Lennox KCB036, KGA048, KCA048, KGB048, KCB048 Installation Instructions Manual

Litho U.S.A.

©2015

INSTALLATION
INSTRUCTIONS

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, service agency, or the
gas supplier

Table Of Contents

Dimensions Page 2.................................

Parts Arrangements Page 3.........................

Shipping and Packing List Page 4....................

General Page 4....................................

Requirements Page 4...............................

Unit Support Page 5................................

Duct Connection Page 5............................

Rigging Unit For Lifting Page 6.......................

Horizontal Air Discharge Page 6......................

Condensate Drains Page 6..........................

Gas Piping Page 8.................................

Pressure Test Gas Piping Page 9.....................

High Altitude Derate Page 9.........................

Electrical Connections Page 9.......................

Blower Operation and Adjustments Page 11............

Cooling Start-Up Page 42............................

Gas Heat Start-Up Page 51...........................

Heating Operation and Adjustments Page 52............

Electric Heat Start-Up Page 52........................

Service Page 53....................................

KGB/KCB024
KGB/KCB030
KGA/KCA036
KGB/KCB036
KGA/KCA048
KGB/KCB048
KGA/KCA060
KGB/KCB060
KGA/KCA072
KGB/KCB072
KGB/KCB074
KGA/KCA090

GAS AND COOLING PACKAGED UNITS

507348-04
12/2015
Supersedes 507348-01, -02, -03

2-Ton

2-1/2-Ton

3-Ton

3-Ton

4-Ton

4-Ton

5-Ton

5-Ton

6-Ton

6-Ton

6-Ton

6-Ton

7-1/2 Ton

RETAIN THESE INSTRUCTIONS FOR FUTURE REFERENCE

KG SHOWN

KG / KC 024, 030, 036, 048, 060, 072, 074, 090 DIMENSIONS in. - Gas heat section shown

Model

No.

KGA/KCA036, 048, 060
KGB/KCB024, 030, 036, 048

KGA/KCA072, 090
KGB/KCB060, 074

7/8
(22)

2-1/4

(Overall dimensions
same as end view
without economizer)

(57)

A

7/8

(22)

OPENING WITH HORIZONTAL

ECONOMIZER INSTALLED

END VIEW

A

in. mm

18-3/4 476

22-1/2 572

30-7/16

(773)

UNIT RETURN AIR DUCT

2-1/4

(57)

5-5/8
(143)

AA

7 (178)

29

(737)

47 (1192)

BASE

DD CC

43-3/8 (1102) KGA/KCA072, 090

& KGB/KCB060, 074

35-3/8 (899) KGA/KCA036-060

& KGB/KCB024-048

3-1/2 (89)

LIFTING HOLES

(For rigging)

16-1/4

(413)

11

(279)

BOTTOM

RETURN

AIR

OPENING

BOTTOM

SUPPLY

AIR

OPENING

6-5/8
(168)

26-1/2

(673)

CONDENSATE

OUTLET

(EITHER SIDE)

26-1/2

(673)

18

(457)

5 (127)

20

CENTER

(508)

OF

GRAVITY

FF

BOTTOM

CONDENSATE

OUTLET

BOTTOM POWER ENTRY

3 X 8 (76 X 203)

TOP VIEW (Base)

83-1/4 (2115) 024 thru 074

96-1/4 (2445) 090

FLUE/VENT

OUTLET

5-1/2
(140)

85-1/4 (2165) 024 thru 074 BASE

98-1/4 (2496) 090 BASE

ELECTRICAL

INLET

SIDE VIEW

25-3/4 (654)
024 thru 074

38-3/4 (984) 090

9-1/2
(241)

INLET

GAS

15

(381)

27

(686)

BB

EE

1 (25)

45

(1143)

1 (25)

47 (1194)

BASE

(Without Economizer)

END VIEW

KG/KC 024, 030, 036, 048, 060, 072, 074, 090

38-7/8 (987) KGA/KCA036-060

& KGB/KCB024-048

46-7/8 (1191) KGA/KCA072, 090

& KGB/KCB060, 072, 074

Page 2

FORKLIFT SLOTS

(Front, Back and

Blower End)

BACK VIEW

20

(508)

5-1/2
(140)

19-1/2

(495)

