Installation Guide for LennoxPros models including: KHC Series Heat Pump Packaged Units, KHC Series, Heat Pump Packaged Units, Pump Packaged Units, Packaged Units, Units
12 giu 2024 — To prevent serious injury or death: 1- Lock-out/tag-out before performing maintenance. 2- If system power is required (e.g., smoke detector.
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DocumentDocument©2024 WARNING Improper installation, adjustment, alteration, ser vice or maintenance can cause property damage, personal injury or loss of life. Installation and ser vice must be performed by a licensed professional HVAC installer or equivalent or service agency. CAUTION As with any mechanical equipment, contact with sharp sheet metal edges can result in personal in jury. Take care while handling this equipment and wear gloves and protective clothing. INSTALLATION INSTRUCTIONS KHC092 (7-1/2 Ton) KHC102 (8-1/2 Ton) KHC120 (10 Ton) HEAT PUMP PACKAGED UNITS 506914-04 6/2024 Supersedes 3/2024 Table of Contents Parts Arrangement . . . . . . . . . . . . . . . . . . 1 Dimensions . . . . . . . . . . . . . . . . . . . . . . 2 Shipping and Packing List . . . . . . . . . . . . . . 3 General . . . . . . . . . . . . . . . . . . . . . . . . 3 Requirements . . . . . . . . . . . . . . . . . . . . . 3 Unit Support. . . . . . . . . . . . . . . . . . . . . . 4 Duct Connection . . . . . . . . . . . . . . . . . . . 4 Rigging Unit for Lifting . . . . . . . . . . . . . . . . 5 Condensate Drains . . . . . . . . . . . . . . . . . . 5 Electrical Connections . . . . . . . . . . . . . . . . 7 Unit Power-Up . . . . . . . . . . . . . . . . . . . . 8 Blower Operation and Adjustments . . . . . . . . . . 8 Heating Start-Up . . . . . . . . . . . . . . . . . . .14 Cooling Start-Up . . . . . . . . . . . . . . . . . . .14 WARNING To prevent serious injury or death: 1- Lock-out/tag-out before performing maintenance. 2- If system power is required (e.g., smoke detector maintenance), disable power to blower, remove fan belt where applicable, and ensure all controllers and thermostats are set to the "OFF" position before performing maintenance. 3- Always keep hands, hair, clothing, jewelry, tools, etc., away from moving parts. Defrost Control Board . . . . . . . . . . . . . . . . .17 Supply Air Inverter Start-Up . . . . . . . . . . . . . .18 Service . . . . . . . . . . . . . . . . . . . . . . . .21 RETAIN THESE INSTRUCTIONS FOR FUTURE REFERENCE PARTS ARRANGEMENT FILTERS EVAPORATOR (FOUR - 20 X 25 X 2") COIL REVERSING VALVE CONDENSER FANS CONDENSER COIL ECONOMIZER (OPTIONAL) SUPPLY AIR VFD COMPRESSORS CONDENSATE DRAIN ELECTRIC HEAT BLOWER MOTOR DIMENSIONS 6-1/8 (156) 60-1/8 (1527) BASE BOTTOM POWER ENTRY 5-1/2 (140) Dia. 7 (178) 6-1/8 (156) 5-5/8 (143) BOTTOM SUPPLY AIR OPENING 24 (610) 27 (686) 10-3/4 28 (273) 20 (711) (508) CENTER OF GRAVITY BOTTOM RETURN AIR OPENING 6-5/8 (168) 7 (178) 34-7/8 (886) BOTTOM CONDENSATE 101-1/4 (2572) TOP VIEW BASE 58-1/8 (1476) 60-1/8 (1527) END VIEW 46-7/8 (1191) 43-3/8 (1102) 3-1/2 (89) OPTIONAL DISCONNECT (FACTORY INSTALLED) 99-1/4 (2521) CONDENSATE DRAIN (FRONT) 1 5-3/8 (25) (137) 46-7/8 (1191) ELECTRIC INLETS 34-7/8 (886) FORKLIFT SLOTS (BOTH SIDES) 101-1/4 (2572) SIDE VIEW LIFTING HOLES (FOR RIGGING) 15-1/2 (394) 15-1/2 (394) HORIZONTAL SUPPLY AIR OPENING HORIZONTAL RETURN AIR OPENING 6-1/8 (156) 31-1/2 (800) 66-3/8 (1686) CONDENSATE DRAIN (BACK) 30 (762) 5-3/8 (137) SIDE VIEW (Horizontal Openings) Page 2 1-5/8 (41) 30 (762) 12-1/8 (308) Shipping and Packing List Package 1 of 1 contains: 1 - Assembled unit Check unit for shipping damage. Receiving party should contact last carrier immediately if shipping damage is found. General These instructions are intended as a general guide and do not supersede local codes in any way. Authorities having jurisdiction should be consulted before installation. KHC units have 7-1/2, 8-1/2, and 10-ton cooling capacities. Optional electric heat is available. Units are equipped with a supply air inverter. The blower will operate at lower speeds when cooling demand is low and increase to higher speeds when cooling demand is high. Refer to Supply Air Start-Up sections. Availability of units and options varies by brand. Requirements The KHC unit is ETL/CSA certified for outdoor installations only at the clearances to combustible materials listed on unit nameplate and in FIGURE 1. Installation of KHC heat pumps must conform with standards in National Fire Protection Association (NFPA) "Standard for Installation of Air Conditioning and Ventilating Systems NFPA No. 90A," "Standard for Installation of Residence Type Warm Air Heating and Air conditioning Systems NFPA No. 90B," local municipal building codes and manufacturer's installation instructions. NOTICE Roof Damage! This system contains both refrigerant and oil. Some rubber roofing material may absorb oil, causing the rubber to swell. Bubbles in the rubber roofing material can cause leaks. Protect the roof surface to avoid exposure to refrigerant and oil during service and installation. Failure to follow this notice could result in damage to roof surface. The National Electric Code (ANSI/NFPA No. 70-1984) is available from: National Fire Protection Association 1 Batterymarch Park PO Box 9101 Quincy, MA 02269-9101 UNIT CLEARANCES Optional Outdoor Air Hood C B D A FIGURE 1 ¹ Unit Clearance A B C D Top in.(mm) in.(mm) in.(mm) in.(mm) Clearance Service Clearance 60 36 (1524) (914) 36 60 (914) (1524) Unobstructed Minimum Oper- 36 ation Clearance (914) 36 (914) 36 (914) 36 (914) Unobstructed NOTE - Entire perimeter of unit base requires support when elevated above mounting surface. ¹ Service Clearance - Required for removal of serviceable parts. Minimum Operation Clearance - Required clearance for proper unit operation. The KHC unit is ETL/CSA certified as a heat pump with cooling and with or without auxiliary electric heat for nonresidential use only at the clearances to combustible materials as listed on the unit nameplate and in FIGURE 1. Installation of ETL/CSA certified units must conform with current standard C273.5 "Installation Requirements for Heat Pumps" and applicable local codes. Authorities having jurisdiction should be consulted before installation. Use of this unit as a construction heater or air conditioner is not recommended during any phase of construction. Very low return air temperatures, harmful vapors and operation of the unit with clogged or misplaced filters will damage the unit. If this unit has