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MP22-117
�QyE BRCS � A 190 tl�4.�e Jj V VILLAGE OF RYE BROOK MAYOR 938 King Street, Rye Brook,N.Y. 10573 ADMINISTRATOR Jason A. Klein (914) 939-0668 Christopher J. Bradbury www.ryebrook.org TRUSTEES BUILDING& FIRE INSPECTOR Susan R. Epstein Steven E. Fews Stephanie J. Fischer David M. Heiser Salvatore W. Morlino CERTIFICATE OF COMPLIANCE January 12,2024 Gennaro Capocci 34 Greenway Lane Rye Brook,New York 10573 Re: 34 Greenway Lane, Rye Brook,New York 10573 Parcel ID#: 129.84-2-23 This document certifies that the work done under Mechanical Permit #22-117 issued on 7/25/2022 for the installation of a new condenser and a new air handler has been satisfactorily completed. Sincerely, Steven E. Fews Building&Fire Inspector /to QyE BR 'N '9a2 BUILDING DEPARTMENT ❑BUILDING INSPECTOR ❑ASSISTANT BUILDING INSPECTOR VILLAGE OF RYE BROOK ❑CODE ENFORCEMENT OFFICER 938 King Street• Rye Brook,NY 10573 (914) 939-0668 FAx (914) 939-5801 www ryebrook.org - - - - - - - - - - - - - - - - - - - - INSPECTION REPORT - - - - - - - - - - - - - - - - - - - - ADDRESS: _� 1 �_ AJ • DATE: /- //- 2�/'2 Y PERMIT# P Z Z -//7 ISSUED:? 25.2 SECT: 12 9,,?`/ BLOCK: 2 LOT: Z LOCATION: T T/C OCCUPANCY: 1/ U ❑ Violation Noted THE WORK IS... PASSED ❑ FAILED REINSPECTION ❑ SITE INSPECTION REQUIRED ❑ FOOTING ❑ FOOTING DRAINAGE ❑ FOUNDATION ❑ UNDERGROUND PLUMBING NOTES ON INSPECTION: ❑ ROUGH PLUMBING ❑ ROUGH FRAMING ❑ INSULATION / ❑ Natural Gas IV/f W l'pA J l ❑ L.P. Gas ❑ FUEL TANK ❑ FIRE SPRINKLER ❑ FINAL PLUMBING ❑ CROSS CONNECTION [FINAL ❑ OTHER _ is y N Lin N \ a _ 19 `a sue, _ w U o 1-4 N W _ H N O q o ° — fi. x ■ 00 M ai _ 00eT p -d a tvo , q v O 4� O11/--� w w G CA 4-4s - � � a ., I� x Z W O 0- E w or- 0'. © z 110, 1 O V r W 00 as O w u ° 0 �..� u z v p, a o " � a , C� A v w o wJ. 0 " E2 � y o io , Z A w p m .b 0 �1 z o t. a s U4 o 0. g y W C a u U cn G z0 � z 0. 9. a° a a ;I_(. m 2 j BUILDING DEPARTMENT VILLAGE OF RYE BROOK JUL 207.E 938 KING STREET RYE BROOK,NY 10573 (914)939-0668 VILLAGE OF RYE BROOK wwwxyebrook.org BUILDING-DEPARTMENT— APPLICATION FOR PERMIT TO INSTALL AND/OR REMOVE _HEATING,VENTILATION AND/OR AIR CONDITIONING EQUIPMENT FOR OFFICE USE ONLY: PERiMlT #: tea Approval Date: JUL Z Permit Fee: $ Approval Signature: Other: Disapproved: (fees are non-refxadable) *www*twwwww***�*******************wwwwwww,r*t*,r+r,r+r*www,r*****;►*www*********www*,tw**,t*w*********w*x�r*sr,r*ww REQUIREMENTS FOR RELEASE of PERMIT&CERTIFICATE of COMPLIANCE: 1. Properly completed& Signed Application. 2. Site/Staging Plan if Required by the Building Inspector. 3. Copy of Licensed Contractor's Liability Insurance. (Village of Rye Brook must be listed as certificate holder)&Workers Compensation Insurance on a NYS Board form(Form#Cl 05.2 or Form#U26.3/or NY State Workers Compensation Waiver) 4. Payment of Fees/Unit: RESIDENTIAL=$100.00/unit• COMMERCL4L=$3 50.00/unit. 5. Inspection by the Building Department for removal and/or installation. (48 hour notice required) 6. Electrical work requires a separate Electrical Permit&Electrical Inspection. 7. Plumbing/Gas work requires a separate Plumbing Permit&Plumbing Inspection. Application dated, /-e�is hereby made to the Building Inspector of the Village of Rye Brook for a permit for the installation and or removal of the HVAC equipment as listed below.The applicant and property owner,by signing this document agrees that said equipment will be installed and/or removed in conformance with all applicable Local,County,State&Federal laws, codes,rules and regulations. l. Address:_ SBL: cf/,d -��-A Zone: 2. Property Owner:�7 r ards� �� Address: 31 a"ea ,Jacl Laze Phone#: q�'��'�(�- 3Q f Cell#: email: L0.ppG�'�j��itc! G 0nn 3. Contractor: 0.ZCAZ ►aQ _�' �'v r�n Address: Phone#:(Cl iq, 5 35_ LH in Cell#: 123)H i 0- OIU!J email: .0<cm 4. Applicantii�� o C7 Address: ^](l��ln,.r,n �.P Phone#: j(a4TO Cell#:(L,.;3)410-Q1Y email:PkzccoHVflCl2!jm.1 5. Scope of Work:New Installation( )•Replacement(V�•Removal( )•Other( ): b, List Equipment: � "TU r � r a n c , n d r ) n 7, Location of Equipment: A r 1�141 rn (e r (,'j,i l bee I r�nale_tJ a t c . 8. Method of Installation/Removal(list all a uipment needed to perform lob): y Q i.^i PP1(le 12A rP_G s J i rc j I 8/12/2021 STATE OF NEW YORK,COUNTY OF WESTCHESTER ) as: being duly sworn,deposes and states that he/she is the applicant above named, (print name of individual signing as the applicant) and further states that(s)he is the legal owner of the property to which this application pertains,or that(s)he is the for the legal owner and is duly authorized to make and file this application. (indicate architect,contractor,agent,attorney,etc.) That all statements contained herein are true to the best of his/her knowledge and belief,and that any work performed,or use conducted at the above captioned property will be in conformance with the details as set forth and contained in this application and in any accompanying approved plans and specifications,as well as in accordance with the New York State Unifurm Fire Prevention&Building Code,the Code of the Village of Rye Brook and all other applicable laws,ordinances and regulations. Sworn to before me this A) Sworn to before me this 1, J day of ,20 day of 20 /� n Signature of Property Ow&r Signature of Applicant r am of Prop lame of Applicant Notary Public Notary public CLAUDIA UVALDO AUDIA UVALDO NOTARY PUBLIC,STATE OF NEW YORh RY PUBLIC,STATE 85 NEW YORKNO.01 UV6107856 QUALIFIED IN WESTCHESTER COUNTY QUALIFIED IN WESTCHESTER COUNTY NO.01 COMMISSION EXPIRES APRIL 12,2024 TCHESTE COMMISSION EXPIRES APRIL 12,2024 This application must be properly completed in its entirety and must include the notarized signature(s) of the legal owner(s) of the subject property, and the applicant of record in the spaces provided. Any application not properly completed in its entirety and/or not properly signed shall be deemed null and void and will be returned to the applicant. 2 8/12/2021 - - AND INSTALLATION INSTRUCTIONS HIGH EFFICIENCY 1 AIR HANDLERS 1 .5-5Tons J4AH4P SERIES FEATURING R410A OR R22 REFRIGERANT 0° m , JA WARNING These instructions are intended as an aid to qualified licensed service personnel for proper installation, adjustment and operation of this unit. Read these instructions thoroughly before attempting installation or operation. Failure to follow these instruction may result in improper installation, adjustment, service or maintenance possibly resulting in fire, electrical U shock, property damage, personal injury or death. tLtU I KICAL CONNECTIONS MAY EXIT TOP OR EITHER SIDE SUPPLY AIR FLANGES ARE PROVIDED FOR FIELD INSTALLATION HIGH VOLTAGE CONNECTION 7/8", W 1-3/8", 1-3/4'DIA KNOCKOUTS • LOW VOLTAGE CONNECTION m BREAKER SWITCH (FOR ELECTRIC HEATER ONLY) Ii I I H VAPOR LINE CONNECTION COPPER(SWEAT) LIQUID LINE CONNECTION COPPER(SWEAT) AUXILIARY DRAIN CONNECTION 3/4" FEMALE PIPE THREAD(NPT) f I AUXILIARY DRAIN CONNECTION 3/4" FEMALE PIPE THREAD(NPT) I • PRIMARY DRAIN CONNCETION 3/4" FEMALE PIPE THREAD(NPT) UPFLOW UNIT SHOWN; UNIT MAY BE INSTALLED UPFLOW, DOWNFLOW, HORIZONTAL RIGHT OR LEFT AIR SUPPLY. Fig.6 DIMENSIONS DIMENSIONAL DATA • Dimensions inch UNIT HEIGHT UNIT WIDTH UNITm UNIT WEIGHT LENGHT SUPPLY /SHIPPING WEIGf IT • 41-3/8" 1050 18-1/8"460 20-1/2"520 16"406 104/117 47/53 41-3/8"[1050] 18-1/8"[460] 20-1/2"[520] 16"[406] 108/121 [49]/[55j 46-1/2" 1180 19-5/8" 500 21-5/8" 550 18"456 128/143 58/65 • 46-1/2" 1180 19-5/8"500 21-5/8" 550 18"456 128/143 58/65 54-1/2" 1385 22"560 24" 610 19-1/2"496 159/177 72/80 54-1/2" 1385 22" 560 24" 610 19-1/2"496 159/177 72/80 •1 54-1/2"[13851 22"[560] 24"[610] 19-1/2"496 [ ] 159/177 [72]1[80] 5 A 1:4 ENSURE THE RETAINING �d ° CHANNEL IS FULLY ENGAGED WITH THE COIL RAIL. DETAILAO li RAILS A O AIRFLOW U. Q RAILS m Fig.8 VERTICAL DOWNFLOW&HORIZONTAL LEFT APPLICATIONS (lower front service panel removed"view".) STRAPS REAR WATER CATCHER TOP AIR STOP HORIZONTAL ADAPTER KIT VAPOR LINE CONNECTION LIQUID LINE CONNECTION FRONT WATER CATCHER AUXILIARY HORIZONTAL DRAIN CONNECTION VERTICAL DRAIN PAN PRIMARY DRAIN CONNECTION AUXILIARY UPFLOW/DOWNFLOW DRAIN CONNECTION THIS SYSTEM IS CHARGED WITH NITROGEN BEFORE SHIPMENT 42K,48K,60K 36K,30K 24k,18K STRAPS OOOOOOOOOOO OO Fig.9 INDOOR COIL AND DRAIN PAN SET-UP 7 3 APPLICATIONS • Using a screwdriver or pencil, lift white plastic tab with hole away from breaker until breaker releases from mounting 3.1 VERTICAL UPFLOW opening. • With breaker held in hand, rotate breaker so that"on'position • Vertical Upflove configuration is the factory set on all models.See Fig.6. is up, off' position is down with unit in planned vertical mounting position.insert right wire bundle into top right breaker • If return air is to be ducted, install duct flush with floor. lug, ensuring all strands of all wires are inserted fully into lug, Use fireproof resilient gasket 1/8 to 1/4 in. thick between the and no wire insulation is in lug. ducts,unit and floor.Set unit on floor over opening. • Tighten lug as tight as possible while holding circuit breaker. Check wires and make sure each wire is secure and none are IMPORTANT NOTE loose. Repeat for left wire bundle in left top circuit breaker lug. Torque applied to drain connections should not 0Replace breaker by inserting breaker mounting tab opposite eae ed 15ft.lbs.See Fig.6&7. white pull tab in opening, hook mounting tab over edge in opening. • With screwdriver or pencil, pull blue tab with hole away from breaker while setting that side of breaker into opening. When 27 breaker is in place, release tab, locking circuit breaker into • location in opening. Repeat above operation for remaining breaker(s) (if more than • one is provided). • 0 Replace single point wiring jumper bar,if it is used,on line side 2-1516 of breaker and tighten securely. 