18-3/8

HORIZONTAL

SUPPLY AIR

OPENING

11

(467)

(279)

HORIZONTAL

RETURN AIR

OPENING

(Without Economizer)

2 (51)

29

(737)

5-1/2

(140)

KG 024, 030, 036, 048, 060, 072, 074, 090 PARTS ARRANGEMENT (KGA090 shown)

FILTERS (4)

ECONOMIZER

(OPTIONAL)

CONDENSATE

DRAIN

EVAPORATOR

COIL

COMBUSTION

AIR INDUCER

REFRIGERANT

METERING DEVICE

BLOWER

BURNERS

GAS VALVE

BLOWER

MOTOR

COMPRESSOR

TB1 LOW VOLTAGE

TERMINAL BLOCK

CONDENSER

FAN

CONDENSER

COIL

KC 024, 030, 036, 048, 060, 072, 074, 090 PARTS ARRANGEMENT (KCA090 shown)

ECONOMIZER

(OPTIONAL)

FILTERS (4)

EVAPORATOR

COIL

REFRIGERANT

METERING DEVICE

BLOWER

TB1 LOW VOLTAGE

TERMINAL BLOCK

CONDENSER

CONDENSER

FAN

COIL

CONDENSATE

DRAIN

BLOWER

MOTOR

ELECTRIC HEAT

(Optional)

Page 3

COMPRESSOR

507348-04 12/2015

CAUTION

Danger of sharp metallic edges. Can cause injury.
Take care and wear protective clothing when
servicing unit to avoid accidental contact with
sharp edges.

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

IMPORTANT

The Clean Air Act of 1990 bans the intentional vent
ing 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 incar
ceration may be levied for non-compliance.

UNIT CLEARANCES

C

B

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.

The KG units are available in three heating inputs. The KC
cooling packaged rooftop unit is the same basic design as
the KG unit except for the heating section. Optional
electric heat is available for KC units. KG and KC units
have identical refrigerant circuits with respective 2, 2-1/2,
3, 4, 5 and 6 ton cooling capacities. In addition, KG/KC
units are available with 7-1/2 tons of cooling.

KGA/KCA 036, 048 & 060 units are equipped with a
fin/tube condenser coil. KGA/KCA072, 090 and
KGB/KCB024, 030, 036, 048, 060, 072, 074 units are
equipped with a lightweight, all-aluminum condenser coil.

Availability of units and options varies by brand.

Requirements

See figure 1 for unit clearances.

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.

WARNING

Electric shock hazard and danger of
explosion. Can cause injury, death or
product or property damage. Turn off
gas and electrical power to unit before
performing any maintenance or
servicing operations on the unit. Follow
lighting instructions attached to unit
when putting unit back into operation
and after service or maintenance.

D

A

FIGURE 1

1

Unit

Clearance

Service

Clearance

Clearance to

Combustibles36(914)1(25)1(25)1(25)

Minimum Opera

tion Clearance36(914)36(914)36(914)36(914)

*KC 090 unit A dimension is 36” (1219mm).
Note - Entire perimeter of unit base requires support when elevated above
mounting surface.

1

Service Clearance - Required for removal of serviceable parts.
Clearance to Combustibles - Required clearance to combustible material

(gas units).
Minimum Operation Clearance - Required clearance for proper unit operation.

A

in.(mm)Bin.(mm)Cin.(mm)Din.(mm)

48*

(1219)36(914)36(914)36(914)

To p

Clearance

Unob

structed

Unob

structed

Unob

structed

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.

 Air filters must be replaced and pre-filters must be

removed upon construction completion.

 The input rate and temperature rise must be set per

the unit rating plate.

KG/KC 024, 030, 036, 048, 060, 072, 074, 090

Page 4

 The heat exchanger, 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, ignition, input rate, temperature
rise and venting) must be verified according to these
installation instructions.

Unit Support

In downflow discharge installations, install the unit on a
non-combustible surface only. Unit may be installed on
combustible surfaces when used in horizontal discharge
applications or in downflow discharge applications when
installed on a T1CURB or K1CURB roof mounting frame.
KG/KC 024, 030, 036, 048, 060, 072 and 074 units are
installed on T1CURB frames. KG/KC 090 units are
installed on K1CURB frames.