been used for heating or cooling of buildings or structures under construction, the following conditions must be met or the warranty will be void: · A room thermostat must control the unit. The use of fixed jumpers that will provide continuous heating or cooling is not allowed. · A pre-filter must be installed at the entry to the return air duct. · The return air duct must be provided and sealed to the unit. · Return air temperature range between 55°F (13°C) and 80°F (27°C) must be maintained. Page 3 · Air filters must be replaced and pre-filter must be removed upon construction completion. · The unit components, duct system, air filters and evaporator coil must be thoroughly cleaned following final construction clean-up. · The unit operating conditions (including airflow, cooling operation, and heating operation) must be verified according to these installation instructions. This appliance is not to be used by persons with reduced physical, sensory or mental capabilities, or lack of experience and knowledge, unless they have been given supervision or instruction. This appliance should not be used by children. Children should be supervised to ensure they do not play with the appliance. WARNING Electric shock hazard and danger of explosion. Can cause injury, death or product or property damage. Turn off electrical power to unit before performing any maintenance or servicing operations on the unit. IMPORTANT The Clean Air Act of 1990 bans the intentional venting of refrigerant (CFC's and HCFC's) as of July 1, 1992. Approved methods of recovery, recycling or reclaiming must be followed. Fines and/or incarceration may be levied for non-compliance. Unit Support NOTE - Securely fasten roof frame to roof per local codes CAUTION To reduce the likelihood of supply / return air by pass and promote a proper seal with the RTU, duct work / duct drops / diffuser assemblies must be supported independently to the building structure. A-Downflow Discharge Application Roof Mounting with C1CURB 1 - The C1CURB roof mounting frame must be installed, flashed and sealed in accordance with the instructions provided with the frame. 2 - The C1CURB roof mounting frame should be square and level to 1/16" per linear foot (5mm per linear meter) in any direction. 3 - Duct must be attached to the roof mounting frame and not to the unit; supply and return plenums must be installed before setting the unit. Installer's Roof Mounting Frame Many types of roof frames can be used to install the unit, depending upon different roof structures. Items to keep in mind when using the building frame or supports are: 1 - The unit base is fully enclosed and insulated, so an enclosed frame is not required. 2 - The frames or supports must be constructed with non-combustible materials and should be square and level to 1/16" per linear foot (5mm per linear meter) in any direction. 3 - Frame or supports must be high enough to prevent any form of moisture from entering unit. Recommended minimum frame height is 14" (356mm). 4 - Duct must be attached to the roof mounting frame and not to the unit. Supply and return plenums must be installed before setting the unit. 5 - Units require support along all four sides of unit base. Supports must be constructed of steel or suitably treated wood materials. NOTE - When installing unit on a combustible surface for downflow discharge applications, the C1CURB roof mounting frame is required. B-Horizontal Discharge Applications 1 - Units installed in horizontal airflow applications must use a horizontal conversion kit (K1HECK00). 2 - Specified installation clearances must be maintained when installing units. Refer to FIGURE 1. 3 - Top of support slab should be at least 4" (102mm) above the finished grade and located so no run-off water from higher ground can collect around the unit. 4 - Units require support along all four sides of unit base. Supports must be constructed of steel or suitably treated wood materials. Duct Connection All exterior ducts, joints, and openings in roof or building walls must be insulated and weatherproofed with flashing and sealing compounds in accordance with applicable codes. Any duct passing through an unconditioned space must be insulated. CAUTION In downflow applications, do not drill or punch holes in base of unit. Leaking in roof may occur if unit base is punctured. Page 4 Rigging Unit for Lifting 1 - Detach wooden base protection before rigging. 2 - Connect rigging to the unit base using both holes in each corner. See FIGURE 2. 3 - All panels must be in place for rigging. 4 - Place field-provided H-style pick in place just above top edge of unit. Frame must be of adequate strength and length. (H-style pick prevents damage to unit.) Unit All Weight* Lbs. Kg. 1514 687 Lifting Point Should Be Directly Above Center Of Gravity. able installed accessories. CAUTION: DO NOT WALK ON UNIT. Units are shipped with the drain coupling facing the front of the unit. Condensate can be drained from the back or bottom of the unit with the following modifications. The unit can be installed in either downflow or horizontal air discharge regardless of condensate drain location. Rear Drain Connection 1 - Remove heat access door. See FIGURE 5. 2 - Remove filter access door. Refer to FIGURE 5. 3 - Remove eight screws holding condensate drain mul- lion and remove mullion. CONDENSATE SIDE DRAIN CONNECTION CAULK AROUND CONDENSATE COUPLING NOTE - Allow clearance to open doors when installing condensate piping. Minimum Pitch 1" (25 mm) per 10' (3 m) of line OPEN VENT UNIT MOUNTING FRAME FIGURE 2 Condensate Drains Make drain connection to the 1" N.P.T. drain coupling provided on unit. NOTE - The drain pan is made with a glass reinforced engineered plastic capable of withstanding typical joint torque but can be damaged with excessive force. Tighten pipe nipple hand tight and turn an additional quarter turn. A trap must be installed between drain connection and an open vent for proper condensate removal. See FIGURE 3 or FIGURE 4. It is sometimes acceptable to drain condensate onto the roof or grade; however, a tee should be fitted to the trap to direct condensate downward. The condensate line must be vented. Check local codes concerning condensate disposal. Refer to page 2 and page 3 for condensate drain location. FIGURE 3 CONDENSATE BOTTOM DRAIN CONNECTION UNIT DRAIN PAN CAULK AROUND CONDENSATE COUPLING OPEN VENT MOUNTING FRAME Minimum Pitch 1" (25 mm) per 10' (3 m) of line FIGURE 4 Page 5 FILTER ACCESS DOOR HEAT ACCESS DOOR CONDENSATE DRAIN MULLION FIGURE 5 4 - Lift front edge of the drain pan (to clear bottom drain plug) and slide drain pan out of unit. See FIGURE 6. Bottom Drain Connection 1 - Remove heat access door. See FIGURE 5. 