511, 1-3/8 • Double check wires and lugs to make sure all are secure and F tight.Check to make sure unit wiring to circuit breaker load lugs 3116 match that shown on the unit wiring diagram. Fig.7 DIMENSIONS FOR FRONT CONNECT COIL A CAUTION When using the unit with electrical heater,the switch is used only 3.2 VERTICAL DOWNFLOW for electrical heater on the front of panel. Conversion to Vertical Downflow: A vertical upflow unit may be 3.3 HORIZONTAL converted to vertical downflow. Remove the door and indoor coil and Horizontal right is the default factory configuration for the units. reinstall 180°from original position.See Fig.B. Horizontal left isn't the default factory configuration for the units. IMPORTANT:To comply with certification agencies and the National Conversion to Horizontal left:Avertical upflow unit may be converted Electric Code for downflow application, the circuit breaker(s) on to horizontal left by removing indoor coil assembly and reinstalling field-installed electric heater kits must be re-installed per procedure coil as shown for left hand air supply. below so that the breaker switch"on"position and marking is up and, • Rotate unit into the downflow position,with the coil compartment off'position and marking is down. on top and the blower compartment on bottom.See Fig.8' • To rotate breaker(s): Rotate one breaker set (circuit) at a time • Reinstall the indoor coil 180° from original position. Ensure the starting with the one on the right. Loosen both lugs on the load retaining channel is fully engaged with the coil rail. See Fig.8. side of the breaker. (Make sure that wires are identified and are • Secondary drain pan kits are recommended when the unit is reinstalled into proper breaker).Wires are bundled with wire ties, configured for the horizontal position over a finished ceiling one bundle going to the right lug and one bundle going to the left and/or living space. lug. 6.DUCTWORK 7.REFRIGERANT CONNECTIONS Field ductwork must comply with the National Fire Protection Keep the coil connections sealed until refrigerant connections are Association NFPA 90A, NFPA 906 and any applicable local made.See the Installation Instructions for the outdoor unit for details on line sizing,tubing installation,and charging information. ordinance. Coil is shipped with Nitrogen.Evacuate the system before charging A WARNING with refrigerant. Install refrigerant tubing so that it does not block service access to Do not,under any circumstances,connect return ductwork to any the front of the unit. other heat producing device such as fireplace insert, stove, etc. Nitrogen should flow through the refrigerant lines while brazing. Unauthorized use of such devices may result in fire, carbon Use a brazing shield to protect the cabinet's paint and a wet rag to monoxide poisoning, explosion, personal injury or property protect the rubber grommet and input pipe's pistion seal ring from damage. being damaged by torch flames. After the refrigerant connections are made,seal the gap around the Sheet metal ductwork run in unconditioned spaces must be insulated connections with pressure sensitive gasket. and covered with a vapor barrier. Fibrous ductwork may be used if constructed and installed in accordance with SMACNA Construction Standard on Fibrous Glass Ducts. Ductwork must comply with A WARNING National Fire Protection Association as tested by UL Standard 181 for Class I Air Ducts. Check local codes for requirements on ductwork Use a wet rag to protect the two seal ring in the input pipe from and insulation. I being damaged by torch flames while brazing. • Duct system must be designed within the range of external static After the work is finished,make sure to check that there is no vapor pressure the unit is designed to operate against. It is important leak After checking for vapor leaks,be sure to insulate the piping that the system airflow be adequate.Make sure supply and return connections referring to Fig.10. ductwork,grills,special filters,accessories,etc.are accounted for in total resistance.See airflow performance tables in this manual. Do not leave a gap Vapor piping • Design the duct system in accordance with"ACCA" Manual "D" Design for Residential Winter and Summer Air Conditioning and Equipment Selection. Latest editions are available from:"ACCA" Air Conditioning Contractors of America, 1513 16th Street, N.W., Air Piping heat insulation handler material Washington, D.C. 20036. If duct system incorporates flexible air duct, be sure pressure drop Information (straight length plus all turns)shown in"ACCA"Manual-D"is accounted for in system. Li uid piping, • Supply plenum is attached to the 314"duct flanges supplied with Do not leave a gap the unit.Attach flanges around the blower outlet. IMPORTANT: If an elbow is included in the plenum close to the Fig.10 PIPING CONNECTIONS unit,it can not be smaller than the dimensions of the supply duct flange on the unit. IMPORTANT.The front flange on the return duct if connected to the blower casing must not be screwed into the area where the power wiring is located. Drills or sharp screw points can damage insulation on wires located inside unit. • Secure the supply and return ductwork to the unit flanges, using proper fasteners for the type of duct used and tape the duct-to-unit joint as required to prevent air leaks. 3 APPLICATIONS 0 Using a screwdriver or pencil, lift white plastic tab with hole away from breaker until breaker releases from mounting 3.1 VERTICAL UPFLOW opening. • Vertical Upflow configuration is the factory set on all models.See • With breaker held in hand, rotate breaker so that"on"position Fig.6. is up, "off' position is down with unit in planned vertical mounting position.insert right wire bundle into top right breaker • If return air is to be ducted,install duct flush with floor. lug, ensuring all strands of all wires are inserted fully into lug, Use fireproof resilient gasket 118 to 1/4 in. thick between the and no wire insulation is in lug. ducts,unit and floor.Set unit on floor over opening. • Tighten lug as tight as possible while holding circuit breaker. Check wires and make sure each wire is secure and none are IMPORTANT NOTE loose.Repeat for left wire bundle in left top circuit breaker lug. Torque applied to drain connections should not • Replace breaker by inserting breaker mounting tab opposite eze ed 15ft.lbs.See Fig.6&7. white pull tab in opening, hook mounting tab over edge in opening. • With screwdriver or pencil, pull blue tab with hole away from breaker while setting that side of breaker into opening. When 2.314 breaker is in place, release tab, locking circuit breaker into location in opening. 16 Repeat above operation for remaining breaker(s)(if more than one is provided). • • Replace single point wiring jumper bar,if it is used,on line side 2-16n6 of breaker and tighten securely. 5ri6 1-3'd • Double check wires and lugs to make sure all are secure and s tight.Check to make sure unit wiring to circuit breaker load lugs 1 2.316 match that shown on the unit wiring diagram. h Fig.7 DIMENSIONS FOR FRONT CONNECT COIL A CAUTION When using the unit with electrical heater,the switch is used only 3.2 VERTICAL DOWNFLOW for electrical heater on the front of panel. Conversion to Vertical Downflow: A vertical upflow unit may be 3.3 HORIZONTAL converted to vertical downflow.Remove the door and indoor coil and reinstall 180°from original position.See Fig.B. Horizontal right is the default factory configuration for the units. Horizontal left isn't the default factory configuration for the units. IMPORTANT:To comply with certification agencies and the National Conversion to Horizontal left:A vertical upflow unit may be converted Electric Code for downflow application, the circuit breaker(s) on to horizontal left by removing indoor coil assembly and reinstalling field-installed electric heater kits must be re-installed per procedure coil as shown for left hand air supply. below so that the breaker switch"on"position and marking is up and, "off position and marking is down. • Rotate unit into the downflow position,with the coil compartment on top and the blower compartment on bottom.See Fig.8' To rotate breaker(s): Rotate one breaker set (circuit) at a time • Reinstall the indoor coil 180° from original position. Ensure the starting with the one on the right. Loosen both lugs on the load retaining channel is fully engaged with the coil rail.See Fig.8. side of the breaker. (Make sure that wires are identified and are • Secondary drain pan kits are recommended when the unit is reinstalled into proper breaker).Wires are bundled with wire ties, configured for the horizontal position over a finished ceiling one bundle going to the right lug and one bundle going to the left and/or living space. lug. ground lug prov�ded.