NOTE - Securely fasten roof frame to roof per local codes.

A-Downflow Discharge Application

Roof Mounting with T1CURB or K1CURB

1- The T1CURB/K1CURB roof mounting frame must be

installed, flashed and sealed in accordance with the
instructions provided with the frame.

2- The T1CURB/K1CURB 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 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 a unit on a combustible surface for
downflow discharge applications, a T1CURB/K1CURB
roof mounting frame is required.

B-Horizontal Discharge Applications

1- Units which are equipped with an optional

economizer and installed in horizontal airflow
applications must use a horizontal conversion kit.

2- Specified installation clearances must be maintained

when installing units. Refer to figure 1.

3- Top of support slab should be approximately 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 weather-proofed 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 5

507348-04 12/2015

Rigging Unit For Lifting

Rig unit for lifting by attaching four cables to holes in unit
base rail. See figure 2.

RIGGING

UNIT

KG
KC

*Maximum weight with all avail
able installed accessories.

LIFTING POINT SHOULD

IMPORTANT - ALL

PANELS MUST BE IN

PLACE FOR RIGGING.

*WEIGHT

LBS. KG.
883
862

BE DIRECTLY ABOVE
CENTER OF GRAVITY

401
391

CAUTION - Do not

walk on unit.

2- Leave the horizontal return air cover in place.

3- Locate the separately ordered horizontal air

discharge kit. Place the kit panel over the downflow
return air opening.

4- Remove and retain the barometric relief dampers and

lower hood.

5- Install return air duct beneath outdoor air intake. See

figure 4. Install barometric relief damper in lower
hood and install in ductwork as shown in figure 4.

UNIT SUPPLY AND RETURN AIR OPENINGS

HORIZONTAL

HORIZONTAL

RETURN AIR

OPENING

SUPPLY AIR

OPENING

FIGURE 2

1- Detach wooden base protection before rigging.

2- Remove all six base protection brackets before

setting unit.

3- Connect rigging to the unit base using both holes in

each corner.

4- All panels must be in place for rigging.

5- 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.)

Horizontal Air Discharge

Unit is shipped with panels covering the horizontal supply
and return air openings. Remove horizontal covers and
place over downflow openings for horizontal air discharge.
See figure 3. Secure in place with sheet metal screws.

Units Equipped With An Optional Economizer

1- Remove the horizontal supply air cover and position

over the downflow supply air opening. Secure with
sheet metal screws.

DOWNFLOW
RETURN AIR

OPENING

DOWNFLOW

SUPPLY AIR

OPENING

FIGURE 3

HORIZONTAL RETURN AIR DUCTWORK

WITH ECONOMIZER

UNITUNIT

HORIZONTAL

RETURN AIR

DUCT

INSTALL BAROMETRIC RELIEF DAMPERS

AND HOOD IN RETURN AIR DUCT

FIGURE 4

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.

KG/KC 024, 030, 036, 048, 060, 072, 074, 090

Page 6

A trap must be installed between drain connection and an
open vent for proper condensate removal. See figure 5 or

6. 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 pages 1 and 2 for
condensate drain location.

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

If the unit has hinged panels, two hinge screws must
be removed in addition to the mullion screws. See
figure 8.

CONDENSATE

DRAIN MULLION

FIGURE 7

UNITS WITH HINGED PANELS

CONDENSATE

DRAIN MULLION

FIGURE 5

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 6

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 the condensate drain mullion. See figure 7.

Remove the two panels on each side of the mullion.

REMOVE

TWO

SCREWS

FIGURE 8

2- Lift the front edge of the drain pan and slide pan out

of unit. See figure 9.

REMOVE DRAIN PAN

DRAIN PAN

FIGURE 9

3- Make sure the cap over the unit bottom drain hole is

secure.

4- 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.

5- From the back side of the unit, pull the drain pan

coupling through the rear condensate opening.

6- Replace the condensate drain mullion.

Page 7

507348-04 12/2015

Bottom Drain Connection

1- Remove the condensate drain mullion. See figure 7.

2- Lift the front edge of the drain pan and slide pan out

of unit. See figure 9.

3- 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 10.

BOTTOM CONDENSATE DRAIN

CAUTION: Be careful not to

damage the coupling threads

when drilling the hole.

