �, II< 1 _ "r. �� o Ro5tmly 1 I i Oi n gpet 11932 1!2 n w I Controller Signal—w� PF t D °1,2T32itc9)I HM6 )ut ) artl Cala•- , 1 , Fc�e ,; � I I Receiver , I Gown I �I6(2o7° Hoekbtn v by `L ti�o \` ( c> Installation Plate 11 (V 2(5 (28-5 32(7151) + A r i I !3i7t321361 5.932(i A) = Ln - 8ottorn w 16{87 Unit outline =v Airoutle:Hole 2`51 ,,31%32(152) ( 7-518(194) 41 SP Fixing:helnstalationPlate Dri'fngHole 'o„ • 1-7.76(33 5) L 1-3x32(502) 1-1:16(262) --•� 0 • 32-15116;831) 3 $ in ;z Fu' Terminal Block for - _, ;1 - Po,,ver Supply and - In Case c`Left Side P ping J S cK i n Communirahon Approx 11.11:32(288)logasppe; ; v� ! z7in6(e1 s}F, i I Si Refrigerant,Drain 2.301,(6 0) Pipe and Cable Approx 3 IS32(218)to liquid pipe --- -- --------------- >; > MM i92)l Routing Knock Out Hole Decoration over Dtion C ^' -, Drain Hose • 1;4(6)x118(3) _ I Connection '� If airflow'direction control is available, r._• � --- Up 8 Down Left&Right 118(3)x1;4(8) - - - H ( I•t;if38) �UndOuume 5-'d�16(137f� Cooling Heating Cornecl ng GasiLiqu c Roe Z z 55 ! 55ai ' v" -71 15"— J c 0 LU in 15° c v v E c G 0 45` 0 r9 • >c U • 85' a OCU- J \ • aa 7 ai - o n a c EM • o z • 7Eb c u L v �w O • J �.� 00 goad (4 LG Lift's food muLT , F MULTI F MAX STANDARD WALL-MOUNTED' INDOOR UNIT INSTALLATION MANUAL A f • LMN078HVT 7 kBtu • LSN090HSV4 9-kBtu • LSN120HSV4 12 kBtu • LMN158HVT 15 kBtu • LSN180HSV4 18 kBtu • LMN248HVT 24 kBtu PROPRIETARY DATA NOTICE This document,as well as all reports, illustrations, data,information,and other materials are the property of LG Electronics U.S.A., Inc.,and are disclosed by LG Electronics U.S.A., Inc.,only in confidence. Do not throw away,destroy,or lose this manual. Please read carefully and store in a safe place for future reference. Content familiarity required for proper installation. The instructions included in this manual must be followed to prevent prod- uct malfunction,property damage,injury, or death to the user or other people.Incorrect operation due to ignoring any instructions will cause harm or damage.A summary of safety precautions begins on page 4. For more technical materials such as submittals, engineering databooks,and catalogs,visit www.Ighvac.com. IM MultiF StdWallMount 11 15 For continual product development, LG Electronics U.S.A., Inc., reserves the right to change specifications without notice. ©LG Electronics U.S.A., Inc. This document,as well as all reports,illustrations,data,information,and other materials are the property of LG Electronics U.S.A.,Inc. MULTI F TABLE OF CONTENTS MULTI F MAX CONTENTS SafetyInstructions..............................................................................................................4 Introduction.........................................................................................................................9 UnitNomenclature............................................................................................................11 GeneralData....................................................................................................................12 Specifications.................................................... ....................................................................13 Typical Multi F/Multi F Max Systems.........................................................................................15 Refrigerant Piping Requirements.................................................. .........................................17 General Installation Guidelines.........................................................................................18 LocationSelection.............. ....................................................................................................18 Inspection.................................................................................................................................19 Install Wall-Mounted IDU Chassis..............................................................................................20 Refrigerant Piping .............22 CIO� Piping Materials and Handling.............................. ................................................. .................30 M. N PipingPreparation....................................................................................................................31 — PipingConnections...........................................................................................................32 rt IDUto ODU...............................................................................................................................32 0. PipingInsulation.......................................................................... .. ........................................35 DrainPiping............................................................................................................................:.37 ElectricalWiring................................................................................................................38 C Power Wiring Specifications and Best Practices.....................................................................39 ControllerOptions........................................................................... .......................................40 Indoor Unit Electrical Connections Guidelines...........................................................................41 Indoor Unit Electrical Connections Procedure.............................. .. ........................................42 SelfDiagnosis Functions ....... ..............................................................................................44 LG SIMS-Self Diagnosis Functions ......................................................................................46 Optional Wall-Mounted Sensor and Controller............................ ... ................ .... .. ........48 Troubleshooting................................................................................................................49 ErrorCodes ...........................................................................................................................49 Cautions for Refrigerant leaks.......................... ...............................................................50 RefrigerantLeaks...................................................................... ... ......................... ........50 Installation Checklist............................................................ ...... ......................... ...........51 ' Due to our policy of continuous product innovation,some specifications may change without notification 3 .•� ©LG Electronics USA,Inc,Englewood Cfffs,NJ All rights reserved'LG"is a registered trademark of LG Corp SAFETY INSTRUCTIONS MULTI F MULTI F MAX The instructions below must be followed to prevent product malfunction, property damage, injury or death to the user or other people. Incor- rect operation due to ignoring any instructions will cause harm or damage.The level of seriousness is classified by the symbols below. TABLE OF SYMBOLS A DANGER This symbol indicates an imminently hazardous situation which,if not avoided,will result in death or serious injury. A WARNING This symbol indicates a potentially hazardous situation which,if not avoided,could result in death or serious injury. A CAUTION This symbol indicates a potentially hazardous situation which,if not avoided,may result in minor or moderate injury. .� Note: This symbol Indicates situations that may result in equipment or property damage accidents only. L 0 '0 This symbol indicates an action that should not be performed. C INSTALLATION ADANGER 0 Don't use or store flammable gas or combustibles near the unit. There is risk of fire,explosion,and physical injury or death. AWARNING Do not install the unit using defective hanging,attaching, 'a Do not install,remove,or re-install the unit by yourself or mounting hardware. ca (end-user).Ask the dealer or an LIS trained technician to There is risk of physical injury or death. C install,the unit. Wear protective gloves when handling equipment. .� Improper installation by the user may result in water leakage,fire, Sharp edges may cause personal injury. C/) explosion,electric shock,physical injury or death. Dispose of the packing materials safely. LL For replacement of an installed unit,always contact an •Packing materials, such as nails and other metal or wooden parts LIS trained service provider. may cause puncture wounds or other injuries There is risk of fire,electric shock,explosion,and physical injury or death. •Tear apart and throw away plastic packaging bags so that children The outdoor unit is shipped with refrigerant and the service may not play with them and risk suffocation and death valves closed. Do not open service valves on the unit until &Do not install the unit in any location exposed to open all non-condensibles have been removed from the piping flame or extreme heat.Do not touch the unit with wet hands. system and authorization has been obtained from the com- There is risk of fire,electric shock,explosion,and physical injury or death. missioning agent. There is a risk of physical injury or death. Install the unit considering the potential for earthquakes. Improper installation may cause the unit to fall,resulting in physical 0 Do not run the compressor with the service valves injury or death. closed. There is risk of explosion,physical injury,or death. &Do not change the settings of the protection devices. If the pressure switch,thermal switch,or other protection device is Periodically check that the outdoor unit is not damaged. shorted and forced to operate improperly,or parts other than those There is risk of explosion,physical injury,or death. specified by LG are used, there is risk of fire,electric shock,explosion, Replace all control box and panel covers. and physical injury or death If cover panels are not installed securely,dust, water and animals may If the air conditioner is installed in a small space,take mea- enter the unit,causing fire,electric shock,and physical injury or death. sures to prevent the refrigerant concentration from exceed- ing safety limits in the event of a refrigerant leak. Always check for system refrigerant leaks after the unit has Consult the latest edition ofASHRAE(American Society of Heating, been installed or serviced. Refrigerating,and Air Conditioning Engineers)Standard 15 If the re- Exposure to high concentration levels of refrigerant gas may lead to frigerant leaks and safety limits are exceeded,it could result in personal illness or death. injuries or death from oxygen depletion. Due to our policy of continuous product innovation,some specifications may change without notification 4 ©LG Electronics U 3 A,Inc,Englewood Cliffs,NJ All rights reserved'LG'is a registered trademark of LG Corp =-•_--+ MULTI F SAFETY INSTRUCTIONS MULTI F MAX INSTALLATION - CONTINUED ACAUTION Be very careful when transporting the product. Do not attempt to carry the product without assistance Some products use polypropylene bands for packaging. Do not use polypropylene bands to lift the unit. •Suspend the unit from the base at specified positions. Support the unit at a minimum of four points to avoid slippage from rigging apparatus. Failure to follow these directions may result in minor or moderate physical injury. Note: Periodically check that the outdoor unit is not damaged. Properly insulate all cold surfaces to prevent"sweating." There is a risk of equipment damage. Cold surfaces such as uninsulated pipe can generate condensate that may Install the unit in a safe location where no one can step on or drip and cause a slippery floor condition and/or water damage to walls. fall onto it.& Do not install the unit with defective hanging, When installing the unit in a hospital,mechanical room,or attaching,or mounting hardware. similar electromagnetic field (EMF)sensitive environment, There is risk of unit and property damage. provide sufficient protection against electrical noise. Install the drain hose to ensure adequate drainage. N Inverter equipment,power generators,high-frequency medical equip- There is a risk of water leakage and property damage. ment,or radio communication equipment may cause the air conditioner to operate improperly. The unit may also affect such equipment by creating Don't store or use flammable gas I combustibles near the electrical noise that disturbs medical treatment or image broadcasting, unit. �• There is risk of product failure. 0 Do not use the product for special purposes such as pre- serving foods,works of art,wine coolers,or other precision Always check for system refrigerant leaks after the unit has air conditioning applications.This equipment is designed to been installed or serviced. !y provide comfort cooling and heating. Low refrigerant levels may cause product failure 3 There is risk of property damage. The unit is shipped with refrigerant and the service valves Do not make refrigerant substitutions.Use R410A only. closed.&Do not open service valves on the unit until all If a different refrigerant is used,or air mixes with original refrigerant,the non-condensibles have been removed from the piping sys- unit will malfunction and become damaged. tem and authorization to do so has been obtained from the commissioning agent. Do not install the unit in a noise sensitive area. There is a risk of refrigerant contamination,refrigerant loss and equip- When connecting refrigerant tubing,remember to allow for ment damage. pipe expansion. Improper piping may cause refrigerant leaks and system malfunction Take appropriate actions at the end of HVAC equipment life to recover,recycle,reclaim or destroy R41 OA refrigerant ac- cording to applicable U.S.Environmental Protection Agency (EPA)rules. Due to our policy of continuous product innovation,some specifications may change without notification 5 -• ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG"is a registered trademark of LG Corp SAFETY INSTRUCTIONS MULTI F MULTI F MAX WIRING ADANGER High voltage electricity is required to operate this system. Turn the power off at the nearest disconnect before servicing Adhere to the National Electrical Codes and these the equipment. instructions when wiring. Electric shock can cause physical injury or death. Improper connections and inadequate grounding can cause accidental Properly size all circuit breakers or fuses. injury or death. There is risk of fire,electric shock,explosion,physical injury or death. Always ground the unit following local,state,and National Electrical Codes. AWARNING Refer to local,state,and federal codes,and use power wires M The information contained in this manual is intended for use of sufficient current capacity and rating. LO by an'experienced,trained electrician familiar with the U.S. Wires that are too small may generate heat and cause a fire. O National Electric Code(NEC)who is equipped with the proper tools and test instruments. Secure all field wiring connections with appropriate wire = Failure to carefully read and follow all instructions in this manual can strain relief. -a result in equipment malfunction,property damage,personal injury or Improperly securing wires will create undue stress on equipment power 0 death. lugs.Inadequate connections may generate heat,cause a fire and C physical injury or death. a Ensure the unit is connected to a dedicated power source O that provides adequate power. Properly tighten all power connections. if the power source capacity is inadequate or the electric work is not per- Loose wiring may overheat at connection points,causing a fire,physical formed properly,it may result in fire,electric shock,physical injury or death. injury or death. 3t 'a L .a Note: C (S)Do not cut,lengthen or shorten the communications and N power cable between any dry contact unit and its connected indoor unit.Do not install the unit in a location where the com- V- munications and power cable cannot be safely and easily con- nected between the two units.Do not allow strain on this cable. Z Poor cable connections can cause equipment malfunction. Due to our policy of continuous product innovation,some specifications may change without notification LG 6 ©LG Electronics USA,Inc,Englewood Cliffs,NJ All rights reserved'LG"is a registered trademark of LG Corp MULTI F SAFETY INSTRUCTIONS MULTI F MAX OPERATION ADANGER Periodically verify the hanging bolts and other hardware Do not provide power to or operate the unit if it is flooded securing the unit have not deteriorated. or submerged. If the unit falls from its installed location,it can cause property damage, There is risk of fire,electric shock,physical injury or death product failure,physical injury or death. Use a dedicated power source for this product. If refrigerant gas leaks out,ventilate the area before operat- There is risk of fire,electric shock,physical injury or death. ing the unit. If the unit is mounted in an enclosed,low-lying,or poorly ventilated area Do'not operate the disconnect switch with wet hands. and the system develops a refrigerant leak,it may cause fire,electric There is risk of fire,electric shock,physical injury or death. shock,explosion,physical injury or death. A WARNING dust or water in the service panel. (S)Do'not allow water,dirt,or animals to enter the unit. (S)Do not open the inlet grille of the unit during operation. There is risk of unit failure,fire,electric shock,physical injury or death. Do not operate the unit with the panels or guards removed. Do not insert hands or other objects through the inlet or Avoid excessive cooling and periodically perform ventilation outlet when the unit is powered.Do not touch the electro- to the,unit. static filter,if the unit includes one.The unit contains sharp, Inadequate ventilation is a health hazard. rotating, hot,and high voltage parts that can cause personal injury and/or electric shock. &Do not touch refrigerant piping during or after operation. Ensure no power is connected to the unit other than as !y !t can cause bums or frostbite. directed in this manual. Remove power from the unit before =F Do not operate the unit with the panel(s)or protective removing or servicing the unit. O cover(s)removed;keep fingers and clothing away from There is risk of unit failure,fire,electric shock,physical injury or death. moving parts. The rotating,hot,cold,and high-voltage parts of the unit can cause Do not open the inlet grille of the unit during operation. Do not operate the unit with the panels or guards removed. M physical injury or death. Do not insert hands or other objects through the inlet or out- C Periodically check power cable and connection for damage. let with the unit is plugged in.Do not touch the electrostatic Cable must be replaced by the manufacturer,its service agent,or similar filter,if the unit includes one. qualified persons in order to avoid physical injury and/or electric shock. The unit contains sharp,rotating,hot,and high voltage parts that can cause personal injury and/or electric shock. Securely attach the electrical cover to the unit. Non-secured electrical covers can result in burns or electric shock due to ACAUTION To avoid physical injury,use caution when cleaning or servicing the air conditioner. Note: Clean up the site after installation is finished,and check Do not block the inlet or outlet. that no metal scraps,screws,or bits of wiring have been left Unit may malfunction. inside or surrounding the unit. Securely attach the electrical cover to the indoor unit.Non- Do not use this equipment in mission critical or special- secured covers can result in fire due to dust or water in the purpose applications such as preserving foods,works of art, service panel. wine coolers or refrigeration.This equipment is designed to Periodically verify the equipment mounts have not deterio- provide comfort cooling and heating. rated. Provide power to the compressor crankcase heaters at least If the base collapses,the unit could fall and cause property damage or six(6)hours before operation begins. product failure. Starting operation with a cold compressor sump(s)may result in severe bearing damage to the compressor(s).Keep the power switch on during Do not allow water,dirt,or animals to enter the unit. the operational season There is risk of unit failure. "' LIG Due to our policy of continuous product innovation,some specifications may change without notification � ©LG Electronics USA,Inc,Englewood Cliffs,NJ All rights reserved"LGis a registered trademark of LG Corp MULTI F MULTI F MAX L 0 0 Q� CO C L CO U- �F+ C� C Due to our policy of continuous product innovation,some specifications may change vnthout notification „ 13 ©LG Electronics U SA,Inc,EnglewoodCliffs,NJ All nghts reserved'LG'is a registered trademark of LG Corp -, �-• MULTI F INTRODUCTION MULTI F MAX Multi F and Multi F MAX Standard Wall-Mounted Units This manual describes how to install the LG Multi F and Multi F MAX (Multi Zone)Standard Wall-Mounted Indoor Units(IDU)for Multi F heat pump systems Table 1 lists the available models. Refer to LG's Multi F Indoor Unit Engineering Manual for complete detailed engineering data and selection procedures. Safety Safety of personnel is the primary concern during all Figure 1: Typical Multi F Standard Wall-Mounted Indoor Unit procedures. Read and understand the safety summa- ry at the front of this manual. Read and understand this installation procedure before beginning instal- lation. Use the appropriate tools and accessories during installation Plan your work and do not work alone, if possible. Know how to obtain emergency medical and firefighting assistance. Installation Personnel _: _ .., ttn This equipment is intended for installation by personnel trained in the required construction, mechanical,electrical, and/or other disciplines Applicable Codes Personnel must be familiar with and follow the applicable national, state, and/or local codes. AWARNING Installation work must be performed by trained personnel and in accordance with national wiring standards and all local or other applicable codes.Improper installation can result in fire,electric shock, physical injury,or death. Note: Please'read all instructions before installing this product.Become familiar with the unit's components and connections,and the order of installation. Incorrect installation can degrade or prevent proper operation. Required Tools (field provided) • Level • Drill Allen wrench • Screwdriver • Flaring tool set Gas-leak detector • Electrical lineman pliers • Tubing cutter Thermometer • Electric drill • Tube/pipe reamer • H'ole saw • Torque wrenches Required Parts (field provided) • Connecting cable(power and control) • Insulated drain hose • Pipes-vapor line and liquid line,with • Additional drain hose insulation ` da, Due to our policy of continuous product mnovahon,some specifications may change without notification •• ©LG Electronics U 3 A,Inc,Englewood Cliffs,NJ All rights reserved`LG"is a registered trademark of LG Corp 9 INTRODUCTION MULTI F MULTI F MAX Table 1:Multi F Standard Wall-Mounted Indoor Units _ Typical Unit Model Number Nominal Capacity Cooling(Btu) Heating(Btu) LMN078HVT 7,000 8.100 LSN090HSV4 9.000 10,400 LSN120HSV4 12,000 13,800 LMN158HVT 14,300 ,16,500 L ` O O LSN180HSV4 18,000 20,800 'a C LMN248HVT 24,000 12-1,000 O C O Table 2:Included Items (13 Part Quantity Image � D e � � i L Installation Plate One(1) 7,000.