�\ie main power p\ug or\`rye a��`�aea\e�or\s`aoo\a`oe\�ea��\`oe9�ou�a���e\op�o���ee�o�`� strain relief. Please do not change the power wires or the ground connection unless required. 2. The power socket is used only on the air handler units. 3. Do not pull hard or apply tension on the power wires since the main connection to the unit might damage and fail. 4. When connecting the air handler unit with the ground, please comply with the local codes. 5. If necessary, use the power fuse or the circuit breaker as per the ampacity requirements. THERMOSTAT I 24C I 24RC W1/B ® .----•............... ............•-- Q� W2 , I Y1 Comp G Fan I W 0 U FW-; i I O U W W Q = U• J Q m �: mi I } m I G JR C W1 W2 ry] rc] INDOOR UNIT I OUTDOOR UNIT I Fig.14 CONTROL WIRING FOR AC SYSTEMS THERMOSTAT I W2 .............................. ........... .�. ....... W1/B I 24C 24RC Y1 Comp w G Fan = I 3 w': w a v Y I o v O W W W W J J �I � m; I m W m a I } I G R C W1 W2 I rRj INDOOR UNIT i OUTDOOR UNIT i Fig.15 CONTROL WIRING FOR HP SYSTEMS 15 ODCBODC- INSTALLATION INSTRUCTIONS 13 SEER Split System Air Conditioner 1 .5-5 Tons J4AC3 Series R410A O� �0 O� �0 �O �0 O� o� O� 0� 3 , 0 NOTE: Appearance of unit may vary. A WARNING These instructions are intended as an aid to qualified licensed service personnel for proper installation, adjustment and operation of this unit. Read these instructions thoroughly before attempting installation or operation. Failure to follow these instructions may result in improper installation, adjustment, service or maintenance c n us possibly resulting in fire, electrical shock, property Intertek damage, personal injury or death. BX-SVN-J4AC3-1 A-EN TABLE OF CONTENTS 1.0 SAFETY..................................................................................................................3 1.1 INSPECTION....................................................................................................4 1.2 LIMITATIONS....................................................................................................4 2.0 GENERAL..............................................................................................................4 3.0 UNIT INSTALLATION............................................................................................6 3.1 LOCATION.......................................................................................................6 3.2 GROUND INSTALLATION...............................................................................6 3.3 ROOF INSTALLATION.....................................................................................6 3.4 UNIT PLACEMENT..........................................................................................6 3.5 UNIT MOUNTING............................................................................................7 3.6 FACTORY-PREFERRED TIE-DOWN METHOD.............................................8 3.7 PRECAUTIONS DURING LINE INSTALLATION.............................................9 3.8 PRECAUTIONS DURING BRAZING OF LINES.............................................10 3.9 PRECAUTIONS DURING BRAZING SERVICE VALVE.................................10 4.0 INTERCONNECTING TUBING............................................................................12 4.1 SUCTION AND LIQUID LINES .....................................................................12 4.2 MAXIMUM LENGTH OF LINES ....................................................................12 4.3 VERTICAL LIFT ............................................................................................12 5.0 EVACUATION......................................................................................................12 6.0 ELECTRICAL CONNECTIONS...........................................................................14 6.1 GENERAL INFORMATION & GROUNDING .................................................14 6.2 FIELD CONNECTIONS POWER WIRING ....................................................14 6.3 REMOVING THE TOP PANEL AND MOTOR................................................15 7.0 CHECKING REFRIGERANT CHARGE .............................................................15 7.1 CHARGING BY LIQUID PRESSURE............................................................15 7.2 CHARGING BY WEIGHT ..............................................................................16 7.3 FINAL LEAK TESTING .................................................................................16 8.0 WARRANTY.........................................................................................................16 9.0 WIRING DIAGRAM..............................................................................................16 9.1 CONTROL WIRING .......................................................................................17 2 This document is customer property and is to remain with this unit. These instructions do not cover all the different variations of systems nor does it provide for every possible contingency to be met in connection with installation. All phases of this installation must comply with NATIONAL, STATE,AND LOCAL CODES. If additional information is required please contact your local distributor. 1.0 SAFETY A This is a safety alert symbol. When you see this symbol on labels or in manuals, be alert to the potential for personal injury. This is an attention alert symbol. When you see this symbol on labels or in manuals, be alert to the potential for personal injury. Understand and pay particular attention to the signal words DANGER, WARNING, or CAUTION. DANGER indicates an imminently hazardous situation, which, if not avoided, will result in death or serious injury. WARNING indicates a potentially hazardous situation,which, if not avoided,could result in death or serious injury. CAUTION indicates a potentially hazardous situation, which, if not avoided may result in minor or moderate injury. It is also used to alert against unsafe practices and hazards involving only property damage. A WARNING Improper installation may create a condition where the operation of the product could cause personal injury or property damage. Improper installation, adjustment, alteration, service or maintenance can cause injury or property damage. Refer to this manual for assistance or for additional information, consult a qualified contractor, installer or service agency. A CAUTION This product must be installed in strict compliance with the installation instructions and any applicable local, state, and national codes including, but not limited to building, electrical, and mechanical codes. A WARNING FIRE OR ELECTRICAL HAZARD Failure to follow the safety warnings exactly could result in serious injury, death or property damage. A fire or electrical hazard may result causing property damage, personal injury or loss of life. A CAUTION If using existing refrigerant lines make certain that all joints are brazed, not soldered. A CAUTION Scroll compressor dome temperatures may be hot. Do not touch the top of compressor; it may cause minor to severe burning. 3 1.1 INSPECTION As soon as a unit is received, it should be inspected for possible damage during transit. If damage is evident, the extent of the damage should be noted on the carrier's delivery receipt. A separate request for inspection by the carrier's agent should be made in writing. See Local distributor for more information. Requirements For Installing/Servicing R410A Equipment • Gauge sets, hoses, refrigerant containers, and recovery system must be designed to handle the POE or PVE type oils. • Manifold sets should be 800 PSIG high side and 250 PSIG low side with 550 PSIG low side restart. • All hoses must have a 700 PSIG service pressure rating. • Leak detectors should be designed to detect R410A. • Recovery equipment (including refrigerant recovery containers)must be specifi- cally designed to handle R410A. • Do not use an R-22 TXV. • Good Refrigeration practices require the installation of a field supplied liquid line drier, as shown in Fig.1. NOTE It will be more convenient to open the Service valve after removing the Underside Clapboard. Vapor Line Service Valve Liquid Line Service Valve LIQUID-LINE FILTER-DRIER FIELD SUPPLIED AND INSTAL LE Fig.1 Filter-Drier installation 1.2 LIMITATIONS The unit should be installed in accordance with all National, State, and Local Safety Codes and the limitations listed below: 11imitations for the indoor unit, coil and appropriate accessories must also be observed. 