2 - Remove filter access door. Refer to FIGURE 5. 3 - Remove eight screws holding condensate drain mul- lion and remove mullion. 4 - Lift front edge of the drain pan (to clear bottom drain plug) and slide drain pan out of unit. See FIGURE 6. 5 - Turn the drain pan upside down and drill a pilot hole through the bottom of the drain pan in the center of the coupling. See FIGURE 7. BOTTOM CONDENSATE DRAIN CAUTION: Be careful not to damage the coupling threads when drilling the hole. DRILL A PILOT HOLE IN CENTER OF COUPLING DRAIN PAN FIGURE 6 5 - Make sure the cap over the unit bottom drain hole is secure. 6 - Rotate the drain pan until the downward slope is toward the back of the unit. Slide the drain pan back into the unit. Be careful not to dislodge the cap over the bottom drain hole. 7 - From the back side of the unit, pull the drain pan coupling through the rear condensate opening. 8 - Replace the condensate drain mullion and reinstall eight screws. 9 - Reinstall access doors. After drilling the pilot hole, drill a 7/8" hole from the inside of the pan. FIGURE 7 6 - From the inside of the pan, use a Vari-Bit® bit to enlarge the hole to 7/8". Do not damage coupling threads. 7 - Remove the cap over the unit bottom drain hole. 8 - Slide the drain pan back into the unit. 9 - From the back side of the unit, pull the drain pan coupling through the rear condensate opening. 10 - From the front side of the unit, move the drain pan until the bottom coupling settles into the unit bottom drain opening. Once in place, check to make sure the coupling is still positioned through the rear condensate drain hole. 11 - Use a field-provided 1" plug to seal side drain connection. 12 - Replace the condensate drain mullion and reinstall eight screws. 13 - Reinstall access doors. Page 6 Electrical Connections POWER SUPPLY A-Wiring Route field wiring in conduit between bottom power entry disconnect. See FIGURE 8. This does not supersede local codes or authorities having jurisdiction. FIELD WIRE ROUTING SIDE ENTRY KNOCKOUTS OPTIONAL 120V GFI MAKEUP BOX SEAL WATERTIGHT BOTTOM POWER ENTRY RUN FIELD WIRING IN VIDED CONDUIT FIGURE 8 Do not apply power or close disconnect switch until installation is complete. Refer to start-up directions. Refer to unit nameplate for minimum circuit ampacity and maximum fuse size. 1 - 230,460,575 volt units are factory wired. For 208V supply, disconnect the pink wire (230V) at all control power transformer(s). Reconnect the pink wire to terminal marked 208 on power transformer(s). Tape the exposed end of the 230V pink wire. 2 - Route power through the bottom power entry area and connect to L1, L2, and L3 on the bottom of F4 in the control box. Route power to TB2 on units equipped with electric heat. Route power to S48 disconnect switch when the option is factory-installed. See unit wiring diagram. 3 - Connect separate 120v wiring to optional GFCI outlet pigtails. Route field wiring in conduit between bottom power entry and GFCI. See FIGURE 8. B-Unbalanced Three-Phase Voltage - VFD Units Only Units equipped with an optional inverter (VFD) are designed to operate on balanced, three-phase power. Operating units on unbalanced three-phase power will reduce the reliability of all electrical components in the unit. Unbalanced power is a result of power delivery system supplied by the local utility company. Factory-installed inverters are sized to drive blower motors with an equivalent current rating using balanced three-phase power. When unbalanced three-phase power is supplied; the installer must replace the existing factory-installed inverter with an inverter that has a higher current rating to allow for the imbalance. Use TABLE 1 to determine the appropriate replacement inverter. TABLE 1 INVERTER UP-SIZING Factory-Installed Inverter HP Replacement Inverter HP 2 5 3 7-1/2 5 10 CONTROL WIRING A-Thermostat Location Room thermostat mounts vertically on a standard 2" X 4" handy box or on any non-conductive flat surface. Locate thermostat approximately 5 feet (1524 mm) above the floor in an area with good air circulation at average temperature. Avoid locating the room thermostat where it might be affected by: · drafts or dead spots behind doors and in corners · hot or cold air from ducts · radiant heat from sun or appliances · concealed pipes and chimneys IMPORTANT - Unless field thermostat wires are rated for maximum unit voltage, they must be routed away from line voltage wiring. B-Control Wiring 1 - Route thermostat cable or wires from subbase to unit control box (refer to unit dimensions to locate bottom and side power entry). IMPORTANT - Unless field thermostat wires are rated for maximum unit voltage, they must be routed away from line voltage wiring. Use wire ties located near the front of the control section to secure thermostat cable. Use18 AWG wire for all applications using remotely installed electro-mechanical and electronic thermostats. 2 - Install thermostat assembly in accordance with instructions provided with thermostat. Page 7 3 - Connect thermostat wiring to TB1 terminal board on the lower side of the controls hat section. Wire as shown in FIGURE 9 for electro-mechanical and electronic thermostats. If using other temperature control devices or energy management systems see instructions and wiring diagram provided by manufacturer. 4 - Verify the unit configuration DIP switch settings match the nameplate IMPORTANT - Terminal connections at the wall plate or subbase must be made securely. Loose control wire connections may allow unit to operate but not with proper response to room demand. 24 VOLT FIELD WIRING WITH ELECTRONIC AND ELECTRO-MECHANICAL THERMOSTATS IMPORTANT - Remove jumper between terminals R and OC when thermostat has a night setback mode. If reheat operation is desired during night setback, move dehumidistat wire from OC to R. TB1 R C G W W2 0C DH Y1 Y2 Y3 A2 THERMOSTAT A20 NOT ALL TERMINALS ARE FOUND ON ALL THERMOSTATS chanical thermostats set anticipator at 0.1 amps. FIGURE 9 Unit Power-Up A-General 1 - Make sure that unit is installed in accordance with the installation instructions and applicable codes. 2 - Inspect all electrical wiring, both field and factory installed, for loose connections. Tighten as required. 