-, 15,0,00-Btu/h Indoor Units 18,000 and 24,000 Btulh Indoor Units LL Type°A"Screws Five(5) Hype"B"Screws Two(2` (M4 x 12L) Wire,ess Con:rcllerw•th Holder One(1} HVT. AKB73635606 HSV; AKB73835312 Due to our policy of continuous product innovation,some specifications may change without notification �� 10 ©LG Electronics U 5 A,Inc,Englewood Cfffs,NJ All rights reserved"LG"is a registered trademark of LG Corp " -+ I MULTI F UNIT NOMENCLATURE MULTI F MAX Multi F Multi-Zone Systems — Indoor Units L M N 158 HVT L=LG I I Type: M=Multi-Zone i t A/S=Single Zone(Gen 4 Single Zone units also compatible with Multi Zone) l Component: AN:Art CoolTM Wall-Mounted Indoor Unit N:Standard Wall-Mounted Indoor Unit j CN: Four-Way Ceiling-Cassette Indoor Unit DN: Ceiling-Concealed Duct(Low Static) Indoor Unit HN: Ceiling-Concealed Duct(High Static)Indoor Unit VN:Vertical-Horizontal Air Handling Indoor Unit 0• Nominal Capacity (Nominal cooling capacity in Btu/h). C 078=7,000 158= 15,000 180= 18,000 090=9,000 120= 12,000 248=24,000 i Features: H= Heat Pump V= Inverter T= High Wall-Mounted Indoor Unit P=Art Cool Gallery Indoor Unit Generation 3=Third (also Third Gen if no number in this position) 4= Fourth •Voltage for all equipment is 208-230V, 60 Hz, 1-phase. •All indoor units are compatible with wired controllers i Due to our policy of continuous product innovation,some specifications may change without notification 11 ©LG Electronics U 8 A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp i I I GENERAL DATA MULTI F MULTI FMAX R41OA Refrigerant R410A refrigerant has a higher operating pressure in comparison to R22 refrigerant.All piping system materials installed must have a higher resisting pressure than the materials traditionally used in R22 systems. R41 OA refrigerant is an azeotrope of R32 and R125, mixed at 50:50.The ozone depletion potential(ODP)is 0. AWARNING •Do not place refrigerant cylinder in direct sunlight. Refrigerant cylinder may explode causing severe injury or death. Note •Because R410A is a combination of R32 and R125, the required additional refrigerant must be charged in its liquid state. If the refrigerant is charged in its gaseous state, its composition changes and the system will not work properly. •Do not heat piping more than necessary during installation. Piping may become soft and fail when pressurized. D •Do not use any piping that has not been approved for use in high-pressure refrigerant systems. Piping wall thickness must comply O with the applicable local, state, and federal codes for the 551 psi design pressure of R41OA. Inadequate piping may fail when p pressurized. M C Allowable Indoor Unit to Outdoor Unit Connections 4; In Multi F/Multi Zone systems,the standard wall-mounted IDUs can be connected to the Multi F outdoor units(ODUs)listed in Table 3. C pTable 3: Allowable Indoor Unit to Outdoor Unit Connections. Indoor units Outdoor units LMU18CHV- LMU24CHV LMU30CiiV- LMU36CHV_ LMU480HV- LMU540HV Indoor Unit Nominal Madel Number Maximum No.of Connectable Indoor Units Capacity(Btu/n) .2 3 4 4 8 8 LMN078HVT 7,000 0 0 0 0 0 0 U) LSN090HSV4 9,000 0 0 0 0 0 0 ° LL LSN120HSV4 12,000 0 0 0 0 0 0 7 LMN158HVT 15;000 0 0- 0 0 0 0 LSN180HSV4 18,000 — 0 0 0 0 0 WN248HVT 24,000 — 0 0 0 0 0 connection allowed 0 connection not allowed: — Device Connection Limitations • The minimum number of connected and operating indoor units to Multi F/Multi F MAX systems is two. • The maximum number of indoor units for each Multi F/Multi F MAX heat pump system is: LMU18CHV=2 LMU24CHV=3 LMU30CHV=4 LMU36CHV=4 LMU480HV=8 LMU540HV=8 • The maximum allowable total indoor unit capacity(Btulh)for each Multi F/Multi F MAX heat pump system is: LMU18CHV=24,000 LMU24CHV=33,000 LMU30CHV=40,000 LMU36CHV=48,000 LMU480HV=65,000 LMU540HV=73,000 • Refer to the Multi F Engineering Manual to properly determine total Indoor unit connected capacity. Due to our policy of continuous product innovation,some specifications may change without notification 12 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG"is a registered trademark of LG Corp p---+ MULTI F GENERAL DATA MULTI F MAX Specifications Table 4:Multi F Multi Zone Standard Wall-Mounted Indoor Unit Specifications Model Name LMN078HVT LSN090HSV4 LSN120HSV4 LMN158HVT LSN180HSV4' LMN248HVT Nominal Cooling Capacity 7.000 9,000 : 12,000 14,300' 18,000 24,000 (Btulh) Nominal Heating Capacity 8,100 10,400 13,800 16.500 20,800 27,000 (Btulh) Operating Range Cooling(°F WB) 57-77 Heating(°F DB) 59-81 Fan -Type Cross Flovf Motor Output(W)x Qty. 14 4 x 1 76 0 x 1 Motor/Drive Brushless Digitally Controlled/Direct, - - Airflow Rate CFM(H/MIL) 1981177/162 2471230/212T335/318/300 371/318/247 572/5011434 720/6001466 Unit.Data � N Refrigerant Typez R410A .:Refrigerant Control Electronic Expansion Valve(EEV) � Power Supply V,0,Hz' 208-230,1,60 Rated Amps(A) 0.2 0.3 Sound Pressure Level±3 dB(A) (HIMIL) 33/30/26 33130/27 39/36/31 43/39/34 37/33/28 42/39/36 3 Dimensions(W x H x D in.)' 35-114 x 11-318 34-13116x11-1/4 34-13116 x l l-114 35-114 x 11-3/8 40-9/16 x 12-13116 40-9116 x 12-13/1b C x 8-9132 x 8=114 - x 8-1/4 x 8-9132 x 9-13/16 ' x 9-13116 . All Net Unit Weight(lbs.) 23 20 20 23 31 Shipping Weight(lbs.) 26 36'° - 37 Power Wiring 1 Communications Cable(No.x AWG)5 4 x 18 Heat'Exchanger(Row x Column (2 x 16 x 23)x 1 (3 x 18 x 22)x 1 x Fin 1 inch)x Number' Pipe Size Liquid(in.) 114 Vapor(in.) 3,'8 1/2 Connection Size Liquid(in.) 1/1 318 1/4 Vapor(in.) 3/8 518 1/2' Drain O.D.I I.D.(in.) 27/32,5/8 'Nominal capacity is rated 0 ft above sea level with corresponding refrigerant piping 2This unit comes with a dry helium charge length in accordance with standard length of each outdoor unit and a 0 ft level difference "Acceptable operating voltage 187V-253V between outdoor and Indoor units All capacities are net with a combination ratio between 'Sound pressure levels are tested In an anechoic chamber under ISO Standard 3745 and 95-105% are the same In both cooling and heating mode These values can Increase due to ambient Nominal cooling capacity rating obtained with air entering the indoor unit at 80eF dry bulb conditions during operation (DB)and 67°F wet bulb(WB)and outdoor ambient conditions of 95'F dry bulb(DB)and 'All power wrong/communications cable to be minimum 18 AWG,4-conductor,stranded, 75'F wet bulb(WB) shielded,and must comply with applicable local and national codes Nominal heating capacity rating obtained with air entering the Indoor unit at 70°F dry bulb (DB)and 60°F wet bulb(WB)and outdoor ambient conditions of 47°F dry bulb(DB)and 43oF wet bulb(WB) LDue to our policy of continuous product innovation,some specifications may change without notification 3 ^- ©LG Electronics U 8 A,Inc,Englewood Cliffs,NJ All rights reserved"LG'is a registered trademark of LG Corp GENERAL DATA MULTI F MULTI F MAX Refrigerant Piping Heat Exchanger I Gas pipe connection port I (flare connection) I I I I I � I D I j Cross Flow Fan Thermistor for Evaporator j I o Outlet Temperature j r' v I = M I o = Ij aED D -� �. I o a or v m o I I ICD I m o CD Liquid pipe connection port 3 I j (flare connection) 0 I I I I — --------------------------------------------- -a L Table 5:Multi F Multi Zone Standard Wall-Mounted Indoor Unit Refrigerant Pipe Connection Port Diameters LL Model No. Vapor(inch) Liquid(inch) LMN078HVT 75 LSN090HSV4 03/8 0114 LSN120HSV4 LMN158HVT LSN180HSV4 0518 0318 LMN248HVT 0112 01/4 Table 6.Multi F Multi Zone Standard Wall-Mounted Indoor Unit Refrigerant Pipe Sizes Model No. Vapor(inch,OD) Liquid(inch,OD) LMN0781 t T LSN090HS!y4 LSN120HSV4 0318 01,/4 LMN158hVT LSN180HS`14 C'117_ LMN248hV T 01/4 Due to our policy of continuous product innovation,some specifications may change without notification 14 ©LG Electronics U 8 A,Inc,Englewood Cliffs,NJ All rights reserved'LG"is a registered trademark of LG Corp 1.1111-1 MULTI F GENERAL DATA MULTI F MAX Typical Multi F/Multi F Max Systems Major System Components A typical Multi F system consists of an outdoor unit(ODU), refrigerant piping, and two to four indoor units(IDUs).The standard wall-mounted units described in this manual are one of the types of IDUs that can be connected to a Multi F system. A typical Multi F Max system consists of an ODU, refrigerant piping,one or two branch distribution units(BDU), and two to eight IDUs. The standard wall-mounted units described in this manual are one of the types of IDUs that can be connected to a Multi F Max system. Typical Multi F System Example: LMU36CHV outdoor unit with four(4) indoor units connected. ODU: Outdoor Unit. n F1 IDU: Indoor Unit. A A, B, C, D: Piping from Outdoor Unit to Indoor Unit. B Max 49 2 feet Max 24.6 feet CO) D O� Table 7:Multi F Outdoor Unit Refrigerant Piping System Limitations. 7 Maximum Equivalent Pipe Length C Outdoor, Minimum Length for Each to,Each Indoor Unit.(ft.) Maximum Equivalent Pipe Length Unit Pipe Segment(ft.) for Each System(ft.) A B C' D LMU18CHV 9,8 82 82 - 164 LM024CHV 9.8 82 - 82 82 246.1 < < LMU30CHV 9.8 82 82 82 82 246.1 LMU36CHV 9.8 82 82 82 82 246.1 Typical Multi F MAX System with One Branch Distribution Unit Example: LMU540HV outdoor unit with four ODU (4)indoor units, and one(1) branch distribu- IDU tion unit connected. A BDU B x ODU: Outdoor Unit. 0 IDU- Indoor Unit. tB IDU h2<_49.2 feelIDU BDU: Branch Distribution Unit. h1 s 98.4 feet 1h3 s 32.8 feet A: Main Piping. B: Branch Piping (Branch Distribution Unit to — B IF Indoor Unit[s]). IDU ON L Due to our policy of continuous product innovation,some specifications may change without notification 15 ^•• •+ ©LG Electronics USA,Inc,Englewood Cliffs,NJ All rights reserved*LG'is a registered trademark of LG Corp GENERAL DATA MULTI F Typical Multi F/Multi F Max Systems MULTI F MAX Typical Multi F MAX System with Two Branch Distribution Units Example: LMU540HV outdoor unit with seven oDU (7)indoor units,and two (2)branch distribu- tion units connected. A ODU: Outdoor Unit 7f IDU' IDU: Indoor Unit. Y-Branch BDU B ' AL 0 BD: Branch Distribution Unit(s). A B IDU N EA: Main Piping. IDu ' h4<_49.2 feet r FB: Branch Piping (Branch Distribution Unit[s] B to Indoor Unit[s]). A IDU = BDU B --- v w 0 N L. B IDU L O IDU O h1 5 98.4 feet B B = IDU O Table 8: Multi F MAX Outdoor Unit Refrigerant Piping System Limitations. Table 9: Multi F MAX Piping Sizes. -a Total piping length(ZA+EB) <475.7 feet Piping Main Pipe A Branch Pipe B pipe t e Minimum 9.8 feet (inch) (Outdoor Unit to Branch Liauid 03/$ Depends on the size V) Pipe Length Distribution Units:FA Maximum :5180.4 feet of,the indoor unit piping LL (ELF=Equivalent ) Gas 0314 p p 9 Length of pipe Total branch piping length(FB) :295.3 feet in Feet) Branchpipe Minimum 9.8 feet (Branch Distribution Units to Indoor Units:B) Maximum x49.2 feet Elevation Differential If outdoor unit is above or below indoor unit(h1) s98 4 feet (All Elevation Between the farthest two indoor units,(h2) . :542 9 feet Limitations are Between-branch distribution unit and farthest: <32.8 feet Measured in connected indoor unit(§) h3) Actual Feet) Between branch distribution units(h4) :542.9 feet, Due to our policy of continuous product innovation,some specifications may change without notification 16 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved*LG"is a registered trademark of LG Corp - ,- MULTI F GENERAL DATA MULTI F MAX Refrigerant Piping Requirements Field Supplied Refrigerant Piping Type ACR copper is the only approved refrigerant pipe material for use with LG Multi F air conditioning products.ACR rated tubing is the only type that ships with yellow caps.Approved tubing for use with Multi V products will be marked"R410 RATED"along the length of the tube.Tube wall thickness should meet local code requirements and be approved for a maximum operating pressure of 551 psi. Refer to the refrigerant piping section(starting on page 22)of the General Installation Guidelines for more information on piping. Using Refrigerant Components Field-supplied elbows are allowed if they are long radius and designed for use with R41 OA refrigerant. Be sure to account for the additional pressure losses in equivalent pipe length calculations for each elbow, y-branch,and branch distribution unit.The equivalent pipe length of each elbow,Y-branch, and/or branch distribution unit must be added to each pipe segment to ensure maximum lengths are not exceeded. Table 10:Equivalent Piping Length for Elbows, Y-branches,and Branch Distribution Units. _ Size(Inches). P N Com orient 1/4 318 1/2 5/8 314 Elbow(ft.) 0.5 0.6 0.7 0.8 1,2 Y-Branch Kit(ft.) 1 6 O. (Multi F MAX systems only)' Branch Distribution Unit(ft.) (Multi F MAX systems only) 8'2 C 'Kit contains two Y-branches•one for liquid and one for vapor Due to our policy of continuous product innovation,some specifications may change without notification 17� -' ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG'is a registered trademark of LG Corp GENERAL INSTALLATION GUIDELINES MULTI F Location Selection MULTI F MAX ADANGER To avoid the possibility of fire,do not install the unit in an area where combustible gas may generate,flow,stagnate,or leak.Failure to do so will cause serious bodily injury or death.Before beginning installation,read the safety summary at the beginning of this manual. Select a location for installing the wall-mounted indoor unit(IDU)that meets the following conditions: Where there is enough structural strength to bear the weight of the unit • Where air circulation will not be blocked • Where noise prevention is taken into consideration Ensure there is sufficient space from the ceiling and floor Locate the indoor unit in a location where it can be easily connected to the outdoor unit/branch distribution unit • Include space for drainage to ensure condensate flows properly out of the unit when it is in cooling mode _ • Use a level indicator to ensure the unit is installed on a level plane o Note: 0 The unit may be damaged,may malfunction,and/or will not operate as designed if installed in any of the following conditions: _ & Do not install the unit where it will be subjected to direct thermal radiation from other heat sources. Do not install the unit in an area where combustible gas may generate,flow, stagnate, or leak. _ Do not install the unit in a location where acidic solution and spray(sulfur)are often used. O Do not use the unit in environments where oil,steam,or sulfuric gas are present. Do not install additional ventilation products on the chassis of the unit. cv Do not install the unit near high-frequency generator sources. Do not install the unit near a doorway. c� -a Installing in an Area Exposed to Unconditioned Air In some installation applications, areas (floors,walls)in some rooms may be exposed to unconditioned air(room may be above or next to an U) unheated garage or storeroom).To countermeasure: LL • Verify that carpet is or will be installed(carpet may increase the temperature by three degrees). Add insulation between the floorjoists. • Install radiant heat or another type of heating system to the floor. Required Clearances Figure 6 shows required clearance distances around a typical installed wall-mounted unit. Figure 2:Required Clearances Around Typical Installed Unit >4 inches HVT;9/12k HSV4 Units:>_5 inches LSN180HSV4 Units:>_8 inches >4 inches Recommended height >6-1/2 feet from floor Due to our policy of continuous product innovation,some specifications may change wthout notification 18 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG'is a registered trademark of LG Corp -- --* MULTI F GENERAL INSTALLATION GUIDELINES MULTI F MAX Inspection Unpack and Inspect for Freight Damage ACAUTION Shipping and net weights of the wall-mounted units are listed in Table 4. To help avoid injury to personnel and damage to the unit, use two people when carrying a unit by hand. Note: Do not unpack the unit and remove the protective materials until ready to install. Before unpacking, carefully move the packaged unit to a work area near the installation location After opening, if the unit is damaged, repack the unit as it was shipped to you. RETAIN ALL PACKING MATERIALS. In general,freight damage claims will be denied if the original packing materials are not retained for the claims adjustor to inspect. Contact your supervisor on how to proceed with filing a freight claim and to order a replacement unit. Note: Before opening the shipping container,check the container labeling to verify the unit received is the correct unit. Verify the unit capacity,type,and voltage.Refer to the chart on"Dimensions of the Flare"on page 29. _ 1. Before opening the shipping container,verify you have the correct unit as described in the Note N above. 2. Place the box on a solid surface right side up. 3. Cut the reinforced nylon straps. �.� 4. Open the top of the box and fold back all four flaps. O 5. Remove the protective cardboard/Styrofoam®top sheet and place to the side. 6. The walls and top panels are not attached to the bottom of the box. Lift the cardboard carton by the flaps and remove the box walls and top and place it to the side. 7 Remove the moisture barrier plastic bonnet. 8. Check the unit nameplate data and model number.Verify the unit voltage, and capacities are correct Sul before proceeding 9 Locate and retain the piping/condensate accessory kit located in the bottom of the box under the refrigerant pipe stubs. 10.Using two people,carefully lift the unit and inspect for freight damage. DO NOT lift by the refrigerant piping or drain pipe stub. Lift by the hangar brackets or chassis frame only If damage is found, repack the unit as it was received in the original container 11.If the unit is undamaged, remove and retain the installation manual It is located under or on top of the unit WQ LG Due to our policy of continuous product innovation,some specifications may change without notification -+ ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp 19 GENERAL INSTALLATION GUIDELINES MULTI F Install Wall-Mounted IDU Chassis MULTI F MAX AWARNING Mounting hardware must be securely installed to prevent the chas- Figure 3:Installation Plate for LMN078HVT,LSN090HSV4, sis falling from its installation location There is risk of personnel LSN120HSV4,and LMN158HVT Units. injury or property damage from falling equipment. Place a level on raised tab •When choosing a location for the wall mount plate,be sure to take UnitOutlme into consideration routing of wiring for power outlets within the wall. 17-3/8 17-3/8 ---------------- Touching wiring can cause serious bodily injury, or death. -------------------------------------------------------------------- -------- Installation work must be performed by trained personnel and in o °° o ° accordance with all local or other applicable codes. There is risk of LJU injury,;to personnel from incorrect installation. 'ID2-9/16 ° a 0 0 0z-sns' a In Note: a � Ensure the unit is properly installed. Incorrectly installed units can e D result in degraded performance or an inoperative unit/system. 8-3/16 a-11ns --------------------- ----------------------------------------------------------------------- p -Use a level indicator to ensure the installation plate and chassis 6 7/a 81/2 0 are installed on a level plane. _ -If the unit is installed near a body of water, certain components are at risk of being corroded.Appropriate ant/-corrosion methods Figure 4:Installation Plate for LSN180HSV4 and LMN248HVT Units. should be taken for the unit and all components. Place a level°n raised tab oMounting the Installation Plate 11rd Duane 8-118 mde 22-7115inch. The mounting wall should be strong and solid enough to protect the -------- - - - ------- -------- unit from vibration. It should securely hold the installation plate and the weight of the chassis. o a T'! 1. Determine the installation location. ° ° 0_i)II L02.9f4 ircFes114 inches 2. Refer to Figure 3 or Figure 4 for the appropriate mounting Installation Plate j Left rear Neasmng Tape Righl rear 'a diagram. piping pping 3. Mount the installation plate on the wall using the Type"A"screws. 2-21,121nches 2-TfJ2 in ,,.., - -- - ---- ------ ------ - U�/)� If mountingthe unit on concrete,consider using anchor bolts. 4-118 nue5 , E-5132"ches V/ 9 Measuring Tape Harge� LL Use a level to ensure the plate is level. 4. Always mount the installation plate horizontally. Measure the wall and mark the centerline using thread and a level Figure 5. Installation Plate Attaching Screw Placement. Installation Plate o 0 i 1 ® / 1 •� i 1 Frame Hooks o ' % 1 O Type"A"Screws 1 e - 0 -9 A-Type ° 1 Te,,oB-Type a• , A_ Due to our policy of continuous product Innovation,some specifications may change without notification ,.,,, d 20 ©LG Electronics U 3 A,Inc,Englewood Cliffs,NJ All rights reserved"LG'Is a registered trademark of LG Corp MULTI F GENERAL INSTALLATION GUIDELINES MULTI F MAX Install Wall-Mounted IDU Chassis Drilling Piping Hole in the Wall Figure 6:Drilling Piping Hole WALL AWARNING Indoor Outdoor Use caution when drilling holes through walls.Drilling into power wiring in the wall can Core Drill cause serious bodily injury or death. �► Follow the left or right piping clearance recommendations in Figure 3 or Figure 4. Bushings to 1. Using a 2-5/8(o 65mm)inch hole core drill bit,drill a hole at either the right or Sleev -1left side of the wall mounting(Figure 6).The hole should slant 3/16"to 5/16"from `0 level(upward on the indoor unit side and downward on the outdoor unit side). m 2. Finish off the newly drilled hole as shown with bushing and sleeve covering. Sleeve and bushing prevents damage to the tubing/bundling of the piping. Hanging the Indoor Unit Chassis Figure 7:Locking the Indoor Unit onto the Installation Plate 1. Attach the three(3)hooks on the top of the indoor unit to the top edge of the installation plate.Verify the hooks are properly attached to the instal- 'lation plate by gently shaking the indoor unit from side to side. 2. Unlock the tubing clamp from the indoor unit frame. For easier access be- tween the bottom of the indoor unit and the wall,prop the clamp between the indoor unit frame and installation plate. —_ 3. Remove the screw covers at the bottom of the indoor unit, unscrew the V two'(2)screws,remove the frame cover, remove the piping connection Installation platQe O cover, and position the piping for installation (down,back, left,or right). Figure 8:Accessing the Back of the Indoor Unit. Figure 9.Removing the Frame Cover. -----� Frame Cover Tubing Clamp Figure 10•Exterior Back View of Indoor Unit. Figure 11: Piping Installed to the Left. Figure 12: Piping Installed to the Right. Tubing Clamp i -- -Tape------- I Connecting pipe E)� --PPe Tape Right Left _ Connecting Con Down Back Drain hose _ �— Drain hose (60 L Due to our policy of continuous product innovation,some specifications may change without notification 21 " ©LG Electronics U S A,Inc,Englewood Cfffs,NJ All rights reserved'LG"is a registered trademark of LG Corp GENERAL INSTALLATION GUIDELINES MULTI F Refrigerant Piping MULTI F MAX Preparing for Piping Installation to the Indoor Unit Note: Do not bend the piping/drain hose from side to side,it may damage the components Prepare the refrigerant piping and drain hose(indoor unit piping)for installation through the wall. Press on the top of the tubing clamp and slowly guide the piping/hose down (depending on installation requirements,then to the left or right). Relock the tubing clamp after the piping/hose are released. No Pipe Size Substitutions Use only the pipe size selected by the LATS Multi F pipe system design software or as conveyed in the product installation instructions. Using a different size is prohibited and may result in a system malfunction or failure to work at all ._ L Pipe Slope pThe horizontal pipe slope cannot exceed 10° up or down.Y-branches have additional restrictions described below. C In-line Refrigeration Components = Components such as oil traps, solenoid valves,filter-dryers, sight glasses,tee fittings, and other after-market accessories are not per- mitted on the refrigerant piping system between the outdoor units and the indoor 1 branch distribution units O Multi F/Multi F Max systems have redundant systems that ensure oil is properly returned to the compressor.Sight-glasses and solenoid valves may cause vapor to form in the liquid stream. Note: Over time,dryers may deteriorate and introduce debris into the system. The designer and installer should verify the refrigerant piping system is free of traps,sagging pipes,sight glasses,filter dryers,etc. 'a C «� Field-Provided Isolation Ball Valves C0 LL. LG recommends installing field-supplied ball valves with Schrader ports at each indoor unit Full-port isolation ball valves with Schrader +, ports(positioned between valve and indoor unit)rated for use with R41 OA refrigerant should be used on both the liquid and vapor lines. For Multi F MAX systems, position valves with a minimum distance of three(3)to six(6)inches of pipe on either side of the valve,and between six(6)and twelve(12)Inches from the first upstream Y-branch or branch distribution unit If ball valves are installed away from the first Y-branch and/or branch distribution unit and closer to the indoor unit,oil may accumulate where it cannot be returned to the outdoor unit and may cause a shortage of oil in the compressor. Valves should be easily accessible for service If necessary,install drywall access doors or removable ceiling panels,and position the valves to face the access door or ceiling panel opening. Mount valves with adequate space between them to allow for placement of adequate pipe insulation around the valves Obstacles When an obstacle,such as an I-beam or concrete T, is in the Figure 13 Installing Piping Above and Below an Obstacle. path of the planned refrigerant pipe run, It Is best practice to route the pipe over the obstacle. If adequate space Is not avail- ! R, n;�i able to route the insulated pipe over the obstacle,then route t Tj the pipe under the obstacle. In either case, it is imperative the xJhorizontal section of pipe above or below the obstacle be a `}``- um minimum of three(3)times greater than the longest vertical rise 1 3X (or fall)distance Above an obstacle Below an obstacle z Due to our policy of continuous product innovation,some specifications may change without notification LG 22 ©LG Electronics U S A,Inc,Englewood Cfffs,NJ All rights reserved'LG"is a registered trademark of LG Corp MULTI F GENERAL INSTALLATION GUIDELINES t MULTI F MAX Refrigerant Piping Multi F MAX Y-Branch Kit PMBL5620 The LG supplied Y-Branch Kit PMBL5620 MUST be used when two branch distribution units are connected to one Multi F MAX system. Field-supplied fittings are not permitted. Each Y-Branch kit comes with two(2)Y-branches(one for the liquid line and one for the vapor line) and insulation covers. Y-branches may be installed in horizontal or vertical configurations. When installed vertically, position the Y-branch so the straight-through leg is±3° of plumb.When installed horizontally,position the Y-branch so the take-off leg is level and shares the same horizontal plane as the straight-through leg±5° rotation Y-branches should always be installed with the single port facing the outdoor unit and the two-port end facing the branch distribution units. Do not install Y-branches backwards as refrigerant flow cannot make U-turns.The Y-branch kit must be located at least three(3)feet from the outdoor unit. Provide a minimum of 20 inches between a Y-branch and the branch distribution unit. Figure 14:Y-Branch Port Identification and Dimensions. Table 12: Multi F MAX Y-Branch Connection Diameters. Port Identifier inch Model Y=Branch ( ) Type 1 2 3 1 f _ Liquid 03/8 03/8 0318 µ Vapor 03;4 0314 03/4 y 2 PMBL5620 Y Branch Dimensions(inch) � Type X Y fu Y B Liquid 13.80 324 A Vapor 12.48 3.02- 3 9 X SU A=To Outdoor Unit, Figure 16:Y-branch Vertical Installation Alignment, C B=To Branch Distribution Unit Vertical Up Configuration Vertical Down Configuration — I Figure 15:Y-branch Horizontal Installation Alignment. Horizontal plane " '- VVithml±5°I X Y X I AISI i 0 Viewed from Ain direction of arrow Within 3' Within+3o Y-Branch Kit Insulation Each Y-branch kit comes with clam-shell type peel-and- Figure 17 Y-Branch Insulation Jacket Diagram. stick insulation jackets molded to fit the Y-branch fittings— Field Supplied Insulation Tape one for the liquid line, one for the vapor line Table 11: Insulation Jacket Properties. Material Polyolefi,Fcarr, UL941Flame Classification', HF-1 Density 184 3bs.ft Thermal Conductivity 1208 Btur'h/'t ° Liquid and Gas Insulation for Thickness /2 inch Y-Branch Kit lnsula6on PI a Joints P Field-Installed Piping ` 'R LIS Due to our policy of continuous product innovation,some specifications may change without nohficahon 23 ©LG Electronics U SA,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp GENERAL INSTALLATION GUIDELINES MULTI F Refrigerant Piping MULTI F MAX Selecting Field-Supplied Copper Tubing Copper is the only approved refrigerant pipe material for use with Duct Free System products, and LIS recommends seamless phosphorous deoxidized ACR type copper pipe, hard-drawn rigid type"K"or 1",or annealed-tempered, copper pipe. • Drawn temper(rigid)ACR copper tubing is available in sizes 3/8 through 2-118 inches(ASTM B 280,clean,dry,and capped). • Annealed temper(soft)ACR copper tubing is available in sizes 1/4 through 2-1/8 inches(ASTM B 280,clean,dry,and capped). Note: Tube wall thickness should meet local code requirements and be approved for an operating pressure of 551 psi.If local code does not specify:wall thickness,LIS suggests using tube thickness per table below. When bending tubing,try to keep the number of bends to a minimum,and use the largest radii possible to reduce the equivalent length of installed pipe;also,bending radii greater than ten(10)pipe diameters can minimize pressure drop.Be sure no traps or sags are present when rolling out soft copper tubing cods. •� Table 13: ACR Copper Tubing Material D Type Seamless Phosphorous Deoxidized 0 Class UNS C12200 DHP C Straight Lengths H58 Temper Coils 060 Temper Q C O Table 14:Piping Tube Thicknesses OD in 114 318 112 5/8 1314 7/8 1-118 1-3/8 1-518 ca Material Rigid Type"K"or"L"and Soft ACR Acceptable Rigid Type"K"or 1"Only Min.Bend 563 .9375 1.5 2.25 3.0 3.0 3.5 4.0 4.5 2 Radius in Min.Wall 03 03 .035 .040 .042 .045 .050 050 .050 c� Thickness in U) Table 15• ACR Copper Tubing Dimensions and Physical Characteristics'^ LL Nominal-Pipe Drawn Temper Annealed Temper Outside Actual Outside Diameter in Nominal Wall Cubic ft per Nominal Wall Cubic ft per Diameter in ( ) Weight(Iblft) Weight(lblft) � ( ) Thickness(in) Linear ft Thickness(in) Linear ft 1/4 0 250 - 0.030 0.081 .00020 3/8 0.375" 0.030 0.126 .00054' 0.032 0.