2.The outdoor unit must not be installed with any duct work in the air stream. The outdoor fan is the propeller type and is not designed to operate against any additional external static pressure. 3.The maximum and minimum conditions for operation must be observed to assure a system that will give maximum performance with minimum service. 4.This unit is not designed to operate with a low ambient kit. Do not modify the control system to operate with any kind of low ambient kit. 5.The maximum allowable line length for this product is 150 feet. 2.0 GENERAL The outdoor units are designed to be connected to a matching indoor coil with braze connect lines. Units are factory charged with refrigerant for a matching indoor coil plus 15 feet of field supplied lines. Matching indoor coils are available with a thermostatic expansion valve or an orifice for the most common usage. The orifice size and/or refrigerant charge may need to be changed for some indoor-outdoor unit combinations, elevation differences or total line lengths. 4 AIR DISCHARGE:ALLOW 60" MINIMUM CLEARANCE. L w Off, o� �0 �O H QO �0 AIR INLETS OQ �� LOUVERED 2D PANELS ALLOW MINIMUM SERVICE ACCESS CLEARANCE ALLOW 24" CLEARANCE NOTE: GRILL APPEARANCE MAY VARY. POWER WIRING CONTROL WIRING 0 SERVICE FITTING SERVICE LIQUID LINE SUCTION LINE FITTING CONNECTION CONNECTION FIG.2 DIMENSIONS DIMENSIONAL DATA Dimensions (Inches) Refrigerant Connection MODELService Valve Size "H" in. [mm] "W" in. [mm] "L" in. [mm] Liquid in. Suction in. 24-15/16[633] 21-7/8[554] 21-7/8[554] 3/8 3/4 24-15/16 633 21-7/8 554 21-7/8 554 3/8 3/4 1 24-15/16 633 29-1/8 740 29-1/8 740 3/8 3/4 24-15/16[633] 23-5/8[600] 23-5/8[600] 3/8 3/4 33-3/16[843] 28[710] 28[710] 3/8 3/4 29-7/8 759 28 710 28 710 3/8 7/8 .1 33-3/16[843] 28[710] 28[710] 3/8 7/8 5 3.0 UNIT INSTALLATION 3.1 LOCATION Before starting the installation, select and check the suitability of the location for both the indoor and outdoor unit. Observe all limitations and clearance requirements. The outdoor unit must have sufficient clearance for air entrance to the condenser coil, for air discharge and for service access. See Fig.2 NOTE For multiple unit installations, units must be spaced a minimum of 24 inches apart. (Coil face to coil face.) If the unit is to be installed on a hot sun exposed roof or a black-topped ground area, the unit should be raised sufficiently above the roof or ground to avoid taking the accumulated layer of hot air into the outdoor unit. Provide an adequate structural support. 3.2 GROUND INSTALLATION The unit may be installed at ground level on a solid base that will not shift or settle, causing strain on the refrigerant lines and possible leaks. Maintain the clearances shown in Fig.2 and install the unit in a level position. Normal operating sound levels may be objectionable if the unit is placed directly under windows of certain rooms (bedrooms, study, etc.). Top of unit discharge area must be unrestricted for at least 60 inches above the unit. A WARNING The outdoor unit should not be installed in an area where mud or ice could cause personal injury or system damage. Elevate the unit sufficiently to prevent any blockage of the air entrances by snow in areas where there will be snow accumulation. Check the local weather bureau for the expected snow accumulation in your area. Isolate the unit from rain gutters to avoid any possible wash out of the foundation. 3.3 ROOF INSTALLATION When installing units on a roof, the structure must be capable of supporting the total weight of the unit, including a padded frame unit, rails, etc., which should be used to minimize the transmission of sound or vibration into the conditioned space. 3.4 UNIT PLACEMENT 1. Provide a base in the pre-determined location. 2. Remove the shipping carton and inspect for possible damage. 3. Compressor tie-down nuts should remain tightened. 4. Position the unit on the base provided. A CAUTION This system uses R410A refrigerant which operates at higher pressure than R-22. No other refrigerant may be used in this system. Gauge sets, hoses, refrigerant containers, and recovery system must be designed to handle R410A. If you are unsure, consult the equipment manufacturer. 6 The outdoor unit must be connected to the indoor coil using field supplied refrigerant grade copper tubing that is internally clean and dry. Units should be installed only with the tubing sizes for approved system combinations. The refrigerant charge shown in the nameplate is for standard size interconnecting liquid line lengths up to 15 feet. NOTE Using a larger than specified line size could result in oil return problems. Using a too small line will result in loss of capacity and other problems caused by insufficient refrigerant flow. Slope horizontal suction lines at least 1" every 20 feet toward the outdoor unit to facilitate proper oil return. 3.5 UNIT MOUNTING If elevating the heat pump, either on a flat roof or on a slab, observe the following guidelines. 1. The base pan provided elevates the heat pump 2"above the base pad. 2. If elevating a unit on a flat roof, use 4"X 4"(or equivalent) stringers positioned to distribute unit weight evenly and prevent noise and vibration (See Fig.3). NOTE:Do not block drain openings shown in Fig.3. 3. If unit must be elevated because of anticipated snow fall, secure unit and elevating stand such that unit and/or stand will not tip over or fall off. NOTE: To tie down unit, see 3.6. ♦ O '' • BASE PAN(BOTTOM VIEW)DO NOT • p OBSTRUCT DRAIN HOLES • • (SHADED) 0 0 000 0 0 0 0 0 o}0�0 MOM OHO o00 ILr BASE PAD (CONCRETE OR ELEVATION ABOVE ANTICIPATED OTHER SUITABLE SNOW IS NECESSARY MATERIAL) Fig.3 RECOMMENDED ELEVATED INSTALLATION 7 3.6 FACTORY-PREFERRED TIE-DOWN METHOD Step 1: Prior to installing clear pad of debris. IMPORTANT The pad must meet local codes and must be the proper thickness to accommodate fasteners. Step 2: Center and level unit onto pad. Step 3: Using field supplied L-shaped bracket to locate holes on concrete and drill pilot holes which is at least 1/4"deeper than fastener being used. IMPORTANT Self drilling screws to base pan should not exceed 3/8" long to avoid damaging coil. Step 4: Using conventional practices to install brackets, tighten concrete fasteners and self-tapping screws (See Fig.4). NOTE: 1. One bracket for each side. For extra stability, 2 brackets for each side. 2. Do not over-tighten the concrete fastener to avoid weakening the concrete. IMPORTANT NOTE: These instructions are intended to provide a method to tie-down system to cement slab as a securing procedure for high wind areas. It is recommended to check Local Codes for tie-down methods and protocols. The dimension see FIG.2 0 SEE DETAIL A •'O Brackets: 2"width, 1/16"thickness, height as required. Available from distributor or in market place. #7 X 3/8" Self Tapping Screws (Don't Exceed 3/8" long) DETAIL A 1/4"X 1-1/2" Hex Washer Head Concrete Screws (3/16" Pilot Hole Needed. Pilot Hole Should Bel/4" Deeper Than The Fastener Embedment) Fig.4 PREFERRED TIE-DOWN METHOD 8 3.7 PRECAUTIONS DURING LINE INSTALLATION 1. Install the lines with as few bends as possible. Care must be taken not to damage the couplings or kink the tubing. Use clean hard drawn copper tubing where no appreciable amount of bending around obstruction is necessary, if soft copper must be used, care must be taken to avoid sharp bends which may cause a restriction. 2. The lines should be installed so that they will not obstruct service access to the coil, air handling system or filter. 3. Care must also be taken to isolate the refrigerant lines to minimize noise transmis- sion from the equipment to the structure. 4. The suction line must be insulated. Tape and suspend the refrigerant lines as shown. DO NOT allow tube metal-to-metal contact. See Fig.5. 5. Use PVC piping as a conduit for all underground installations as shown in Fig.6. Buried lines should be kept as short as possible to minimize the build up of liquid refrigerant in the suction line during long periods of shutdown. 6. Pack a sealing material such as perma gum around refrigerant lines where they penetrate a wall to reduce vibration and to retain some flexibility. Suggested Sheet Metal Hanger Insulated Suction Line O � O Tape optional Incorrect Insulated Liquid Line Fig.5 Tubing Hanger TO INDOOR COIL TO OUTDOOR UNIT LIOUID LINE _ INSULATED CAP VAPOR LINE L PVC CONDUIT Fig.6 Underground Installation 9 TO WEATHERPROOF POWER _ DISCONNECT SUPPLY , SWITCH TO INDOOR 24�controts�gnal BLOWER ©o�, 0 0 0 0 TO r o00 COIL` o00 o©o 00 moo J moo ©o 0 Seal opening(s)with permagum or equivalent NOTE:AII outdoor wiring must be weather proof Fig.7 Typical Installation 3.8 PRECAUTIONS DURING BRAZING OF LINES All outdoor unit and evaporator coil connections are copper-to-copper and should be brazed with a phosphorous-copper alloy material such as Silfos-5 or equivalent. DO NOT use soft solder. The outdoor units have reusable service valves on both the liquid and suction connections. The total system refrigerant charge is retained within the outdoor unit during shipping and installation. The reusable service valves are provided to evacuate and charge per this instruction. Serious service problems can be avoided by taking adequate precautions to assure an internally clean and dry system. A CAUTION Dry nitrogen should always be supplied through the tubing while it is being brazed, because the temperature required is high enough to cause oxidation of the copper unless an inert atmosphere is provide. The flow of dry nitrogen should continue until the joint has cooled.Always use a pressure regulator and safety valve to insure that only low pressure dry nitrogen is introduced into the tubing.Only a small flow is necessary to displace air and prevent oxidation. 