After drilling the pilot

hole, drill a 7/8” hole from

the inside of the pan.

DRILL A PILOT

HOLE IN CENTER

OF COUPLING

FIGURE 10

4- From the inside of the pan, use a Vari-Bit® bit to

enlarge the hole to 7/8”. Do not damage coupling
threads.

5- Remove the cap over the unit bottom drain hole.

6- Slide the drain pan back into the unit.

Connect Gas Piping (Gas Units)

Before connecting field-provided piping, check with gas
company or authorities having jurisdiction for local code
requirements. When installing gas supply piping, length
of run from gas meter must be considered in determining
pipe size for 0.5” w.c. (.12kPa) maximum pressure drop.
Do not use supply pipe smaller than unit gas connection.
Operating pressures at the unit gas connection must be
as shown in table 1.

TABLE 1

OPERATING PRESSURE AT GAS CONNECTION “w.c.

Natural Gas LP / Propane Gas

Min. Max. Min. Max.

024-090 4.5 10.5 11 13

When making piping connections a drip leg should be
installed on vertical pipe runs to serve as a trap for
sediment or condensate. A 1/8” N.P.T. plugged tap is
located on gas valve for test gauge connection. Refer to
Heating Start-Up section for tap location. Install a ground
joint union between the gas control manifold and the
main manual shut-off valve. See figure 11 for gas supply
piping entering outside the unit. Figure 12 shows
complete bottom gas entry piping.

Compounds used on threaded joints of gas piping shall be
resistant to the action of liquified petroleum gases.

OUTSIDE OF UNIT GAS PIPE CONNECTION

TO GAS

VALV E

7- From the back side of the unit, pull the drain pan

coupling through the rear condensate opening.

8- 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.

9- Use a field-provided 1” plug to seal side drain

connection.

10- Replace the condensate drain mullion.

KG/KC 024, 030, 036, 048, 060, 072, 074, 090

Page 8

JOINT UNION

TO GAS
SUPPLY

GAS PIPING

SUPPORT

GROUND

MANUAL MAIN

SHUT-OFF VALVE

FIGURE 11

DRIP LEG

(REFER TO

LOCAL CODES)

BOTTOM ENTRY GAS PIPING COMPLETED

PRESSURE TEST GAS LINE

GROUND

JOINT UNION

STREET

ELBOW

7” NIPPLE

2-1/2” NIPPLE

DRIP LEG

Grommets for both gas pipe openings are field provided.

TO GAS

VALV E

TO GAS
SUPPLY

MANUAL MAIN

SHUT-OFF VALVE

FIGURE 12

Pressure Test Gas Piping (Gas Units)

When pressure testing gas lines, the gas valve must
be disconnected and isolated. Gas valves can be
damaged if subjected to more than 0.5 psig (3.48kPa).
See figure 13.

NOTE-Codes may require that manual main shut-off valve
and union (furnished by installer) be installed in gas line
external to unit. Union must be of the ground joint type.

After all connections have been made, check all piping
connections for gas leaks. Also check existing unit gas
connections up to the gas valve; loosening may occur
during installation. Use a leak detection solution or other
preferred means. Do not use matches, candles, or other
sources of ignition to check for gas leaks.

CAUTION

Some soaps used for leak detection are corrosive
to certain metals. Carefully rinse piping thoroughly
after leak test has been completed. Do not use
matches, candles, flame or othe sources of ignition
to check for gas leaks.

WARNING

Danger of explosion. Can cause injury
or product or property damage. Do not
use matches, candles, flame or other
sources of ignition to check for leaks.

NOTE-In case emergency shut down is required, turn off
the main manual shut-off valve and disconnect main
power to unit. These devices should be properly labeled
by the installer.

MANUAL MAIN

SHUT-OFF VALVE

GAS VALVE

CAP

FIGURE 13

High Altitude Derate

Locate the high altitude conversion sticker in the unit
literature bag. Fill out the conversion sticker and affix next
to the unit nameplate.

Refer to table 2 for high altitude adjustments.

TABLE 2

HIGH ALTITUDE DERATE

Altitude Ft.* Gas Manifold Pressure

2000-4500 See Unit Nameplate

4500 And Above Derate 2% / 1000 Ft. Above Sea Level

*Units installed at 0-2000 feet do not need to be modified.