-134 .00053 . 1/2 0.500 0 035 0198 .00101 0.032 0.182 .00103 5/8 0 625 0 040 - 0 285 .00162, 0.035 0 251 .00168 3/4 0.750 0.042 0 362 .00242 0.042 0.362 .00242 718. 0.875 0.045 0 455 00336, 0:045 0.455 -.00336 1-118 1125 1 0.050 10.655 1 .00573 10.050 0.655 .00573 'All dimensions provided are in accordance with ASTM 8280—Standard. 2Design pressure=551 psig 3ACR Tubing is available as hard drawn or annealed(soft)and are suitable for use with R410A refrigerant. 4The Copper Tube Handbook,2010, Copper Development Association Inc.,260 Madison Avenue,New York,NY 10016. Note: •Commercially available piping often contains dust and other materials.Always blow it clean with a dry, inert gas •Prevent dust, water or other contaminants from entering the piping during installation Contaminants can cause mechanical failure. Due to our policy of continuous product innovation,some specifications may change without notification L 24 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp - MULTI F GENERAL INSTALLATION GUIDELINES MULTI F MAX Refrigerant Piping No Pipe Size Substitutions Note: Use only the pipe size recommended by this installation manual. Using a different size is prohibited and may result in system malfunction or failure. Copper Expansion and Contraction Under normal operating conditions,the vapor pipe temperature of a 1. In Table 16 find the row corresponding with the actual length of Duct Free System can vary as much as 2807. With this large vari- the straight pipe segment. ance in pipe temperature,the designer must consider pipe 2. Estimate the minimum and maximum temperature of the pipe. expansion and contraction to avoid pipe and fitting fatigue failures. In the column showing the minimum pipe temperature, look up the Refrigerant pipe along with the insulation jacket form a cohesive unit that anticipated expansion distance. Do the same for the maximum expands and contracts together. During system operation,thermal heat pipe temperature. transfer occurs between the pipe and the surrounding insulation. 3. Calculate the difference in the two expansion distance values. If the pipe is mounted in free air space, no natural restriction to The result will be the anticipated change in pipe length. movement is present if mounting clamps are properly spaced and Example: installed. When the refrigerant pipe is mounted underground in a A system is installed and the design shows that there is a 100 foot _ utility duct stacked among other pipes,natural restriction to linear straight segment of tubing between an indoor unit and the outdoor movement is present. In extreme cases,the restrictive force of unit. In heating,this pipe transports hot gas vapor'to the indoor units � surface friction between insulating jackets could become so great , that natural expansion ceases and the pipe is"fixed"in place. In this at 1207. In cooling,the same tube is a suction line returning refrig- _ situation,opposing force caused by change in refrigerant fluid/vapor erant vapor to the outdoor unit at 40'F. Look up the copper tubing temperature can lead to pipe/fitting stress failure. expansion at each temperature and calculate the difference. o. The refrigerant pipe support system must be engineered to allow Vapor Line free expansion to occur. When a segment of pipe is mounted Transporting Hot Vapor: 100 ft. pipe at 120°F= 1.40 in. between two fixed points, provisions must be provided to allow pipe Transporting Suction Vapor 100 ft. pipe at 40°F=0 40 in. expansion to naturally occur. The most common method is the C inclusion of expansion Loop or U-bends. Each segment of pipe has Anticipated Change in Length: 1.40 in.—0.40 in. = 1.00 in. a natural fixed point where no movement occurs. This fixed point is Liquid Line located at the center point of the segment assuming the entire pipe The liquid temperature remains relatively the same temperature;only is insulated in a similar fashion. The natural fixed point of the pipe the direction of flow will reverse. No significant change in length of segment is typically where the expansion Loop or U-bend should be. the liquid line,therefore, is anticipated. Linear pipe expansion can be calculated using the following formula: When creating an expansion joint,the joint height should be a LE=C x L x(Tr—Ta)x 12 minimum of two times the joint width Although different types of LE, = Anticipated linear tubing expansion (in.) expansion arrangements are available,the data for correctly sizing C = Constant(For copper=9.2 x 10-6 indin.°F) an Expansion Loop is provided in Table 1010. Use soft copper with L = Length of pipe(ft.) long radius bends on longer runs or long radius elbows for shorter T = Refrigerant pipe temperature (°F) pipe segments. Using the anticipated linear expansion (LE)distance calculated,look up the Expansion Loop or U-bend minimum design TR a = Ambient air temperature(°F) dimensions. If other types of expansion joints are chosen, design per 12 = Inches to feet conversion (12 in./ft.) ASTM B-88 Standards. Due to our policy of continuous product innovation,some specifications may change without notification ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG'is a registered trademark of LG Corp 25 GENERAL INSTALLATION GUIDELINES MULTI F Refrigerant Piping MULTI F MAX See table below for precalculated anticipated expansion for various pipe sizes and lengths of refrigerant tubing. To find the anticipated expansion value: 1. From the table below,find the row corresponding with the actual feet of the straight pipe segment. 2. Estimate the minimum and maximum temperature of the pipe. 3. In the column showing the minimum pipe temperature, look up the anticipated expansion distance corresponding to the segment length. Do the same for the maximum pipe temperature. 4. Calculate the difference in the two expansion distance values.The result will be the change in pipe length. Table 16: Linear Thermal Expansion of Copper Tubing in Inches Pipe Fluid Temperature°F Lengtitl -3-57-40- 450 50 550 600 650 700 750 800 850 1 900 950 100011050 1100 1150 1200 125011300 '= 10 0.04 0.04 0.05 0.06 0.06 0.07 0.08 0.08 0.09 0.09 010 1010 0.11 0.11 0.11 0.12 0.13 0.14 0.15 0.15 20 0.08 0.08 0.10 0.12 0.13 0.14 0.15 0.16 0.17 0.18 0.19 0.20 0.21 0.22 0.22 0.23 0.26 0.28 0.29 0.30 1116- 0 O 30, 0.12 0.12 0.15 0.18 0.20 0.21 0.23 0.24 0.26 0.27 0.29 0.30 0.32 0.33 0.32 0.35 0.39 0.42 0.44 0.45 O C 40 0.16 0.16 0.20 0.24 0.26 0.28 0.30 0.32 0.34 0.36 0.38 0.40 0.42 0.44 0.43 0.46 0.52 0.56 0.58 0.60 50 0.20 1 0.20 025 10.30 1 0.33 1 0.35 10.38 1 0.40 1 0.43 1 0.45 0.48 0.50 0.53 0.55 0.54 0.58 0.65 0.70 0.73, 0.75 +; 60 0.24 1 0.24 1 0.30 1 0.36 10.39 1 0.42 1 0.45 1048 1 0.51 1 0.54 1 0.57 1 060 1 0.63 1 0.66 1 065 10.69 1 0.78 1 0.84 1 0.87 0.90 'Pipe length baseline temperature=07"Expansion of Carbon,Copper and Stainless Steel Pipe,"The Engineers'Toolbox,www englneenngtoolbox com O Figure 18: Coiled Expansion Loops and Offsets ca ----------- L ` L ` r ' M r i R ` L r ' r r U) Large Tubing U-bend(>34 In j Loop Small Tubing 1-1-Land(<3/4 in LL Table 17: Radii of Coiled Expansion Loops and Developed Lengths of Expansion Offsets Anticipated Linear Nominal Tube Size OD inches Expansion(LE)(inches) 1/4 318 112 314 112 R' 6 7 8 9 Lz 38 44 50 59 1 R' 9 10 11 13 U ' 54 63 70 83 1-112 R' 11 12 14 16 L 66 77 86 101 2 R'. 12 14 16 19 LZ 77 89 99, 117 2.112 R' 14 16 18 21 L2 86 99 111 131 3 R'' 15 17 19 23 U 94 109 122 143 3.912 R' 16 19 21 25 L2 102 117 131 155 4 R' 17 120 122 126 U 109 1126 1140 1166 Due to our policy of continuous product innovation,some specifications may change without notification QW, „e, 26 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp •+ MULTI F GENERAL INSTALLATION GUIDELINES MULTI F MAX Refrigerant Piping Inserts and Pipe Supports Figure 19:Installing an Insert Into Inserts a Concrete Beam. An insert can be installed into a floor or beam before the concrete sets so that fittings such as ducts, / pipes,or suspension bolts can be added at a later time. Decide where the inserts should be placed before Support Installation. Anti-vibration Material Pipe Supports Q Nail C Note: The pipe system must be adequately supported to avoid pipe sagging.Sagging pipes become oil traps that lead to equipment malfunction. Pipe supports should never touch the pipe wall;supports should be installed outside Concrete BeamSuspension Boll (around)the primary pipe insulation jacket. Insulate the pipe before installing the sup- ports. Pipe supports are field-provided and must meet local code If local codes do not specify pipe support spacing, install pipe supports a maximum of 5 feet on center for Figure 20:Pipe Hanger etails. straight segments of pipe up to 314"outside diameter size. Wherever the pipe changes direction, place a hanger within twelve (12)inches on one side and within twelve to nineteen(12 to 19)inches of the bend on the other side.Sup- port piping at Indoor units as shown Support Y-Branch fittings as shown. U i O Figure 21. Typical Pipe Support Location—Change ;' in Pipe Direction. G l Max 12" Figure 22 Pipe Support at Indoor Unit. "T_ B Figure 23:Pipe Support at Y-branch Fitting Max 12° Max 12" A A+B-12"-19" Max 12° ON L G- Due to our policy of continuous product innovation,some specifications may change without notification 27 ©LG Electronics U 5 A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp GENERAL INSTALLATION GUIDELINES MULTI F Refrigerant Piping MULTI F MAX Examples of Supports Figure 24:U-Bolt Support with Insulation. Figure 25:0-Ring Support with Insulation. Figure 26:Saddle-Type Support. Bolt Support at Intervals Between 5 and 6-314 Feet i Insulation � , Bolt -j - 1 5t Plate PVC ----� PVC D o Note O Do not compress the insulation with the saddle-type support If the insulation is compressed,it may tear open and allow condensation to C generate during product operation. -h Figure 27.U-Bolt Support with an Insulated Pipe. Figure 28:0-Ring Band Support with an Insulated Pipe. To prevent insulation from j pressing and 0-Ring lagging,use a cover. Band M j c j U)ILL j Sheathing j Lags Sheathing I Figure 29:One-Point Down-Stop Support(>441 lbs.). Figure 30.Two-Point Down-Stop Support. 0-ring Band Welding Welding j Insulated Plate Nut Insulated Support Band Down Stop Support Band CE e I 00 00 Hexagonal Nut j Refrigerant Pipe 28 Due to our policy of continuous product innovation,some specifications may change without notification ©LG Electronics U 3 A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp - MULTI F GENERAL INSTALLATION GUIDELINES MULTI F MAX Refrigerant Piping Pipe Sleeves at Penetrations Note: LG requires that all pipe penetrations through walls,floors, and Pipe diameter plus insulation thickness determines wall pipes buried underground be routed through a properly insulated penetration diameter. sleeve that is sufficiently'sized to provide free movement of the pipe For example: and does not compress the Insulation. Route underground refrlger- Diameter of Gas Piping: 112" ant pipe inside a protective sleeve to prevent Insulation deteriora- Diameter of Liquid Piping: 114" tion. Follow federal, state, and local regulations and codes when Thickness of Gas Piping Insulation: 0.4"x 2 choosing a sleeve type. Thickness of Liquid Piping Insulation: 0.4" x 2 Surplus: 0.8" Figure 31. Pipe Sleeve Options. Sleeve diameter(total): 3.1" minimum Inside wall(concealed) Outside wall Outside wall(exposed) Sleeve S Insulation ® ©La 99�to 9 (OCaulk --- SBand I ©Water-resistant layer ©Sleeve with edge Area between fire-resistant ®Lagging Floor(fire-resistance) Roof pipe shaft insulation and boundary wall TMortar or other fire-resistant caulk Al 0 Fire-resistant insulation �1 l/ _ _/_____ _ When filling an access hole with mortar,cover the 0 Fit — area with steel plate so that the Insulation will not '� fall through.Forthls area,use fire-resistant � materials for both the Insulation and cover.(Vinyl 40 In 40 to cover should not be used _ Underground Refrigerant Piping Figure 32:Typical Arrangement of Refrigerant Pipe and Cable(s)in a Utility Conduit. Route refrigerant pipe installed underground inside a vapor tight,pro- Vapor Line tective sleeve to prevent insulation deterioration and water inflltra- Insulation Material tion. Refrigerant pipe Installed Inside underground casing must be %. Liquid Line continuous without any joints. Underground refrigerant pipe must be located at a level below the frost line. Pipe Sleeve 7 Insulation Table 18: Utility Conduit Sizes. Material Liquid Vapor Pipe' Mm 18 Gauge Q Power/communication Pipe' 318(1-11823) 112(2:025) 518(2-1182s) 314(2-11425) Cable 114(1.0)3 4 4 4 4 Figure 33:Underground Refrigerant Piping. 3/8(1-118)3 4 4 4 5 'OD pipe diameter In Inches,Values In parenthesis O Indicate OD of pipe with Insulation jacket 2Dlameter of pipe with Insulation Thickness of pipe Insulation Is typical Actual required thickness may vary based on surrounding ambient conditions and should be calculated a r and specified by the design engineer 'Insulation thickness(value In parenthesis)=3/8 Inch ,,.•, 'Insulation thickness(value In parenthesis)=1 Inch 'Insulation thickness(value In parenthesis)=3/4 Inch Yw ' Due to our policy of continuous product innovation,some specifications may change without notification ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All nghts reserved TO is a registered trademark of LG Corp 29 GENERAL INSTALLATION GUIDELINES MULTI F Piping Materials and Handling MULTI F MAX Piping Materials and Handling Figure 34:Keep Piping Capped While Storing Pipes used for the refrigerant piping system must include the specified thickness,and the interior must be clean. While handling and storing,do not bend or damage the pipes, and take care not to contami- nate the interior with dust, moisture,etc. See Table 19 for care of piping. Table 19:Three Principles of Refrigerant Piping _ Dry Clean Airtight Principles No moisture-should-be inside the piping. No dust should be inside the piping. No leaks should occur. D ` Moisture Dust Leaks O OSS ^08 o Papv M Problems -Significant hydrolysis of refrigerant oil. -Refrigerant oil degradation. -Refrigerant gas leaks/shortages. Caused -Refrigerant oil degradation. -Poor insulation of the compressor.- Refrigerant oil degradation --.Poor insulation of,the compressor. -System does not operate properly. -Poor insulation of the-compressor. O -;System,does not-operate properly. -EEVs and capillary tubes become System-does,not operate properly. -EEVs,capillary tubes are clogged.- clogged. Solutions -Remove moisture from the piping. Remove dust from the piping. Test system for air tightness. -Piping ends should remain capped until -Piping ends should remain capped until Perform brazing procedures that comply connections are complete. connections are complete. with all applicable standards. 'a -Do not install piping on a rainy day. -Connect piping properly at the side of Perform flaring procedures that comply -Connect piping properly at the unit's side. the unit. with all applicable standards. -Remove caps only after the piping is Remove caps only after the piping is cut Perform flanging procedures that cut,the burrs are removed,and after and burrs are removed. comply with all applicable standards. passing the piping through the walls. -Retain the cap on the piping when Ensure that refrigerant lines are pressure LL -Evacuate system to a minimum of 500 passing it through walls,etc. tested to 550 psig. microns and ensure the vacuum holds at 7 that level for 24 hours Due to our policy of continuous product innovation,some specifications may change without notification LG 30 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp mum F PIPING CONNECTIONS MULTI F MAX Piping Preparation Ii Piping Preparation AWARNING •Do not allow the refrigerant to leak during brazing;if refrigerant combusts,it generates a toxic gas which can cause physical injury or death. •Do not braze in an enclosed location, and always test for gas leaks before/after brazing. Gas leaks can cause physical injury or death. •After brazing, check for refrigerant gas leaks.Refrigerant gas leaks can cause physical injury or death. •When selecting flare fittings, always use a 45°fitting rated for use with high pressure refrigerant R410A.Failure to do so may result in refrigerant leaks which in turn could result in personal injuries or death from oxygen depletion. Selected fittings must also comply with local, state, or federal standards. Note: 1. If piping becomes kinked due to excessive bending, do not use the pipe. 2. Braze the pipes to the service valve pipe stub of the outdoor unit. Creating a Flare Fitting, Note: One of the main causes of refrigerant leaks is defective flared connections.Be sure to properly form the flare connections 1.Cut the pipe to length. • Measure the distance between the indoor unit and the Figure 35:Creating a Flare Fitting outdoor unit. • Cut the pipes a little longer than measured distance. 1 Ctube rfl \ 90, Sla ,mUneve ugh • Cut the cable 4.9 ft longer than the pipe length. I O' 2A. Remove the burrs. • Completely remove all burrs from pipe ends. I • When removing burrs,point the end of the copper pipe down to avoid introducing foreign materials In the pipe 2A O Pipe 2B Flare nut O 2B.Slide the flare nut onto the copper tube. Reamer Copper \i 3. Flaring the pipe end. Point tube • Use the proper size flaring tool to finish flared connections dawn as shown. • Refer to the diagram in step 3 of Figure 35 and the dimen- ZhandleRed andle sions in Table 20 for positioning the pipe in the flaring tool. 3. Bar • ALWAYS create a 45°flare when working with R41 OA.See "A" iarrow oke Warning on this page. I Cone 4.Carefully inspect the flared pipe end.• Compare the flare with the illustration Instep 4 of Figure 35. Copper pipe• If the flare is defective,cut it off and re-do procedure. Clam • If flare looks good,blow clean the pipe with dry nitrogen. 4 Smooth Inside is shiny with no scratches Incorrect Flares Table 20:Flare"A"Measurement Pipe Outside "A"Measurement M Diameter inch inch I I II 114 0.04-0.5 o Slanted aged Crd Uneven 3/8 0.06-0.7 s acethickness 1/2 0.06—0.7 Even length � 'j 5/8 0.06-0.7 3/4 0.07-0.8 L Due to our policy of continuous product innovation,some specifications may change without notification 31 ° ' ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"W"is a registered trademark of LG Corp PIPING CONNECTIONS MULTI F IDU to ODU MULTI F MAX Multi F Outdoor Unit to Indoor Unit Piping Connections Avoid Pipe Damage •When routing field-provided piping, avoid damaging the outdoor unit from excessive vibration. Correctly route the piping so it does not make contact with mounting bolts. Allow room for field installation. Properly insulate the liquid and gas lines separately up to the point of connection at the unit frame. •See table below for Multi F outdoor unit connection types. Table 21:Outdoor Unit Piping Connections. Outdoor Unit Piping Connections LMU18CHV LMU24CHV LMU30CHV LMU36CHV Liquid Line Connection(in.,OD)x Qty 1/4 x 2 1/4 x 3 114 x 4 1/4 x 4 'C Vapor Line Connection(in.,OD)x Qty. 3,18 x 2 3/8 x 3 318 x 4 3/8 x 4 L Table 22:Wall Mounted Indoor Unit Pipe Sizes. O O Figure Vapor Line Size Liquid Line Size Fi 36. Multi F Refrigerant Pie Connections 'a Indoor Unit Capacity g g p _ (im,OD) (in.,OD) (LMU36CHV shown as example). .a 7,000 Btulh G s Piping Connections .� 9,000 Btu/h ° A-UNIT C 12,000 Btu/h 03, 0114 Liquid ° -UNIT 15,000 Btu/h Piping ° 18,000 Btulh, Connections C-UNIT j 24,000 Btulh 01/2 ° D-UNIT Table 23:Wall Mounted Indoor Unit Piping Connections. Vapor Line Liquid Line Main gas = Indoor Unit Capacity , Connection in.,OD Connection in.,OD valve N '7,000 Btulh- o Main liquid LL. 9,000 Btu/h o valve 0318 01;4 3 12;000.Btu/h 15,000 Btu/h Figure 37:Connection Socket Diagram. -18,000 Btulh 0518 23/8 24,000 Btulh 01;2 01/4 FlareFlare to A B to Connection sockets(included as a factory-supplied accessory with the indoor Outdoor ~Indoor units)may need to be used when piping the indoor units to the outdoor unit. Unit Unit Table 24•Connection Socket Dimensions. Indoor'Unit Vapor(in.,OD) Liquid(in.,OD) Figure 38•Performing Connections � Capacity A B A B 18,000 Btulh 0,418—>04,12 0'/2—>0518 01/4--�03/8 i 24,000 Btulh 03:8 ->01,'2 NIA i i Using the Connection Socket 1. Align the center of the piping sections and tighten the flare nut by i hand 2. Tighten the flare nut with a torque wrench, using the arrows on Connection Socket the wrench as a guide, until a click is heard - (Fa the indoor oor u d with the nunit) Due to our policy of continuous product innovation,some specifications may change without notification L a. 32 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp -• MULTI F PIPING CONNECTIONS MULTI F MAX IDU to ODU Multi F System Piping Connections Note: Do not use polyolyester(POE)or any other type of mineral oil as a thread lubricant. These lubricants are not compatible with PVE oil used in this system and create oil sludge leading to equipment damage and system malfunction. 1. When connecting the flare nuts, coat the flare(inside and outside)with polyvinyl ether(PVE) Figure 40:Tightening the Flare Nuts refrigeration oil only. 2 Align the center of the piping sections and tighten the flare nut by hand. 3. Tighten the flare nut with a torque wrench and a backup wrench until a click is heard. 4. Wrap insulation around the connection. Union 5. If it is necessary to loosen the flare nuts, always use two wrenches to do so. Table 25:Tightening Torque for Flare Nuts. Pipe size Inches O.D. Tightening torque ft-lbs Width of the flare A inches 1/40 13.9-18 1/8 3/80 24.5-30.3 1/8 1/20 39.7-47.7 1/8 5180 45.5-59.2 1116 Figure 39:Possible Outdoor Unit or Branch Distribution Unit to Indoor Unit Connections. 1. 3/8 in.to 318 in. Connection Flare side to indoor unit 2.318 in.to 1/2 In. Piping y Flare side to indoor unit or _ 0318 in, Connection Flare nut pipe to indoor unit p n 0112 in. Piping 0318 in. Flare side to Flare nut 0318 in. Connection socket branch distribution unit or ODU Flare Y" side to branch distribution unit or ODU 3. 1/2 in.to 518 in. Piping 4. 114 in.to 318 Piping y Connection Flare nut ~ Flare side to indoor unit Connection Flare nut Flare side to indoor unit 0518 in. / 0318 in. 01i 0112 in. Connection socket 0114 in Connection socket Flare Flare side pipe side to from branch distribution unit or ODU branch distribution unit or ODU Spanner Flare nut Field Piping Torque o wrench Due to our policy of continuous product innovation,some specifications may change without notification 33 ©LG Electronics LI S A,Inc,Englewood Cliffs,NJ All rights reserved"LG'is a registered trademark of LG Corp PIPING CONNECTIONS MULTI F IDU to ODU MULTI F MAX Refrigerant Safety AWARNING Verify the maximum refrigerant concentration level in the space where the indoor unit will be mounted meets the concentration limit for the application. There is risk of asphyxiation from oxygen deprivation. ASHRAE Standards 15-2010 and 34-2010 offer guidelines that address refrigerant safety and the maximum allowable concentration of refrigerant in an occupied space. Refrigerant will dissipate into the atmosphere, but a certain volume of air is required for this to occur safely. For R41 OA refrigerant,the maximum allowable concentration of refrigerant is twenty-six(26)lbs. per 1,000 cubic feet of an occupied space. Buildings with twenty-four(24)hour occupancy allow half of that concentration.' ASHRAE Standards 15 and 34 assume that if a system develops a leak, its entire refrigerant charge will dump into the area where the leak occurs.To meet ASHRAE Standards 15 and 34,calculate the refrigerant concentration that may occur in the smallest room volume on the Csystem, and compare the results to the maximum allowable concentration number'Also consult state and local codes in regards to refriger- ant safety. 