3.9 PRECAUTIONS DURING BRAZING SERVICE VALVE Precautions should be taken to prevent heat damage to service valve by wrapping a wet rag around it as shown in Fig.8. Also, protect all painted surfaces, insulation, during brazing.After brazing cool joint with wet rag. The valve can be opened by removing the plunger cap and fully inserting a hex wrench into the stem and backing out counter-clockwise until valve stem just touches the chamfered retaining wall. 10 Connect the refrigerant lines using the following procedure: 1. Remove the cap and Schrader core from both the liquid and suction service valve service ports at the outdoor unit. Connect low pressure nitrogen to the liquid line service port. wet rag service valve 0� �o O� O� OO Oo Fig.8 Heat Protection 2. Braze the liquid line to the liquid valve at the outdoor unit. Be sure to wrap the valve body with a wet rag.Allow the nitrogen to continue flowing. Refer to the Tabular Data Sheet for proper liquid line sizing. 3. Carefully remove the rubber plugs from the evaporator liquid and suction connections at the indoor coil. 4. Braze the liquid line to the evaporator liquid connection. Nitrogen should be flowing through the evaporator coil. 5. Slide the plastic cap away from the suction connection at the indoor coil. Braze the suction line to the evaporator suction connection. Refer to the Table 1 for proper suction line sizing. 6. Protect the suction valve with a wet rag and braze the suction line connection to the outdoor unit. The nitrogen flow should be exiting the system from the suction service port connection.After this connection has cooled, remove the nitrogen source from the liquid fitting service port. 7. Replace the Schrader core in the liquid and suction valves. 8. Leak test all refrigerant piping connections including the service port flare caps to be sure they are leak tight. DO NOT OVER TIGHTEN (between 40 and 60 inch -lbs. maximum). 9. Evacuate the suction line, evaporator, and the liquid line, to 350 microns or less. Table 1: Recommended Liquid and Suction Tube Diameters (In.) LIQUID SUCTION Tube Diameter Tube Diameter 3/8 3/4 ' 3/8 3/4 3/8 3/4 3/8 3/4 3/8 3/4 3/8 7/8 3/8 1 7/8 11 10. Replace cap on service ports. Do not remove the flare caps from the service ports except when necessary for servicing the system. 11. Release the refrigerant charge into the system. Open both the liquid and suction valves by removing the plunger cap and with an hex wrench back out counter -clockwise until valve stem just touches the chamfered retaining wall. 12. Replace plunger cap finger tight, then tighten an additional 1/12 turn (1/2 hex flat). Cap must be replaced to prevent leaks. WARNING Never attempt to repair any brazed connections while the system is under pressure. Personal injury could result. See "System Charge" section for checking and recording system charge. 4.0 INTERCONNECTING TUBING 4.1 SUCTION AND LIQUID LINES Keep all lines sealed until connection is made. Make connections at the indoor coil first. Refer to Line Size Information in Tables 2 and 3 for correct size and multipliers to be used to determine capacity for various suction line diameters and lengths of run. The losses due to the lines being exposed to outdoor conditions are not included. The factory refrigerant charge in the outdoor unit is sufficient for 15 feet of standard size interconnecting liquid line. Calculate actual charge required with installed liquid line size and length as below. 5/16" ± .4 oz. per foot 3/8" ± .6 oz. per foot 1/2" ± 1.2 oz. per foot 4.2 MAXIMUM LENGTH OF LINES The maximum length of interconnecting line is 150 feet. Always use the shortest length possible with a minimum number of bends. NOTE: Excessively long refrigerant lines cause loss of equipment capacity. 4.3 VERTICAL LIFT Keep the vertical lift to a minimum. Use the following guidelines when installing the unit: 1. DO NOT exceed the vertical lift as indicated on Table 3. 2. It is recommended to use the smallest liquid line size permitted to minimize sys - tem charge which will maximize compressor reliability. 3. Table 3 may be used for sizing horizontal runs. 5.0 EVACUATION It will be necessary to evacuate the system to 350 microns or less. If a leak is suspected, leak test with dry nitrogen to locate the leak. Repair the leak and test again. To verify that the system has no leaks, simply close the valve to the vacuum pump suction to isolate the pump and hold the system under vacuum. Watch the micron gauge for a few minutes. If the micron gauge indicates a steady and continuous rise, it's an indication of a leak. If the gauge shows a rise, then levels off after a few minutes and remains fairly constant, its an indication that the system is leak free but still contains moisture and may require further evacuation if the reading is above 350 microns. 12 LINE SIZING TABLE 2: SUCTION LINE LENGTH/SIZE VS CAPACITY MULTIPLIER(R410A) Model Size 1 112 Ton 2 Ton 21/2 Ton 3 Ton 3 112 Ton 4 Ton 5 Ton Suction Line Connection Size 3/4"O.D. 3/4"O.D 3/4"O.D. 3/4"O.D. 3/4"O.D. 7/8"O.D. 7/8"O.D. Suction Line Run-Feet 5/8 Opt. 5/8 Opt. 5/8 Opt. 5/8 Opt. 5/8 Opt. 3/4 Opt. 1 1/8 Opt. 314*Std. 3/4*Std. 3/4*Std. 3/4*Std. 3/4*Std. 7/8*Std, 7/8*Std. 25' Optional 1.00 1.00 1.00 1.00 1.00 1.00 1.00 Standard 1.00 1.00 1.00 1.00 1.00 1.00 0.99 50' Optional 0.97 0.97 0.97 0.97 0.98 0.98 0.99 Standard 0.98 0.98 0.98 0.99 0.98 0.98 0.98 100, Optional 0.94 0.94 0.94 0.94 0.95 0.95 0.98 Standard 0.95 0.95 0.96 0.97 0.97 0.97 0.94 150' Optional 0.90 0.90 0.90 0.90 0.91 0.92 0.97 Standard 0.92 0.92 0.93 0.96 0.96 0.96 0.90 NOTES: *Standard size Using suction line larger than shown in chart will result in poor oil return and is not recommended. the system capacity published in AHRI is 17800Btulh.This data is based on the AHRI test condition and 25ft line set with standard suction tube size(3/4"tube).If you need to add the line set more than 25ft or use the optional suction tube size,you need to recalculate the capacity with the coefficient in the table.For example:for 50ft line and 5/8"suction tube,the capacity will be 17800*0.97=17266Btulh. TABLE 3 :LIQUID LINE SIZE (R410A) Liquid Line Size Line Size Line Size Outdoor unit above or below indoor coil Model C Compressor Connection And Size Connection Size Type Line Size (Inch O.D.) Yp Total Equivalent Length-Feet (Inch O.D.) 25 50 1 75 1 100 125 150 Maximum Vertical Separation-Feet 1/4 25 40 25 9 N/A N/A 1 112 Ton 3/8" Scroll 5/16 25 50 60 58 40 30 3/8* 25 50 60 60 40 30 1/4 23 N/A N/A N/A N/A N/A 2 Ton 3/8" Scroll 5/16 25 36 29 23 16 9 3/8* 25 50 60 60 40 30 1/4 25 N/A N/A N/A N/A N/A 2 1/2 Ton 3/8" Scroll 5/16 25 49 38 27 17 6 3/8* 25 50 60 60 40 30 3 Ton 3/8" Scroll 5/16 25 50 37 22 7 N/A 3/8* 25 50 60 60 40 30 3 112 TonI k 3/8" Scroll 5/16 25 23 4 N/A N/A N/A 3/8* 25 50 43 36 30 24 4 Ton 3/8" Scroll 3/8* 25 46 38 30 22 15 112 25 50 56 55 40 30 5 Ton 3/8" Scroll 3/8* 25 50 56 44 32 20 1/2 25 50 60 60 40 30 NOTES: * Standard line size N/A Application not recommended. 13 6.0 ELECTRICAL CONNECTIONS 6.1 GENERAL INFORMATION & GROUNDING Check the electrical supply to be sure that it meets the values specified on the unit nameplate and wiring label. Power wiring, control (low voltage) wiring, disconnect switches and over current protection must be supplied by the installer. Wire size should be sized per requirements. A CAUTION All field wiring must USE COPPER CONDUCTORS ONLY and be in accordance with Local, National Fire, Safety& Electrical Codes. This unit must be grounded with a separate ground wire in accordance with the above codes. The complete connection diagram and schematic wiring label is located on the inside surface of the unit service access panel and this instruction. 6.2 FIELD CONNECTIONS POWER WIRING 1. Install the proper size weatherproof disconnect switch outdoors and within sight of the unit. 2. Remove the screws at the side of the corner panel. Slide corner panel down and remove from unit. See Fig. 9. 3. Run power wiring from the disconnect switch to the unit. 4. Route wires from disconnect through power wiring opening provided and into the unit control box. 5. Install the proper size time-delay fuses or circuit breaker, and make the power supply connections. 