NOTE ‐ This is the only permissible derate for these units.

Electrical Connections

POWER SUPPLY

Do not apply power or close disconnect switch until
installation is complete. Refer to start-up directions.
Refer closely to unit wiring diagram.

Refer to unit nameplate for minimum circuit ampacity
and maximum fuse size.

1- Units are factory-wired for 230,460,575 volt supply.

For 208V supply

from the 208V terminal on the control transformer.
Move the wire from the transformer 240V terminal to
the 208V terminal. Place the insulated terminal cover
on the unused 240V terminal.

2- Route power through the bottom power entry area.

On KG units, connect power wiring to L1, L2 and L3
on the top of K1 in control area above compressor.
On KC units, route power wiring to TB2. Secure
power wiring with factory-installed wire ties
provided in control box. See unit wiring diagram.

, remove the insulated terminal cover

Page 9

507348-04 12/2015

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 (1524mm)
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

B-Control Wiring

1- Route thermostat cable or wires from subbase to

control area above compressor (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
lower left corner of the controls hat 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.

3- Connect thermostat wiring to TB1 terminal board on

the lower side of the controls hat section. Wire as
shown in figure 14 for electro-mechanical and
electronic thermostats. If using other temperature
control devices or energy management systems see
instructions and wiring diagram provided by
manufacturer.

24 VOLT FIELD WIRING WITH ELECTRONIC AND

ELECTRO-MECHANICAL THERMOSTATS

TB1

NOT ALL TERMINALS

ARE FOUND ON ALL

THERMOSTATS

Jumper terminals R and
OC when thermostat has

A2 THERMOSTAT

Note - On electro-mechanical thermo
stats set anticipator at 0.1 amps.

no night setback terminals.

FIGURE 14

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.

INSTALLATIONS WITH DUCTWORK

ROOFTOP UNIT

READING LOCATION

SUPPLY

MAIN

RE

TURN

FIRST BRANCH

OFF OF MAIN RUN

DUCT RUN

LOCATION OF STATIC PRESSURE READINGS

INSTALLATIONS WITH CEILING DIFFUSERS

ROOFTOP UNIT

RETURN AIR

SUPPLY

SUPPLY AIR

READING

LOCATION

SUPPLY AIR

READING

LOCATION

DIFFUSER

FIGURE 15

RE

TURN

RETURN AIR

READING

LOCATION

KG/KC 024, 030, 036, 048, 060, 072, 074, 090

Page 10

Blower Operation and Adjustments

KG/KC 024 and 030 units are equipped with direct drive
blowers only. KG/KC 036, 048 and 060 units are equipped
with either direct drive or belt drive blowers. KG/KC 072,
074 and 090 units are available with belt drive blowers
only. KG/KC 074 units are equipped with two-stage
blowers. The blower will operate at high speed with a Y2
thermostat demand and low speed with a Y1 thermostat
demand. Low speed operation delivers approximately ⅔
of the air volume of high speed. Two-speed blower
operation results in lower energy consumption.

IMPORTANT

Three phase scroll compressors must be phased
sequentially for correct compressor and blower
rotation. Follow “COOLING START-UP” section of
installation instructions to ensure proper compres
sor and blower operation.

A-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.

FIELD-ADJUSTABLE BLOWER SPEEDS - DIRECT DRIVE 208/230V

HIGH SPEED - ALL UNITS

L1-Terminal COM

TERMINAL 1

REMAINS AT

COMMON

L2-Terminal HIGH

B-Determining Unit CFM - Direct Drive Blowers

1- The following measurements must be made with air

filters in place.

2- With all access panels in place, measure static

pressure external to unit (from supply to return). Add
any additional air resistance for options and
accessories shown in accessory air resistance tables.
Blower performance data is based on static pressure
readings taken in locations shown in figure 15.

Note - Static pressure readings can vary if not taken
where shown.

3- Use figure 16 to determine the factory set blower

speed.

BLOWER SPEED FACTORY SETTINGS

024, 030, &

036 Units

1
2
3
4

Com
Hi
Med

Low*

048 Units

1
2
3
4

Com
Hi
Med*
Low

060 Units

1
2
3
4

Com
Hi
Low*
Unused

*Factory Setting

FIGURE 16

4- Use direct drive blower tables, the measured static

pressure and the factory-set blower speed to
determine CFM. If CFM is lower or higher than the
design specified CFM, move the leads as shown in
figure 17 for 208/230 volt units and figure 18 for
460/575 volt units.