'Information about ASHRAE Standard 15-2010/34-2010 and addenda current as of the date of this publication. O C Brazing -0 Note: 4; It is imperative to keep the piping system free of contaminants and debris such as copper burrs,slag,or carbon dust during installation. C O1. All joints are brazed in the field. Multi V IV refrigeration system components contain very small capillary tubes, small orifices,electronic 0 expansion valves,oil separators, and heat exchangers that can easily become blocked. Proper system operation depends on the installer using best practices and utmost care while assembling the piping system is • Store pipe stock in a dry place and keep stored pipe capped and clean. Purge all pipe sections clean with dry nitrogen prior to assembly. 2. Proper system operation depends on the installer using best practices and the utmost care while assembling the piping system. .a • Use adapters to assemble different sizes of pipe. • Always use a non-oxidizing material for brazing. Do not use flux,soft solder,or anti-oxidant agents. If the proper material is not used, oxidized film may accumulate and clog or damage the compressors. Flux can harm the copper piping or refrigerant oil. LL • Use a tubing cutter;do not use a saw to cut pipe.De-bur and clean all cuts before assembly 3. Use joints: Use a dry nitrogen purge operating at a minimum pressure of three(3)psig and maintain a steady flow. Use a 15%silver phosphorous copper brazing alloy to avoid overheating and produce good flow. Protect isolation valves,electronic expansion valves,and other heat-sensitive control components from excessive heat with a wet rag or heat barrier spray Figure 41.Using Nitrogen Gas During Brazing Refrigerant Pipe Regulator 1 Welding Point Nitrogen 3.0 psi or less------ Nitrogen Do not block outlet side. When pressure inside pipe is above atmospheric pressure, Tape Auxiliary Gas pinhole leaks can occur. (no air bubbles) Valve Tank Due to our policy of continuous product innovation,some specifications may change without notification 34 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp + MULTI F PIPING CONNECTIONS MULTI F MAX Piping Insulation Connecting the Indoor Unit Piping to the Field-Installed Piping 1. Center align the indoor unit piping (refrigerant and drain)and the Figure 42: Indoor Unit to Field-Installed Piping Connection. field-installed piping,then hand tighten the flare nut 2 Tighten the flare nut with a torque wrench. ___ 3. Attach the drain tube piping to the indoor unit drain hose as shown. Figure 43.Extending the Drain Hose. Indoor unit piping Flare nut Field-installed piping Note: Drain extension If the drain hose is routed inside a room, LFIare er add insulation to prevent condensation ------ from forming. indoor unit drain hose Field-installed Narrow tape Torque Adhesive wrenchpiping Refrigerant Piping System Insulation All refrigerant piping including Y-branch connections,field-provided isolation ball valves,service valves, and elbows must be completely insulated using closed cell pipe insulation (up to the indoor unit piping connections).To prevent heat loss/heat gain through the refrigerant piping,'Al refrigerant piping including liquid lines and vapor lines must be insulated separately. Insulation must be a minimum 1/2"thick, and �- thickness may need to be increased based on ambient conditions and local codes.Table 26 lists recommended minimum wall thickness requirements for Ethylene Propylene Diene Methylene(EPDM)insulation. Inside the outdoor unit,maximum pipe temperature is 248°F and minimum pipe temperature is-40°F. For field insulation of refrigerant piping O• between outdoor units and indoor units, consider the following pipe temperature ranges for an operating heat pump system: • Heating mode refrigerant temperature ranges Liquid 75-118°F; High Pressure Vapor 95-2207 • Cooling mode refrigerant temperature ranges: Liquid 75-118°F; Low Pressure Vapor 40-907 C Note: sy Follow locals codes when selecting EPDM insulation wall thickness. Thickness in Table 26 is based on heat conductivity of 0.61 Btu/m/h/ff21'F. Table 26: Insulation Guidelines for Typical and Special Circumstances. Classification Air-conditioned location Non-air conditioned location 1.Typical location 2.Special location 3.Typical location 4.Special location of i4 inches Liquid pipe ©3/8 inches '/2 inches 1/2 inches 1/2 inches 112 inches 2�o112 inches 1/2 i-rhes 1/2 inches 1/2 inches 1/2 inches o3/8 inches- 01/2 Inches ,vapor pipe ;/2 inches o5/8 inChe5 3/4 inches 3/4 inches 1 inch o3A inches 1. Air-conditioned,Typical location • When piping passes through an indoor area where the indoor unit operates,such as an apartment,classroom,office, mall,hospital, etc. 2.Air-conditioned,Special location • When the location is air conditioned,but has severe temp/humidity difference due to high ceilings,such as a church,auditorium,theater,etc. • When the location is air conditioned,but internal temperature/humidity are high,such as a bathroom,swimming pool,locker room,etc 3. Non-air conditioned,Typical location • When piping passes through an indoor area where the indoor unit does not operate,such as a hallway,dormitory,or school,etc 4.Non-air conditioned,Special location (when both conditions listed below are present) • When piping passes through an indoor area that is not conditioned • When the humidity is high and there is no air flow in the location where the piping is installed .'t:. Due to our policy of continuous product innovation,some specifications may change without notification "s ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG'is a registered trademark of LG Corp 35 PIPING CONNECTIONS MULTI F IDU to ODU MULTI F MAX Installing Refrigerant Piping Insulation AWARNING Ensure all refrigerant piping is insulated.Exposed refrigerant piping may cause burns if touched. Wrap all refrigerant and condensate piping including field-provided isolation ball valves and flexible pipe connection kits provided by LG.All pipes must be insulated and each pipe must be separately wrapped.Any exposed piping may gener- ate condensate or will cause burns if touched. Sufficiently insulate all cold surfaces to prevent moisture forming Ensure insulation material fits snugly against the refrigeration pipe with no air space between the pipe surface and the surrounding insulation. Protect insulation inside hangers and supports with a second insulation layer. Ensure insulation on all pipe passing through pipe hangers, inside conduit, and/or sleeves is not compressed. Glue all insulation joints with no air gaps. Be sure insulation material fits snugly against the refrigeration pipe with no air p space between it and the pipe. All'pipe insulation exposed to the sun and outdoor elements must be properly protected 0 with PVC, aluminum vapor barrier, or alternatively placed in a weather-resistant enclosure such as a pipe rack with a top cover; and must meet local codes. Pay special attention to insulating the pipes installed in a ceiling plenum. O C O M .a ' Figure 44•Typical Refrigerant Line Flare Fitting Insulation Detail Figure 45:Insulating the Piping. L Insulation for Indoor Unit Port Bands Insulation Field Supplied)( pp ) Insulation for Refrigerant Piping(Field Supplied) U) L Field-supplied pipingIndoor unit —piping Overlap Insulation Where the Wide tape Wrap with tape Port and the Piping Meet Insulation Clip Field Su lied 2 No Clearance Piping Narrow tape Wrap with tape 3 PipingeWide Drain hose 36 Due to our policy of continuous product innovation,some specifications may change without notification •`+�% LG ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All nghts reserved"LG"is a registered trademark of LG Corp . MULTI F PIPING CONNECTIONS MULTI F MAX Drain Piping Drain Piping The standard wall-mounted indoor units have a factory-provided flexible pipe (27/32"O.D./5/8"I.D.)to drain condensate water.The flexible pipe connects to field-provided drain pipe. Use materials that comply with local codes for drain pipe and insulation. 1. Install the flexible drain pipe as straight as possible;sharp angles may cause the pipe to deteriorate and may crack over time. 2 Connect the flexible drain pipe with a round clamp. If the flexible drain pipe is not installed properly,water will leak from the connection. Figure 47:Flexible Drain Hose 3 Do not include a reverse slope in the drain connection. Connection. II Figure 49: Indoor Unit with Gravity Drain. Metal clamp ;g Flexible drain hose : ' }�R Insulation a r I — �— ---- — --- --- --- 1 Drain pan Insulation Clamp the Flexible Drain Hose Connection N Drain Slope ' Drain hose should point down so water can flow away easily The Figure 48:Drain Piping Gradient Recommendation. O gradient for drain piping should be at least 1/50 to 1/100 Ensure any holes through ceilings,walls, etc., are large enough to accommodate both the drain piping and any insulation. Indoor unit 7 Gradient of at least 1150-11100 Drain Pipe Insulation Sul Drain piping must have insulation a minimum of 7/32 inches thick. 1. Overlap the insulation at the connection of the field-installed piping and the indoor unit piping.Tape together so that no gaps exist. 2. Secure insulation to the rear piping housing section with vinyl tape. 3. Bundle the piping and drain hose with tape where they meet at the back of the indoor unit frame. Position the drain hose at the bottom of the bundle(positioning the drain hose at the top of the bundle may cause the drain pan to overflow inside the indoor unit). Checking the Drainage System Figure 46:Checking the Drainage System. 1. Pour water on the indoor unit evaporator. Do not use any other liquid to test the drain. f °h., 2. Ensure the water flows through and out of the hose and away cne from the indoor unit without leaking m "dke oraleho Check for le ks � LG O e e Due to our policy of continuous product Innovation,some specifications may change without notification 37 ©LG Electronics USA,Inc,Englewood Chess,NJ All rights reserved"LG"Is a registered trademark of LG Corp ELECTRICAL WIRING MULTI F MULTI F MAX ,&WARNING •All power wiring and communication cable installation must be Note: performed by trained service providers working in accordance with local, state, and National Electrical Code'regulations related to •Consider ambient conditions(temperature, direct sunlight, inclem- electrical equipment and wiring, and following the instructions in ent weather, etc.)when selecting, installing, and connecting the this manual. Electric shock can cause physical injury or death. power wiring. •Undersized wiring may lead to unacceptable voltage at the unit and 'Properly ground the Multi Zone outdoor and indoor unit.Improperly may cause a fire hazard. grounded wire can cause communication problems from electrical •Properly ground the Multi Zone outdoor and indoor units. Ground noise, and motor current leakage. Ground wiring must always be wiring must always be installed by a trained technician Ground wiring installed by a trained technician. is required to prevent accidental electrical shock during current •If the system operates in reversed phase,it may damage the com- r a.., leakage. pressors and other components. 'C •(S)Do not connect ground wire to refrigerant,gas, or water piping; •If there is a possibility of reversed phase,phase loss, momentary D to lightning rods;to telephone ground wiring, or to the building blackout, or the power goes on and off while the system is L plumbing system Failure to properly provide a National Electrical operating, install a field-supplied phase loss protection circuit OCode-approved earth ground can result in electric shock,physical •0 Do not connect ground wire to refrigerant, gas, or water piping; injury or death. to lightning rods;to telephone ground wiring;or to the budding = Verify that the branch switch and circuit breaker are set to OFF plumbing system. Failure to properly provide a National Electrical • 13 before installing the wiring system. Electric shock can cause physi- Code-approved earth ground can result in property damage and = cal injury or death. equipment malfunction. •Install appropriately sized breakers/fuses/overcurrent protection •Install appropriately sized breakers/fuses/overcurrent protection 0 switches and wiring in accordance with local, state, and National switches and wiring in accordance with local, state, and National Electrical Code regulations related to electrical equipment and wir- Electrical Code regulations related to electrical equipment and ing, and following the instructions in this manual. Using an over- wiring, and following the instructions in this manual. Using an sized breaker or fuse may result in electric shock,physical injury or oversized breaker or fuse may result in equipment malfunction and death. property damage. •Use only copper wiring that is stranded and shielded with the wires separately insulated. • Do not use a multi-conductor cable with more than five(5) �., wires in one(1)core. • Power wiring and communications cable sizes must comply with LL applicable federal UL/ETL, state, and local codes. •0 Do not operate the air conditioning system until the refrigerant piping installation is complete Operating the system before refrig- erant piping is finalized may damage the compressor •Install a ground wire for the outdoor units, indoor units, and branch distribution units •Install a main shutoff switch or circuit breaker that interrupts all power sources simultaneously(circuit breaker should be resistant to electromagnetic currents). •Use ring terminals to attach the wiring Verify that all power wiring and communications cable terminals are securely attached Ensure enough slack is included in the wiring and cables to avoid damag- ing the connections. •Use a conduit to protect the power wiring. Due to our policy of continuous product innovation,some specifications may change without notification LG 38 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved 19 is a registered trademark of LG Corp - _ MULTI F ELECTRICAL WIRING MULTI F MAX Power Wiring Specifications and Best Practices Line Voltage Wiring and Communications Cable Installation For both Multi F and Multi F MAX systems, line voltage is wired to the outdoor unit only The outdoor unit will supply power to the branch distribution units(Multi F MAX systems only)and the indoor units through the power wiring/communications cable. Electrical Specifications 1 Multi F and Multi F MAX Outdoor Units: 10,208-230V, 60Hz 2. Indoor units/Branch Distribution Units(Multi F MAX systems only): 10,208-230V, 60Hz from ODU (Indoor units draw minimal power.) 3. Select power supply wire type and size based on NEC and local codes. Maximum voltage fluctuation±10%of the nameplate rated value. 4. Properly ground the outdoor unit per NEC and/or local code. 5. Use only copper wiring that is stranded and shielded with the wires separately insulated. Figure 52:Power Wiring and Communica- tions Cable from the Multi F ODU to the Power Wiring/Communications Cable Specifications IDUs,or from the Multi F MAX ODU to the • From Multi F Outdoor Units to Indoor Units=4 x 18AWG BDUs and from the BD Unit to the IDUs. • From Multi F MAX Outdoor Units to Branch Distribution Units=4 x 16AWG • From Multi F MAX Branch Distribution Units to Indoor Units=4 x 18AWG • Maximum Allowable Temperature for Wiring: 194°F • Indoor Unit(s)to Wired Controller:Three-core cable N • Multi F System Maximum Cable Length:82 ft. G, • Multi F MAX System Maximum Cable Length: N� Outdoor Unit to Branch Distribution Unit(s). 180.4 ft. Branch Distribution Unit(s)to Indoor Unit(s):49.2 ft. 7,? 3 ch Z Figure 51:Proper and Improper Power Wiring Connections 40:Copper Wire � Figure 50:Close up of a Typical Ring Terminal Ring Terminal Power Wiring Terminate multiple power vmres of Do not terminate two woes on Do not terminate different gauge the same gauge to both sides one side wires to a terminal block s Due to our policy of continuous product innovation,some specifications may change without notification 39 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp ELECTRICAL WIRING MULTI F Power Wiring Specifications and Best Practices/Controller Options MULTI F MAX Power Supply/Power Wiring Specifications,continued AWARNING •If power wires are not properly terminated and firmly attached, there is risk of fire, electric shock, and physical injury or death. Note: Never apply line voltage power to the communications cable terminal block. If contact is made, the PCBs may be damaged. •Always include some allowance in the wiring length when terminating. Provide some slack to facilitate removing the electrical panels while servicing. •Never ground the shield of the communications cable to the indoor unit frame or other grounded entities of the building. Ground the communications cable shield only at the outdoor unit. Improperly grounding this cable can cause communications errors. General Power/Communication Cable Specifications C • Use a four(4)conductor,shielded,stranded cable between the Maximum allowable cable length:984 feet. Multi Zone outdoor unit and the indoor units. Firmly attach the cable;provide slack but secure in a way to pre- 00 • Minimum 18 gauge shielded CVVS or CPEVS cable. vent external forces from being imparted on the terminal block. • Insulation material as required by local code. • Wiring should be completed without splices. • Rated for continuous exposure of temperatures up to 140°F. Terminate the cable shield to a grounded surface at the outdoor 'a unit only. Note: _ •Always verify the communication cable is connected to a communications terminal on the Multi Zone unit. Never apply line voltage 0 power to the communication cable connection. If contact is made, the circuit boards may be damaged. •The shield of the communications cable connecting the outdoor unit to the indoor unit should be grounded only to the outdoor unit frame. •Tie the shield of each cable segment together using a wire nut at each indoor unit.Maintain polarity throughout the communication network. •Position the 4-conductor ODU/IDU communications and power cable away from the input line voltage wiring. 'o Communication Cables Between the Wall Indoor Unit and the Controller _ • Simple Controllers.field-provided, 18 gauge,stranded and shielded,four-conductor communication cable. • All other Central Controllers:field-provided, 18 gauge,stranded and shielded,two-conductor communication cable. U) - Insulation material as recommended by local code. ILL • Connect all central control devices such as ACP,BACnet®and LonWorks®gateways,and energy recovery ventilators all on the same cable. Order does not matter.Polarity does.Keep"A"terminals with"A"terminals,and"B"terminals with"B"terminals. • Starting at the outdoor unit,terminate the cable on terminals Internet A and Internet B. Route the cable as needed between each device Controller Options Refer to Table 19 as to which remote controller model is used for each IDU. Once all wiring is connected to the indoor and outdoor units be sure to:test the accompanying remote controllers for performance.As always,follow all safety warnings and notes when operating the units using the remote controller. Additionally,all of the Multi F/Multi F Max outdoor models can use the following controllers when accompanied with the PI 485 VNet Accessory: • AC Smart LonWorks® Table 27: IDU Models and Associated Wireless Controller Model • ACP LGMV Multi Zone IDU Model Wireless Controller Model • BACnet® LSNXXXHSV4 AKB73835312 LMNXX8HVT AKB73635606 BACnet®is a registered trademark ofASHRAE. Lon Works®is a registered trademark of Echelon Corporation. Due to our policy of continuous product innovation,some specifications may change without notification LG 40 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp MULTI F ELECTRICAL WIRING MULTI F MAX Indoor Unit Electrical Connections Guidelines Power Wiring / Communications Cable Guidelines • These instructions are for the IDU only.For ODU wiring,refer to the ODU installation manual. • Confirm power source specifications. • Confirm that the electrical capacity is sufficient. • Starting current must be maintained±10 percent of the rated current marked on the outdoor unit name plate. • Confirm cable thickness specifications. • It is recommended that a circuit breaker is installed,especially if conditions could become wet or moist. • Include a disconnect in the power wiring system.Add an air gap contact separation of at least 118 inch in each active(phase)conductor. • A voltage drop may cause the following problems: 1. Magnetic switch vibration,fuse breaks,or disturbance to the Figure 53: Typical IDU Power and Communications normal function of an overload protection device. Cable Connections 2. Compressor will not receive the proper starting current. The general guidelines for connecting electrical and communication cables are similar for all standard wall-mounted indoor units; how- ever,the connections on the terminal block may differ. Depending _ on your indoor unit,the location of the terminal block on the indoor unit might vary from these typical images. Figure 53 shows typical connections. Terminal block The electrical connections procedure includes wiring diagrams for ! Wired Remote Controller each type of standard wall-mounted indoor unit. a Terminal(Optional) O• Power wiringg 1 IDU Electrical Connections Procedure communicafionscable 9 Cable restraint AWARN ING ----- c •Be sure that main power to the unit is completely off before beginning this procedure. Electric shock can cause severe physical injury or death. •Follow all safety and warning information outlined at the beginning and throughout this manual.Failure to do so may cause bodily injury or death. Note: •Follow all safety and warning information outlined at the beginning and throughout this manual Failure to do so may cause unit failure. •Some units might require you to remove the Control Cover from the terminal block area. Most Control Covers are attached with a phillips screw. •Connect the electrical cable to the indoor unit by connecting the wires to the terminals on the control board individually according to the outdoor unit connection. Be sure that the color of the wires at the outdoor unit and the terminal numbers are the same as those for the indoor unit. •Loose wiring may cause unit malfunction, or the,terminal to overheat and catch fire. Terminal screws may become loose during transport. Properly tighten the terminal connections during installation Due to our policy of continuous product innovation,some specifications may change vathout notification 41 ©LG Electronics USA,Inc,Englewood Chits,NJ All rights reserved'LG'is a registered trademark of LG Corp ELECTRICAL WIRING MULTI F Indoor Unit Electrical Connections Procedure MULTI F MAX AWARNING Figure 54:Latch over Screws on Bottom Panel,Indoor Unit Be sure there is no power input to the system before proceeding with these connections There is risk of electrical shock resulting in serious bodily injury or death 1. At the bottom panel of the indoor unit, unsnap the latches cover- y:3 w a ing the phillips head screws(Figure 54). • Normally,there are three(3)screws on the panel,however,your �9w�P mm indoor unit model may be different. 2. Using a phillips head screwdriver,remove the screws from the bottom panel of the indoor unit and set aside(Figure 55). 3. Remove the bottom panel (Figure 56). _ Removal is necessary to gain access to the terminal block L• located at the bottom of most indoor units. °"" , 0 4. Route the electrical/communications wiring through the back/bot- •a tom of the indoor unit(through a knockout panel,Figure 57). 5. Using a screwdriver,connect the wires as shown in Figure 58 and Figure 59.Also refer to the appropriate wiring diagram for the IDU (Figure 60 through Figure 63). Each wire should be securely attached to the terminal block. 0 Ensure the green/yellow ground cable is securely connected to I the correct screw terminal. Figure 55.Remove Screws from Bottom Panel M 6. When done, reattach the bottom panel to the indoor unit, being careful to align panel using the rear tabs. a •You might need to give the panel a gentle tap with the palm'of your �r hand to be sure it engages at the bottom. = 7. Using a phillips screwdriver, reattach the screws to the bottom panel and secure. U) 8 Once screws are in place, re-snap the latches over the screws. LL 9 If all other piping and electrical wiring to the outdoor unit has been completed,you can turn the system on to test. If you have not completed the piping connections,do not turn power on at this time.Be sure to complete all other piping, (including the drain hose)and wiring to the system Figure 57 Indoor Unit Knockout(Communication Wires) Figure 56.Removal(and Reattachment)of Bottom Panel ,n M Due to our policy of continuous product innovation,some specifications may change without notification UJ 42 ©LG Electronics U S A,Inc,Englewood Chits,NJ All rights reserved"LG"is a registered trademark of LG Corp MULTI F ELECTRICAL WIRING MULTI F MAX Indoor Unit Electrical Connections Figure 58:Typical Indoor Unit Terminal Block with Grounding Cable Figure 59:Typical Indoor Unit Terminal Block Connections Terminal Block w Expanded View z � 1 L1 2 L2 3 TO OUTDOOR UNIT t ® Terminal Block Grounding ; ®_ Connecting Cables Cable Cable Restrainer N Figure 60:Indoor Unit to Outdoor Unit I Branch Distribution Unit Terminal Connections—LMN078HVT,LSN090HSV4,LSN120HSV4,and LMN158HVT. _ Branch Distribution Unit Terminal Block or �. Outdoor Unit Terminal Block GND Indoor Unit Terminal Block BDU: S N L Q 1(L1) 2(L2) 3 C ODU: 1(L1) 2(1-2) 3 or S } ----- ---------------------. � GND Figure 61: Indoor Unit to Outdoor Unit/Branch Distribution Unit Terminal Connections—LSN180HSV4 and LMN248HVT Branch Distribution Unit Terminal Block or Outdoor Unit Terminal Block GND Indoor Unit Terminal Block BDU: FS F 7L Q 1(1-1) 2(1-2) 3 o; ODU: 1(Li) 2(L2) 3 or S t--------- ---------------- GND Due to our policy of continuous product innovation,some specifications may change without notification ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp 43 ELECTRICAL WIRING MULTI F Self Diagnosis Functions MULTI F MAX LG Monitoring View (LGMV) Diagnostic Software LGMV software(PRCTSL1 and PRCTFE1)allows the service technician or commissioning agent to connect a computer USB port to the outdoor unit's main printed circuit board (PCB) using an accessory cable.The monitoring screen for LGMV allows the user to view the following real time data on one screen (Figure 62). • Actual inverter compressor speed Average indoor Figure 62:MV Real-time Data Screen • Target inverter compressor speed unit(IDU)pipeLA w, .ter • Actual outdoor fan speed temperature • Target outdoor unit fan speed Inverter compres- LO • Actual superheat sor operationaa x' indicator light '" • Target superheat • ,Liquid injection • Actual subcooler circuit superheat , = valves operation ? • Target subcooler circuit superheat indicator lights ::.4. • Main EEV position Hot gas bypass ° O • Subcooling EEV position valve operation ;_ a; • Inverter compressor current transducer indicator light C value Four-way -p • Outdoor air temperature reversing valve __N <,,. 