6. Energize the crankcase heater if equipped to save time by preheating the compres- sor oil while the remaining installation is completed. NOTE: When changing the motor, remove top cover first. �O O PANELER OO ... OD o 0 OO DO O HIGH VOLTAGE WIRING LOW VOLTAGE WIRING Fig.9 Typical Field Wiring 14 6.3 REMOVING THE TOP PANEL AND MOTOR i 1/2" nut 0 0 0 NOTE: _ 5/16" nuts Damage will occur to condenser unit if you remove fan nuts prior to cover removal. Fig.10 COVER AND FAN When motor requires changing follow the steps below: Step 1: Go into electrical panel, disconnect motor power lines. IMPORTANT NOTE Disconnect main power to unit. Severe burns and electrical shock will occur if you do not disconnect main power. Step 2: Remove cover(be careful of motor wires) Step 3: Be sure to place fan cover unit on the ground as indicated in Fig. 10 IMPROTANT NOTE Do not place or lean fan blades on ground or against surface. Step 4: Remove fan motor by removing 5/16" nuts from cover. Step 5: Remove fan blade from motor by removing 1/2" nut and place fan on the ground. Step 6: Reverse removal process to reinstall the fan and motor. IMPROTANT NOTE When connecting motor wires be sure to check motor direction. 7.0 CHECKING REFRIGERANT CHARGE Charge for all systems should be checked against the Charging Chart inside the access corner panel or Charging by weight. IMPORTANT:Do not operate the compressor without charge in system. Addition of R-410A will raise pressures (suction, liquid and discharge). 7.1 CHARGING BY LIQUID PRESSURE In order to properly charge the system, the following conditions must be met: 1) Outdoor temperature above 60°F. 2) Indoor temperature between 70°F to 100°F. 3) Installation must be complete with brazed joints and drier visually inspected. 4)The unit electrical installation must be checked and unit powered for one (1) hour if crank case heater is used or five (5) minutes if no crankcase heater is used. Follow these steps: 1. Run in cooling mode at least 20 minutes. 2. Measure OUTDOOR AMBIENT TEMPERATURE within 6 inches of coil. 3. Measure SUCTION LINE PRESSURE. 4. Find the TARGET LIQUID PRESSURE at the intersection between the SUCTION LINE PRESSURE and the OUTDOOR AMBIENT TEMPERATURE, if falls between rows or columns then estimate the TARGET LIQUID PRESSURE or SUCTION LINE PRESSURE falls between rows or columns then estimate the TARGET LIQUID PRESSURE between the rows and columns. 15 5. Compare the measured LIQUID LINE PRESSURE to the TARGET LIQUID PRESSURE, add charge to raise the pressure or recover charge to lower it. 6. After running unit for 20 minutes if the SUCTION LINE PRESSURE changes, go back to step 2 otherwise remove test equipment and cover the valves. 7.2 CHARGING BY WEIGHT For a new installation,evacuation of interconnecting tubing and indoor coil is adequate; otherwise,evacuate the entire system. The factory refrigerant charge in the outdoor unit is sufficient for 15 feet of standard size interconnecting liquid line. Calculate actual charge required with installed liquid line size and length, please see 4.1 of instruction. With an accurate scale (+/- 1 oz.)adjust charge difference between that shown on the unit data plate and that calculated for the new system Installation. if the entire system has been evacuated, add the total calculated charge. 7.3 FINAL LEAK TESTING After the unit has been properly evacuated and charged, a halogen leak detector should be used to detect leaks in the system. All piping within the condensing unit, evaporator, and interconnecting tubing should be checked for leaks. If a leak is detected, the refrigerant should be recovered before repairing the leak. The Clean Air Act prohibits releasing refrigerant into the atmosphere. 8.0 WARRANTY Assist owner with processing Warranty cards and/or online registration. 8.1 MAINTENANCE 1. Dirt should not be allowed to accumulate on the indoor or outdoor coils or other parts in the air circuit. Clean as often as necessary to keep the unit clean. Use a brush, vacuum cleaner attachment, or other suitable means. 2. The outdoor fan motor is permanently lubricated and does not require periodic oiling. 3. Refer to the furnace or air handler instructions for filter and blower motor maintenance. 4. The indoor coil and drain pan should be inspected and cleaned regularly to assure proper drainage. A CAUTION It is unlawful to knowingly vent, release or discharge refrigerant into the open air during repair, service, maintenance or the final disposal of this unit. When the system is functioning properly and the owner has been fully instructed, secure the owner's approval. 9.0 WIRING DIAGRAM A CAUTION These units must be wired and installed in accordance with all National and Local Safety Codes. 16 9.1 CONTROL WIRING PLUG PLATE GROUND --- LINE VOLTAGE �----- FACTORY STANDARD FIELD INSTALLED •....... BLACK Ti L1- - - -RED ---- L1 FACTORY OPTIONAL w T2 -—-—- BLACK LOW VOLTAGE L2- - - BLACK p --- L2 p I*- FACTORY STANDARD a I_ FIELD INSTALLED cc VO FACTORY OPTIONAL -------- At A2 BLACK C g USE COPPER CONDUCTORS ONLY ----'Hrsoancs W CC COMPRESSOR CONTACTOR YELLOW _ _ I Y 2 COMP COMPRESSOR YELLOVd ~ RC 1 RUN CAPACITOR 1 BLACK C GREEN BLACK O RC 2 RUN CAPACITOR 2 WHITE OR YELLOW RC 3 RUN CAPACITOR 3 RC 1 S - HPS HIGH PRESSOR SWITCH COMP HGS HOT GAS/COMPRESSOR TOP SWITCH � ORANGE WARNING.CABINET MUST BE PERMANENTLY �� ;BLACK R GOUNDED AND ALL WIRING TO CONFORM TO RC 3 RC 2 I.E.C,N.E.C,C.EC,C.L.C,AND LOCAL CODES AS APPLICABLE BLACK a GREEN REPLACEMENT WIRE MUST BE THE SAME GAUGE AND BROWN INSULATION TYPE AS ORIGINAL WIRE Fig.11 Outdoor Unit Wiring Diagram(208/230V 1 P 60Hz) Note: The wiring diagram show is for reference only,actual product may vary. THERMOSTAT F R] Fy I Y � Y FG Z 0L1 U Q W � Q J W m W} m (C G FLR d 7OUTDOO CINDOOR UNIT R UNIT Fig.12 Control Wiring Suggestion: When choosing a thermostat, choose KJR-25B or a non-programmable electric thermostat. Please refer to thermostat electrical manual for wiring schematic. TABLE 4: Electrical Data: Model Minimum Circuit Am acit A Maximum Circuit Protector(A) 18L 10.4 15 24 L 13.4 20 30L 16.2 25 36L 19.1 30 42L 21.6 35 48L 24.6 40 60L 29.6 50 17 Orifice/TXV Replacement Information NOTE: The orifice/TXV replacement options noted in this sheet supersede those in the installation guide. Please reference this sheet for all refrigerant metering options. DRILL A SMALL HOLE IN VAPOR LINE FOR EQUALIZER TUBE Step 1: Remove the screws and front coil panel. BULB Step 2: Remove the rubber plugs from the liquid and vapor lines. Step 3: Using a back up wrench and loosen the flow assembly.Remove the factory PISTON installed piston Reassemble and tighten the flow assembly. Tighten the flow assembly to 11 (±2)ft-lb Step 4: If replacing the preinstalled TXV ® � orifice with the optional orifice,ensure the replacement orifice is placed in the same • orientation as the preinstalled orifice before tightening the flow assembly. TXV-Specific Steps Step 5: Drill a small hole in the suction line for the TXV equalizer line.The hole must be on top as noted in the picture. Step 6: Dry fit the TXV to the liquid line entering the coil.The valve must be in the upright position as pictured.Keep the valve as close to the coil as possible, although a short piece of field fabricated tubing may be needed.The TXV must be mounted in the CORRECT direction of flow.Place the TXV equalizer line 3 to 4 mm inside the small hole drilled in the vapor line. Step 7: Wrap the TXV and coil panel with a wet rag to prevent overheating while brazing.Use a nitrogen flow and braze all connections. Step 8: Allow tubing to cool and pressurize line sets with 150 PSI of nitrogen to check braze connections and flow assembly for leaks.Make repairs as needed. Step 9: Locate and clean a straight section of the vapor line as close to the coil as possible.Use the supplied copper straps to secure the TXV sensing bulb on top of the vapor line as pictured. Step 10: Insulate the entire vapor line and sensing bulb It is also recommended to insulate the TXV and liquid line between the valve and coil to prevent condensation in hot humid environments. Superheat Charging Chart Step 11: Replace the front coil panel and secure in place. Step 12: Follow the steps in the installation guide for vacuum requirements and Outdoor Indoor Temperature ff) system start up procedures. Temp Dry Bulb/Wet Bulb Step 13: Allow system to run for a minimum of 10 minutes in the cooling mode. ('F) 95/79 90/75 85/71 80/67 75/63 70/58 A: For fixed orifice installation: Use the superheat charging chart to obtain 115 23 16 7 5 5 5 proper superheat based on indoor/outdoor conditions. 110 24 17 9 5 5 5 B: For TXV installation: Charge the system to 10 degrees of subcooling. 105 26 19 11 5 5 5 Adjust the expansion valve to achieve 9(±3 degrees)of superheat. 100 27 21 13 7 5 5 Step 14: Allow system to run for an additional 10 minutes to verify the subcooling 95 29 23 16 9 5 5 and superheat readings. 