3 - Check to ensure that refrigerant lines do not rub against the cabinet or against other refrigerant lines. 4 - Check voltage at main unit power connection. Voltage must be within range listed on nameplate. If not, consult power company and have voltage condition corrected before starting unit. 5 - Make sure filters are in place before start-up. 6 - Make sure there is no heating, cooling, or blower demand from thermostat. Apply power to unit. Blower Operation and Adjustments A-Three Phase Scroll Compressor Voltage Phasing Three phase scroll compressors must be phased sequentially to ensure correct compressor and blower rotation and operation. Compressor and blower are wired in phase at the factory. Power wires are color-coded as follows: line 1-red, line 2-yellow, line 3-blue. 1 - Observe suction and discharge pressures and blower rotation on unit start-up. If pressure differential is not observed or blower rotation is not correct: 2 - Suction pressure must drop, discharge pressure must rise, and blower rotation must match rotation marking. 3 - Disconnect all remote electrical power supplies. 4 - Reverse any two field-installed wires connected to the line side of TB13, TB2, or F4. Do not reverse wires at blower contactor or compressors. 5 - Make sure the connections are tight. Discharge and suction pressures should operate at their normal start-up ranges. Belt-Driven Supply Air Inverter Units - Units are equipped with a phase monitor located in the control compartment. The phase monitor will detect the phasing of incoming power. If the incoming power is out of phase or if any of the three phases are lost, the indicating LED on the phase monitor will turn red and the unit will not start. In normal operation with correct incoming power phasing, the LED will be green. B-Blower Operation Initiate blower demand at thermostat according to instructions provided with thermostat. Unit will cycle on thermostat demand. The following steps apply to applications using a typical electro-mechanical thermostat. 1 - Blower operation is manually set at the thermostat subbase fan switch. With fan switch in ON position, blowers will operate continuously. 2 - With fan switch in AUTO position, the blowers will cycle with demand. Blowers and entire unit will be off when system switch is in OFF position. C-Blower Access The blower assembly is secured to a sliding frame which allows the blower motor to be pulled out of the unit. See FIGURE 10. Page 8 TO INCREASE BELT TENSION STANDARD BLOWER ASSEMBLY 1- Loosen four bolts securing motor mounting base to frame. 2- Turn adjusting bolt to the right, or clockwise, to move the motor away from the blower housing. IMPORTANT - Gap between end of frame and motor allel along gap. 3- Tighten four bolts securing motor mounting base to frame. 4- Relieve tension on two adjusting bolts. BLOWER HOUSING MOTOR MOUNTING BASE BELT ADJUSTING BOLTS - TURN CLOCKWISE TO TIGHTEN BELT GAP BETWEEN EDGES SHOULD BE PARALLEL ON BOTH ENDS BEFORE TIGHTENING MOTOR MOUNTING BASE IN PLACE MOTOR SIDE VIEW MOTOR ALLEN SCREW PULLEY BLOWER FRAME REMOVE TWO SCREWS TO COMPLETELY SLIDE BLOWER OUT OF UNIT LOOSEN BEFORE ADJUSTING BELT TENSION (TWO EACH SIDE) REMOVE TWO SCREWS ON EACH SIDE TO SLIDE FRAME PARTIALLY OUT OF UNIT FOR SERVICE ACCESS FIGURE 10 LOCATION OF STATIC PRESSURE READINGS INSTALLATIONS WITH DUCTWORK INSTALLATIONS WITH CEILING DIFFUSERS ROOFTOP UNIT ROOFTOP UNIT RETURN AIR READING LOCATION SUPPLY TURN MAIN DUCT RUN FIRST BRANCH OFF OF MAIN RUN SUPPLY AIR READING LOCATION SUPPLY AIR READING LOCATION FIGURE 11 SUPPLY TURN RETURN AIR READING LOCATION DIFFUSER Page 9 Belt Drive Blowers 1 - Loosen the reusable wire tie which secures the blower wiring to the blower motor mounting plate. 2 - Remove and retain screws on either side of sliding frame. Pull frame toward outside of unit. 3 - Slide frame back into original position when finished servicing. Reattach the blower wiring in the previous location on the blower motor base using the wire tie. 4 - Replace retained screws on either side of the sliding frame. D-Determining Unit CFM IMPORTANT - Belt-driven supply air inverter units are factory-set to run the blower at full speed when there is a blower (G) demand without a heating or cooling demand. Use the following procedure to adjust motor pulley to deliver the full load cooling or heating CFM. See BeltDriven Supply Air Inverter Start-Up section to set blower CFM for all modes once the motor pulley is set. 1 - The following measurements must be made with a dry indoor coil. Run blower without a cooling demand. Measure the indoor blower shaft RPM. Air filters must be in place when measurements are taken. 2 - With all access panels in place, measure static pressure external to unit (from supply to return). Blower performance data is based on static pressure readings taken in locations shown in FIGURE 11. NOTE - Static pressure readings can vary if not taken where shown. 3 - Referring to page 14, page 15, or page 16, use static pressure and RPM readings to determine unit CFM. Use page 17 when installing units with any of the optional accessories listed. 4 - The blower RPM can be adjusted at the motor pulley. Loosen Allen screw and turn adjustable pulley clockwise to increase CFM. Turn counterclockwise to decrease CFM. See FIGURE 10. Do not exceed minimum and maximum number of pulley turns as shown in TABLE 2. TABLE 2 MINIMUM AND MAXIMUM PULLEY ADJUSTMENT Belt Minimum Maximum Turns Open Turns Open A Section 0 5 B Section 1* 6 *No minimum number of turns open when B belt is used on pulleys 6" O.D. or larger. E-Blower Belt Adjustment Maximum life and wear can be obtained from belts only if proper pulley alignment and belt tension are maintained. Tension new belts after a 24-48 hour period of operation. This will allow belt to stretch and seat in the pulley grooves. Make sure blower and motor pulleys are aligned as shown in FIGURE 12. 1 - Loosen four bolts securing motor base to mounting frame. See FIGURE 10. PULLEY ALIGNMENT ALIGNED MOTOR PULLEY BELT BLOWER PULLEY NOT ALIGNED FIGURE 12 2 - To increase belt tension - Turn both adjusting bolts to the right, or clockwise, to move the motor outward and tighten the belt. This increases the distance between the blower motor and the blower housing. To loosen belt tension - Turn the adjusting bolts to the left, or counterclockwise to loosen belt tension. IMPORTANT - Align top edges of blower motor base and mounting frame base parallel before tightening four bolts on the side of base. Motor shaft and blower shaft must be parallel. 