0 • Actual high pressurelsaturation operation 4-1 temperature indicator light • Site name O • Actual low pressurelsaturation Pressure graph showing actual low • Total number of connected IDUs temperature pressure and high pressure levels • Communication indicators • Suction temperature Error code display • IDU capacity • Inverter compressor discharge Operating mode indicator • IDU operating mode temperature • Target high pressure • IDU fan speed • Front outdoor coil pipe temperature • Target low pressure • IDU EEV position • Back outdoor coil pipe temperature • Printed circuit board(PCB)version • IDU room temperature C • Liquid line pipe temperature • Software version • IDU inlet pipe temperature N • Subcooler inlet temperature • Installer name • IDU outlet pipe temperature LL • Subcooler outlet temperature • Model number of IDUs • IDU error code Note: Images on these pages are examples of LGMV screenshots.Actual images may differ depending on the version of the software and the unit installed. Figure 63.MV Cycleview Additional screens can be accessed by tabs on the main screen. Additional screens include the following: nW•"° ``"`le`�°"'°' "• rt 1. Cycleview(Figure 63): Graphic of internal components including: > • Compressors showing actual speeds • IDUs , • Temperature and pressure sensors • Four-way reversing valve s. ® `% .3 2. Graph: Full screen graph of actual high and low pressures and high and low pressure limits.A sliding bar enables user to go back in u o _ - - time and view data - - -- — __.. A,` 3. Control FTN: Enables user to turn on IDUs in 1.8°F increments 4. Useful Tab • Unit Conversion-Converts metric values to Imperial values. L Due to our policy of continuous product mnovahon,some specifications may change without notification 44 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved TG"is a registered trademark of LG Corp MULTI F ELECTRICAL WIRING MULTI F MAX Self Diagnosis Functions LG Monitoring View(LGMV) Diagnostic Software and Cable-Continued Figure 64:MV Control Indoor Units Screen 5. Data 'u" - • Data Saving Start: Recording of real time data to a separate file created to be stored on the user's computer. -w, •_> - ' .=P s.. • Data Loading Start: Recorded data from a saved".CSV"file can be loaded to "` ""` w,roo3a create an LGMV session. » «•H =•< ' .<,�nrr : : a ;�. �.. ' 6. Monitoring smu• .n.�= .< _rrom? _-:«µ ;. �. ;ja44 )'y Mx_w >t;a -0 o'Qpiv • Electrical:The lower half of main screen is changed to show Inverter s m " w,, .�. ,3,• ;,, ,; : ,,� �._ . '" Compressor Amps,Volts, Power Hz, Inverter control board fan Hz. ',mur 'rte•�� n.< bars ' , =Mrt b.e. ' „•roan Q Note: Images on these pages are examples of LGMV screenshots.Actual images may differ depending on the version of the software and the unit installed. ;, W W+ ".t ne,w•... >«.,r:A err, �. ._... ...w....�_ Error Codes s F LGMV software helps the service technician or commissioning agent to troubleshoot system operation issues by displaying error codes (Figure 65).These error codes can be seen on the main screen of the LGMV software program. For an overview of unit error codes, Figure 65:Error Code Screen see Troubleshooting using Error Codes. For detailed information on how to troubleshoot individual error codes,see the unit's service manual. rLG O, The software is available in a high version with all of the listed features The low version has all features as the high version without a Target High Pressure and Target Low Pressure values shown on549 main screen. SDI Instead of connecting to the outdoor unit,there is the option to ,+�" as a •o connect to an IDU with a USB to RS-485 connector kit When connected through an IDU,data recording isnot available. This software can be used to both commission new systems and troubleshoot existing systems. LGMV data can be recorded to a ".CSV"file and emailed to an LG representative to assist with diagnostic evaluations. Recommended Minimum PC Configuration: • CPU:Pentium®IV 1.6 GHz • Main Memory: 1G • Operating System:Windows®XP/Vista/7 32 bit(recommended),64 bit • Hard Disk:600 MB when operating • MS Office 2003,2007(recommended)for select reporting functions Due to our policy of continuous product innovation,some specifications may change without notification 45 --•"-^ ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG"is a registered trademark of LG Corp ELECTRICAL WIRING MULTI F LG SIMS - Self Diagnosis Functions MULTI F MAX The SIMs WLAN module and the smart phone app together provide monitoring and troubleshooting Figure 66:LG SIMs App and WLAN Module capability for LG Duct Free Systems.SIMs functions only with LG Duct Free products(Figure 66). SIMs can display and graph operational data for the air conditioner system including the indoor unit and the outdoor unit.SIMs also displays error codes and a troubleshooting guide.A full copy ofLAZ `.4 f the LG'SIMs Smart Inverter Monitoring System User's Manual is available on the www.lghvac.com website. f . . To use SIMs you must be a trained HVAC service technician familiar with variable refrigerant r. t flow(VRF)systems in general and with LG's Duct Free System products.You should under- f stand the inverter air conditioning operation cycle,the meaning of the data displayed by SIMs, and how to use the data to troubleshoot the system. Figure 67 shows a typical Multi F configuration used with the SIMs module and app. -°o AWARNING C High voltages capable of causing death are used in Figure 67:SIMs WLAN Module to a Typical Multi F System 'a this equipment. Outdoor unit power remains connected �_ _ ----------9_-------------- -----------• -� , ` during this procedure. Take extreme caution not to I t & C touch electrical components or connections. Failure to } La 0 observe this warning can result in death or severe injury. J t X ` I;. Indoor unit Indoor unit Indoor unit nl Note: Outdoor unit The Duct Free System air conditioning system must run for at least 15-20 minutes before data collected by SIMs 2 0 is I M valid for troubleshooting. L You must have the free SIMs app correctly installed on your : 1 smart phone before using SIMs. U Some ODUs have an LGMV extension cable accessed by LL removing the side handle cover. If the ODU does not have LG SIMs App LG SIMs this extension cable, access the LGMV connector by remov- on smart Phone WLAN Module mg the top cover of the ODU. Figure 68:SIMs App Main Info Screen SIMs App Main Info Screen ME= The main screen (Figure 68)is the first screen displayed after wirelessn connection is established.Tap the Main Info tab to display current read Operational -'A "� ''• " ' ' a �r'�� ings regarding your indoor and outdoor unit(s).The Operational Info area _�; Information aln:ara y-, sa:' �; �,>�6 Lrpuc ptlt71j:3fC °Rx Tt m" $ r of the screen will show active functions or modes by illuminating the light •Y>•acrsaae:nit� :�,b„,, <_ ��: to the right of the functionM. Additional Help information can be accessed by tapping the Help Menu . . buttons at the bottom of this screen AC Cycle11 MIN— Information on---o.: Main Info Tab "No - l kDU, ... __ _ Help Menu (Fife is Factory Use Only)— Iwo= Due to our policy of continuous product innovation,some specifications may change without notification , 46 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG"is a registered trademark of LG Corp , MULTI F ELECTRICAL WIRING MULTI F MAX LG SIMS - Self Diagnosis Functions SIMs App Screens Outdoor Info) .. Outdoor Infol 3 Temperature Screen`"" Component Screen __. ' Tem p a Displays the followings Displays the following `. information: '•' "" m µ information: , , ° o,ptt :off; `sa;� �•.aenw .Q . • Frequency Inv TD uiatgrJ1r Ate' ;mn; + Erro�Code:IIQ c Oefrnst�' Et30TCodet00 QefrdSti • FAN1 RPM Suction • FAN2 RPM Discharge • DC Link �'. i., F, Cond Mid • Current — _ _ @ ,- ; sz, Cond Outf -- • Voltage smm " Heatsink " ._.___- _...- • EEV Mode "—;M _ �. Air Temp 1 • Restart Timer • Comp Mode • EEV :, ' * .. - d � O /17 C Indoor Info Tab ; ;; ® ; , Graph Info Tab IM This tab has three sub Displays the following wy '" "- .., sections: information: • Frequency IDU-Indoor Unit ° < Temperature graph. "vperau6n:c3FF sa o..,. �rr,.< . • Operation i, ?� canaptkrFuw�i,:�K'^ .f� �, °rini. � C�pk&kiD1b.139 'tis Displays 4etros s� • THM Mode IDU brorcpde. t` :f .1._ os information to graph • REM Mode X_ format. Information • FAN displayed is for the '� ` s�t • EEV 3� a IDU#selected on ='=' • Air Temp the Main screen.r ,Operation, ,., i}!"f,z' „ .�" < • Pipe-in ' , , a ODU-Outdoor Unit • Pipe-midTemperature and Frequency graph. • Pipe-out . . ro: _- Displays ODU 480 information in graph format. Ppatirr 71.0,E` • ODU Electric � � - Outdoor Unit _ P,�e-owc n.v"x: Electric data graph t,Fru''rl'>z' �I �ja is displayed. Vlll,,pups® �� lil wyil�Ilill,�IIiV� tm IVl4 j Lis Due to our policy of continuous product innovation,some specifications may change without notification 47 -^ ©LG Electronics U 3 A,Inc,Englewood Cliffs,NJ All nghtsreserved"LG•is a registered trademark of LG Corp ELECTRICAL WIRING MULTI F Optional Wall-Mounted Sensor and Controller MULTI F MAX Wall-Mounted Sensor Installation Proper indoor unit operation depends on the location of the room sensor.A good location will protect the zone controller from direct sunlight and external local sources of water vapor,and heated or cooled air. If no mounting height was specified by the building designer, place the handy box approximately five feet above the finished floor. - It may be necessary to use a handy box that is sized in metric units,depending on the controller model.Check with your LG representative to verify which size of handy box is needed for the zone controller in question. Use only LG-supplied communications cable. Using field-supplied cable may result in communications problems between the zone control- ler and the indoor unit. Do not route power wiring and communications cables in the same conduit. Do not cut the quick-connect plugs off or adjust the length of the cable. Keep the communications cable away from high voltage wires and electromagnetic field (EMF)producing equipment. D o Wall-Mounted Controller Installation 0 Since the room temperature sensor is inside the remote controller,the remote controller should be installed in a place away from direct sun- 'a light, high humidity and direct supply of hot or cold air to maintain proper space temperature. Install the remote controller about 5 ft above .� the floor in an area with good air circulation and an average temperature. d _ Do not install the remote controller where it can be affected by the following: - Drafts or dead spots behind doors and in corners Figure 69: Wired Remote Controller Installation TP; - Hot or cold air from ducts Radiant heat from sun or appliances Concealedi es and chimneys P P -- -�, -----' Uncontrolled areas such as an outside wall behind the remote controller \ yes This remote controller is equipped with a seven segment LED display For proper "° "a display of the remote controller LED's,the remote controller should be installed ----y --------------- - properly as shown below.The standard height is 4-5 ft from floor level. sfc " 1. Pull communications cable between the zone controller handy box(if used)and no LL the indoor unit.The wall-mounted zone controller comes with a thirty(33)foot length of cable. 2. Stole a minimal amount of cable in the handy box.Any additional cable should be coiled and stored near the indoor unit control panel. 3. If additional cable length is needed,order a thirty(33)foot LG Wired Remote Group Control Extension cable(Model No. PZCWRC1) 4. If the cable between the zone controller and the indoor unit is too long, do not cut the cable and shorten. Coil any spare communications cable,tie-wrap it,and leave it next to the indoor unit location Due to our policy of continuous product innovation,some specifications may change without notification CN) L 48 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG"is a registered trademark of LG Corp MULTI F TROUBLESHOOTING MULTI F MAX Error Codes Troubleshooting Using Error Codes Decoding the Error Display Refer to Table 28 for information on error codes generated from the The first and second number on the LED indicates error number. indoor and outdoor units.These codes are the most common for Example:21 =LED1 (Green light)2x blink, LED2(Red light) 1x blink these units.Your particular model duct free system might generate additional codes not listed here. Please contact LG Support if you Error Code Nomenclature Definitions see these types of errors and a simple power down and boot up has MICOM: Non-volatile memory chip where unit setup information not corrected the issue.You should not attempt to repair the system is stored. yourself. - EPROM:Non-volatile memory chip where device identification, Error Codes size, and factory defined default component operating param- • Figure 70 shows typical indoor unit LEDs used for error code eters are stored. display. Indicate different types of unit failures,assists in self-diagnosis and to track the frequency of occurrence. Error codes are shown on the LEDs of indoor units,wired re- mote controller,the unit control board,and LG Monitoring View (LGMV)Diagnostic Software. If two or more errors occur simultaneously,the lower error code number is displayed first. N • After the error is resolved,the error code does not display. sy Figure 70:Typical Indoor Unit LEDs for Error Code Display O 3 _. .... _ _. Cooling ��-41F—LED 1 Heating I C LED 2 Preheating Table 28:Multi Zone Wall-Mounted Indoor Unit Error Codes Number of Times Indoor Unit Error:! Description Blink Code: Description LED-2 LED 1 (Heating LED) (Cooling LED) 1 Indoor unit room temperature sensor error - ix 2 Indoor unit inlet pipe sensor error 2X 4 Float switch error(optional) 4X 5 Communication error between indoor unit and outdoor units - 5X 6 Indoor unit outlet pipe sensor error - 6X 9 Indoor unit EPROM error 9X 10 Indoor unit BLDC motor fan lock 1X - 12 Indoor unit middle pipe sensor error 1X 12X t::..+ LG Due to our policy of continuous product innovation,some specifications may change without nohficahon 49 -^ ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved*LG'is a registered trademark of LG Corp CAUTIONS FOR REFRIGERANT LEAKS MULTI F Refrigerant Leaks MULTI F MAX Cautions for Refrigerant Leaks ASHRAE Standards 15-2010 and 34-2010 offer guidelines that address refrigerant safety and the maximum allowable concentration of refrig- erant in an occupied space. Refrigerant will dissipate into the atmosphere, but a certain volume of air is required for this to occur safely. For R410A refrigerant,the maximum allowable concentration is 0.026 lbs./ft'per 1,000 ft'of air in an occupied space. Buildings with twenty-four (24)hour occupancy allow half of that concentration.' ASHRAE Standards 15 and 34 assume that if a system develops a leak,its entire refrigerant charge will dump into the area where the leak occurs.To meet ASHRAE Standards 15 and 34, calculate the refrigerant concentration that may occur in the smallest room volume on the system, and compare the results to the maximum allowable concentration number(see below for information on how to calculate the refrigerant concentration).'Also consult state and local codes in regards to refrigerant safety. AWARNING Verify the maximum refrigerant concentration level in the space where the indoor unit will be mounted meets the concentration limit for the application.If the refrigerant leaks and safety limits are exceeded,it could result in personal injuries or death from oxygen depletion. L oNote: -0 Take appropriate actions at the end of HVAC equipment life to recover,recycle,reclaim or destroy R41OA refrigerant according to applicable = US EPA rules. Q = To calculate the potential refrigerant concentration level(RCL): Refrigerant Concentration Limit(RCL)Calculations p 1. Measure the occupied space dimensions(in feet), To calculate total refrigerant amount per system: Amount of Amount of Total System j 2. Calculate the cubic foot volume of air in the smallest occupied Factory-Charged + Additional Re- Refrigerant space.(To obtain a detailed overview of the RCL, perform the Refrigerant per frigerant Trim Charge same calculations to the second smallest zone,the third small- Outdoor Unit Charge est zone until the RCL is obtained for all zones.Also, pay special attention to areas such as basements, etc.,where refrigerant Total System Refrigerant Charge(lbs.) cannot dissipate easily.) RCL(lbs./ft') _ —- -- —— -- -- Volume of Smallest Occupied Space(ft') N 3. Divide the refrigerant charge of the system serving the area in LL pounds by the results of step 1. 4. If the calculation indicates that the potential refrigerant concen- tration level is higher than the allowed RCL,increase the cubic volume of the smallest occupied space or modify the piping system design. 5. The allowable RCL limit for most applications must be equal to or less than 0.026 lbs/ft3. In special occupied spaces,however, such as hospitals and nursing homes where occupants may have limited mobility,the allowable RCL limit is cut in half. See ASHRAE Standard 34-2007 and local codes for detailed information.' 'American Society of Heating,Refrigeration and Air Conditioning Engi- neers,Inc.(ASHRAE).Atlanta, GA. ASHRAE,Inc.Information about ASHRAE Standard 15-2010134-2010 and addenda current as of the date of this publication. Due to our policy of continuous product innovation,some specifications may change without notification QLG 50 ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG'is a registered trademark of LG Corp MULTI F INSTALLATION CHECKLIST MULTI F MAX PAGE 1 of 2 System ID No.: Indoor Unit ID.: Checked by. Date: Signature: Major Component Rough-In Description Check The unit was connected pfoperly per local code and the product installationprocedures.- All literature and bagged accessories have been removed from the fan discharge. Indoor;'unit was installed, properly supported, and located indoors in a hon-corrosive environment. The unit's gravity condensate drain line was connected and routed where it properly drains away or, if installed in a mechanical room,was connected and properly routed to a drain terminal. Piping and Insulation Description Check Copper _ Over 5/8 inches—Rigid ACR only, 5/8 inches and under—Can use soft ACR. N trt 15%silver brazing material only. All refrigerant pipes and valves were insulated separately. Insulation butts up against the walls of the indoor,units. No gaps or fli cracks. Insulation was not'com ressed at clam`s and,hangers. =* LG Y-branches were used per manufacturer's recommendations. 0 (Optional)Full port ball valves for all indoor units. Schrader between the valve body and the indoor units). Condensate piping installed on indoor unit(1"ID, 1-1/4"OD). Pipe is insulated to prevent condensation. Pipe material is acceptable under local code. C Brazing Practices Description Check Medical• rade there are 4 available dry nitrogen used for purging during brazing constant 3 psi while brazing). Installation (For more information on any procedure, refer to the detail provided in the installation section) Refrigerant Piping Description Check Have in possession a copy of the"As-Designed"LATS Multi V piping tree diagram. BEFORE ANY FIELD PIPE SIZE OR LENGTH CHANGES ARE MADE,,PROPOSED CHANGES MUST BE FORWARDED TO THE DESIGN ENGINEER SO THAT THEY CAN INPUT THE CHANGES INTO LATS and RE-ISSUE A NEW LATS PIPING TREE DIAGRAM. Installer must receive change authori- zation from the design engineer, because any change made requires the review of the entire tree diagram and verification that the change did not impact the size of piping segments in other parts of the system. All pipe materials were properly stored,capped, and clean.All burrs were removed after cutting and pipe ends were reamed before brazing. During refrigerant pipe installation,for each segment of pipe, a record was made of the pipe length (including expansion loops, offsets,double-back sections), and sizes,as well as the quantity and type of elbows used All long runs of straight pipe were provided with expansion loops. Ensure horizontal Y-branches are Installed with no more than ±5°of rotation from horizontal plane. Ensure vertical Y-branches are installed within±3° of vertical. `.`::�' LG Due to our policy of continuous product innovation,some specifications may change without notification 51 �•- --s ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved'LG"is a registered trademark of LG Corp INSTALLATION CHECKLIST MULTI F MULTI F MAX PAGE 2of2 System ID No.: Indoor Unit ID.: Checked by: Date: Signature: Refrigerant Piping - continued A for ue wrench and backup wrench were used to tighten all flare connections. The back side of all flares were lubricated with a small drop of PVE refrigeration oil before tightening flare fittings. Ensure all field made flares are 45°. Use LG-supplied flare nuts only. Pipe-segments were properly supported and all wall penetrations were sleeved. Pipe insulation was not compressed at any oint. '= Y-branches were properly supported per details provided in the installation manual. Ensure-Y-branches are installed in the correct direction. Flow is always from the single end to.the double end. s- No oil traps, solenoid valves, sight glasses,filter driers,or any other unauthorized refrigerant specialties were present. O 0 tional)High uaht R410A rated,full° ort'ball valves with,a,Schrader ort were used at all indoor units and of will in the O ( P,� 9q �Y. - P P , M �refri erant piping network. Recommended for serviceability.) est practice of installing a minimum of 20"of straight pipe between each elbow was followed. .O d C o Condensate Pump / Drain Installation Description Check Indoor,unit condensate drain pipes were installed correctly. _ All condensate vertical risers are equal to or less than 27-1/2"from the bottom of the indoor unit. Indoor'units with condensate.pumps were level. Units with gravity drains were level,or_slightly canted toward the drain connection T and are supported properly. .a Pumped condensate drain lines were properly connected no traps, and connect to the top surface of the main drain line). C N Power Wire and Communications Cables LL Description Check Power wiring was connected to a single phase 208-230V source. Ground wire was installed and properly terminated at the unit. The power su lied was clean with voltage fluctuations within,specifications. ±10%of nameplate). Power'wiring to the Multi F/Multi F MAX outdoor unit was installed per all local electrical code requirements. PowerWrinq to the indoor,unit and branch distribution unit if used was installed per all local electrical code requirements', Power and communications cable between the Multi F/Multi F MAX outdoor unit and each indoor unit/branch distrubution unit (Multi F MAX only)was connected . No"star"or multiple parallel circuits. No cable splices or wire caps were used to connect communications cables. LG-sup-plied cable was-Used between the'indoor unit and its zone controller. No cables spliced and no wire caps used. Communication type RS-485-BUS type. IDU communications/power wiring was a minimum of 18-AWG,four(4)conductor,stranded,shielded or-unshielded,with insula- tion material per local code. If shielded, must be grounded to outdoor unit only.,Cable segment shields were tied together. Used appropriate trim in tool to attach ring orspade terminals at all power wiring and control cable terminations. Verify all ring and spade terminals are copper bearing in all communications daisy chains. Galvanized or nickel plated steel con- nectors"were not used. ODU to IDU power and control wires(only)were run in the same conduit as provided in the product installation manual.208-230V ODU input power was not run in same conduit as power and control wires to IDU,and was separated per manufacturer's guidelines All power and control wires were properly separated using the recommended distance provided in the product installation manual. Due to our policy of continuous product innovation,some specifications may change without notification Ol 52 ©LG Electronics U 8 A,Inc,Englewood Cliffs,NJ All rights reserved°LG°is a registered trademark of LG Corp •- MULTI F MULTI F MAX For further technical materials such as submittals, engineering manuals,service manuals,and catalogs,visit www.ighvac.com. N r+ Who to call for assistance o Freight Damage and Unit Replacements Your LG Manufacturer Representative Missing Parts Your LG Manufacturer Representative Freight Damage and Unit Replacements Your LG Manufacturer Representative Received Wrong Indoor Unit Model Your LG Manufacturer Representative = Installation,Startup,and Commissioning Technical Assistance 1-888-865-3026 For warranty information,visit www.Ighvac.com. CLG Due to our policy of conttnuous product innovation,some specifications may change without notification 53 - - ©LG Electronics U S A,Inc,Englewood Cliffs,NJ All rights reserved"LG is a registered trademark of LG Corp I Inverter �4 us VIntertek 20001747 ISO 5001 2008 Us OO LG ELECTRONICS INC. Life's Good LG Electronics LG Customer Information Center,Commercial Products Commercial Air Conditioning Division 1-888-865-3026 USA 11405 Old Roswell Road Follow the prompts for commercial AIC products and parts. Alpharetta, Georgia 30009 IM_MultiF_StdWallMount_11_15 www Ighvac.com Supercedes:IM-Multi-F_Std WallMount-03-15 R6al „<; 27,1 . GENERAL NOTES: SAFETY NOTES: RESIDENTIAL RENOVATION & CONSTRUCTION , II j C 0 N T R A C T 0 R N 0 T E S General Notes: 1 . GENERAL: ALL WORK TO BE COMPLETED IN ACCORDANCE WITH THE TOWN OF SOUTHOLD, NEW YORK, 2015 INTERNATIONAL RESIDENTIAL CODE WITH THE 2016 UNIFORM CODE SUPPLEMENT, AND REGULATIONS OF ALL OTHER AGENCIES HAVING JURISDICTION. GENERAL NOTES: wood: 1 . All studs to be SPF #2 or better, and all other structural wood to be Douglas Fir #2 or better. 