90 30 25 18 12 5 5 85 32 26 20 14 8 5 System Charge Adjustment 80 34 28 22 17 11 5 Subcooling Charging (Above 550F Outdoor Temp.) 75 35 30 24 19 13 6 70 37 32 26 21 16 10 38 3 R-410A SUBCOOLING CHARGING TABLE 65 29 24 19 13 OUTDOOR TEMPERATURE('F) 60 40 36 31 27 22 17 82 95 115 55 41 37 33 29 25 21 DESIGN SUBCOOLING VALUES(°F) Note 1: Chart is based on 400 CFM/Ton indoor airflow and 50%relative 10-12 1 8-10 5-8 1 humidity. If indoor relative humidity is above 70%or below 20%,use indoor wet bulb temperature only.Airflow range is 375 to 425 CFM/Ton. 18 Condensing Unit Air Handle/A-Coil Piston Size Optional TXV SEER If Preinstalled Piston Replace Required J4AH4P18A1A00AA 0.050 4AYTXVH3G2436A 13 YES J4AC3018B1000AA J4GXCA001AC6HUA 0.052 4AYTXVH3G2436A 13 YES J4MXCA001AC6HCA 0.052 4AYTXVH3G2436A 13 YES J4AH4P24A1B00AA 0.056 4AYTXVH3G2436A 13 YES J4AC3024B1000AA J4GXCA001AC6HUA 0.058 4AYTXVH3G2436A 13 NO J4MXCA001AC6HCA 0.058 4AYTXVH3G2436A 13 NO J4AH4P30A1B00AA 0.063 4AYTXVH3G2436A 13 YES J4AC3030B1000AA J4GXCA001AC6HUA 0.063 4AYTXVH3G2436A 13 YES J4MXCA001AC6HCA 0.063 4AYTXVH3G2436A 13 YES J4AH4P36A1B00AA 0.070 4AYTXVH3G2436A 13 YES AC J4AC3036B1000AA J4GXCB002AC6HUA 0.070 4AYTXVH3G2436A 13 YES J4MXCB002AC6HCA 0.070 4AYTXVH3G2436A 13 YES J4AH4P42A1C00AA 0.075 4AYTXVH3G4248A 13 YES J4AC3042B1000AA J4GXCB004AC6HUA 0.075 4AYTXVH3G4248A 13 YES J4MXCB004AC6HCA 0.075 4AYTXVH3G4248A 13 YES J4AH4P48A1C00AA 0.083 4AYTXVH3G4248A 13 NO J4AC3048B1000AA J4GXCC009AC6HUA 0.083 4AYTXVH3G4248A 13 YES J4MXCC009AC6HCA 0.083 4AYTXVH3G4248A 13 YES J4AH4P60A1C00AA 0.090 4AYTXVH3G6000A 13 NO J4AC3060B1000AA J4GXCC009AC6HUA 0.090 4AYTXVH3G6000A 1 13 NO J4MXCC009AC6HCA 0.090 4AYTXVH3G6000A 13 NO NOTE: Since the manufacturer has a policy of continuous product and product data improvement, if the system combination you are looking for is not listed, check for the latest version of this document at www.oxboxhvac.com. 19 REFRIGERANT CHARGE FOR AC SYSTEM 13 SEER R410A AC Charge Chart 1.5 TON Cooling Outdoor Ambient Tem erature°F Mode 55 60 65 70 75 80 85 90 95 100 105 110 115 LI u Pressure at ma Service a va s 165 276 294 314 335 354 376 396 421 443 467 496 161 274 292 312 333 352 374 394 419 441 465 494 e 157 272 290 310 331 350 372 392 417 439 463 492 qC 153 246 270 288 308 329 348 370 390 415 437 461 490 n 149 244 268 286 306 327 346 368 388 413 435 459 488 145 242 266 284 304 325 344 366 386 411 433 457 486 tl 141 230 240 264 282 302 323 342 364 384 409 431 455 484 c 137 228 238 262 280 300 321 340 362 382 407 429 453 482 0 u 133 226 236 260 278 298 319 338 360 380 405 427 451 480 u Z 129 224 234 258 276 296 317 336 358 378 403 425 449 478 N 125 222 232 256 274 294 315 334 356 376 401 423 447 476 e 121 220 230 254 272 292 313 332 354 374 399 421 445 474 a 117 218 228 252 270 290 311 330 352 372 397 419 443 472 `m 113 216 226 250 268 288 329 328 350 370 395 417 441 470 J 109 214 224 248 266 286 307 326 348 368 393 415 439 468 105 212 222 246 264 284 305 324 346 366 391 413 437 466 13 SEER R410A AC Charge Chart 2.0 TON Cooling Outdoor Ambient em erature°F Mode 55 1 60 65 70 1 75 A 80 1 85 1 90 95 1 100 1 105 1 110 1 115 Lipuld Pressure at Small Service a ve s 165 269 290 310 331 353 375 397 422 446 471 495 161 267 288 308 329 351 373 395 420 444 1 469 493 157 265 286 306 327 349 371 393 418 442 467 491 a 153 242 263 284 304 325 347 369 391 416 440 465 489 o m 149 240 261 282 302 323 345 367 389 414 438 463 487 L 145 238 259 280 300 321 343 365 387 412 436 461 485 w j 141 216 236 257 278 298 319 341 363 385 410 434 459 483 137 214 234 255 276 296 317 339 361 383 408 432 457 481 133 212 232 253 274 1 294 315 337 359 381 1 406 430 455 479 c Z 129 210 230 251 272 292 313 335 357 379 404 428 453 477 y 125 208 228 249 270 290 311 333 355 377 402 1 426 451 475 e 121 206 226 247 268 288 309 331 353 375 W339924214(83 449 473 y 0, 117 204 224 245 266 286 307 329 351 373 447 471 5 113 202 222 243 264 284 305 327 349 371 445 469 109 200 220 241 262 282 303 325 347 369 443 467 105 198 218 239 260 280 301 323 345 367 441 1 465 TS E 0 ar a art .5 TON Cooling Outdoor m ent Tem erature° Mode 55 60 65 70 1 75 80 85 90 95 100 105 110 115 u ressure at Small Service a ve s 165 1 269 1 290 312 1 333 355 37 400 426 452 477 503 161 267 288 310 331 353 376 398 424 450 475 501 157 265 286 308 329 351 374 396 422 448 473 499 a 153 242 263 284 306 327 349 372 394 420 446 471 497 m a 149 240 261 282 304 325 347 370 392 418 444 469 495 145 238 259 280 302 323 345 368 390 416 442 467 49 j 141 214 236 257 278 300 321 343 366 388 414 440 465 491 o m 137 212 234 255 276 298 319 341 364 386 412 438 463 48 a 133 210 232 253 274 296 317 339 362 384 410 436 1 461 487 129 208 230 251 272 294 315 337 360 382 408 434 45 485 G y 125 206 228 249 270 292 313 335 358 380 406 432 457 483 u m 121 204 226 247 268 290 11 333 35 37 404 430 455 4 1 p� 117 202 224 245 266 1 288 309 331 354 376 402 428 453 1 479 to J 113 200 222 243 264 286 307 329 352 374 400 426 4 1 7 109 198 220241 26260 305 327 5 424 105 196 218 239 282 303 325 348 370 396 422 447 1 473 1 E 410A AC Charge hart 3.0 TO Cooling Outdoor Ambient Tem erature°F Mode 55 1 60 1 65 70 1 75 1 80 1 85 1 90 95 1 100 105 110 1 115 I uid Pressure at Small Service Valve sl 165 277 298 318 1 339 363 1 386 410 1 436 461 487 512 o� 161 275 296 316 337 361 384 408 434 459 485 510 157 <.'�:>- 273 294 314 335 359 382 406 432 457 483 508 a 153 250 271 292 312 333 357 380 404 430 455 481 506 m 0 149 248 269 290 310 331 355 378 402 428 453 479 504 2 145 246 267 288 308 329 353 376 400 426 451 477 502 o j 141 224 244 265 286 306 327 351 374 398 424 449 475 500 e m 137 222 242 263 284 304 325 349 372 396 422 447 473 498 a 2 133 220 240 1 261 282 302 323 347 310 394 420 445 471 496 c Z 129 218 238 259 280 300 321 345 368 392 418 443 469 494 N 125 216 236 257 278 298 319 343 366 390 416 441 467 492 m 121 214 234 255 276 296 317 341 364 388 414 439 465 490 to pi 117 212 232 253 274 294 315 339 362 386 412 437 463 488 J 113 210 30 51 272 292 313 337 360 384 410 435 461 486 109 49 270 1 58 3 2 0 4 3 45 105 6 226 247 268 288 309 333 356 380 406 4 1 45 20 13 SEER R41 hat a art I TON Cooling Outdo m en on" ra ure° Mode 55 1 60 1 65 70 1 75 110 11 LlquiTPressure at smaiservice valvelow 165 250 269 2 8 307 329 51 37 400 426 453 47 161 7 7 1 4 451 477 rn 157 4 5 4 44 47 a 153 7 4 447 473 m 149 4 1 A 145 um > 141 m 137 C Z 133 in 129 u m 125 v'i O 121 117 113 109 105 13 SEER R410A AC Charge Chart 4 TON Cooling Outdoor Ambient Toll, stature°F Mode 55 60 65 70 75 80 85 90 95 1 100 1 105 1 110 115 LIQ uld Pressure at Small Service Valve Sig) 165 257 277 298 318 340 1 362 384 411 46 4 p� 161 255 275 296 316 338 360 382 409 43 464 491 •m 157 253 273 294 314 336 358 380 407 435 462 489 $ 153 231 251 271 292 312 334 356 378 405 43 4 0 4 7 m m 149 229 249 269 290 3 332 354 376 403 431 458 485 145 227 247 267 288 308 330 352 374 401 429 456 483 of j 141 204 225 245 265 2 6 3 3 8 35 372 399 427 454 481 m 137 202 223 243 263 284 304 326 348 370 397 425 452 479 m 2 133 200 221 241 261 282 302 324 346 368 395 423 450 477 a Z 129 1 1 1 1 1 1393 421 448 475 o to 125 196 217 237 257 278 298 320 342 364 391 419 446 473 0 e 121 194 215 235 255 276 296 318 340 362 389 417 444 471 Q 117 192 213 233 253 274 294 316 338 360 387 415 442 469 N 113 190 211 231 251 272 292 314 336 358 385 413 440 467 A J 109 188 209 229 249 270 290 312 334 356 383 411 438 465 105 186 207 227 247 268 288 310 332 354 1 436 463 13 SEER R410A AC Charge Chart 5 TON Cooling Outdoor Ambient Tem erature°F Mode 55 60 65 70 75 80 85 90 95 1 100 105 110 115 Liquid Pressure at Small Service Valve si 165 265 285 306 326 348 369 391 416 441 466 491 161 263 283 304 324 346 367 389 414 439 464 489 157 261 281 302 322 344 365 387 412 437 462 487 a 153 239 259 279 300 320 342 363 385 410 435 460 485 ro 149 237 257 277 298 318 340 361 383 408 433 458 483 145 235 255 275 296 316 338 359 381 406 431 456 481 m > 141 212 233 253 273 294 314 336 357 379 404 429 454 479 m w 137 210 231 251 271 292 312 334 355 377 402 427 452 477 a 133 208 229 249 269 290 310 332 353 375 400 1 425 450 475 Z 129 206 227 247 267 1 288 1 308 1 330 351 373 398 423 1 448 473 o W 125 204 225 245 265 1 286 1 306 328 349 371 396 421 1 446 1 471 U e 121 202 223 243 263 284 304 326 347 369 394 419 444 469 N ai 117 200 221 241 261 282 302 324 345 367 392 417 442 467 A 113 198 219 239 259 280 300 322 343 365 390 415 440 465 J 109 196 217 237 257 278 298 320 341 363 388 413 1 438 1 463 105 194 215 235 255 276 296 318 339 361 386 411 436 461 21 TABLE 5. Troubleshooting o PST p °�T fl tiq SYSTEM FAULTS 9 C i °p O,p O.p N yC ��9� N� O�2io n+� n+�90 (�N °GG�Oy try 9�OCy yN y� yc c<` vo REFRIGERANT CIRCUIT Head Pressure Too High C P P S P S S Head Pressure Too Low C S P I S Is S S I I P Suction Pressure Too High C S P P I I S P I I P Suction Pressure Too Low C P S P S Liquid Refrig.Floodback(TXV) C p TS I.D.Coil Frosting C P S S Compressor Runs Inadequate or No CoolinglHeating C S P S S S P S S ELECTRICAL Compressor&O D.Fan Won't Start C P P S S P S P P Compressor Will Not Start But O.D Fan Runs C P P P O.D.Fan Won't Start C P P Compressor Hums But Won't Start C P P I D.Blower Won't Start C F, P S P S P S S DEFROST Unit Won't Initiate Defrost C S Defrost Terminates on Time C Unit Icing Up I C C-Cooling P-Primary Causes S-Secondary Causes TABLE 6. Operational And Checkout Procedures Final phases of this installation are the unit Operational and Checkout Procedures. To obtain proper performance, all units must be operated and charge adjustments made in accordance with procedures found in the Service Facts of the Outdoor Unit. After installation has been completed, it is recommended that the entire system be checked against the following list: 1. Be sure unit suspension(if used) is secure and that 5.Check all duct outlets; they must be open and unrestricted. [ thereare no tools or loose debris in or around or on top of the unit......................................................