3 - Tighten two bolts on each side of the motor mounting base. This secures the mounting base to the frame. 4 - Relieve tension adjusting bolts. Page 10 F-Check Belt Tension Overtensioning belts shortens belt and bearing life. Check belt tension as follows: 1 - Measure span length X. See FIGURE 13. 2 - Apply perpendicular force to center of span (X) with enough pressure to deflect belt 1/64" for every inch of span length or 1.5mm per 100mm of span length. Example: Deflection distance of a 40" span would be 40/64" or 5/8". Example: Deflection distance of a 400mm span would be 6mm. 3 - Measure belt deflection force. For a new 2 and 3hp belt, the deflection force should be 5.0-7.0 lbs. (3548kPa). For a new 5hp belt, the deflection force should be 7-10lbs. (48-69kPa). 4 - A force below these values indicates an undertesioned belt. A force above these values indicates an overtensioned belt. MEASURE BELT TENSION FORCE DEFLECTION 1/64" PER INCH OF SPAN OR 1.5mm PER 100mm OF SPAN FIGURE 13 G-Field-Furnished Blower Drives For field-furnished blower drives, use page 14 through page 15 to determine BHP and RPM required. Reference page 17 to determine the drive number. Reference TABLE 3 for drive component manufacturer's numbers. Page 11 BLOWER DATA KHC092, 102, 120 BELT DRIVE BLOWER - BASE UNIT BLOWER TABLE INCLUDES RESISTANCE FOR BASE UNIT ONLY (NO HEAT SECTION) WITH DRY INDOOR COIL AND AIR FILTERS IN PLACE. FOR ALL UNITS ADD: 1 - Wet indoor coil air resistance of selected unit. 2 - Any factory installed options air resistance (heat section, economizer, etc.) 3 - Any field installed accessories air resistance (duct resistance, diffuser, etc.) Then determine from blower table blower motor output required. See page 13 for blower motors and drives. See page 13 for wet coil and option/accessory air resistance data. MINIMUM AIR VOLUME REQUIRED FOR USE WITH OPTIONAL ELECTRIC HEAT (Maximum Static Pressure - 2.0 in. w.g.) 7.5kW, 15 kW, 22.5 kW, 30 kW and 45 kW - 2800 cfm 60 kW - 4000 cfm Total Total Static Pressure - in. w.g. Air Volume 0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 ofm RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP RPM BHP 1750 480 0.19 548 0.39 618 0.57 689 0.70 758 0.81 824 0.92 885 1.07 941 1.23 992 1.40 1039 1.55 1084 1.70 1128 1.85 1156 2.08 2000 492 0.27 560 0.47 629 0.64 700 0.77 768 0.88 832 1.00 892 1.16 946 1.32 995 1.48 1041 1.65 1085 1.81 1127 1.97 1160 2.13 2250 505 0.35 573 0.55 643 0.72 713 0.85 780 0.97 842 1.10 900 1.25 952 1.42 999 1.59 1044 1.76 1087 1.93 1127 2.10 1164 2.27 2500 520 0.45 588 0.64 658 0.81 727 0.94 793 1.07 853 1.21 909 1.37 959 1.54 1005 1.71 1048 1.89 1089 2.07 1127 2.25 1166 2.42 2750 536 0.55 604 0.74 674 0.91 743 1.05 806 1.19 865 1.34 919 1.50 968 1.67 1012 1.86 1053 2.04 1092 2.23 1129 2.41 1167 2.60 3000 553 0.66 622 0.85 692 1.02 760 1.17 821 1.32 878 1.48 930 1.64 977 1.83 1020 2.02 1059 2.21 1096 2.41 1133 2.60 1170 2.79 3250 572 0.77 641 0.98 712 1.15 778 1.32 837 1.48 892 1.64 942 1.81 988 2.00 1028 2.20 1066 2.41 1102 2.61 1138 2.81 1174 3.01 3500 592 0.90 663 1.12 733 1.31 798 1.48 854 1.65 907 1.82 955 1.99 999 2.19 1038 2.41 1074 2.63 1109 2.84 1144 3.04 1180 3.24 3750 614 1.04 687 1.28 756 1.48 818 1.66 872 1.83 922 2.01 969 2.19 1010 2.41 1048 2.64 1084 2.87 1118 3.09 1152 3.29 1188 3.50 4000 639 1.22 712 1.47 780 1.67 838 1.85 890 2.03 939 2.22 983 2.42 1023 2.65 1060 2.90 1095 3.14 1128 3.36 1162 3.57 1198 3.77 4250 666 1.42 740 1.68 804 1.88 859 2.06 909 2.25 956 2.45 998 2.67 1036 2.92 1072 3.18 1106 3.42 1139 3.65 1172 3.86 1208 4.07 4500 697 1.65 769 1.91 829 2.10 881 2.28 929 2.48 973 2.71 1013 2.95 1050 3.22 1085 3.48 1118 3.73 1151 3.96 1184 4.17 1221 4.39 4750 729 1.91 798 2.15 854 2.34 903 2.53 948 2.75 991 3.00 1030 3.27 1065 3.55 1099 3.81 1132 4.06 1164 4.29 1198 4.51 1235 4.74 5000 763 2.18 826 2.41 878 2.60 925 2.81 968 3.05 1009 3.33 1046 3.61 1081 3.90 1114 4.17 1146 4.42 1178 4.65 1212 4.87 1250 5.09 5250 797 2.47 854 2.69 903 2.90 947 3.12 989 3.39 1028 3.69 1064 3.99 1098 4.28 1130 4.55 1162 4.80 1194 5.02 1228 5.24 1266 5.47 5500 830 2.78 882 3.00 927 3.22 969 3.48 1010 3.77 1047 4.09 1083 4.40 1116 4.69 1147 4.96 1179 5.20 1211 5.42 1246 5.63 - - - - - - 5750 861 3.11 908 3.34 951 3.58 992 3.87 1031 4.19 1068 4.52 1102 4.84 1134 5.12 1165 5.38 1196 5.61 - - - - - - - - - - - - - - - - - - 6000 890 3.45 935 3.71 976 3.98 1016 4.31 1053 4.65 1089 4.99 1122 5.30 1153 5.58 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 6250 918 3.84 961 4.12 1001 4.43 1040 4.79 1076 5.14 1110 5.48 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - Page 12 BLOWER DATA FACTORY INSTALLED BELT DRIVE KIT SPECIFICATIONS Nominal hp Maximum hp 2 2.3 2 2.3 2 2.3 3 3.45 3 3.45 3 3.45 5 5.75 5 5.75 5 5.75 Drive Kit Number 1 2 3 4 5 6 10 11 12 RPM Range 590 - 890 800 - 1105 795 - 1195 730 - 970 940 - 1200 1015 - 1300 900 - 1135 1040 - 1315 1125 - 1425 POWER EXHAUST FAN PERFORMANCE Return Air System Static Pressure in. w.g. 0 0.05 0.10 0.15 0.20 0.25 0.30 0.35 Air Volume Exhausted cfm 3175 2955 2685 2410 2165 1920 1420 1200 FACTORY INSTALLED OPTIONS/FIELD INSTALLED ACCESSORY AIR RESISTANCE - in. w.g. Air Volume cfm Wet Indoor Coil KHC092, 102, 120 Electric Heat Economizer MERV 8 1750 0.04 0.03 0.05 0.01 2000 0.05 0.03 0.06 0.01 2250 0.06 0.04 0.08 0.01 2500 0.07 0.04 0.11 0.01 2750 0.08 0.05 0.12 0.02 3000 0.10 0.06 0.13 0.02 3250 0.11 0.06 0.15 0.02 3500 0.12 0.09 0.15 0.03 3750 0.14 0.09 0.15 0.03 4000 0.15 0.09 0.19 0.04 4250 0.17 0.13 0.19 0.04 4500 0.19 0.14 0.22 0.04 4750 0.20 0.17 0.25 0.05 5000 0.22 0.20 0.29 0.06 5250 0.24 0.22 0.32 0.06 5500 0.25 0.25 0.34 0.07 5750 0.27 0.31 0.45 0.07 6000 0.29 0.33 0.52 0.08 Filters MERV 10 0.03 0.03 0.04 0.05 0.05 0.06 0.06 0.07 0.08 0.08 0.09 0.09 0.10 0.10 0.11 0.12 0.12 0.13 Return Air Adapter Plate 0.00 0.00 0.00 0.00 0.00 0.02 0.02 0.04 0.07 0.09 0.11 0.12 0.16 0.18 0.19 0.22 0.25 0.27 Page 13 DRIVE NO. 1 2 3 4 5 6 10 11 12 TABLE 3 MANUFACTURER'S NUMBERS DRIVE COMPONENTS ADJUSTABLE SHEAVE FIXED SHEAVE BROWNING NO. OEM PART NO. BROWNING NO. OEM PART NO. 1VP34x7/8 31K6901 AK61x1 100244-20 1VP40x7/8 79J0301 AK59x1 31K6801 1VP34x7/8 31K6901 AK46x1 100244-17 1VP44x7/8 53J9601 AK74x1 100244-21 1VP50x7/8 98J0001 AK69x1 37L4701 1VP50x7/8 98J0001 AK64x1 12L2501 1VP50x1-1/8 P-8-1977 BK77x1 49K4001 1VP50x1-1/8 P-8-1977 BK67x1 100244-24 1VP50x1-1/8 P-8-1977 BK62x1 100244-23 