2. FIRE SAFETY: 1 • ALL WORK SHALL CONFORM TO THE REQUIREMENTS OF THE TOWN OF SOUTHOLD, SUFFOLK COUNTY, NEW YORK, 2015 2. All structural wood shall be in accordance with the national design specifications for wood construction - latest edition, A. ALL BUILDING MATERIALS WHICH ARE STORED AT THE SITE OR ANY AREA OF THE BUILDING ARE TO BE STORED IN KEHL DESIGN ASSOCIATES LLC INTERNATIONAL RESIDENTIAL CODE WITH THE 2016 UNIFORM CODE SUPPLEMENT, FIRE DEPARTMENT RULES AND REGULATIONS, B. LOCKED AREA. 11residential & commercial design ® consulting 2. UTILITY COMPANY REQUIREMENTS, AND THE BEST TRADE PRACTICES. 3. Nailing schedule shall be in accordance with the specified code, C. ALL MATERIALS TO BE STORED IN AN ORDERLY FASHION BEFORE COMMENCING WORK, THE CONTRACTOR SHALL FILE ALL REQUIRED INSURANCE CERTIFICATES WITH THE DEPARTMENT OF 4. Pre-manufactured trusses. D. ALL FLAMMABLE MATERIALS TO BE KEPT TIGHTLY SEALED IN THEIR RESPECTIVE MANUFACTURER'S CONTAINERS. SUCH PO.Boz 1675 phone: (631)433-9084 BUILDINGS, OBTAIN ALL REQUIRED INSURANCE CERTIFICATES WITH THE DEPARTMENT OF BUILDINGS, OBTAIN ALL REQUIRED PERMITS, AND PAY ALL FEES REQUIRED BY T' shall GOVERNING BODY OF THE TOWN OF SOUTHOLD, NEW YORK, AGENCIES a• All trusses shall be shaped' as shown architectural cross sections, b. Trusses shall bear a Boca number and shall be manufactured by a registered manufacturer. MATERIALS ARE TO BE KEPT AWAY FROM HEAT. $outhold,NewYork 11971 E-Mail; ssbn654C'optonline.net 3. MINOR DETAILS NOT USUALLY SHOWIN OR SPECIFIED, BUT REQUIRED FOR PROPER CONSTRUCITON OF ANY PART OF THE WORK E. ALL FLAMMABLE MATERIALS TO B USED AND STORED IN ADEQUATELY VENTILATED SPACE. 5. Erect and brace trusses in accordance to truss plate institute recommendations.. _- Kehl Design Associates,LLC oformerly DAKAssociates,LLC SHALL BE INCLUDED AS IF THEY WERE INDICATED IN THE DRAWINGS, F. ALL ELECTRICAL POWER TO BE SHUT OFF WHERE THERE ARE EXPOSED CONDUITS. - - - 4• 6. Plywood sheathing. G. ALL ELECTRICAL POWER IN THE CONSTRUCTION AREA TO BE SHUT OFF AFTER WORKING HOURS. OWNERSHIP & USE OF DOCUMENTS: THE CONTRACTOR SHALL COORDINATE ALL WORK PROCEDURES WITH THE STIPULATIONS OF LOCAL AUTHORITIES, AND OWNER, a. All plywood shall be in accordance with the American Plywood Association (APA) specifications. CONTRACTOR, AT ALL TIMES, TO ENSURE THERE IS NO NATURAL GAS LEAKAGE IN THE BUILDINGS, OR ANY FLAMMABLE These drawings and specifications including the S• THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE PROTECTION OF ALL CONDITIONS AND MATERIALS WITHIN THE PROPOSED b. Plywood sheathing shall be continuous over two or more spans with grain of face plys across supports CONSTRUCTION AREA. THE CONTRACTOR SHALL DESIGN AND INSTALL ADEQUATE SHORING AND BRACING FOR ALL STRUCTURAL OR corporation or equal. GAS TO BE USED DURING CONSTRUCTION, ideas, design and arrangements represented REMOVAL TASKS. THE CONTRACTOR THE CONTRACTOR SHALL HAVE SOLE RESPONSIBILITY FOR ANY DAMAGE OR INJURIES CAUSED BY therein, are the property of KEHL DESIGN 7. All sills shall be pressure preservative treated (.4 PSF retention) SYP #2 or better. ASSOCIATES, LLC. No part thereof shall be 3. DUST CONTROL: copied, disclosed to others or used in connection OR DURING THE EXECUTION OF THE WORK. with any work or project other than for which 6' 8, Design values: A, DEBRIS, DIRT AND DUST TO BE KEPT TO A MINIMUM AND CONFINED TO THE IMMEDIATE CONSTRUCTION AREA. they have been prepared without written consent. THE CONTRACTOR SHALL LAY OUT HIS OWN WORK, AND SHALL AND SHALL PROVIDE ALL DIMENSIONS REQUIRED {=0R OTHER TRADES: 9 PLUMBING, ELECTRICALS, ETC. a. Framing Lumber: DF (north) No. 2 or better B. CONTRACTOR TO ISOLATE CONTRUCTION AREA FROM OCCUPIED BUILDING AREA BY MEANS OF TEMPORARY PARTITIONS OR 7 E = 1,600,000 PSI PLUMBING WORK SHALL BE PERFOR'MED BY PERSONS LICENSED IN THEIR TRADES, WHO SHALL ARRANGE FOR AND OBTAIN THROUGH Fv = 95 PSI C. HEAVY DROP CLOTHS. THE DEPARTMENT OF BUILDINGS ALL REQUIRED PERMITS, INSPECTIONS AND REQUIRED SIGN OFFS. Fb - 825 PSI DEBRIS, DIRT, AN DUST TO BE CLEANED UP AND CLEARED FROM THE BUILDING SITE PERIODICALLY TO AVOID EXCESSIVE 8. ELECTRICAL WORK SHALL BE PERFORMED BE PERSONS LICENSED IN THEIR TRADES, WHO SHALL ARRANGE FOR AND OBTAIN 9• Design values: ACCUMULATION, THROUGH THE BUREAU OF ELECTRICAL CONTROL ALL REQUIRED PERMITS, INSPECTIONS AND REQUIRED SIGN OFFS. a. Laminated Veneer Lumber (LVL): 9 E = 1,900,000 PSI 4. NOISE AFTER HOURS: THE CONTRACTOR SHALL DO ALL CUTTING, PATCHING, REPAIRING AS REQUIRED TO PERFORM ALL OF THE WORK INDICATED ON THE Fv = 285 PSI DRAWINGS, AND ALL OTHER WORK THAT MAY BE REQUIRED TO COMPLETE THE JOB. Fb = 2600 PSI A, CONSTRUCTION OPERATIONS WILL BE CONFINED TO NORMAL WORKING HOURS: 8AM TO 6PM, MONDAY TO FRIDAY, 10. B. EXCEPT LEGAL HOLIDAYS. ALL PIPING AND WIRING SHALL BE REMOVED TO A POINT OF CONCEALMENT AND SHALL BE PROPERLY CAPPED OR PLUGGED. KEHL DESIGN ASSOCIATES, LLC. NOTE 1 1 . CONTRACTOR MUST OBTAIN WRITTEN PERMISSION FROM ALL AFFECTED PARTIES TO WORK OTHER THAN REGULAR HOURS. ALL DIMENSIONS ARE ESTABLISHED FROM THE FINISH LEVEL OF THE FIRST FLOOR. VARIATIONS TO THE HEIGHT OF THE FINISH LEVEL KEHL DESIGN ASSOCIATES LLC, AND THERE ASSOCIATED ENGINEER ARE NOT OVERSEEING THE CONSTRUCTION OF THIS BUILDING, OF THE FIRST FLOOR ARE TO BE REVIEWED FOR APPROVAL BY THE OWNER AND KEHL DESIGN ASSOCIATES LLC. NO CONSTRUCTION THE USE OF THESE DRAWINGS BY ANY CONTRACTOR, SUBCONTRACTOR, BUILDER, TRADESMAN OR WORKER SHALL INSTIGATE A HOLD 5 CONSTRUCTION OPERATIONS WILL NOT INVOLVE INTERRUPTION OF HEATING, WATER, OR ELECTRICAL SERVICES TO THE OWNER. WILL BE ALLOWED TO COMMENCE UNTIL THIS HEIGHT IS APPROVED. HARMLESS AGREEMENT BETWEEN THE DRAWING USER AND KEHL DESIGN ASSOCIATES LLC. CONSTRUCTION WORK WILL BE CONFINED TO THE WORK ISSUED, AND WILL NOT CREATE DUST, DIRT, OR OTHER SUCH 12. INCONVENIENCES TO THE OTHER NEIGHHBORS. THE CONTRACTOR IN COORDINATING THE WORK WILL REPORT ANY DISCREPANCIES TO THE ENGINEER'S ATTENTION FOR IMMEDIATE THE USER SHALL IN FACT AGREE TO HOLD KEHL DESIGN ASSOCIATES LLC. HARMLESS FOR ANY RESPONSIBILITY IN REGARD TO RESOLUTION. CONSTRUCTION MEANS, METHODS, TECHNIQUES, SEQUENCES OR PROCEDURES AND FOR ANY SAFETY PRECAUTIONS AND PROGRAMS 6 SPECIAL SAFETY NOTES 13. IN CONNECTION WITH THE WORK AND FURTHER SHALL HOLD THE ARCHITECT HARMLESS FOR COSTS AND PROBLEMS ARISING FROM THE CONTRACTOR WILL COORDINATE THE ROUTING AND PLACEMENT OF ALL UTILITY LINES WITH THIS AND RELATED SITE WORK, AND THE NEGLIGENCE OF THE CONTRACTOR, SUBCONTRACTOR, TRADESMAN, OR WORKMAN. THE USE OF THESE DRAWINGS ALSO IMPLIES ALL CONTRACTORS AND THEIR REPRESENTATIVES WORKING ON THIS PROJECT SHALL AT ALL TIMES PRIOR AND DURING THE COURSE HE WILL BE RESPONSIBLE FOR ALL DISCONNECTIONS, RECONNECTIONS, AND STARTUPS. THAT KEHL DESIGN ASSOCIATES LLC. SHALL TAKE NO RESPONSIBILITY FOR THE PLAN USERS FAILURE TO CARRY OUT THE WORK IN OF THEIR ACTIVITY BE RESPONSIBLE FOR THE SAFETY OF THEIR EMPLOYEES AS WELL AS OTHERS AND IN THE CARE OF THE ACCORDANCE WITH THE DRAWING OR CONTRACT DOCUMENTS. PROPERTY. EACH AS REPRESENTATIVES OF THEIR EMPLOYEES SHALL ASCERTAIN THAT THE CONDITIONS UNDER WHICH THEY WILL BE 14. THE CONTRACTOR WILL COORDINATE THE ROUTING AND PLACEMENT OF ELECTRICAL, PLUMBING, AND HVAC EQUIPMENT WITH REQUIRED TO ACCOMPLISH THEIR WORK ARE SAFE WITHIN GOOD SAFETY PRACTICES AND MEET ALL CONCERNED REGULATIONS OF THE OCCUPATIONAL SAFETY AND HAZARD ACT OR OTHER GOVERNING REGULATIONS. THE BEGINNING OF WORK BY A CONTRACTOR ARCHITECTURAL FEATURES AND STRUCTURE. ANY CONFLICTS WILL BE BROUGHT TO THE ENGINEER'S ATTENTION FOR IMMEDIATE RESOLUTION. DOCUMENT NOTES SHALL INDICATE SATISFACTION CONCERNING SAFETY AND FULL RESPONSIBILITY FOR ACCIDENTS OR DAMAGE. IF UNSATISFIED, THE WORK NOTES: CONTRACTOR SHALL INDICATE WHATEVER ACTION NECESSARY, OR RENDER SAFETY CONDITIONS FOR LIFE AND PROPERTY AS ARE THESE CONSTRUCTION DOCUMENTS HAVE BEEN PREPARED BASED ON INFORMATION PROVIDED BY OTHERS ALSO, THE CLIENT AGREES, RELATED TO HIS ACTIVITY, IF THE WORK OF OTHER PARTIES OUTSIDE OF THE ORGANIZATION IS UPON INSPECTION FOUND AT ANY TO THE FULLEST EXTENT OF THE LAW, TO INDEMNIFY AND HOLD KEHL DESIGN ASSOCIATES, LLC. HARMLESS FROM ANY CLAIM, TIME TO BE UNSAFE, HE SHOULD STOP WORK IMMEDIATELY AND NOTIFY THE GENERAL CONTRACTOR, KEHL DESIGN ASSOCIATES LLC, LIABILITY OR COST INCLUDING REASONABLE ATTORNEY'S FEES AND COSTS OF DEFENSE, FOR THE INJURY OR ECONOMIC LOSS OR OWNER. THE BEGINNING OF WORK SHALL INDICATE SATISFACTION WITH CONDITIONS AND ACCEPTANCE OF THESE REQUIREMENTS, ARISING OR ALLEGEDLY ARISING OUT OF THE PROFESSIONAL SERVICES PROVIDED UNDER THIS AGREEMENT. NOT FOR 7 PROVIDE SINGLE OR MULTIPLE-STATION SMOKE ALARMS AS WELL AS CARBON MONOXIDE DETECTORS CONSTRUCTION SINGLE AND MULTIPLE-STATION IN ACCORDANCE WITH 2015 INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT, USE UNLESS CLIMATIC AND GEFROMS DEN GOTALCODEUPDATED WTHTHE APHIC DESIGN CRITERIA WINTER ICE SHIELD RBLOCKING NL OD6NIFORMCODESUPPLEMEN TOMEET OEXCEED 4REQUIREMENTS OF THE 2015 INTERNATIONAL CERTIFIED BY A GROUND WIND SEISMIC SUBJECT ODAMA SNOW DESIGN FROST LINE DESIGN UNDERLAY- FLOOD WIND EXPOSURE PROFESSIONAL LOAD SPEED (mph) CATEGORY WEATHERING DEPTH TERMITE DECAY TEMP. MENT REQUIRED HAZARDS CATEGORY 25 lbs/sgft 130 (mph) C SEVERE 3'-0" MODERATE TO HEAVY SLIGHT TO MODERATE 11 degrees YES 1984/1998 C NOTE: ALL ROOMS MEET OR EXCEED CHAPTER 12 OF THE 2105 INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 ENGINEER DESIGN CRITERIA UNIFORM CODE SUPPLEMENT STANDARDS FOR THE NATURAL LIGHT AND VENTILATION REQUIREMENTS. TABLE 1607.1 - continued MINIMUM UNIFORMLY DISTRIBUTED LIVE LOADS, Lo, PRESCRIPTIVE DESIGN AND MINIMUM CONCENTRATED LIVE LOADS 9 ALL STRUCTURES TO CONFORM WITH THE 2015 INTERNATIONAL RESIDENTIAL CODE _ UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT OCCUPANCY OR USE UNIFORM CONCENTRATED SECTION 1609 WIND LOADS NOTE: ALL ROOMS MEET OR EXCEED CHAPTER 10 OF THE 2105 INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 USES(s) AND OCCUPANCY CLASSIFICATION(s) 25. RESIDENTIAL ONE'- AND - TWO FAMILY DWELLINGS (psf) (pounds) UNIFORM CODE SUPPLEMENT STANDARDS FOR EMERGENCY ESCAPE AND RESCUE REQUIREMENTS. 1609.1.2 PROTECTION OF OPENINGS USE OCCUPANCY UNINHABITABLE ATTICS WITHOUT STORAGE 10 IN WIND-BORNE DEBRIS REGIONS, GLAZING IN BUILDINGS SHALL BE IMPACT RESISTANT OR PROTECTECTED WITH AN IMPACT RESISTANT COVERING MEETING THE REQUIREMENTS UNINHABITABLE ATTICS WITH LIMITED STORAGE i' j' k 20 OF AN APPROVED IMPACT RESISTANT STANDARD OR ASTM E 1996 AND ASTM 1886 RESIDENTIAL R-3 (SINGLE FAMILY) REFERENCED HEREIN AS FOLLOWS; NAILING NOTES: k 1.GLAZED OPENINGS LOCATED WITHIN 30 FEET (9144mm) OF GRADE SHALL MEET THE ALL MATERIAL TO BE NAILED IN ACCORDANCE WITH THE NAILING SCHEDULE OF CHAPTER 23 OF THE 2015 INTERNATIONAL TYPE OF CONSTRUCTION (CHAPTER 6) HABITABLE ATTICS AND SLEEPING AREAS 30 REQUIREMENTS OF THE LARGE MISSLE TEST OF ASTM E 1996, RESIDENTIAL CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. TYPE GROUP BALCONIES (EXTERIOR) AND DECKS (e) 40 2. GLAZED OPENINGS LOCATED MORE THAN 30 FEET (9144mm) ABOVE GRADE SHALL MEET THE PROVISIONS OF THE SMALL MISSILE TEST OF ASTM E 1996. V B ALL OTHER AREAS 40EXCEPTION: NO SUBSTITUTIONS STAIRS AND EXITS 40 300f 1. WOOD STRUCTURAL PANELS WITH A MINIMUM THICKNESS OF 7/6 INCH 11.1mm AND All framinghardware shown on these plans,HEIGHT AND FIRE AREA ONE - AND TWO- FAMILY DWELLINGS MAXIMUM PANAL SPAN OF 8 FEET 2438mm) SHALL BE PERMITTED FOR P PROJECT; ( unless otherwise indicated, is Simpson Strong-Tie. HEIGHT FIRE AREA 2 2 PROTECTION IN BUILDINGS WITH A MEAN ROOF HEIGHT OF 33 FEET (10,058mm) OR No substitutions area roved or authorized. FOR SI: 1 INCH = 25.4mm, 1 SQUARE INCH = 645.16 mm 1 SQUARE FOOT = 0.0929 m LESS THAT ARE CLASSIFIED AS A GROUP R-3 OR R-4 OCCUPANCY. PANELS SHALL approved 1 POUND PER SQUARE FOOT = 0.0479 kN/m? 1 POUND = 0.004448 kN, BE PRECUT SO THAT THEY SHALL BE ATTACHED To FRAMING SURROUNDING THE HEIGHT, BUILDING. 1 POUND PER CUBIC FOOT = 16 kg/M3 OPENING CONTAINING THE PRODUCT WITH THE GLAZED OPENING. PANELS SHALL BE Due to the relationships of framing hardware to THE VERTICAL DISTANCE FROM GRAIDE PREDRILLED AS REQUIRED FOR THE ANCHORAGE METHOD AND SHALL BE SECURED WEITZMAN PLANE To THE AVERAGE HEIGHT OF e. THE CONCENTRATED WHEEL LOAD SHALL BE APPLIED ON AN AREA 4.5 INCHES BY WITH THE ATTACHMENT HARDWARE PROVIDED. ATTACHMENT SHALL BE DESIGNED TO the other components of the structure, any framing if 1r 1 �1 THE HIGHEST ROOF SURFACE UNLIMITED AREA 4.5 INCHES. RESIST THE COMPONENTS AND CLADDING LOADS DETERMINED IN ACCORDANCE WITH hardware substitutions will render these plans THE HIGHEST AS PER SECTION R202 0)F THE 3 STORY THE PROVISIONS OF ASCE-7, WITH CORRISION-RESISTANT ATTACHMENT HARDWARE AS PER TABLE 506.2 null and Void, and will result in the installer contractor GARAGE INTERNATIONAL RESIDENTIAL CODE I. UNINHABITABLE ATTICS WITHOUT STORAGE ARE THOSE WHERE THE MAXIMUM CLEAR HEIGHT PROVIDED AND ANCHORS PERMANENTLY INSTALLED ON THE BUILDING IS PERMITTED UPDATED WITH THE 2016 BETWEEN JOISTS AND RAFTERS IS LESS THAN 42 INCHES, OR WHERE THERE FOR BUILDINGS WITH A MEAD ROOF HEIGHT OF 45 FEET (13,716mm) OR LESS WHERE assuming responsibility for the design and INTERNATIONAL CODE SUPPLEMENT. ARE NOT TWO OR MORE ADJACENT TRUSSES WITH WEB CONFIGURATION CAPABLE OF Vosd DETERMINED IN ACCORDANCE WITH SECTION 1609.3.1 DOES NOT EXCEED 140 MPH performance of the entire system. RENOVATION ACCOMMODATING AN ASSUMED RECTANGLE 42 INCHES IN HEIGHT BY 24 INCHES IN WIDTH, (63 m/s). OR GREATER, WITHIN THE PLANE OF THE TRUSSES.THIS LIVE LOAD NEED NOT BE ASSUMED To ACT CONCURRENTLY WITH ANY OTHER LIVE LOAD REQUIREMENTS. 2. GLAZING IN RISK CATEGORY I BUILDINGS, INCLUDING GREENHOUSES THAT ARE TOTAL HEIGHT FROM RIDGE TO GRADE 17'-7" OCCUPIED FOR GROWING PLANTS ON A PRODUCTION OR RESEARCH BASIS, WITHOUT J. UNINHABITABLE ATTICS WITH STORAGE ARE THOSE WHERE THE CLEAR HEIGHT BETWEEN PUBLIC ACCESS SHALL BE PERMITTED TO BE UNPROTECTED. DESIGN CRITERIA AND CONSTRUCTION TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL RESIDENTIAL 1675 PINE NECK RD THE JOISTS AND RAFTERS IS 42 INCHES OR GREATER, OR WHERE THERE ARE TWO OR •! MORE ADJACENT TRUSSES WITH WEB CONFIGURATIONS CAPABLE of ACCOMMODATING AN 3• GLAZING IN RISK CATEGORY ll, III OR IV BUILDINGS LOCATED OVER 60 FEET CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. LUMBER SPECIES AND GRADE ASSUMED RECTANGLE 42 INCHES IN HEIGHT BY 24 INCHES IN WIDTH, OR GREATER, WITHIN (18,288mm) ABOVE THE GROUND AND OVER 30 FEET (9144mm) ABOVE AGGREGATE AS AN ALTERNATIVE TO THE INTERNATIONAL BUILDING CODE THE FOLLOWING STANDARDS ARE PERMITTED SUBJECT TO THE SOUTHOLD, NEW YORK THE PLANE of THE TRUSS SURFACE ROOFS LOCATED WITHIN 1,500 FEET (458m) OF THE BUILDING SHALL BE LIMITATIONS OF THE THIS CODE AND THE LIMITATIONS HEREIN. WHERE ENGINEERED DESIGN IS USED IN CONJUNCTION WITH ALL HOUSE FRAMING MATERIAL DOUGLAS FIR - LARCH #2 AND BETTER THE LIVE LOAD NEED ONLY BE APPLIED TO THOSE PORTIONS OF THE JOISTS OR TRUSS PERMITTED TO BE UNPROTECTED, THESE STANDARDS, THE DESIGN SHALL COMPLY WITH THE INTERNATIONAL BUILDING CODE. BOTTOM CHORDS WHERE ALL of THE FOLLOWING CONDITIONS ARE MET: iDRAWING TITLE: ALL EXT. DECK FRAMING MATERIAL- CCA NC PINE #2 AND BETTER I. THE ATTIC AREA IS ACCESSIBLE FROM AN OPENING NOT LESS THAN 20 INCHES IN WIDTH 1. AF&PA WOOD FRAMED CONSTRUCTION MANUAL (WFCM) BY 30 INCHES IN LENGTH THAT IS LOCATED WHERE THE CLEAR HEIGHT IN THE ATTIC IS NOT LESS THAN 30 INCHES 2.AIS1 STANDARD FOR COLD-FORMED STEEL FRAMING - GENERAL NOTES ii.) THE SLOPES OF THE JOISTS OR TRUSS BOTTOM CHORDS ARE NOT GREATER THAN TABLE 1609.1.2 WIND-BORNE DEBRIS PROTECTION FASTENING SCHEDULE FOR WOOD PRESCRIPTIVE METHOD FOR ONE-AND TWO FAMILY DWELLINGS (AISIS-230) 2 INCHES VERTICAL TO 12 UNITS HORIZONTAL. STRUCTUAL PANELS a,b,c,d THE REMAINING PORTIONS OF THE JOISTS OR TRUSS BOTTOM CHORDS SHALL BE 3. ICC STANDARDS ON THE DESIGN AND CONSTRUCTION OF LOG STRUCTURES (ICC400) DESIGNED FOR A UNIFORMLY DISTRIBUTED CONCURRENT LIVE LOAD OF NOT LESS FASTENER SPACING (INCHES) A.NOTES: AREAS OF STRUCTURE THAN 10 POUNDS PER SQUARE FOOT. FASTENER TYPE PANEL SPAN 4 FEET < PANEL 6 FEET < PANEL THESE PLANS ARE AN INSTRUMENT OF THE SERVICE AND ARE THE PROPERTY OF THE EX. CRAWL SPACE NADESIGN PROFESSIONAL WHOSE SEAL IS AFFIXED HERETO. INFRINGEMENTS WILL BE K. ATTIC SPACES SERVERED BY STAIRWAYS OTHER THAN PULL-DOWN SHALL BE DESIGNED < 4 FEET SPAN < 6 FEET SPANS 8 FEET NEW CRAWL SPACE NA To SUPPORT THE MINIMUM LIVE LOAD SPECIFIED FOR HABITABLE ATTICS AND SLEEPING PROSECUTED TO THE FULLEST EXTENT OF THE LAW. CONTRACTORS SHALL VERIFY ALL FIELD CONDI110NS AND DIMENSIONS AND BE SOLEY RESPONSIBLE FOR FIELD FIT. THE EX. BASEMENT NA ROOMS. No. 8 WOOD SCREW- DESIGN PROFESSIONAL ASSUMES NO LIABILITY FOR OMMISIONS DUE TO UNKNOWN OR EX. FIRST FLOOR NA BASED ANCHOR WITH 2 16 10 8 UNFORESEEN FIELD CONDITIONS AND OR ADDITIONS BASED UPON COMMENTS NOT NEW FIRST FLOOR NA INCH EMBEDMENT LENGTH FORMALLY ACKNOWLEDGED AS REVISION TO THESE PLANS. EX. SECOND FLOOR NA NOTE: ALL CONCRETE SHALL CONFORM TO THE STANDARDS AS SET FORTH IN CHAPTER 19 CONCRETE NO. 10 WOOD SCREW- NEW SECOND FLOOR NA OF THE 2015 INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 INTERNATIONAL CODE SUPPLEMENT. BASED ANCHOR WITH 2 16 12 9 SEAL: DATE: NEW BALCONY NA INCH EMBEDMENT LENGTH t.t ! ,,--•------•-,...,� May 14, 2017 LOFT NA Y4 INCH DIAMETER LAGSCREW- FvT ;16 12 9 PROJECT NO: ATTIC (HOUSE)(a) NA PRESCRIPTIVE DESIGN CRITERIA REQUIREMENTS AS PER 2015 INTERNATIONAL INCH E MBEDMEONT LENGTH © COPYRIGHT 2017 KEHL DESIGN ASSOCIATES, LLC. C�P� a °�. 1012-2017 ATTIC (HOUSE)(b) NA ALL FLOOR PLANS AND ELEVATIONS ARE PROTECTED c;G�� ' r RESIDENTIAL CODE UPDATED WITH THE 2016 INTERNATIONAL CODE SUPPLEMENT. v "� GARAGE NA _ UNDER FEDERAL COPYRIGHT LAW. 4 P ;H �� * DRAWN BY: DK ATTIC (GARAGE)(a) NA NOTE: THE BUILDING THERMAL ENVELOPE FOR THIS BUILDING MEETS OR EXCEEDS THE REQUIREMENTS D PLANS MAY NOT BE REPRODUCED WITHOUT OF TABLE N1102.1 BASED ON THE CLIMATE ZONE SPECIFIED IN SECTION N1101.7 OF THE 2015 FOR SI: 1 inch = 25.4 mm, 1 FOOT = 304.8 mm, 1 pound = 4.448 N, 1 mile per hour = 0.447 m/s r 0 CHECKED BY: BONUS ROOM NA WRITTEN AUTHORIZATION. u, INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 INTERNATIONAL CODE SUPPLEMENT. a. This table is based on 140 mph wind speed and a 45-foot mean roof height. ALL PLANS AND DESIGNS ARE THE SOLE PROPERTY OF _� SCREENED PORCHES NA Carp 2 (SEE PAGE A102 FOR DETAILS). � 5 c�'j!,3 KEHL DESIGN ASSOCIATES, LLC. o8186a SHEET NUMBER: SUNROOM NA b. Fasteners shall be installed at opposing ends of the wood structural panel. NEW DECK NA Fasteners shall be located a minimum of 1 inch from the edge of the panel. THE RIGHT TO BUILD ONLY ONE STRUCTURE FROM THESE A�OFESSIONP�� COVERED PORCHES NA C. Anchors shall penetrate through the exterior wall covering with an embedment - ` ' -I. PLANS IS LICENSED EXCLUSIVELY TO THE BUYER, WITH WRITTENG 1 COVERED ENTRANCE NA length of 2 inches minimum into the building frame. Fasteners shall be located ` G-T PROOF OF PURCHASE. POOL HOUSE AREA 285 SQ FT a minimum of 2Y2 inches from the edge of concrete block or concrete. � � 1� ' ACCESSORY STRUCTURE NA d. Where panel are attached to masonry or masonry stucco, they shall be attached Acceptance of these drawings does not authorize the right to build without using vibration resistent anchors having a minimum ultimate withdrawal capacity the authorization of local governing agencies, such as Suffolk County Dept, DOB NUMBER: OF of 1,500 pounds. of Health Services, Town Building Departments, DEC, FEMA, etc. �1 �� Verify all conditions, codes, and requirements with such agencies prior to (a) WITHOUT STORAGE construction. © KEHL•DESIGN•ASSOCIATES, LLC (b) WITH STORAGE i. 2 PRESCRIPTIVE DESIGN CRITERIA REQUIREMENTS AS PER 2015 INTERNATIONAL RESIDENTIAL CODE N1102.1.2 (R402.12) Insulation and Fenestration Criteria KEHL DESIGN ASSOCIATES LLC residential & commercial design o consulting The building thermal envelope shall meet the requirements of Table N1102.1 based on the climate zone B B specified in section N1 101 .7 102 102 N1102.1.2 (R402.1.2) INSULATION AND FENESTRATION REQUIREMENTS BY COMPONENTo PO.Box 1675 phone: 1631)433-9084 / CLIMATE FENESTRATION SKYLIGHTb GLAZED CEILING WOOD MASS FLOOR BASEMENTC SLAB d CRAWL ZONE LI-FACTORb LI-FACTOR FENESTRATION R-VALUE FRAME WALL WALL R-VALUE WALL R-VALUE SPACEa Southold,New York 11971 E-Mail; ssbn654@optonline.net R-VALUE &DEPTH R-VALUE _-,.___—Kehl Design Associates,LLC o formerly D A K Associates,LLC SHGC b,e R VALUE R VALUE I -- - — ' 4 EXCEPT OWNERSHIP & USE OF DOCUMENTS: MARINE 0.35 0.55 0.40 49 2001113+5h 8/13 19 10/13 10,2ft 10/13 ill "1 These drawings and specifications including the 't 1ideas, design and arrangements represented I � / ', For SI: = 1 foot = 304.8 mm ASSOCIATES, LC L N o par thereof therein, are the property of KEHL DESIGN t th f shall be — T - a. R-values are minimums. U-factors and SHGC are maximums. When insulation is installed in a cavity which is less copied, disclosed to others or used in connection than the label or design thickness of the insulation, the installed R-value of the insulation shall not be less than the with any work or project other than for which N i N N N R-value specified in the table. they have been prepared without written consent. b. The fenestration U-factor column excludes skylights. The SHGC column applies to all glazed fenestration, EXCEPTION: Skylights may be excluded from glazed fenestration SHGC requirements in Climate Zones 1 through 3 where REV: the SHGC for such skylights does not exceed 0.30. A - A � A A c. "15/19" means R-15 continuous insulation on the interior or exterior of the home or R-19 cavity insulation at the interior of the basement wall, '15/19" shall be permitted to be met with R-13 cavity insulation on the interior of the 102 102 102 102 basement wall plus R-5 continuous insulation on the interior or exterior of the home. "10/13" means R-10 continuous insulation on the interior or exterior of the home or R-13 cavity insulation at the interior of the basement wall. d. R-5 shall be added to the required slab edge R-values for heated slabs. Insulation depth shall be the depth of the Provide New Foundation and 8" Thick Footing as footing or 2 feet, whichever is less in Zones 1 through 3 for heated slabs. Necessary 3'-0" Below Final Grade. -01" e. There are no SHGC requirements in the Marine Zone. a f. Basement wall insulation is not required in warm-humid locations as defined by Figure N1110.10 and Table N1101.10 g. Or insulation sufficient to fill the framing cavity, R-19 minimum. --------------- 0 F I J h. The first value Is cavity Insulation, the second value is continuous insulation, so "13+5" means R-13 cavity insulation plus R-5 continuous insulation. i. The second R-value applies when more than half the insulation is on the interior of the mass wall. 7'-2 '= 11'-8 -9 -2 -7 „ 7'-2 11'-84„ -9 2 -7f„ $� a � � � 2 28'-4� 28 -42 EXISTING GARAGE FOUNDATION- EXISTING GARAGE FLOOR PLAN WORK NOTES: SCALE: 1/4"= 1'-0" SCALE: 1/4"= V-0" B B 102' 102 ' B NOT FOR 102 Pool Pool CONSTRUCTION Heater Heater B USE UNLESS B 102 102 CERTIFIED BY A ,4;;� Pool Pool Filter Fitter PROFESSIONAL 28'-42" Shower Head Shower Head A21v A21v ENGINEER 71T71 =i_Shelf Closet N Shelf 3'-10' N Closet Closet 868DD I I Closet rn \ 2068 51 2868DD 2068 New 2x6 ACQ Floor Joists - 16"oc. I Furred-out : Wall 2" l' 10" oa 8" 11 2�" I t a'i� � 'CO) Closet O CN 00 CN V M CN `aALL EXTERIOR WINDOWS o PROJECT: 0 00 AND DOORS TO BE SET New 26 ACQ Floor Joists - 16"oc. LLJ �:. Ld w - WEITZMAN 1„ I I 32 2" ¢ a Q GARAGE N 2x4 built-up Girder �' N N Furred-out `� Y a 2x4 built-up Girder P 2x4 built-up Girder / } Wall 2" — I__ Y RENOVATION O New 2x6 ACQ Floor Joists - 16"oc. o r r _ / A A A J - - - A JA A 1675 PINE NECK RD. TZ: J ALL EXTERIOR WINDOWS r r �� E AND DOORS TO BE SET C , €- AT 6'-'�' I I N I i 102 SOUTHOLD, NEIN YORK 102 102 102 I I 102 102 I I M I I I I N I I w I I 00w DRAWING TITLE: I I I New 26 ACQ Floor Joists - 16"oc. M� /Furred-out I Wall I I I 2" I I I I AS NOTED 31z"x 9Y" LVL Hader I I I New New Furred-put TW2842 TW2842 Furred-out NEW 9080 GARAGE DOOR 2668 TW2842 TW2842 NEW 9080 GARAGE DOOR 668 NOTES: W II 2' Wall 2" THESE PLANS ARE AN INSTRUMENT OF THE SERVICE AND ARE THE PROPERTY OF THE 3 t" DESIGN PROFESSIONAL WHOSE SEAL IS AFFIXED HERETO. INFRINGEMENTS WILL BE 7'-2 1 1'-84" -9 2'-7� PROSECUTED TO THE FULLEST EXTENT OF THE LAW. CONTRACTORS SHALL VERIFY ALL B FIELD CONDITIONS AND DIMENSIONS AND BE SOLEY RESPONSIBLE FOR FIELD FIT. THE DESIGN PROFESSIONAL ASSUMES NO LIABILITY FOR OMMISIONS DUE TO UNKNOWN OR 28 -42 102 UNFORESEEN FIELD CONDITIONS AND OR ADDITIONS BASED UPON COMMENTS NOT B FORMALLY ACKNOWLEDGED AS REVISION TO THESE PLANS. s 102 SEAL: \ DATE: May 14, 2017 B PLAN PROJECT N O:102 1°12- 2°17NEW GARAGE FURNITURE NEWGARAGE FLOOR PLAN ' 'W �A DRAWN BY: Q: ' * BDK SCALE: 1/4"= 1'-0" SCALE: 1/4"= 1'-0" W CHECKED BY: NEW GARAGE FOUNDATION DESIGN CRITERIA AND CONSTRUCTION TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. © COPYRIGHT 2017 KEHL DESIGN ASSOCIATES, LLC. ALL FLOOR PLANS AND ELEVATIONS ARE sF� 081B6a �� SHEET NUMBER: AS AN ALTERNATIVE TO THE INTERNATIONAL BUILDING CODE THE FOLLOWING STANDARDS ARE PERMITTED SUBJECT TO THE PROTECTED UNDER FEDERAL COPYRIGHT LAW. PLANS MAY NOT BE REPRODUCED WITHOUT AROFESSWONP� SCALE: 1/4"= 1'-0" LIMITATIONS OF THE THIS CODE AND THE LIMITATIONS HEREIN. WHERE ENGINEERED DESIGN IS USED IN CONJUNCTION WITH WRITTEN AUTHORIZATION, ALL PLANS AND DESIGNS ARE THE SOLE PROPERTY OF A101 THESE STANDARDS, THE DESIGN SHALL COMPLY WITH THE INTERNATIONAL BUILDING CODE. KEHL DESIGN ASSOCIATES, LLC. THE RIGHT TO BUILD ONLY ONE STRUCTURE FROM THESE I J EXISTING WALL OR FOUNDATION 1. AF&PA WOOD FRAMED CONSTRUCTION MANUAL (WFCM) PLANS IS LICENSED EXCLUSIVELY TO THE BUYER, WITH WRITTEN PROOF OF PURCHASE. NEW WALL OR FOUNDATION Doe NUMBER: OF 2.AIS1 STANDARD FOR COLD—FORMED STEEL FRAMING — Acceptance of these drawings does not authorize the right to build without the authorization j� PRESCRIPTIVE METHOD FOR ONE—AND TWO FAMILY DWELLINGS (AISIS-230) of local governing agencies, such as Suffolk County Dept. of Health Services, Town Building WALL OR FOUNDATION TO BE REMOVED Departments, DEC, FEMA, etc. Verify all conditions, codes, and requirements with such ©KEHL-DESIGN'ASSOCIATES, trc 3. ICC STANDARDS ON THE DESIGN AND CONSTRUCTION OF LOG STRUCTURES (ICC400) agencies prior to construction. %WM -- Ridge Vent nlJI -LI U .,. Simpson Hurricane Strapping KEHL DESIGN ASSOCIATES LLC residential & commercial design ® consulting I IIII �\IL L 1 J�l 1 LiLI'_LJLLIJ 1LL LL 11_L Il L-! JJLLILLI New Roof Shingles to Match House PO,Box 1615 hone: 631 433-9084 ll LLI_i11LL1L_L1 1L11_'1-i'I 11i'' Li 11-LL1L LLL 11 P JL 1 111 1_il 11 LIU_LJI_lli LLIJ i'_I L LLLLI-L1 Ll I L11 L_l' Southold,New York 11971 E-Mail: ssbnb54�o tonline.net 1W JL 11-I L _li J11_i_il 111,_ ,JJ�' ll11i_ 1.11-11 LLILI ILLI I-!1W_ll P _1-1 Li L.;L'liL 'I_1LL LLLI i l _L IL 11. 