[ 6.Check drain lines and be sure all joints are tight............... [ 2. Properly insulate suction lines and fittings. .........[ l 7.Be sure that a return air filter is installed. .......................... [ 3. Properly secure and isolate all refrigerant lines... [ l g.Operate complete system in each mode to verify proper 4. Verify that all electrical connections are tight. .....[ performance. Verify operation of supplementary electric heater. ...............................................................................[ ] 22 ACCI" CERTIFICATE OF LIABILITY INSURANCE °ATEiMM/°°"YYY' 07/05/2022 THIS CERTIFICATE IS ISSUED AS A MATTER OF INFORMATION ONLY AND CONFERS NO RIGHTS UPON THE CERTIFICATE HOLDER.THIS CERTIFICATE DOES NOT AFFIRMATIVELY OR NEGATIVELY AMEND,EXTEND OR ALTER THE COVERAGE AFFORDED BY THE POLICIES BELOW. THIS CERTIFICATE OF INSURANCE DOES NOT CONSTITUTE A CONTRACT BETWEEN THE ISSUING INSURER(S),AUTHORIZED REPRESENTATIVE OR PRODUCER,AND THE CERTIFICATE HOLDER. IMPORTANT: If the certificate holder is an ADDITIONAL INSURED,the policy(ies)must have ADDITIONAL INSURED provisions or be endorsed. If SUBROGATION IS WAIVED,subject to the terms and conditions of the policy,certain policies may require an endorsement. A statement on this certificate does not confer rights to the certificate holder in lieu of such endorsements. PRODUCER CONTACT NAME: Chandra Amarsingh Umanoff Boyer Insurance Agency, LLC PHONE 516 872-2000 FAx FAX No): 518 872-2001 151 Atlantic Ave ADDRESS, chandrap_umanotYboyer.com Lynbrook, NY 11563 INSURERS AFFORDING COVERAGE NAIC0 _ INSURER A: NorGUARD Ins rance Company 7 INSURED INSURERS: Nationwide _ _ 779N Dazco Heating &Air Conditioning, Corp. INSURERC: _ 70 Putnam Ave INSURER D: Port Chester, NY 10573-2718 INSURE: INSURER F: COVERAGES CERTIFICATE NUMBER: 00010224-100209 REVISION NUMBER: 5 THIS IS TO CERTIFY THAT THE POLICIES OF INSURANCE LISTED BELOW HAVE BEEN ISSUED TO THE INSURED NAMED ABOVE FOR THE POLICY PERIOD INDICATED. NOTWITHSTANDING ANY REQUIREMENT,TERM OR CONDITION OF ANY CONTRACT OR OTHER DOCUMENT WITH RESPECT TO WHICH THIS CERTIFICATE MAY BE ISSUED OR MAY PERTAIN,THE INSURANCE AFFORDED BY THE POLICIES DESCRIBED HEREIN IS SUBJECT TO ALL THE TERMS, EXCLUSIONS AND CONDITIONS OF SUCH POLICIES.LIMITS SHOWN MAY HAVE BEEN REDUCED BY PAID CLAIMS. INSR TYPE OF INSURANCE ADOL SUB WVDPOLICY NUMBER POLICY EFF POLICY EXP UNITS A X COMMERCIAL GENERAL LIABILITY DABP218309 09/30/2021 09/30/2022 EACH OCCURRENCE $ 000000 CLAIMS-MADE �OCCUR DAMAGE TO RENTE e $ MED EXP An one person) $ 5,000 PERSONAL i ACV INJURY s Included GEN'L AGGREGATE LIMIT APPLIES PER: GENERAL AGGREGATE $ 2,000,000 X POLICY❑JJEECT ❑LOC PRODUCTS-COMPIOP AGG $ 2,000,000 OTHER: $ B AUTOMOBILE LIABILITY ACPBAF3076964228 01/01/2022 01/01/2023 CO a81 aEDISINGLE LIMT s 000000 ANY AUTO BODILY INJURY(Per person) S OWNED SCHEDULED AUTOS ONLY X AUTOS BOOILY INJURY(Per accldeM) $ HIRED NON-OWNED PROPERTY DAMAGE $ AUTOS ONLY AUTOS ONLY Per acddent $ UMBRELLA L" H OCCUR EACH OCCURRENCE $ EXCESSLIAB CLAIMS-MADE AGGREGATE $ DIED 1 1 RETENTIONS $ WORKERS COMPENSATION PER OR AND EMPLOYERS'LIABILITY Y I N ANY PROPRIETOR/PARTNER/EXECUTIVE EL.EACH ACCIDENT = OFFICERIMEMBER EXCLUDED? ❑ N I A (Mandatory in NH) E.L.DISEASE-EA EMPLOYE $ If yes,describe under DESCRIPTION OF OPERATIONS below E.L.DISEASE-POLICY LIMIT S DESCRIPTION OF OPERATIONS/LOCATIONS/VEHICLES (ACORD 101,Additional Remarks Schedule,may be attached if more space is required) Proof of Insurance CERTIFICATE HOLDER CANCELLATION SHOULD ANY OF THE ABOVE DESCRIBED POLICIES BE CANCELLED BEFORE THE EXPIRATION DATE THEREOF,NOTICE WILL BE DELIVERED IN Village of Rye Brook ACCORDANCE WITH THE POLICY PROVISIONS. 938 King Street Rye Brook, NY 10573 AUTHORIZED REPRESENTATIVE N"4 Iler CAS 9)1 -201 ACOR BIFURPORATION. All rights reserved. ACORD 25(2016/03) The ACORD name and logo are registered marks of ACORD Printed by CAS on 07/05/2022 at 02:51PM I-i roaK Workers' Certificate of Attestation of Exemption STATE Compensation from New York State Workers' Compensation and/or Board Disability and Paid Family Leave Benefits Insurance Coverage **This form cannot be used to waive the workers'compensation rights or obligations of any party.** The applicant may use this Certificate of Attestation of Exemption ONLY to show a government entity that New York State specific workers'compensation and/or disability and paid family leave benefits insurance is not required. The applicant may NOT use this form to show another business or that business's insurance carrier that such insurance is not required. Please provide this form to the government entity from which you are requesting a permit,license or contract. This Certificate will not be accepted by government officials one year after the date printed on the form. In the Application of Business Applying For: (Legal Entity Name and Address): OTHER:HVAC permit Heating&Air Conditioning Corp 70 Putnam Ave From:Village of Rye Brook 938 King Street Rye Brook NY 10573 70 Putnam Port Chester,NY 10573-2718 PHONE:914-939-9350 FEIN:XXXXX3914 Workers'Compensation Exemption Statement: The above named business is certifying that it is NOT REQUIRED TO OBTAIN NEW YORK STATE SPECIFIC WORKERS'COMPENSATION INSURANCE COVERAGE for the following reason: The business is a one person owned corporation,with that individual owning all of the stock and holding all offices of the corporation. Other than the corporate owner,there are no employees,day labor,leased employees,borrowed employees,part-time employees,other stockholders,unpaid volunteers(including family members)or subcontractors. Disability and Paid Family Leave Benefits Exemption Statement: The above named business is certifying that it is NOT REQUIRED TO OBTAIN NEW YORK STATE STATUTORY DISABILITY AND PAID FAMILY LEAVE BENEFITS INSURANCE COVERAGE for the following reason: The business MUST be either: 1) owned by one individual; OR 2) is a partnership(including LLC,LLP,PLLP,RLLP,or LP)under the laws of New York State and is not a corporation; OR 3) is a one or two person owned corporation,with those individuals owning all of the stock and holding all offices of the corporation(in a two person owned corporation each individual must be an officer and own at least one share of stock); OR 4) is a business with no NYS location. In addition,the business does not require disability and paid family leave benefits coverage at this time since it has not employed one or more individuals on at least 30 days in any calendar year in New York State. (Independent contractors are not considered to be employees under the Disability and Paid Family Leave Benefits Law.) I,Steven w.Dorazio,am the President with the above-named legal entity. I affirm that due to my position with the above-named business I have the knowledge,information and authority to make this Certificate of Attestation of Exemption. I hereby affum that the statements made herein are true,that I have not made any materially false statements and I make this Certificate of Attestation of Exemption under the penalties of perjury. I further affirm that I understand that any false statement,representation or concealment will subject me to felony criminal prosecution,including jail and civil liability in accordance with the Workers'Compensation Law and all other New York State laws. By submitting this Certificate of Attestation of Exemption to the government entity listed above I also hereby affirm that if circumstances change so that workers'compensation insurance and/or disability and paid family leave benefits coverage is required,the above-named legal entity will immediately acquire appropriate New York State specific workers' compensation insurance and/or disability and paid family leave benefits coverage and also immediately furnish proof of that coverage on forms approved by the Chair of the Workers'Compensation Board to the government entity listed above. / SIGN Signature: Date: 7 ' S 1 L Z HERE ��� Exemption Certificate Number Received 2022-047017 July 5, 2022 NYS Workers'Compensation Board CE-200 01n018