LOW SPEED

024, 030, 036, 048, UNITS

L1-Terminal COM
L2-Terminal LOW

MEDIUM SPEED

024, 030, 036, 048 UNITS

L1-Terminal COM

L2-Terminal MED

SPEED

TAPS

1-COM
2-HI
3-MED
4-LOW

1-COM
2-HI
3-MED
4-LOW

FIGURE 17

1-COM
2-HI
3-MED
4-LOW

LOW SPEED

060 UNITS

L1-Terminal COM
L2-Terminal LOW

1-COM
2-HI
3-LOW
4-

Page 11

507348-04 12/2015

FIELD-ADJUSTABLE BLOWER SPEEDS - DIRECT DRIVE - 460/575V

TAPE BACK AND SECURE

UNUSED ISOLATION LEAD

TO CAPACITOR WIRES.

Do not park

isolation lead

HIGH SPEED

L1-Terminal COM

L2-Terminal HI

LOW SPEED 036, 048 UNITS

Park isolation

lead into

terminal HI

L1-Terminal COM
L2-Terminal LOW

MEDIUM SPEED 036, 048 UNITS

L1-Terminal COM
L2-Terminal MED

Park isolation

lead into

terminal HI

1-COM
2-HI
3-MED
4-LOW

FIGURE 18

C-Determining Unit CFM - Belt Drive Blowers

IMPORTANT - KGB/KCB074 blower (G thermostat)

CFM MUST BE ADJUSTED IN HIGH SPEED.
Disconnect factory-installed J350 low speed
connector from P350. Connectors are located near the
bottom of the control box. Connect J351 high speed
connector to P350. Once blower CFM is set, J350 can
be reconnected to operate the blower on low during
ventilation only demands. See table 3.

TABLE 3

TWO-SPEED BLOWER OPERATION

KGB/KCB074 UNITS

Thermostat Blower Speed

G (P350/J350)* Low

G (P350/J351) High

W1 High

W2 High

Y1 Low

Y2 High

*Factory-installed jack/plug connection.

1- The following measurements must be made with air

filters in place.

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 15.

1-COM
2-HI
3-MED
4-LOW

Park isolation

lead into

terminal HI

LOW SPEED 060 UNITS

L1-Terminal COM
L2-Terminal LOW

1-COM
2-HI
3-LOW
4

1-COM
2-HI
3-MED
4-LOW

Note - Static pressure readings can vary if not taken
where shown.

3- Measure the indoor blower wheel RPM.

4- Referring to belt drive blower tables, use static

pressure and RPM readings to determine unit CFM.
Use the air resistance tables when installing units
with any of the options or accessories listed.

5- 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 19. Do not exceed
minimum and maximum number of pulley turns as
shown in table 4.

6- KGB/KCB074 Unit Only -

If low speed during ventilation is desired, replace
J351 connector with J350.

TABLE 4

MINIMUM AND MAXIMUM PULLEY ADJUSTMENT

Belt Min. Turns Open Maxi. Turns Open

A Section No minimum 5

D-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 grooves. Make sure blower and motor pulley are
aligned as shown in figure 20.

KG/KC 024, 030, 036, 048, 060, 072, 074, 090

Page 12

BLOWER ASSEMBLY

TO INCREASE CFM

LOOSEN ALLEN SCREW &

TURN PULLEY CLOCKWISE

SIDE VIEW

MOTOR

TO INCREASE BELT TENSION

1-Loosen four bolts securing motor base to mounting

frame.

2-Slide the motor downward to tighten the belt.

3-Tighten four bolts on motor base.

TO DECREASE CFM

TURN PULLEY

COUNTERCLOCKWISE

ALLEN

SCREW

PULLEY

LOOSEN ALLEN

SCREW TO

ADJUST CFM

LOOSEN FOUR BOLTS AND

SLIDE BLOWER MOTOR

DOWNWARD TO TIGHTEN BELT

FIGURE 19

1- Loosen four bolts securing motor base to mounting

frame. See figure 19.