1 L111 ll1 i L_ W LLI_LL111L J LLJL JJ-- J LLLLL_ -11 1'_11 " _II_l 1 1 \I I �_ J�I Kehl Design Associates,LLC o formerly D A K Associates,LLC 'Lli I�I 1 J1 1 L1� '1-L�i I I LI i' !I.1W11L I�'11111 J:1!_1J1L1'� 1�111L1�_I IJ_LL1 ll��l -LLL LI IL LLJ L,J�L 1 lit ILL ll 1_'-JLI L Ll JJI ILL_ JJ 1L1 J Li li1111.1 J L1lll -111-J_1 L1,I_ J J llL LI ll 1llLL1J L LU�-�J J L 'iL- IJ_LL1'. II _ I l lL_Lll '� II-Ildli J I.LL1. 1'I-L.J.I1-LL�_L_ I ! 1 L - I U- JJ-IJ ILI11,'-_1_I�LLLLLI 1 II L- I (I I� �1 IIL I 1 1.1 11_ll R-30 Insulation OWNERSHIP & USE OF DOCUMENTS: 11.11L_il1!1A 111 , ,1LL1'LLLJLL L111-,i 1I-LI L_ll_L J_IL II_LI LI ii - 1LL-I LL11L_L!L-L LLLLUJIIJJLLLLLII_L111 I SII Simpson R-19 Insulation H TSP Hurricane Strapping L11_IJ 1 I �,L .1_I!_ 1 ;, 11 -11; ,SLI J�iLiL ;--L.' _,,I,__11.1JLJ111J1 1L L�_1- . ) JLLLLL� 1_1- l�L L11J U i1LLJ1- LLI JL-L I- 1 Y" CDX Subfloor These drawings and specifications including the iL11J-lll l 1L1JJILIL-!L 1LI ,'--IJ-L I,_iLl L JL I!-_1LLL1:11�ll!�_Jl1 J LU J1 ISL ILJJ Il 11 L JllLL�JLILJ-L111L11 1LIJI III_L]LIM.11_ 1 LI LII '1__. L1_. 11J_L IJ1 LLU_L1L1-,_I LJ1LL LL1J_Ll_U 11LiL�L- LL1i 1_ILll -111 LLLLLLLLI LJI I' III �J. 1�L1�L1_LI�LLL11 1-Ll_:I__1 LLI 1J.L'-l1 Simpson Hurricane Clips ideas, design and arrangements represented L L,1J11 1J 1L• U 111,1. J L LLI J Li J 1 II 1 New 1x8 Azek Fascia therein, are the property of KEHL DESIGN L LLL11-I 11�� L-LLL- 11 1 J��U 1L-L'I1 L1-�IL 1_'1 lI_.ILL IILJJJ_1; II II__LJILILI�I LILLILLL LILLLI - ASSOCIATES, LLC. No part thereof shall be IJllJLI I I IL I 111L.L11J � I' I III!, 1L-I�1 I-ILLLILIJJ-I 15" Vented Soffit to Match House "x 9Y" LVL Header (2)2x6 Top Plates copied, disclosed to others or used in connection (2)2" T —Y op Plates Y P J with an work or proect other than for which ' I R-21 Insulation R 21 Insulation they have been prepared without written consent. -- 11 iLIL Note:Garage Floor has a 2" REV: Pitch From the Front to iLLLULL the Back.LLLLLJ I Verify all Dimensions Prior L to Construction. Q 2" Studs - 16"oc. 6 Studs "X"16"ocRated Sheetrock 2" Shoe R-19 Insulation 2x6 Shoe LIL 7 filler 20 Shoe ti 26 ACO Sill 2x4 ACO Sill RIGHT EASTERN ELEVATION REAR (SOUTHERN ) ELEVATION 2x4 built-up Girder SCALE: 1/4"= 1'-0" CROSS SECTIONrA SCALE: 1/4"= V-0" SCALE:%4"= V-0" 102 WORK NOTES: Simpson Hurricane Strapping Ridge Vent �1L�!1JLL1lJLi-'_I L 11__� 1L1,1-11L I LL11-.11_L1.LL1Li 1-. 1. New Roof Shingles to Match House _ 1 11:-1 Ll_11L_1llL111L1 L L LI_ _1 v 1 Ji 11_I IL J1_L1L LLLLLLJLt _LL J L Il 1 �111LiL1MA-h-111 A,_U 1'_1 __ ]_L_iLLL1J_1L_LL --J�_IL_ JJ 1L11 111L1L_ LJ {�LIJ MA-�u 11_J1,J LII LI 11 Li Ii U-11 L LL1! u u LiuLJ 1 - NOT FOR ILL J l_tl�l 1�L1_L1L11J 1L L1 iJ uL uJ JLIL!LL�1J_ll I. 11 II ll1. 1 -L di-iL - JL J LUL--L11J L' LLL-LLL ILL-I_l Lu 1 L�L IJP _ LuL 1.1LLUL JI-Lw LLu1� �L L CONSTRUCTION � i :l I II II Iii . llIII I 1 Ll- 1 L_U 1J_L:1!-J1J!LLIiL L-J i]_L LLiJh1�-`L�LI 'J 1 „ 1_U_L-111 1 i LL LJ LJ 1L JJ��LLILIJ-' '\\L_11J11 L111i l-HILL I11 a 1_l 1-1 LL�LIL!L-J!_LLJLLJLL __LLL11_;J_�uJl LULLLJLLL I I I 1 I I I 1 1-ll�L1LLLJ L�L_LUL1 L11 JILLUJ LUJ 1llL USE UNLESS "' 1 111.11_1 LLL_LL�L1-1J1JL1_I L-LL LJ LI-LIJ-L11LLILL Simpson L,LUL 1_Lill l LLUL�1- Lll_JLLLLu_ ALJ L1L_L LLL�uL� I: 1 L1�u L11 II II IL II II IJ�J 111�J�LLLIL L1I 11_�LI-L�Ll! H/TSP Hurricane Strapping CERTIFIED BY A LLLIt U Ll U_ILL11,_LLLLL_LA,L LL' J_LIJ1111L-1JJ U__L,hJ_ L 111 1 !_I. L1_ 1I- LI I!L _11 LLL LL i 1 L1L1LLLIL LLLU LL11JI LJ11�L LL l �1�1J LJ�LLILL_l l lt,�I a Simpson Hurricane Clips � COX Subfloor LL_LuJJ`iJ1J1ll�11llllL1llJJ _l_ illL1l1LIJJ 1111L1L L L llla I W_I1 1111.1-11-1 11 _ I!_ll ill- l _LL 11 I U-ILL 1LL-1111-11-IL1LI11! 1-11 III II I I I li 1LL1_U-1._1- 11 L1L1L I L 11lJ J i.l ILII -�1�1L!1-1-11-.11 LL, L i a LJ_L L LL I -u 1 r. lll_L.:_1ll1 1-1.11 i_ 111 LLLI I I 1 l`LLM I_I LI New 1x8 Azek Fascia PROFESSIONAL 15" Vented Soffit to Match House 3Y"x 9y" LVL Header 3Y;x 9Y" LVL Header ENGINEER (2)2" Top Plates 1 � I � R-21 Insulation Note:Garage Floor has a 2" Pitch From the Front to the Back. O Verify all Dimensions Prior I III to Construction, ' 1 _177 - JLILI :171— 1-1:1] I 2" Studs - 16"oc. POOL I 2 Shoe EQUIP. I I LI L LI U L LI L I L L ILLLLLL � filler 2x8 ACO Sill - PROJECT: LEFT ("WESTERN ) ELEVATION- FRONT NORTHERN ELEVATION- CROSS SECTION B WEITZiVIAN SCALE: 1/4"= 1'-0" SCALE: 1/4"= 1'-0" SCALE:Y4" = 1'-0" 102 GARAGE RENOVATION 1675 PINE NECK RD., SOUTHOLD, NEW YORK DRAWING TITLE: AS NOTED ti NOTES: THESE PLANS ARE AN INSTRUMENT OF THE SERVICE AND ARE THE PROPERTY OF THE DESIGN PROFESSIONAL WHOSE SEAL IS AFFIXED HERETO. INFRINGEMENTS WILL BE PROSECUTED TO THE FULLEST EXTENT OF THE LAW. CONTRACTORS SHALL VERIFY ALL FIELD CONDITIONS AND DIMENSIONS AND BE SOLEY RESPONSIBLE FOR FIELD FIT. THE DESIGN PROFFESSIONAL ASSUMES NO LIABILITY FOR OMMISIONS DUE TO UNKNOWN OR UNFORESEEN FIELD CONDITIONS AND OR ADDITIONS BASED UPON COMMENTS NOT FORMALLY ACKNOWLEDGED AS REVISION TO THESE PLANS. SEAL: DATE: ' Y May 14, 2017 PROJECT NO: 1012-2017 X y -A DRAWN BY: Ir ' BDK � CHECKED BY: +,cry DESIGN CRITERIA AND CONSTRUCTION TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL RESIDENTIAL © COPYRIGHT 2017 KEHL DESIGN ASSOCIATES, LLC, ALL FLOOR PLANS AND ELEVATIONS ARE FOA X81868 �' SHEET NUMBER: CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. AS AN ALTERNATIVE TO THE INTERNATIONAL BUILDING CODE THE FOLLOWING STANDARDS ARE PERMITTED SUBJECT TO THE PROTECTED UNDER FEDERAL COPYRIGHT LAW. PLANS MAY NOT BE REPRODUCED WITHOUT �'CFESSIONP LIMITATIONS OF THE THIS CODE AND THE LIMITATIONS HEREIN. WHERE ENGINEERED DESIGN IS USED IN CONJUNCTION WITH WRITTEN AUTHORIZATION. ALL PLANS AND DESIGNS ARE THE SOLE PROPERTY OF Al O� THESE STANDARDS, THE DESIGN SHALL COMPLY WITH THE INTERNATIONAL BUILDING CODE. KEHL DESIGN ASSOCIATES, LLC. THE RIGHT TO BUILD ONLY ONE STRUCTURE FROM THESE PLANS IS LICENSED EXCLUSIVELY TO THE BUYER, WITH WRITTEN PROOF OF PURCHASE. 1. Al WOOD FRAMED CONSTRUCTION MANUAL (WFCM) ��`�•d DOB NUMBER: OF 2.AIS1 STANDARD FOR COLD-FORMED STEEL FRAMING - Acceptance of these drawings does not authorize the right to build without the authorization l O PRESCRIPTIVE METHOD FOR ONE-AND TWO FAMILY DWELLINGS (AISIS-230) of local governing agencies, such as Suffolk County Dept. of Health Services, Town Building Departments, DEC, FEMA, etc. Verify all conditions, codes, and requirements with such ©KEHL-DESIGN'ASSOCIATES, LLC 3. ICC STANDARDS ON THE DESIGN AND CONSTRUCTION OF LOG STRUCTURES (ICC400) agencies prior to construction. /X"e",z, GENERAL NOTES: SAFETY NOTES: RESIDENTIAL RENOVATION & CONSTRUCTIONC 0 N T R A C T 0 R N T E S r� 1 . GENERAL: ALL WORK TO BE COMPLETED IN ACCORDANCE WITH THE TOWN OF SOUTHOLD, NEW YORK, 2015 INTERNATIONAL /1� 7 Generalo es: RESIDENTIAL CODE WITH THE 2016 UNIFORM CODE SUPPLEMENT, AND REGULATIONS OF ALL OTHER AGENCIES HAVING JURISDICTION. GENERAL NOTES: woad: � I G 2• FIRE SAFETY: 1. All studs to be SPF 2 or better, and all other structural wood to be Douglas Fir 2 or better. 1 • ALL WORK SHALL CONFORM TO THE REQUIREMENTS OF THE TOWN OF SOUTHOLD, SUFFOLK COUNTY, NEW YORK, 2015 2• All structural wood shall be in accordance with the national design specifications for wood construction - latest edition. A. ALL BUILDING MATERIALS WHICH ARE STORED AT THE SITE OR ANY AREA OF THE BUILDING ARE TO BE STORED IN A �DESIGN ASSOCIATES LLC INTERNATIONAL RESIDENTIAL CODE WITH THE 2016 UNIFORM CODE SUPPLEMENT, FIRE DEPARTMENT RULES AND REGULATIONS, residential & commercial design • consulting • LOCKED AREA. g UTILITY COMPANY REQUIREMENTS, ANO THE BEST TRADE PRACTICES. 3. Nailing schedule shall be in accordance with the specified code. C. ALL MATERIALS TO BE STORED IN AN ORDERLY FASHION 2 BEFORE COMMENCING WORK, THE CONTRACTOR SHALL FILE ALL REQUIRED INSURANCE CERTIFICATES WITH THE DEPARTMENT OF 4. Pre-manufactured trusses. D. ALL FLAMMABLE MATERIALS TO BE KEPT TIGHTLY SEALED IN THEIR RESPECTIVE MANUFACTURER'S CONTAINERS. SUCH PO.Box 1675 phone: (631)433-9084 BUILDINGS, OBTAIN ALL REQUIRED INSURANCE CERTIFICATES WITH THE DEPARTMENT OF BUILDINGS, OBTAIN ALL REQUIRED PERMITS, a. All trusses shall be "shaped" as shown on architectural cross sections. AND PAY ALL FEES REQUIRED BY THE GOVERNING BODY OF THE TOWN OF SOUTHOLD, NEW YORK, AGENCIES b. Trusses shall bear a Boca number and shall be manufactured by a registered manufacturer. MATERIALS ARE TO BE KEPT AWAY FROM HEAT. Southold,New York 11971 E-Mail: ssbn654Qoptonline.net 3. MINOR DETAILS NOT USUALLY SHOWN OR SPECIFIED, BUT REQUIRED FOR PROPER CONSTRUCITON OF ANY PART OF THE WORKLL FLAMMABLE MATERIALS TO BE USED AND STORED IN ADEQUATELY VENTILATED SPACE. 5. Erect and brace trusses in accordance to truss plate institute recommendations. � en�/s l'%%ates,LLC v//rme��> ��oJr/,�uc SHALL BE INCLUDED AS IF THEY WERE INDICATED IN THE DRAWINGS. F. ALL ELECTRICAL POWER TO BE SHUT OFF WHERE THERE ARE EXPOSED CONDUITS. 4• 6. Plywood sheathing. G. ALL ELECTRICAL POWER IN THE CONSTRUCTION AREA TO BE SHUT OFF AFTER WORKING HOURS. THE CONTRACTOR SHALL COORDINATE ALL WORK PROCEDURES WITH THE STIPULATIONS OF LOCAL AUTHORITIES, AND OWNER. OWNERSHIP & USE OF DOCUMENTS: a. All plywood shall be in accordance with the American Plywood Association (APA) specifications. CONTRACTOR, AT ALL TIMES, TO ENSURE THERE IS NO NATURAL GAS LEAKAGE IN THE BUILDINGS, OR ANY FLAMMABLE These drawings and specifications including the 5• b. Plywood sheathing shall be continuous over two or more spans with grain of face plys across supports THE CONTRACTOR SHALL BE RESPONSIBLE FOR THE PROTECTION OF ALL CONDITIONS AND MATERIALS WITHIN THE PROPOSED Y 9 CONSTRUCTION AREA. THE CONTRACTOR SHALL DESIGN AND INSTALL ADEQUATE SHORING AND BRACING FOR ALL STRUCTURAL OR corporation or equal. GAS TO BE USED DURING CONSTRUCTION. ideas, design and arrangements represented therein, are the property of KEHL DESIGN REMOVAL TASKS. THE CONTRACTOR THE CONTRACTOR SHALL HAVE SOLE RESPONSIBILITY FOR ANY DAMAGE OR INJURIES CAUSED BY OR DURING THE EXECUTION OF THE WORK. 7. All sills shall be pressure preservative treated (.4 PSF retention) SYP #2 or better. 3. DUST CONTROL: ASSOCIATES, LLC. No part thereof shall be copied, disclosed to others or used in connection with any work or project other than for which 6• 8. Desi n values: A. DEBRIS, DIRT AND DUST TO BE KEPT TO A MINIMUM AND CONFINED TO THE IMMEDIATE CONSTRUCTION AREA. they have been prepared without written consent. THE CONTRACTOR SHALL LAY OUT HT'S OWN WORK, AND SHALL AND SHALL PROVIDE ALL DIMENSIONS REQUIRED FOR OTHER TRADES: g PLUMBING, ELECTRICALS, ETC. a. Framing Lumber: DF (north) No. 2 or better B. CONTRACTOR TO ISOLATE CONTRUCTION AREA FROM OCCUPIED BUILD NG AREA BY MEANS OF TEMPORARY PARTITIONS OR 7. E = 1,600,000 PSI PLUMBING WORK SHALL BE PERFORMED BY PERSONS LICENSED IN THEIR TRADES, WHO SHALL ARRANGE FOR AND OBTAIN THROUGH Fv = 95 PSI C. HEAVY DROP CLOTHS. THE DEPARTMENT OF BUILDINGS ALL REQUIRED PERMITS, INSPECTIONS AND REQUIRED SIGN OFFS. Fb - 825 PSI DEBRIS, DIRT, AN DUST TO BE CLEANED UP AND CLEARED FROM THE BUILDING SITE PERIODICALLY TO AVOID EXCESSIVE 'PRO ED AS NOTED 8. ELECTRICAL WORK SHALL BE PERFORMED BE PERSONS LICENSED IN THEIR TRADES, WHO SHALL ARRANGE FOR AND OBTAIN 9. Design values: ACCUMULATION. DATE: THROUGH THE BUREAU OF ELECTRICAL CONTROL ALL REQUIRED PERMITS, INSPECTIONS AND REQUIRED SIGN OFFS. a. Laminated Veneer Lumber (LVL): FEE: r,I 9 E = 1,900,000 PSI 4. NOISE AFTER HOURS: D gY 2 1 sn IS t,6X1.1 1FUL THE CONTRACTOR SHALL DO ALL CUTTING, PATCHING, REPAIRING AS REQUIRED TO PERFORM ALL OF THE WORK INDICATED ON THE Fv = 285 PSI NOTIFY 3UlLDING DEPARTMENT AT V i V 765-1802 SAM TO 4 PM FOR THE �+ DRAWINGS, AND ALL OTHER WORK THAT MAY BE REQUIRED TO COMPLETE THE JOB. Fb = 2600 PSI A. CONSTRUCTION OPERATIONS WILL BE CONFINED TO NORMAL WORKING HOURS: 8AM TO 6PM, MONDAY TO FRIDAY, FOLLOW ;IG INSPECTIONS: WITHOUT CE iT1F1CATE--� ALL PIPING AND WIRING SHALL BE REMOVED TO POINT OF CONCEALMENT AND SHALL BE PROPERLY CAPPED OR PLUGGEDI. FOUN ATION - TWO REQUIRED OF OCCUPA CY 1 l• B. EXCEPT LEGAL HOLIDAYS.KEHL DESIGN ASSOCIATES, LLC. NOTE CONTRACTOR MUST OBTAIN WRITTEN PERMISSION FROM ALL AFFECTED PARTIES TO WORK OTHER THAN REGULAR HOURS. FOR )URED CONCRETE . 11 . ALL DIMENSIONS ARE ESTABLISHED FROM THE FINISH LEVEL OF THE FIRST FLOOR. VARIATIONS TO THE HEIGHT OF THE FINISH LEVEL KEHL DESIGN ASSOCIATES LLC, AND THERE ASSOCIATED ENGINEER ARE NOT OVERSEEING THE CONSTRUCTION OF THIS BUILDING. 2. ROUG - FRAMING & PLUMB;- , OF THE FIRST FLOOR ARE TO BE REVIEWED FOR APPROVAL BY THE OWNER AND KEHL DESIGN ASSOCIATES LLC. NO CONSTRUCTION THE USE OF THESE DRAWINGS BY ANY CONTRACTOR, SUBCONTRACTOR, BUILDER, TRADESMAN OR WORKER SHALL INSTIGATE A HOLD 5 CONSTRUCTION OPERATIONS WILL NOT INVOLVE INTERRUPTION OF HEATING, \"ATER, OR ELECTRICAL SERVICES TO THE OWNER. 3• INSUL ION `G ELECTR] 'AL WILL BE ALLOWED TO COMMENCE UNTIL THIS HEIGHT IS APPROVED. HARMLESS AGREEMENT BETWEEN THE DRAWING USER AND KEHL DESIGN ASSOCIATES LLC. CONSTRUCTION WORK WILL BE CONFINED TO THE WORK ISSUED, AND WILL NOT CREATE DUST, DIRT, OR OTHER SUCH 4. FINAL CONaTRUCTION MUST HNSPECT]ON R ;QUIRE® 12. INCONVENIENCES TO THE OTHER NEIGHHBORS. BE CO P'LETE FC' THE CONTRACTOR IN COORDINATING THE WORK WILL REPORT ANY DISCREPANCIES TO THE ENGINEER'S ATTENTION FOR IMMEDIATE THE USER SHALL IN FACT AGREE TO HOLD KEHL DESIGN ASSOCIATES LLC. HARMLESS FOR ANY RESPONSIBILITY IN REGARD TO g C.O. CONSTRUCTION MEANS, METHODS, TECHNIQUES, SEQUENCES OR PROCEDURES AND FOR ANY SAFETY PRECAUTIONS AND PROGRAMS ALL CON RUCTION SHALL MEET THE 1 3, RESOLUTION. IN CONNECTION WITH THE WORK AND FURTHER SHALL HOLD THE ARCHITECT HARMLESS FOR COSTS AND PROBLEMS ARISING FROM 6 SPECIAL SAFETY NOTES REQUIRE. NTS OFTHECODESOFNEW COMPLY WITH ALL JDES OF THE CONTRACTOR WILL COORDINATE THE ROUTING AND PLACEMENT OF ALL UTILITY LINES WITH THIS AND RELATED SITE WORK, AND THE NEGLIGENCE OF THE CONTRACTOR, SUBCONTRACTOR, TRADESMAN, OR WORKMAN, THE. USE OF THESE DRAWINGS ALSO IMPLIES ALL CONTRACTORS AND THEIR REPRESENTATIVES WORKING ON THIS PROJECT SHALL AT ALL TIMES PRIOR AND DURING THE C • NOT RESPONSIBLE: FO MEW 0 VIEW YORK STATE & T WN CODES CONSTRUCTION ERRO HE WILL BE RESPONSIBLE FOR ALL DISCONNECTIONS, RECONNECTIONS, AND STARTUPS. THAT KEHL DESIGN ASSOCIATES LLC. SHALL TAKE NO RESPONSIBILITY FOR THE PLAN USER'S FAILURE TO CARRY OUT THE WORK IN OF THEIR ACTIVITY BE RESPONSIBLE FOR THE SAFETY OF THEIR EMPLOYEES AS WELL AS OTHERS AND IN THE CARE OF THE RSAS REQUIRED AND CO DITIONS OF 14. ACCORDANCE WITH THE DRAWING OR CONTRACT DOCUMENTS. PROPERTY. EACH AS REPRESENTATIVES OF THEIR EMPLOYEES SHALL ASCERTAIN THAT THE CONDITIONS UNDER WHICH THEY WILL BE THE CONTRACTOR WILL COORDINATE THE ROUTING AND PLACEMENT OF ELECTRICAL, PLUMBING, AND HVAC EQUIPMENT WITH REQUIRED TO ACCOMPLISH THEIR WORK ARE SAFE WITHIN GOOD SAFETY PRACTICES AND MEET ALL CONCERNED REGULATIONS OF ARCHITECTURAL FEATURES AND STRUCTURE. ANY CONFLICTS WILL BE BROUGHT TO THE ENGINEER'S ATTENTION FOR IMMEDIATE THE OCCUPATIONAL SAFETY AND HAZARD ACT OR OTHER GOVERNING REGULATIONS. THE BEGINNING OF WORK BY A CONTRACTOR RESOLUTION. NPLA DOCUMENT NOTES SHALL INDICATE SATISFACTION CONCERNING SAFETY AND FULL RESPONSIBILITY FOR ACCIDENTS OR DAMAGE. IF UNSATISFIED, THE W'OKK NOTES: SUi11HULU IU URN=BOARD CONTRACTOR SHALL INDICATE WHATEVER ACTION NECESSARY, OR RENDER SAFETY CONDITIONS FOR LIFE AND PROPERTY AS ARE THESE CONSTRUCTION DOCUMENTS HAVE BEEN PREPARED BASED ON INFORMATION PROVIDED BY OTHERS ALSO, THE CLIENT AGREES, RELATED TO HIS ACTIVITY. IF THE WORK OF OTHER PARTIES OUTSIDE OF THE ORGANIZATION IS UPON INSPECTION FOUND AT AN1PETP,1!, ' TORP;, V,,!ATER RU1110FF SO NTRUSTEES TO THE FULLEST EXTENT OF THE LAW, TO INDEMNIFY AND HOLD KEHL DESIGN ASSOCIATES, LLC. HARMLESS FROM ANY CLAIM, TIME TO BE UNSAFE, HE SHOULD STOP WORK IMMEDIATELY AND NOTIFY THE GENERAL CONTRACTOR, KEHL DESIGN ASSOCIATES LEUU-AS,.. NT TO CFI!"PTER 2�C N.Y.S. r: LIABILITY OR COST INCLUDING REASONABLE ATTORNEY'S FEES AND COSTS OF DEFENSE, FCR THE INJURY OR ECONOMIC LOSS OR OWNER. THE BEGINNING OF WORK SHALL INDICATE SATISFACTION WITH I,ONDITIONS AND ACCEPTANCE OF THESE REQUIREMEI��TH'$ Uj^,f IV CODE. ®T ®R ARISING OR ALLEGEDLY ARISING OUT OF THE PROFESSIONAL SERVICES PROVIDED UNDER THIS AGREEMENT. 7 SINGLE O SINGLE OR AND MULTIPLE-STATION LTI INAACCORDTION ANCE KE AWITH 2015 MS AS VINTERNATONABLOzESIDENNTIADL CODECTORS CONSTRUCTION UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. USE UNLESS CLIMATE, AND GEOGRAPHIC DESIGN CRITERIA NOTE: FIRE BLOCKING IS TO BE INSTALLED TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL CERTIFIED BY A GROUND WIND SEISMIC SUBJECT TO DAMAGE FROM WINTER I ICE SHIELD RESIDENTIAL CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMCI;i. /y SNOW DESIGN FROST LINE DESIGN UNDERLAY- FLOOD WIND EXPOSURE PROFESSIONAL LOAD SPEED (mph) CATEGORY WEATHERING DEPTH TERMITE DECAY TEMP. MENT REQUIRED HAZARDS CATEGORY _ 25 lbs/sgft 130 (mph) C SEVERE 3'-0" MODERATE TO HEAVY SLIGHT TO MODERATE 111 degrees YES 1984/1998 c NOTE: ALL ROOMS MEET OR EXCEED CHAPTER 12 OF THE 2105 INTER":'T TONAL RESIDENTIAL CODE UPDATED WITH THE 2016 ENGINEER UNIFORM CODE SUPPLEMENT STANDARDS FOR THE NATURAL LIGHT AND VENTILATION REQUIREMENTS. DESIGN CRITERIA TABLE 1607.1 - continued MINIMUM UNIFORMLY DISTRIBUTED LIVE LOADS, Lo, RESCRIPTIVE DESIGN AND MINIMUM CONCENTRATED LIVE LOADS 9 ALL STRUCTURES TO CONFORM WITH THE 2015 INTERNAIDNAL RESIDENTIAL CODE P ----- UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT 1 OCCUPANCY OR USE UNIFORM CONCENTRATED SECTION 1609 WIND LOADS NOTE: ALL ROOMS MEET OR EXCEED CHAPTER 10 OF THE 2105 INTE;;\,:, ,_i!ONAL RESIDENTIAL CODE UPDATED WITH THE 2016 USES(s) AND OCCUPANCY CLA5SIFICATION(s) 25. RESIDENTIAL ONE AND - TWO FAMILY DWELLINGS (psf) (pounds) UNIFORM CODE SUPPLEMENT STANDARDS FOR EMERGENCY ESCAPE 'AND RESCUE REQUIREMENTS. 1609.1.2 PROTECTION OF OPENINGS USE OCCUPANCY UNINHABITABLE .,�TIICS V'.IHOUT STORAGE 10 IN WIND-BORNE DEBRIS REGIONS, GLAZING IN BUILDINGS SFaLL BE IMPACT RESISTANT OR PROTECTECTED WITH AN IMPACT RESISTANT COVERING LEETING THE REQUIREMENTS UNINHABITABLE ATTICS WITH LIMITED STORAGE i. J' k 20 OF AN APPROVED IMPACT RESISTANT STANDARD OR ASTM : 1996 AND ASTM 1886 RESIDENTIAL R-3 (SINGLE FAMILY) REFERENCED HEREIN AS FOLLOWS; NAILING NOTES: ALL MATERIAL TO BE NAILED IN ACCORDANCE WITH THE NAILING SCHEDI'LE OF CHAPTER 23 OF THE 2015 INTERNATIONAL TYPE OF CONSTRUCTION (CHAPTER 6) HABITABLE ATTICS AND SLEEPING AREAS k 30 REQUIREMENTS OF THE LARGE MISSLE T OPENINGS LOCATED WITHIN 3EST OF ASTM E 195.FEET (9144mm) 0 GRADE SHALL MEET THE RESIDENTIAL CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. REQUIT TYPE GROUP BALCONIES (EXTERIOR) AND DECKS (e) 40 2. GLAZED OPENINGS LOCATED MORE THAN 30 FEET (9144nm) ABOVE GRADE SHALL MEET THE PROVISIONS OF THE SMALL MISSLE TEST OF ASTt E 1996. V IB ALL OTHER AREAS 40 EXCEPTION: NO SUBSTITUTIONS STAIRS AND EXITS 40 300f 1, WOOD STRUCTURAL PANELS WITH A MINIMUM THICKNESSOF 3/6 INCH (11.1mm) AND All framinghardware shown On these plans, PROJECT: HEIGHT AND FIRE AREA ONE - AND TWO- FAMILY DWELLINGS MAXIMUM PANAL SPAN OF 8 FEET (2438mm) SHALL BE PRMITTED FOR OPENING PROTECTION IN BUILDINGS WITH A MEAN ROOF HEIGHT OF .3 FEET (10,058mm) OR unless otherwise indicated, is Simpson Strong-Tie. HEIGHT FIRE AREA FOR SI: 1 INCH = 25.4rnm, 1 SQUARE INCH = 645.16 mm2, 1 SQUARE FOOT = 0.0929 m2 LESS THAT ARE CLASSIFIED AS A GROUP R-3 OR R-4 OC;UPANCY. PANELS SHALL No substitutions are approved or authorized. 1 POUND PER SQUARE FOOT = 0.0479 kN/m? 1 POUND = 0.004448 kN, BE PRECUT SO THAT THEY SHALL BE ATTACHED TO FRAMIIG SURROUNDING THE HEIGHT, BUILDING. 1 POUND PER CUBIC FOOT = 16 kg/M3 OPENING CONTAINING THE PRODUCT WITH THE GLAZED OPOING. PANELS SHALL BE Due to the relationships of framing hardware t0 THE VERTICAL DISTANCE FROM GRADIE PREDRILLED AS REQUIRED FOR THE ANCHORAGE METHOD AID SHALL BE SECURED �� PLANE TO THE AVERAGE HEIGHT OF e. THE CONCENTRATED WHEEL LOAD SHALL BE APPLIED ON AN AREA 4.5 INCHES BY WITH THE ATTACHMENT HARDWARE PROVIDED. ATTACHMENTSHALL BE DESIGNED TO the other components of the structure, any framing UNLIMITED AREA COMPONENTS AND CLADDING LOADS DETERMINES IN ACCORDANCE WITH THE HIGHEST ROOF SURFACE 3 STORY 4.5 INCHES. RESIST THE COMhardware substitutions WIII render these plans THE PROVISIONS OF ASCE-7, WITH CORRISION-RESISTANT iTTACHMENT HARDWARE =13'-3Y2" AS PER SECTION R202 OF THE AS PER TABLE 506.2null and void, and WIII result in the installer/contractor INTERNATIONAL RESIDENTIAL CODE I. UNINHABITABLE ATTICS WITHOUT STORAGE ARE THOSE WHERE THE MAXIMUM CLEAR HEIGHT PROVIDED AND ANCHORS PERMANENTLY INSTALLED ON THEBUILDING IS PERMITTED GARAGE UPDATED WITH THE 2016 BETWEEN JOISTS AND RAFTERS IS LESS THAN 42 INCHES, OR WHERE THERE FOR BUILDINGS WITH A MEAD ROOF HEIGHT OF 45 FEET (1),716mm) OR LESS WHERE assuming responsibility for the design and INTERNATIONAL CODE SUPPLEMENT, ARE NOT TWO OR MORE ADJACENT TRUSSES WITH WEB CONFIGURATION CAPABLE OF Vasd DETERMINED IN ACCORDANCE WITH SECTION 1609.3.1 DOES NOT EXCEED 140 MPH performance of the entire system. ACCOMMODATING AN ASSUMED RECTANGLE 42 INCHES IN HEIGHT BY 24 INCHES IN WIDTH, (63 m/s). RENO AT10 OR GREATER, WITHIN THE PLANE OF THE TRUSSES.THIS LIVE LOAD NEED NOT BE ASSUMED TO ACT CONCURRENTLY WITH ANY OTHER LIVE LOAD REQUIREMENTS. 