BELT BROWNING NO. OEM PART NO. AX54 100245-25 AX55 100245-26 AX52 100245-33 AX58 100245-34 AX58 100245-34 AX57 100245-28 BX59 59A5001 BX57 78L5301 BX56 100245-11 Heating Start-Up 1 - Set thermostat or temperature control device to initiate a first-stage heating demand. A first-stage heating demand (W1) will energize compressors 1 and 2. Both outdoor fans are energized with a W1 demand. NOTE - L1 and L2 reversing valves are de-energized in the heating mode. Units With Optional Electric Heat An increased heating demand (W2) will energize electric heat. Electric heat is also energized during the defrost cycle (W1) to maintain discharge air temperature. Cooling Start-Up IMPORTANT If unit is equipped with a crankcase heater. Make sure heater is energized 24 hours before unit start- up to prevent compressor damage as a result of slugging. A-Start-Up Supply Air Inverter Units - Refer to the Inverter StartUp section for further instruction on blower control. See TABLE 12 for full details on unit operation. Compressor 1 is a two-stage compressor. Compressor 2 is a single-stage compressor. 1 - Initiate first, second, and third stage cooling demands according to instructions provided with thermostat. 2 - No Economizer Installed in Unit - See TABLE 4 for cooling operation. 3 - Refrigerant circuits are factory charged with HCFC410A refrigerant. See unit rating plate for correct amount of charge. 4 - Units contain two refrigerant circuits or systems. See FIGURE 14. TABLE 4 COOLING OPERATION - NO ECONOMIZER T'Stat Compressors OD Fans Y1 Compr. 1 Low B5 On Y1 + Y2 Compr. 1 Low; Compr. 2 On Both On Y1 + Y2 + Y3 Compr. 1 High; Compr. 2 On Both On TABLE 5 COOLING OPERATION - WITH ECONOMIZER T'Stat Compressors OD Fans Y1 Off Off Y1 + Y2 Compr. 1 Low B5 On Y1 + Y2 + Y3 Compr. 1 High B5 On REFRIGERANT STAGES Note: B5 Outdoor Fan 2 = Stage 1 B4 Outdoor Fan 1 = Stage 2 INDOOR COIL STAGES 1 & 2 INTERTWINED OUTDOOR COIL STAGE 2 B4 OUTDOOR FAN 1 (STG. 2) OUTDOOR FAN 2 (STG. 1) B5 Units Equipped With Economizer - When outdoor air is suitable, any combination of thermostat demands will energize the economizer. See TABLE 5 for cooling operation. 2 1 FIGURE 14 OUTDOOR COIL STAGE 1 Page 14 B-Refrigerant Charge and Check WARNING - Do not exceed nameplate charge under any condition. This unit is factory charged and should require no further adjustment. If the system requires additional refrigerant, reclaim the charge, evacuate the system, and add required nameplate charge. NOTE - System charging is not recommended below 60°F (15°C). In temperatures below 60°F (15°C) , the charge must be weighed into the system. If weighing facilities are not available, or to check the charge, use the following procedure: 1 - Attach gauge manifolds and operate unit in cooling mode with economizer disabled until system stabilizes (approximately five minutes). 2 - Check each system separately with all stages operating. 3 - Use a thermometer to accurately measure the outdoor ambient temperature. 4 - Apply the outdoor temperature to TABLE 6 through TABLE 8 to determine normal operating pressures. Pressures are listed for sea level applications at 80°F dry bulb and 67°F wet bulb return air. 5 - Compare the normal operating pressures to the pressures obtained from the gauges. Minor variations in these pressures may be expected due to differences in installations. Significant differences could mean that the system is not properly charged or that a problem exists with some component in the system. Correct any system problems before proceeding. TABLE 6 KHC092S NORMAL OPERATING PRESSURES Outdoor Coil Entering Air Temp CIRCUIT 1 Dis. + 10 psig Suc. + 5 psig CIRCUIT 2 Dis. + 10 psig Suc. + 5 psig 65°F 256 132 265 137 75°F 293 133 304 138 85°F 334 135 351 140 95°F 380 137 401 142 105°F 432 140 456 144 115°F 491 143 519 147 TABLE 7 KHC102S NORMAL OPERATING PRESSURES Outdoor Coil Entering Air Temp CIRCUIT 1 Dis. + 10 psig Suc. + 5 psig CIRCUIT 2 Dis. + 10 psig Suc. + 5 psig 65°F 255 128 250 139 75°F 295 128 291 141 85°F 334 129 329 143 95°F 376 131 375 145 105°F 426 133 425 147 115°F 478 136 479 150 TABLE 8 KHC120S NORMAL OPERATING PRESSURES Outdoor Coil Entering Air Temp CIRCUIT 1 Dis. + 10 psig Suc. + 5 psig CIRCUIT 2 Dis. + 10 psig Suc. + 5 psig 65°F 250 127 267 128 75°F 286 128 306 129 85°F 326 128 348 131 95°F 368 129 395 133 105°F 415 131 445 136 115°F 469 133 502 141 6 - If discharge pressure is high, remove refrigerant from the system. If discharge pressure is low, add refrigerant to the system. · Add or remove charge in increments. · Allow the system to stabilize each time refrigerant is added or removed. 7 - Use the following approach method along with the normal operating pressures to confirm readings. C-Charge Verification - Approach Method - AHRI Testing 1 - Using the same thermometer, compare liquid temperature to outdoor ambient temperature. Approach Temperature = Liquid temperature (at condenser outlet) minus ambient temperature. 2 - Approach temperature should match values in TABLE 9. An approach temperature greater than value shown indicates an undercharge. An approach temperature less than value shown indicates an overcharge. 3 - The approach method is not valid for grossly over or undercharged systems. Use TABLE 6 through TABLE 8 as a guide for typical operating pressures. Unit 092S 102S 120S TABLE 9 Approach Temperature Liquid Temp. Minus Ambient Temp. 1st Stage 2nd Stage 5°F + 1 (2.8°C + 0.5) 4°F + 1 (2.2°C + 0.5) 5°F + 1 (2.8°C + 0.5) 5°F + 1 (2.8°C + 0.5) 4°F + 1 (2.2°C + 0.5) 7°F + 1 (3.9°C + 0.5) Page 15 D-Compressor Controls 1 - High Pressure Switches (S4, S7) Compressor circuits are protected by a high pressure switch which cuts out at 640 psig + 10 psig (4413 kPa + 70 kPa). 2 - Freezestats (S49, S50) Switches de-energize compressors when indoor coil temperature falls below 29°F (-2°C) to prevent coil freeze-up. Switches reset when indoor coil temperature reaches 58°F (15°C). 3 - Crankcase Heater (HR1, HR2) Compressors have belly band compressor oil heaters which must be on 24 hours before running compressors. Energize by setting thermostat so that there is no cooling demand, to prevent compressor from cycling, and apply power to unit. 4 - Defrost Switches (S6, S9) Defrost switches close to initiate defrost when liquid line temperature falls to 35°F (1.7°C). The defrost switch is located on the liquid line between the outdoor expansion valve and the distributor 5 - Defrost Termination Switches (S46, S104) Defrost pressure switches open to terminate defrost when vapor (discharge pressure during cooling and defrost) pressure reaches 450 psig (3103 kPa). 