2. GLAZING IN RISK CATEGORY I BUILDINGS, INCLUDING GRENHOUSES THAT ARE TOTAL HEIGHT FROM RIDGE TO GRADE 17'-7" OCCUPIED FOR GROWING PLANTS ON A PRODUCTION OR RSEARCH BASIS, WITHOUT J. UNINHABITABLE ATTICS WITH STORAGE ARE THOSE WHERE THE CLEAR HEIGHT BETWEEN PUBLIC ACCESS SHALL BE PERMITTED TO BE UNPROTECTEE DESIGN CRITERIA AND CONSTRUCTION TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL RESIDENTIAL 1675 PINE NECK RD., THE JOISTS AND RAFTERS IS 42 INCHES OR GREATER, OR WHERE THERE ARE TWO OR MORE ADJACENT TRUSSES WITH WEB CONFIGURATIONS CAPABLE OF ACCOMMODATING AN 3. GLAZING IN RISK CATEGORY ll, III OR IV BUILDINGS LOC/FED OVER 60 FEET CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. LUMBER SPECIES AND GRADE ASSUMED RECTANGLE 42 INCHES IN HEIGHT BY 24 INCHES IN WIDTH, OR GREATER, WITHIN (18,288mm) ABOVE THE GROUND AND OVER 30 FEET (9141mm) ABOVE AGGREGATE AS AN ALTERNATIVE TO THE INTERNATIONAL BUILDING CODE THE FOLLOWING STANDARDS ARE PERMITTED SUBJECT TO THE SOUTHOLD, NEW YORK THE PLANE OF THE TRUSS SURFACE ROOFS LOCATED WITHIN 1,500 FEET (458m) OF "IE BUILDING SHALL BE LIMITATIONS OF THE THIS CODE AND THE LIMITATIONS HEREIN. WHERE ENGINEERED DESIGN IS USED IN CONJUNCTION WITH PERMITTED To BE UNPROTECTED. THESE STANDARDS, THE DESIGN SHALL COMPLY WITH THE INTERNATIONAL BUILDING CODE. ALL HOUSE FRAMING MATERIAL DOUGLAS FIR - LARCH #2 AND BETTER THE LIVE LOAD NEED ONLY BE APPLIED TO THOSE PORTIONS OF THE JOISTS OR TRUSS BOTTOM CHORDS WHERE ALL OF THE FOLLOWING CONDITIONS ARE MET: DRAWING TITLE: ALL EXT. DECK FRAMING MATERIAL CCA NC PINE #2 AND BETTER 1. THE ATTIC AREA IS ACCESSIBLE FROM AN OPENING NOT LESS THAN 20 INCHES IN WIDTH 1. AF&PA WOOD FRAMED CONSTRUCTION MANUAL (WFCM) BY 30 INCHES IN LENGTH THAT IS LOCATED WHERE THE CLEAR HEIGHT IN THE ATTIC IS NOT LESS THAN 30 INCHES 2.AIS1 STANDARD FOR COLD-FORMED STEEL FRAMING - GENERAL NOTES ii.) THE SLOPES of THE JOISTS OR TRUSS BOTTOM CHORDS ARE NOT GREATER THAN TABLE 1609.1.2 WIND-BORNE DEBRIS PROTECTION FASTENING SCHEDULE FOR WOOD PRESCRIPTIVE METHOD FOR ONE-AND TWO FAMILY DWELLINGS (AISIS-230) 2 INCHES VERTICAL TO 12 UNITS HORIZONTAL. STRUCTUAL PANELS o,b,c,d THE REMAINING PORTIONS OF THE JOISTS OR TRUSS BOTTOM CHORDS SHALL BE 3. ICC STANDARDS ON THE DESIGN AND CONSTRUCTION OF LOG STRUCTURES (ICC400) DESIGNED FOR A UNIFORMLY DISTRIBUTED CONCURRENT LIVE LOAD OF NOT LESS FASTENER SFACING (INCHES) _ NOTES: AREAS OF STRUCTURE THAN 10 POUNDS PER SQUARE FOOT. FASTENER TYPEPANEL SPAN 4 FEE'< PANEL 6 FEET < PANEL THESE PLANS ARE AN INSTRUMENT OF THE SERVICE AND ARE THE PROPERTY OF THE EX. CRAWL SPACE NA K. ATTIC SPACES SERVERED BY STAIRWAYS OTHER THAN PULL-DOWN SHALL BE DESIGNED < 4 FEET SPAN,, 6 FEET SPAN < 8 FEET DESIGN PROFESSIONAL WHOSE SEAL IS AFFIXED HERETO. INFRINGEMENTS WILL BE NEW CRAWL SPACE NA TO SUPPORT THE MINIMUM LIVE LOAD SPECIFIED FOR HABITABLE ATTICS AND SLEEPING PROSECUTED TO THE FULLEST EXTENT OF THE LAW. CONTRACTORS SHALL VERIFY ALL EX. BASEMENT NA ROOMS. NO. 8 WOOD SCREW- FIELD CONDITIONS AND DIMENSIONS AND BE SOLEY RESPONSIBLE FOR FIELD FIT. THE EX. FIRST FLOOR NA BASED ANCHOR WITH 2 16 10 8 DESIGN PROFFESSIONAL ASSUMES NO LIABILITY FOR OMMISIONS DUE TO UNKNOWN OR NEW FIRST FLOOR NA INCH EMBEDMENT LENGTH UNFORESEEN FIELD CONDITIONS AND OR ADDITIONS BASED UPON COMMENTS NOT NOTE: ALL CONCRETE SHALL CONFORM TO THE STANDARDS AS SET FORTH IN CHAPTER 19 CONCRETE NO. 10 WOOD SCREW- FORMALLY ACKNOWLEDGED AS REVISION TO THESE PLANS. EX. SECOND FLOOR NA OF THE 2015 INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 INTERNATIONAL CODE SUPPLEMENT. BASED ANCHOR WITH 2 16 12 9 AL: DATE: NEW SECOND FLOOR NA INCH EMBEDMENT LENGTH NEW BALCONY NA - May 14, 2017 Y4 INCH DIAMETER LAGSCREW- OF NE LOFT NA BASED ANCHOR WITH 2 16 12 9 '(� wY PROJECT NO: ATTIC Hou SE a NA PRESCRIPTIVE DESIGN CRITERIA REQUIREMENTS AS PER 2015 INTERNATIONAL INCH EMBEDMENT LENGTH (J COPYRIGHT 2017 KEHL DESIGN ASSOCIATES, LLC. Cl'�P 0. e °�' ATTIC Hou SE b NA RESIDENTIAL CODE UPDATED WITH THE 2016 INTERNATIONAL CODE SUPPLEMENT. ALL FLOOR PLANS AND ELEVATIONS ARE PROTECTED 0�� 'y�� DRAWN I BY-2017 GARAGE NA UNDER FEDERAL COPYRIGHT LAW. ATTIC (GARAGE)(a) PLANS MAY NOT BE REPRODUCED WITHOUT NA NOTE: THE BUILDING THERMAL ENVELOPE FOR THIS BUILDING MEETS OR EXCEEDS THE REQUIREMENTS * * BDK OF TABLE N1102.1 BASED ON THE CLIMATE ZONE SPECIFIED IN SECTION N1101.7 OF THE 2015 FOR SI: 1 inch = 25.4 mm, 1 FOOT = 304.8 mm, 1 pound = 4.418 N, 1 mile per hour = 0.447 m/s BONUS ROOM NA WRITTEN AUTHORIZATION. r_ ,,,._�_ � CHECKED BY: INTERNATIONAL RESIDENTIAL CODE UPDATED WITH THE 2016 INTERNATIONAL CODE SUPPLEMENT. n W SCREENED PORCHES NA a. This table is based on 140 mph wind speed and a 45-foot mean roof height. ALL PLANS AND DESIGNS ARE THE SOLE PROPERTY OF �2 _f *� �' (SEE PAGE A102 FOR DETAILS). S SHEET NUMBER: SUNROOM NA b. Fasteners shall be installed at opposing ends of the wood structural panel. KEHL DESIGN ASSOCIATES, LLC. Fp 08186a � NEW DECK NA Fasteners shall be located a minimum of 1 inch fron the edge of the panel. THE RIGHT TO BUILD ONLY ONE STRUCTURE FROM THESE A�O�ESSIONP�� COVERED PORCHES NA c. Anchors shall penetrate through the exterior wall covering with on embedment PLANS IS LICENSED EXCLUSIVELY TO THE BUYER, WITH WRITTEN COVERED ENTRANCE NA length of 2 inches minimum into the building frame. Fasteners shall be located PROOF OF PURCHASE. G1 POOL HOUSE AREA 285 SQ FT a minimum of 2Y2 inches from the edge of concrete block or concrete. , panel are attached to masonry or masonry stuccothey shall be attached Acceptance of these drawings does not authorize the right to build without ACCESSORY STRUCTURE NA d. Where using vibration resistent anchors having a minimum ultimate withdrawal capacity the authorization of local governing agencies, such as Suffolk County Dept. DOES NUMBER: OF of 1,500 pounds. of Health Services, Town Building Departments, DEC, FEMA, etc. Verify all conditions, codes, and requirements with such agencies prior to (a) WITHOUT STORAGE construction. © KEMDESIGN-ASSOCIATES,uc (b) WITH STORAGE ........... SIMPSON STRONG— TIE CONNECTORS SPECIFIED FOR CONSTRUCTION 11", � ""�/ I/1, PIK '7 USE A MINIMUM OF TWO 8d NAILS THIS "v/. ..... DOUG—F K LAKUH SO. PINE UPLIFT MTS20 LTS20 % PROVIDE (1) HGA10KT ON I' FASTENERS ALLOWABLE LOADS '.2 LOAD SIDE OF TRUSS. 0 SIDE OF CEILING JOIST MODEL CA UPLIFT UPLIFT LATERAL WI TH CODE TOTAL FOUR AND ON SIDE OF RAFTER (133/160) 8dx18d NAILS oo NO. TO S/ To TO AVG NAILS INTO TRUSS. RAFTER PLATES STUDS ULT. (133) (160) F, F2 (133& STU o. TRUSS 1 rin) ;r:r SIMPSON NOTE: REFER TO SIMPSON WOOD CONSTRUCTION �r TAKE—UP WASHER H7 16 4-8d 2-8d 8-8d 2991 930 985 400 — 5, 44 CONNECTORS MANUAL FOR ALL FOOT NOTES AND KE PROPER INSTALLATION PROCEDURES KEHL DESIGN ASSOCIATES Lw residential & commercial design * consulting 950 H6 16 8-8d 8-8d 3983 915 11 650 5, 44 DIMENSIONS FASTENERS ALLOWABLE UPLIFT LOADS (133) ALLOWABLE UPLIFT LOADS (133) ARTo J-.12 (TOTAL) TWO AVG LENGTH OF BOLT IN WOOD MEMBER LENGTH OF BOLT IN WOOD MEMBER CODE Eld NAILS PO,.Box 1675 phone: (631)433-K84 MODEL CA • ULT. LFTA 2 LFTA REF. INTO NO. MAX. CLEAR L CITY DIA 2- 2�" 3" 311, 2" 21" 3" 3 1" PLATES Southold,New Yo� 11971 E-Mail: ssbn654@optoriine,net 'T WIDTHSPAN F EIGHT-" 8d NAILS LFTA 16 205 INTO SP 4 Kehl Design Associates,LLC o formerly D A K Associates,LLC 2J" 17" 38J"16-10d 4200 STUD D" DOUG—FIR LARCH SO. PINE OWNERSHIP & USE OF UC!MENTS: FASTENERS 2 ALLOWABLE UPLIFT LOADS3 oo MODEL L AVG 10d 10d x 112" CODE These drawings and specifications including the NO. ULT. — REF. LFTA ideas, design and arrangements represented 10d 10d x 1 (1.33 / 160) (133) (160) LSTA21 therein, are the property of KEHL DESIGN o ASSOCIATES, LLC. No part thereof shall be Simpson Strong—Tie copied, disclosed to others or used in connection MT51 6 16 14-10d 14-10d x 11" 3116 1000 840 l000 3, 41, 128 HGA10 with any work or project other than for which MTS20 20 14-10d 14-10d x 1 3116 1000 840 1000 3, 41, 128 ARTJ-xl 2 DETAIL "K11 they have been prepared without written consent. LST20 20 12-10d 12-10d x 1�" 2383 775 720 720 3, 41 GN W— DETAIL "E COUPLER NUT STU " " 8 5 DOUG—FIR—LARCH/ Equal number of SIMPSON TYPE OF DIRECTION SO. PINE LOADS REF.CODE specified nails in TAKE—UP WASHER ALLOWABLE MODEL CONNEC— OF LOAD FLOOR ROOF (133/ NO. TION (100) (125) 160 1 each end Simpson Strong—Tie G 515 645 670 CS16 i ART5"x12 LTP4 5 J 515 645 670 6, 39, 97 DETAIL "H11 8 H 515 645 1 670 MATERIAL DIMENSIONS FASTENERS ALLOWABLE TENSION LOADS""'(DF/SP) (133) HOLDOWN HOLDOWN ARTR-x12 EC 11 IN DEFLECTION CODE STUD LENGTH OF BOLT 2,3 DEFLECTION HIGHEST REF. AVG AT HIGHEST AT MODEL MACHINE IN VERTICAL WOOD MEMBER ALLOWABLE ALLOWABLE NO. BASE BODY B4 SB ANCHOR 9OLTS ULT. CA H W H B so CL DIA5-8 — DESIGN LOAD DESIGN CA QTY WHEN RAISED OFF !1,:10 14" 1 2" 1 22"' 1 3" 1 3�" 1 5,1 LOA THE SILL PLATEo 0 HD2A 16 12 4�" 1 2"' 1 2'" 8. 2�" 9" 1 12150 1555 2055 2565 2775 2775 2760 0.058 0.077 2, 43, 82 0 o MODEL DIMENSIONS FASTENERS ALLOWABLE UPLIFT LOADS NO. AVG OF (160) SP CODE 1 PLATE ULT. —( W L STUD 13,3)2 REF. SP4 3J" 71" 6-10d x 11" — 2917 735 685 7, 40, 127 MODEL DIMENSIONS FASTENERS (TOTAL) ALLOWABLE TENSION LOADS CODE NO. CA NAILS 100 1 (133) (160) REF. LSTA21 20 1 21 —10d 905 1 1205 1295 7, 40, 90 000 WORK NOTES: MODEL DIMENSIONS FASTENERS (TOTAL) ALLOWABLE TENSION LOADS CODE o NO. GA W L NAILS FLOOR, (133) (160) REF. SStrong—Tie CiOD impson 1 24 _J_ ISTU 5 MSTA24 ,, 18 18-10d 1 1025 1 13701640 7, 40, 90 8 MODEL TOTAL FASTENERS— ALLOWABLE TENSION LOADS NAIL CODE LUS46 SIMPSON NO. L END SPACING REF. HD2A TAKE—UP WASHER NOT FOR (LENGTH L CA CUT LENGTH (TOTAL) (1 00) (133 / 16 0)2 oc. OF ROLL) (IN A ROW) NOTE: ALL HANGERS TO BE USED ON THIS PROJECT Simpson Strong—Tie CS16 150' 14 11 16 CLEAR SPAN +31 28-8d 1235 1650 2J" 1 7, 40, 90 ARE TO BE TOP MOUNTED UNLESS OTHERWISE H6 CONSTRUCTION DIMENSIONS FASTENERS FIR LARCH/SO. PIN AIIQWABLE LOADS NOTED. FAILURE TO COMPLY WITH ALL NOTES MODEL — DN. DOUG ON THIS PLAN WITHOUT WRITTEN AUTHORIZATION NO. GA HEADERS AVG UPLIFT IFLOOR (100) SNOW (115)1 ROOF (125) CODE USE UNLESS W H 8 10d 16d JOISTS ULT. (133)(160) 10d I 16d 10d I 16d I 10d I 16d REF. BY A LICENSE PROFESSIONAL ENGINEER, PLACES DETAIL 11P LUS46 18 3 " 4J" 2 — 4-16d 4-16d 6076 1140 11160 1-11000 —1 1150 1-1125 7, 40, 127 ALL LIABILITIES ON THE CONTRACTOR. DETAIL IIIIII, C N W— RTI FIED BY A HUS210-2 14 3J" 94" 2 — 8-16d 8-16d 6076 1755 121051—11650 —1 1900 1-1 2065 1, 36, 84, 122 ARTJ'x12 COUPLER NUT PROFESSIONAL DOUG—FIR LARCH/So. PINE ALLOWABLE LOADS 1-STU FASTENERS UPLIFT LATERAL CODE MODEL AVG UPLIFT (133/160) REF. NO. CA ULT. SIMPSON ENGINEER TAKE—UP WASHER TO RAFTERSI TO PLATES I TO STUDS (133) T(160) F, F2 160 HGAIOKT 14 4—SDS4"x14" 4—SDSJ".3" 1523 435 1 435 1165 1 940 USE A MINIMUM OF SP TWO 8d NAILS THIS SIDE OF TRUSS. CNW— COUPLER NUT TOTAL FOUR • S P 4 SE A MINIMUM OF 8d NAILS TWO 8d NAILS THIS INTO TRUSS. SIDE OF TRUSS. MTS16 STU g*— SIMPSON MTS16 SIMPSON LSTA21 ANCHOR BOLTS TOTAL FOUR 02A TAKE—UP WASHER 8d NAILS LSTA21 Strong—Tie INTO TRUSS. HUS210-2 PROJECT: TWO o F1 8 TO AILS IN E I TZ M A IV PLATS A M A GHT_�, 8d NAILS G1k1XPkGE E TWO 8d NAILS INTO INTO STUD Simpson Strong—Tie PLATES DETAIL "At' H7 8d NAILS NOVATIO' n EIGHT-*' REN INTO DETAIL "D11 DETAIL 11G11 DETAIL flit? STUD Sitmpson Strong—Tie H7 Simpson Strong—Tie ROD SYSTEM LFTA DETAIL "Ll" 1675 PINE NECK RD., LFTA LFTA DRAINAGE & ROOF RUNOFF NOTE AND CALCULATIONS NO SUBSTITUTIONS SOUTHOLD, NEW YORK BP RUN OFF FACTORS ASPHALT = 1.0 , ROOF = 1.0 Ridge Strapping All framing hardware shown on these plans, unless otherwise indicated, is Simpson Strong—Tie. 'o V-0" DEEP POOL x 4' DIA ==12.58 cu.ft. per vertical ft. LSTA30 No substitutions are approved or authorized. DRAWING TITLE: V-0" DEEP POOL x 6' DIA. = 22.3 cu.ft. per vertical ft. Due to the relationships of framing hardware to the other components of the structure, any framing SIMPSON WINDLOAD l'—O" DEEP POOL x 8' DIA. = 42.25 cu.ft, per vertical ft. hardware substitutions will render these plans null and void, and will result in the installer/contractor 1'-0" DEEP POOL x 10' DIA. = 68.4 cu.ft. per vertical ft. assuming responsibility for the design and performance of the entire system. CHARTS & CALCULATIONS ROOF AREA = 817 sq/ft STRONG - TIE DETAILS & ROOF DRAINAGE V A x R x c LTP4 A = 817 sq/ft CALCULATIONS AND LTP4 R = 2" RAINFALL = .17 ft PLUMBING RISER DIAGRAM LTP4 C = COEFF. = 1.0 NOTES: DETAIL 11C11 V 817 x 1 x .166667 = 136.17 c.f. THESE PLANS ARE AN INSTRUMENT OF THE SERVICE AND ARE THE PROPERTY OF THE DESIGN PROFESSIONAL WHOSE SEAL IS AFFIXED HERETO. INFRINGEMENTS WILL BE Simpson Strong—Tie PROSECUTED TO THE FULLEST EXTENT OF THE LAW. CONTRACTORS SHALL VERIFY ALL 137 / 42.25 VERTICAL FT. / FT = 3.24 V.F. FIELD CONDITIONS AND DIMENSIONS AND BE SOLEY RESPONSIBLE FOR FIELD FIT. THE Floor—to—Floor Connections DESIGN PROFFESSIONAL ASSUMES NO LIABILITY FOR OMMISIONS DUE TO UIIKNOWN OR USE (1) 8' DIA. POOL 4'-0" DEEP - 4 V.F. UNFORESEEN FIELD CONDITIONS AND OR ADDITIONS BASED UPON COMMENTS NOT Ridge Strapping FORMALLY ACKNOWLEDGED AS REVISION TO THESE PLANS. POOLS TO BE PLACED ON OPPOSITE SIDE OF Detail SEAL: DATE: LTP4 DETAIL "B" HOUSE AND/OR LEADERS TO BE PIPED TO May 14, 2017 OF NEW LTP4 POOLS (112 OF THE ROOF TO DRAIN TO EACH 0 PROJECT NO: Simpson Strong—Tie QV POOL, MAINTAIN MIN. OF 20 FEET FROM SEPTIC 0. 1012-2017 SYSTEM AND MIN. OF 10 FEET FROM FOUNDATION). ;�)7A DRAWN BY: Floor—to—Floor Connections 'A BDK CHECKED BY: DESIGN CRITERIA AND CONSTRUCTION TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL RESIDENTIAL ALL COVERS TO BE TRAFFIC BEARING IF LOCATED IN AREA (.,Z CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. WHERE TRAFFIC IS TO BE PRESENT. 08"1 186b SHEET NUMBER: AS AN ALTERNATIVE TO THE INTERNATIONAL BUILDING CODE THE FOLLOWING STANDARDS ARE PERMITTED SUBJECT TO THE LIMITATIONS OF THE THIS CODE AND THE LIMITATIONS HEREIN. WHERE ENGINEERED DESIGN IS USED IN CONJUNCTION WITH IF MULTIPLE POOL SYSTEMS ARE USED ESS'i THESE STANDARDS, THE DESIGN SHALL COMPLY WITH THE INTERNATIONAL BUILDING CODE. ON EACH SIDE OF THE HOUSE THEN G2. 1. AF&PA WOOD FRAMED CONSTRUCTION MANUAL (WFCM) THEY ARE TO BE CROSS-CONNECTED 17 DOB NUMBER: OF 2.AISI STANDARD FOR COLD—FORMED STEEL FRAMING — NOTE: THIS IS A PRE-EXISTING ACCESSORY STRUCTURE PRESCRIPTIVE METHOD FOR ONE—AND TWO FAMILY DWELLINGS (AISIS-230) THEREFORE IT IS NOT INCREASING THE RUN-OFF JAMES J DEERKOSKI, PE 3. ICC STANDARDS ON THE DESIGN AND CONSTRUCTION OF LOG STRUCTURES (ICC400) ON THE PREMISES. © MIDESIGN-A&SOMTE. uc 05 "` -/ PRESCRIPTIVE DESIGN CRITERIA REQUIREMENTS AS PER 2015 INTERNATIONAL RESIDENTIAL CODE N1102.1.2 (R402.1.2) Insulation and Fenestration Criteria KEHL DESIGN ASSOCIATES LLC residential & commercial design . consultingThe building thermal envelope shall meet the requirements of Table N1102.1 based on the climate zone B B specified in section N1101.7 y N 1102.1.2 (R402.1.2) INSULATION AND FENESTRATION REQUIREMENTS BY COMPONENTa Po.Box 1675 phone: (631)433-9084 102 102 N1/ b Southold,New York 11971 E-Mail: ssbn654 ftfonGne,net CLIMATE FENESTRATION SKYLIGHTGLAZED CEILING WOOD MASS FLOOR BASEMENTc SLAB d CRAWL ZONE U-FACTORb U-FACTOR FENESTRATION RNALUE FRAME WALL WALL R-VALUE WALL R-VALUE SPACE 'n SWC R-VALUE R-VALUES R-VALUE &DEPTH R-VALUE Kehl Design Associates,LLC®form 7l edy D A K /Associafes SLC 77 /77/77 4EXCEPT OWNERSHIP & USE OF DOCUMENTS: MARINE 0.35 0.55 0.40 49 20OR13+5h 8/13 19 10/13 10,21 10/13 These drawings and specifications including the ideas, design and arrangements represented \ (' 1 For SI: = 1 foot = 304.8 mm therein, are the property of KEHL DESIGN _ �_ _ ASSOCIATES, LLC. No part thereof shall be ❑� -- a. R-values are minimums. U-factors and SHGC are maximums. When Insulation is installed in a cavity which is less copied, disclosed to others or used in connection - --- l i - \J I Y p 1 than the label or design thickness of the insulation, the installed R-value of the insulation shall not be less than the with any work or project other than for which R-value specified in the table. they have been prepared without written consent. t�1 b. The fenestration U-factor column excludes skylights. The SHGC column applies to all glazed fenestration. EXCEPTION: Skylights may be excluded from glazed fenestration SHGC requirements in Climate Zones 1 through 3 where REV: the SHGC for such skylights does not exceed 0.30. A C_ A A A c. "15/19" means R-15 continuous insulation on the interior or exterior of the home or R-19 cavity insulation at the / ® interior of the basement wall. "15/19" shall be permitted to be met with R-13 cavity insulation on the interior of the 102 10 102 102 basement wall plus R-5 continuous insulation on the interior or exterior of the home. "10/13" means R-10 continuous insulation on the interior or exterior of the home or R-13 cavity insulation at the interior of the basement wall. d. R-5 shall be added to the required slab edge R-values for heated slabs. Insulation depth shall be the depth of the Provide New Foundation and 8" Thick Footing as footing or 2 feet, whichever is less in Zones 1 through 3 for heated slabs. Necessary 3'-0" Below Final Grade. e. There are no SHGC requirements in the Marine Zone. — 4 f. Basement wall insulation is not required in warm-humid locations as defined by Figure N1110.10 and Table N1101.10 g. Or insulation sufficient to fill the framing cavity, R-19 minimum. ❑ 0 0 h. The first value is cavity insulation, the second value is continuous insulation, so "13+5" means R-13 cavity insulation plus R-5 continuous insulation. 5" 1 1'-8 „ _g5„ 2'-71„ 7'-25„ 11'-84 --6'-9 2'-7� , i. The second R-value applies when more than half the insulation is on the interior of the mass wall. 7'-2 4 8 2 8 4 2 28'-42" 28'-42" EXISTING GARAGE FOUNDATION- EXISTING GARAGE FLOOR PLAN WORK NOTES: SCALE: 1/4"= 1'-0" SCALE: 1/4"=1'-0" B B 102 102 B NOT FOR ; Pool� 102 Poi CONSTRUCTION Heater Heater B B _ USE UNLESS 102 - 2 '.� CERTIFIED BY A 102 ,`� .•,t,� Pool �° Pool tv Filter { (� Filter PROFESSIONAL — 28'-42 PICA16--„ C Sher eod Shower Head � ENGINEER A21v A21v Shelf t -- — Closet N 3'-10' Closet Pit Closet Pit N 868DD I Closet 7' 1„ 2868DD 2 2068 2 2068 Furred-out New 26 ACQ Floor Joists - 16"oc. Wall 2" 1, 10""/ 0000 00 11' 2�” o Linen �� CID X A. 1 v = I w � o ALL EXTERIOR WINDOWS o �� > o j PROJECT: C AND DOORS TO BE SET 2 AT 6'-1012 w / c ,o New 26 ACQ floor Joists - 16'oc. __ N = _o LLJ J f > W EITZi 2 GARAGE -- 7-7- - CL 0 N 2x4 built-up Girder cv N Furred-out 'N � Y Q 2x4 built-up Girder 2x4 built-up Girder 1 Y _ REi ®!� TI®IM Wall 2" � N � N I' N (/7 �' O� New 26 ACQ Floor Joists - 16"oc. �' 0 0. — — — ` — J ALL EXTERIOR WINDOWS N - N A -.__-, , A A � � _ x �- - - - - - - -- � A A � � � r - - - -- - - - - - - � A 1fi75 PINE NEC�C RD., AND DOORS TO BE SET 102 w00 w °° SOUTI-IOLD, NEW YORE 102 102 102 co AT 6'-1 V o N 102 102 co C) N M N v N W H X —102„ = N _ � LLJN I w DRAWING TITLE: Dining New 2x6 ACQ Floor Joists - 16"oc. vi Furred-out w LLJI Table z t Wall m i AS NOTED 2" CD CD 11'-12" B I CAB BENCH STORAGE SEAT B I CAB I 1 CAB 1 -3/-1 CAB B/I SHEL 32"x 9Y"LVL Header /1 SHELF I B SHEL BENCH STORAG=SEAT /ISHE LL7New _ New Furred-put," TW2842 TW2842 Furred-out NEW 9080 GARAGE DOOR 2668 TW2$41 �'`�fW284 . NEW 9080 GARAGE DOOR 668 NOTES: Wall 2Wall 2" THESE PLANS ARE AN INSTRUMENT OF THE SERVICE AND ARE THE PROPERTY OF THE r DESIGN PROFESSIONAL WHOSE SEAL IS AFFIXED HERETO. INFRINGEMENTS WILL BE PROSECUTED TO THE FULLEST EXTENT OF THE LAW. CONTRACTORS SHALL VERIFY ALL 7 -2g 1 1 -84 -9g 2 -72 -1 14 -1 14 FIELD CONDITIONS AND DIMENSIONS AND BE SOLEY RESPONSIBLE FOR FIELD FIT. THE 1 1'-102"B � � DESIGN PROFFESSIONAL ASSUMES NO LIABILITY FOR OMMISIONS DUE TO UNKNOWN OR 28'-42" 102UNFORESEEN FIELD CONDITIONS AND OR ADDITIONS BASED UPON COMMENTS NOT FORMALLY ACKNOWLEDGED AS REVISION TO THESE PLANS. B ' SEAL: DATE: B 102 May 14, 2017 r OF NEW PROJECT N O: O. Bq�QC1012- 2017102r NEW GARAGE FUR � ITURE PLANNEW GARAGE FLODR PLAN DRAWN BY: SCALE: 1/4"= T-O" * * BDK SCALE: 1/4"=1'-0" CHECKED BY: NEVAGARAGE FOUNDATION DESIGN CRITERIA ITR CONSTRUCTION TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL RESIDENTIAL �` �•R j.aT J CODE UPDATED WITHI THE 2016 UNIFORM CODE SUPPLEMENT. © COPYRIGHT 2017 KEHL DESIGN ASSOCIATES, LLC. ALL FLOOR PLANS AND ELEVATIONS ARE �i9 v� SHEET NUMBER: AS AN ALTERNATIVE TO THE INTERNATIONAL BUILDING CODE THE FOLLOWING STANDARDS ARE PERMITTED SUBJECT TO THE PROTECTED UNDER FEDERAL COPYRIGHT LAW. PLANS MAY NOT BE REPRODUCED WITHOUT ,010 08186a LIMITATIONS OF THE THIS CODE AND THE LIMITATIONS HEREIN. WHERE ENGINEERED DESIGN IS USED IN CONJUNCTION WITH WRITTEN AUTHORIZATION. ALL PLANS AND DESIGNS ARE THE SOLE PROPERTY OF R�FES`IONP A101 SCALE: 1/4"= 1'-0" THESE STANDARDS, 'THE DESIGN SHALL COMPLY WITH THE INTERNATIONAL BUILDING CODE. KEHL DESIGN ASSOCIATES, LLC. THE RIGHT TO BUILD ONLY ONE STRUCTURE FROM THESE EXISTING WALL OR FOUNDATION PLANS IS LICENSED EXCLUSIVELY TO THE BUYER, WITH WRITTEN PROOF OF PURCHASE. � `�`� 1. AF&PA WOOD FRAMED CONSTRUCTION MANUAL (WFCM) 7 NEW WALL OR FOUNDATIONDOB NUMBER: OF 2.AIS1 STANDARD FOIR COLD-FORMED STEEL FRAMING - Acceptance of these drawings does not authorize the right to build without the authorization PRESCRIPTIVE METHIOD FOR ONE-AND TWO FAMILY DWELLINGS (AISIS-230) of local governing agencies, such as Suffolk County Dept. of Health Services, Town Building WALL OR FOUNDATION TO BE REMOVED Departments, DEC, FEMA, etc. Verify all conditions, codes, and requirements with such p KEHL•DERGN-ASSOCIATES,uc 3. ICC STANDARDS ON THE DESIGN AND CONSTRUCTION OF LOG STRUCTURES (ICC400) agencies prior to construction. ��•%SEE/,, ;i/ E�/ �,/�:�' � // / rr/ .,-.c-.�-1SJ�'// Ridge Vent Simpson Hurricane Strapping KEHL DESIGN ASSOCIATES LLc residential & commercial design . consulting New Roof Shingles to Match House P0.Box 1675 phone: (631)433-9084 Souithold,NewYofk 11971 E-Moll: ssbn654@optonrine.net �I �� E I L L �� KeN Design Associates,LLC"forrnerty D A K Associates,LLC E R-30 Insulation I III L_I I I I �I I I I I I III ,. OWNERSHIP & USE OF DOCUMENTS: IIIIII I III LLE L III IIIIII LU I�IL IJ J IJ LTJ ILLI_ II II R-19 Insulation Simpson y, l I�LL LLJ L� II IJJ� IL I I I _ ILI II IL L I ILI ILI ILIA LJJ SLI II LLl Y" CDX Subflcar H/TSP Hurricane ScrappingT These drawings and specifications including the y Simpson Hurricane Clips ( ideas, design and arrangements represented L� �ELJI I IE Il IULJJ IU L1J V I ILII_I IE LI ISI I ILII I ILLI ILI ISI therein, are the property of KEHL DESIGN New 1x8 Azek Fascia� RQU AM II Ili Ili ASSOCIATES, LLC. No part thereof shall be 15' Vented Soffit to Match House r2x 9Y" LVL Header (2)2x6 Top Plates copied, disclosed to others or used in connection III (2)2" Top Plates with any work or project other than for which Jil UJIE R-21 Insulation R 21 Insulation they have been prepared without written consent. ® ® �I _U L11J_U Note:Garage Floor has a 2" I I Pitch From the Frani to ^'N REV: the L ILL _ V I �� U E I VeHfyyaall Dimensions Prior _LLL1LLtLLL__LLL I111 to Construction. Lf II IIII e' Type"X" Fire-Rated Sheetrock El_ 0 FL 2" Studs - 16"oc. 2x6 Studs - 16"oc. U I �l L �IELILJI LL1LI��ILI 2" Shoe R-19 Insulation 2x6 Shoe FileShoe 2x8 ACQISIII 2x4 20 ACQ Sill RIGHT EASTERELEVATIOfiI REAR (SOUTHERN ) E2x4 built-up Girder SCALE: 1/4"= 1'-0" CROSS SECTION rA SCALE: 1/4"= V-0" SCALE:Y4"=1r-0" 1112 WORK NOTES: Simpson Hurricane Strapping Ridge Vent I III LI_I II II III New Roof Shingles to Match House I EEELU ,� NOT FOR II E II LI III _LUiiUiLL1Li1i 111 11LE11. L I II I I El CONSTRUCTION _ USE UNLESS E LI III IJLLL� Simpson EE H/TSP Hurricane Strapping- 1 LJ LILLLULIti L Simpson Hurricane Clips Y" COX Subfloor CERTIFIED+ BY A II IIII Il J !'1� New 1x8 Azek Fascia _ PROFESSIONAL LCL L IE,E-Il - I E1LL1EEl1JLEELE _ 15" Vented Soffit to Match House 1 (2)2" Top Plates V"x 9Y" LVL Header 3Y2"x 9r LVL Header ENGINEER I III � I II ILEI I-�11 I�LJ_IL� Insulation �- DDFH LLJE-:>- l�Ll I IL I I ISI I tL(I ISL I�� 1I ILLi 1111 1 IIII II ❑ ❑ ❑ 1 dI Note:Garage Floor has a 2" 1 Pitch From the Front to �� L IIII I_ I IE1LL ❑ ❑ jL the Back.Verify a _1E I N I II LL II 11 to Consltruuctionsions Prior. ILl II IIIIII LI LI Ili 11 l 111 II L I� :10L 2" Studs - 16'ac. _LALU L-LH-1 I II I II L LJ II LI III 1 1 II ISL I I ILII I�IJ I' IF El POOL II I� U II U L L - LLL a l_ (I 2" Shoe EQUIP. ff L)LJJ I ISI Filler L I_I L �J U L� I L�1 L EL11 L)LTJ LU L J E I_LE1 2x8 ACQ Sill - 2x6 ACO Floor Joists - PROJECT: LEFT (WESTERN ) ELEVATION FRONT.__ (NORTHERN ) ELEVATION CROSS SECTION B WESTz A SCALE: 1/4"= T-O" SCALE: 1/4"= V-0" SCALE:74" 102GA G E RENOVATIOIM 1675 PINE NECK RD., -A SOUTHOLD, NEW YORK 9 System Existing Handrail S EXISTING HOUSE Hot Tub Area ®8'-0"x 8'-0" s DRAWING TITLE: �\ 54,. 5 -0 ., 1,-54„ 1 t New 2x6 x8m it n Hanger New (2)Simpson Strong-Hold Bolts Existing 2x8 Girder V AS NOTED Existing2x8 FJ.-16 oc. or Equal @8 oc. w n New (2)Simpm Strong-Hold Bolts New (2)Simpson Strong-Hold Bolts (G"Ira to Flo Joists) New (2)2z CO Girder or Equal or Equal @ 16"cc. New (2)Simpson Strong-Hold Bolts NOTES: New (2)2x6 ACQ Girder New 4 ACQ Pas or Equal THESE PLANS ARE AN INSTRUMENT OF THE SERVICE AND ARE THE PROPERTY OF THE New Simpson Tydown-Jr(Girder to Floor Joists) ® -0"oc. New (2)2x10 ACQ Girder � DESIGN PROFESSIONAL WHOSE SEAL IS AFFIXED HERETO. INFRINGEMENTS WILL BE New 4x4 ACQ Post New Simpson Tyd _ PROSECUTED TO THE FULLEST EXTENT OF THE LAW. CONTRACTORS SHALL VERIFY ALL (From Girder to House (Girder to Floor Jooistsists)) FIELD CONDITIONS AND DIMENSIONS AND BE SOLEY RESPONSIBLE FOR FIELD FIT. THE Footing @ 4'-0"oc.) New Simpson Strong- DESIGN PROFFESSIONAL ASSUMES NO LIABILITY FOR OMMISIONS DUE TO UNKNOWN OR Hold Bolt UNFORESEEN FIELD CONDITIONS AND OR ADDITIONS BASED UPON COMMENTS NOT EXISTING HOUSE FOUNDATION _New 44 AN Post FORMALLY ACKNOWLEDGED AS REVISION TO THESE PLANS. New rx 18" New ss"x 18' (Sistered Along Side Anchor Bolt Anchor Bolt istin9 Post, ( ' "Max 8-Doc. \ ))• SEAL: DATE: New 12" Sona Tube `New 12" Sono Tube Existin 12'Sona Tube May 14, 2017 pF NEIN Y PROJECT NO: Min 3-0 low Final �P �� Min 3'-0" Below Final Min 3'-0" Below Final Grade 0 1012-2017 'Q� DRAWN BY: Grade, 8'-0"oc. Grade, 8'-0"oc. � C Bq 0 * 9� * BDK MAIN H USE RIGHT (EASTERN ) DECK ��,? CHECKED BY: n a`-a�� DESIGN CRITERIA AND CONSTRUCTION TO MEET OR EXCEED ALL REQUIREMENTS OF THE 2015 INTERNATIONAL RESIDENTIAL � �; CODE UPDATED WITH THE 2016 UNIFORM CODE SUPPLEMENT. © COPYRIGHT 2017 KEHL DESIGN ASSOCIATES, LLC. ALL FLOOR PLANS AND ELEVATIONS ARE ��, �� SHEET NUMBER: ATI O N S UNDER HCT TUB AS AN ALTERNATIVE TO THE INTERNATIONAL BUILDING CODE THE FOLLOWING STANDARDS ARE PERMITTED SUBJECT TO THE PROTECTED UNDER FEDERAL COPYRIGHT LAW. PLANS MAY NOT BE REPRODUCED WITHOUT � 081868MOD I FLIMITATIONS OF THE THIS CODE AND THE LIMITATIONS HEREIN. WHERE ENGINEERED DESIGN IS USED IN CONJUNCTION WITH WRITTEN AUTHORIZATION. ALL PLANS AND DESIGNS ARE THE SOLE PROPERTY OF R�FESS01, THESE STANDARDS, THE DESIGN SHALL COMPLY WITH THE INTERNATIONAL BUILDING CODE. KEHL DESIGN ASSOCIATES, LLC. THE RIGHT TO BUILD ONLY ONE STRUCTURE FROM THESE Al 02 SCALE: 1/4" 1-0" PLANS IS LICENSED EXCLUSIVELY TO THE BUYER, WITH WRITTEN PROOF OF PURCHASE. =- 1. AF&PA WOOD FRAMED CONSTRUCTION MANUAL (WFCM) -SAS-/17 DOB NUMBER: OF 2.AIS1 STANDARD FOR COLD-FORMED STEEL FRAMING - Acceptance of these drawings does not authorize the right to build without the authorization PRESCRIPTIVE METHOD FOR ONE-AND TWO FAMILY DWELLINGS (AISIS-230) of local governing agencies, such as Suffolk County Dept. of Health Services, Town Building Departments, DEC, FEMA, etc, Verify all conditions, codes, and requirements with such ©KEHL-DESIGN-ASSOCIATES,ac 3, ICC STANDARDS ON THE DESIGN AND CONSTRUCTION OF LOG STRUCTURES (ICC400) agencies prior to construction.