6 - Defrost Controls (CMC1) Defrost is liquid line temperature initiated and operates for 14 minutes unless terminated by vapor line pressure drop. When the liquid line temperature drops below 35°F, the defrost switch closes and signals the defrost control that a defrost cycle is needed. If the defrost switch is still closed after 60 minutes (default), a defrost cycle begins and operates for 14 minutes. The defrost pressure switch can terminate the defrost cycle before the 14 minutes elapses if vapor pressure reaches 450 + 10 psi. Electric heat is energized during defrost to maintain discharge air temperature. Page 16 Defrost Control Board The defrost thermostat, defrost pressure switch and the defrost control work together to ensure that the heat pump outdoor coil does not ice excessively during the heating mode. Compressor Accumulated Run-Time Interval The defrost control will not energize a defrost cycle unless the unit has been operating in heating mode for an accumulated 60 minutes (default) on 100269-02 boards; 90 minutes (default) on 100269-07 boards. The run time interval can be changed by moving the jumper on the CMC board timing pins. See FIGURE 14. The defrost interval can be adjusted to 30, 60, or 90 minutes. The defrost timing jumper is factory-installed to provide a 60-minute defrost interval. If the timing selector jumper is not in place, the control defaults to a 90-minute defrost interval. Defrost Test Option A TEST option is provided for troubleshooting. The TEST mode may be started any time the unit is in the heating mode and the defrost thermostat is closed or jumpered. If the timing jumper is in the TEST position at power-up, the defrost control will ignore the test pins. When the jumper is placed across the TEST pins for two seconds, the control will enter the defrost mode. If the jumper is removed before an additional 5-second period has elapsed (7 seconds total), the unit will remain in defrost mode until the defrost pressure switch opens or 14 minutes have passed. If the jumper is not removed until after the additional 5-second period has elapsed, the defrost will terminate and the test option will not function again until the jumper is removed and re-applied. Diagnostic LEDs The defrost board uses two LEDs for diagnostics. The LEDs flash a sequence according to the condition. TABLE 10 Defrost Control Board Diagnostic LED Indicates LED 1 LED 2 Normal operation / power to board Synchronized Flash Synchronized Flash with LED 2 with LED 1 Board failure / no Off Off power Board failure On On Pressure switch open Flash On DEFROST CONTROL BOARD CMC1 TIMING JUMPER 100269-02: 60 MINUTES 100269-07: 90 MINUTES 100269-02:INSTALLED AT THE FACTORY TO DISABLE COMPRESSOR DELAY 100269-07:REMOVED AT THE FACTORY TO DISABLE COMPRESSOR DELAY DIAGNOSTIC LEDS FIGURE 15 Page 17 Supply Air Inverter Start-Up A-General Units provide three blower speeds. The blower will operate at lower speeds when cooling demand is low and higher speeds when cooling demand is high. This results in lower energy consumption. See TABLE 12 for detailed unit operation. Inverter-driven blowers will operate at high speed during ventilation (blower "G" only signal) but can be adjusted to operate at low speed. Low speed is approximately 66% of the full speed RPM and medium speed is 75% of the full speed RPM. B-Set Maximum Blower CFM 1 - Initiate a blower (G) only signal from the room thermostat or control system. 2 - Adjust the blower pulley to deliver the full (high speed) CFM in the typical manner. See Determining Unit CFM in the Blower Operation and Adjustment section. NOTE - The following sections detail how to set ventilation speeds and minimum damper positions on units with standard economizers. On units with high performance economizers, ventilation speeds and three separate damper positions must be programmed via the economizer controller display. See economizer installation instructions and high performance economizer application guide provided with the unit for further instructions. C-Set Blower Speed During Ventilation (Units With Standard Economizers Only) To save energy during ventilation, the blower speed can be set to low. This is accomplished by changing the ventilation speed switch on the VFD control board to "LO". See FIGURE 16. NOTE - On units equipped with a standard economizer, set damper minimum position as shown in the next section. After adjusting the low speed minimum position, the ventilation speed switch will be in the "LO" position. LVC2 (A183) VFD CONTROL BOARD VENTILATION SPEED SWITCH POWER LED LOW SPEED MINIMUM POSITION POTENTIOMETER HIGH SPEED MINIMUM POSITION POTENTIOMETER FIGURE 16 D-Set Damper Minimum Position (Units With Standard Economizers Only) To maintain required minimum ventilation air volumes when the unit is in the occupied mode, two minimum damper positions must be set. A high and a low speed potentiometer are provided on the VFD control board to adjust minimum damper position. See figure 16. The low speed minimum damper position is used for both low and medium blower speeds as standard economizers only offer 2 damper positions. Set High Speed Minimum Position 1 - Initiate a blower (G) only AND occupied demand from the room thermostat or control system. 2 - Set the ventilation speed switch on the VFD control board to "HI". 3 - Rotate the high speed potentiometer on the VFD control board to set the high speed minimum damper position. 4 - Measure the intake air CFM. If the CFM is lower than the design specified CFM for ventilation air, use the potentiometer to increase the damper percent open. If the CFM is higher than specified, decrease the damper percent open. NOTE - Intake air CFM can also be determined using the outdoor air temperature, return air temperature and mixed air temperature. Refer to the economizer or outdoor air damper installation instructions. Page 18 Set Low Speed Minimum Position 1 - Initiate a blower (G) only AND occupied demand from the room thermostat or control system. 2 - Set the ventilation speed switch on the VFD control board to "LO". 3 - Rotate the low speed potentiometer on the VFD control board to set the low speed minimum damper position. 4 - Measure the intake air CFM. If the CFM is lower than the design specified CFM for ventilation air, use the potentiometer to increase the damper percent open. If the CFM is higher than specified, decrease the damper percent open. NOTE - Intake air CFM can also be determined using the outdoor air temperature, return air temperature and mixed air temperature. Refer to the economizer or outdoor air damper installation instructions. Troubleshoot LVC2 Board (A183) Refer to wiring diagram sections B (unit), C (control) and D (economizer) located on inside of unit panels. 1 - Inspect the LVC2 for damaged components. Replace the LVC2 if damaged components are found. 2 - Check all wire connections to LVC2; secure if loose. 3 - Check for 24VAC signal at the thermostat blower input (G to GND terminal). See FIGURE 17. LVC2 BOARD TERMINAL DESIGNATIONS 24VDC VFD INPUTS; H2 HEADER 24VAC THERMOSTAT INPUTS; H1 HEADER FIGURE 17 4 - If there is no thermostat signal, troubleshoot back toward the thermostat. 5 - Check the power LED on the board. See FIGURE 16. 6 - If the power LED is not on, check voltage between LVC2 terminals PC (H2-1) and SD (H2-5). Voltage should read 24VDC. 7 - If voltage does not read 24VDC, disconnect the H2 header from the LVC2 VFD inputs terminal block (to make sure the LVC2 is not shorting 24VDC supply from the inverter). Measure the voltage between the end terminals on the H2 header. If 24VDC is present, replace the LVC2 board. If no voltage is read, troubleshoot the VFD. 8 - When LVC2 24VAC thermostat blower (G) input and 24VDC power are present, check the LVC2 low and high speed outputs. The LVC2 uses inverse logic to enable the blower; 1VDC will be read at the enabled blower speed terminal. See TABLE 11. 9 - If all inputs are correct and the unit still does not operate as intended, replace LVC2 board. TABLE 11 LVC2 BOARD BLOWER OUTPUTS Output Terminals Voltage Blower Operation RL-SD RH-SD 1VDC 24VDC Low Speed RL-SD RH-SD 24VDC 1VDC High Speed RL-SD RH-SD 1VDC 1VDC Illegal State (replace board) RL-SD RH-SD 24VDC 24VDC Blower Off (replace board) Page 19 T'stat DDC Defrost G Y1 Y1 + Y2 Y1 + Y2 +Y3 Y1 Y1 + Y2 Y1 + Y2 +Y3 W1 No W1 + W2 No W1 Yes W1 + W2 Yes OAS No No No Yes Yes Yes Compressor 1-Low 1-Hi 2 On Off Off On Off On On On On Off Off Off On Off Off On On Off On On On On On On On On On On On On TABLE 12 UNIT OPERATION Aux. Heat Off On On On Vent X Blower Speeds Cool Cool Cool C1 C2 C3 X X X X X X Heat (Hi) X X X X OD Fans Economo. 1/2 Occupied Unocc. Off/Off On/Off On/On On/On Off/Off On/Off On/Off On/On On/On Off/Off Off/Off Min (Vent) Min Lo Min Lo Min Hi Mod Mod Mod Min Hi Min Hi Min Hi Min Hi Closed Closed Closed Closed Mod Mod Mod Closed Closed Closed Closed Reheat Valves Off On On On Off On On Off Off On On Page 20 Service The unit should be inspected once a year by a qualified service technician. CAUTION Label all wires prior to disconnection when servicing controls. Wiring errors can cause improper and dangerous operation. Verify proper operation after servicing. A-Lubrication All motors are lubricated at the factory. No further lubrication is required. B-Filters Units are equipped with four 20 X 25 X 2" filters. Filters should be checked monthly and replaced when necessary with filters of like kind and size. Take note of air flow direction marking on filter frame when reinstalling filters. See FIGURE 18. NOTE - Filters must be U.L.C. certified or equivalent for use in Canada. REMOVE FILTERS D-Indoor Coil Inspect and clean coil at beginning of each cooling and heating season. Clean using mild detergent or commercial coil cleanser. Flush coil and condensate drain with water taking care not to get insulation, filters and return air ducts wet. E-Outdoor Coil Clean condenser coil annually with detergent or commercial coil cleaner and inspect monthly during the cooling season. Condenser coils are made of two formed slabs. Dirt and debris may become trapped between the slabs. To clean between slabs, carefully separate coil slabs and wash them thoroughly. See FIGURE 19. Flush coils with water following cleaning. F-Filter Drier The unit is equipped with a bi-flow filter drier. if replacement is necessary, order another of like design. CLEAN CONDENSER COIL (092-120 SHOWN) ENDPLATE IS SECURED TO MULLION BLOWER PULL TO REMOVE FILTERS FIGURE 18 C-Supply Air Blower Wheel Annually inspect supply air blower wheel for accumulated dirt or dust. Turn off power before attempting to remove access panel or to clean blower wheel. TOP VIEW 1- Remove screws securing coil end plate to mullion. 2- Remove clips connecting coils slabs and separate slabs 3-4" (76-102mm). 3- Clean coils with detergent or commercial coil cleaner. 4- Rinse thoroughly with water and reassemble. FIGURE 19 Page 21 START-UP REPORT Job Name:___________________________________ Inspections and Checks Store No.___________Start-Up Date:______________ Damage? Yes No R22 R410A Address:_____________________________________ If yes, reported to:____________________________ City:______________________________State:______ Start-Up Contractor:____________________________ Technician:___________________________________ Model No.:___________________________________ Serial No.:____________________________________ RTU No.:________ Catalog No.:__________________ Verify factory and field-installed accessories. Check electrical connections. Tighten if necessary. Supply voltage: L1-L2______L1-L3_____L2-L3_____ If unit contains a 208-230/240 volt transformer: Check primary transformer tap Transformer secondary voltage: __________ Cooling Checks Compressor Rotation Ambient Temp.________Return Air Temp.________ Supply Air Temp.________ Compressor Amps Compressor Volts Pressures Condenser Fan Amps CC Heater Amps L1 L2 L3 L1-L2 L1-L3 L2-L3 Disch. Suct. L1 L2 L3 L1 1 2 3 4 Blower Checks Pulley/Belt Alignment Set Screws Tight Blower Rotation Belt Tension Nameplate Amps:_________ Volts:_______________ Motor Amps L1_________ L2_________ L3_________ Volts L1-L2_____________ L1-L3_____________ L2-L3_____________ Heating Checks - Gas Fuel type: Nat. LP Inlet Pressure:_____in. w.c. Return Air Temp.:______ Supply Air Temp.:_____ Altitude:____________ Primary Limits Operate: CO2%: Gas Valve GV1 GV2 Manifold Pressure Low Fire High Fire Control Type Heating Checks - Electric Return Air Temp.:______ Supply Air Temp.:______ Limits Operate: Amps L1 L2 L3 L1 L2 L3 1 10 2 11 3 12 4 13 5 14 6 15 7 16 8 17 9 18 Accessory Checks Power Exhaust Amps 1 _____________ 2 ____________ None Min. Pos. Economizer Operation Motor travel full open/close Page 22Adobe PDF Library 17.0 Adobe InDesign 19.3 (Windows)