2- To increase belt tension -

Slide blower motor downward to tighten the belt. This
increases the distance between the blower motor and
the blower housing.

3- To loosen belt tension -

Slide blower motor upward to loosen the belt. This
decreases the distance between the blower motor
and the blower housing.

4- Tighten four bolts securing motor base to the

mounting frame.

E-Blower Belt Adjustment - M Volt Units With 3 HP
Blowers Equipped With A Belt Tensioner

1- Remove blower belt.

PULLEY ALIGNMENT

ALIGNED

2- Remove bracket from blower housing. See figure 22.

3- Remove the screw from the back side of the bracket.

4- Move the tensioner to the appropriate adjustment

hole and reinstall screw.

5- Replace bracket.

6- Replace blower belt. See figure 23.

F-Check Belt Tension - Units Not Equipped With A
Belt Tensioner

Overtensioning belts shortens belt and bearing life.
Check belt tension as follows:

1- Measure span length X. See figure 21.

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.

MOTOR

PULLEY

BELT

NOT ALIGNED

FIGURE 20

BLOWER

PULLEY

3- Measure belt deflection force. For a used belt, the

deflection force should be 5 lbs. (35kPa). A new belt
deflection force should be 7 lbs. (48kPa).

A force below these values indicates an
undertensioned belt. A force above these values
indicates an overtensioned belt.

Page 13

507348-04 12/2015

G-Field-Furnished Blower Drives

For field-furnished blower drives, use belt drive blower
tables to determine BHP and RPM required. Reference
the drive kit specification table and manufacturer's drive
number table.

MEASURE BELT TENSION

INSTALL BELT

TENSIONER

1

DRIVER
PULLEY

FORCE

DEFLECTION 1/64” PER INCH OF SPAN

OR 1.5mm PER 100mm OF SPAN

FIGURE 21

ADJUST BELT TENSIONER

MAXIMUM

TENSION

INDICATOR SHOULD BE

BETWEEN MINIMUM AND

MAXIMUM TENSION LINES

MINIMUM

TENSION

TIGHTEN MOUNTING

BOLT TO 22 LB./FT.

USING 9/16” WRENCH

2

DRIVEN

PULLEY

3

ROTATE DRIVEN

PULLEY TO SEAT BELT

BRACKET

TENSIONER

FACTORY-SET

POSITION

BELT POSITION

FIGURE 22

KG/KC 024, 030, 036, 048, 060, 072, 074, 090

TIGHTEST

BELT

POSITION

TIGHTER

4

FIGURE 23

Page 14

BLOWER DATA - DIRECT DRIVE - KGB024

BLOWER TABLE INCLUDES RESISTANCE FOR BASE UNIT ONLY WITH DRY INDOOR COIL AND AIR FILTERS IN PLACE.

FOR ALL UNITS ADD:
1 - Any factory installed options air resistance (larger gas heat section, economizer, wet coil, etc.) See page 41.

2 - Any eld installed accessories air resistance (duct resistance, diffuser, etc.) See page 41.

External Static

Pressure (in. w.g.)

High Medium Low High Medium Low

2 Ton Standard Efciency (Downow) KGB024S

0.0 1275 979 878 1453 1140 926

0.1 1262 960 834 1440 1124 912

0.2 1243 938 790 1420 1096 884

0.3 1218 909 746 1396 1065 853

0.4 1186 866 710 1352 1033 822

0.5 1137 838 657 1316 986 774

0.6 1104 795 604 1263 954 727

0.7 1055 752 534 1210 906 680

0.8 990 694 463 1158 859 632

0.9 925 637 392 1070 764 538

1.0 794 523 290 928 669 477

2 Ton Standard Efciency (Horizontal) KGB024S

0.0 1204 937 818 1370 1098 879

0.1 1186 913 788 1352 1066 864

0.2 1164 882 748 1327 1034 839

0.3 1137 860 710 1300 1001 809

0.4 1104 818 670 1263 968 768

0.5 1070 775 612 1227 925 728

0.6 1031 733 554 1190 881 688

0.7 991 690 500 1136 816 628

0.8 937 626 432 1081 751 557

0.9 804 566 362 1009 665 492

1.0 678 497 287 900 565 416

208 VOLTS 230 VOLTS

Air Volume (cfm) at Various Blower Speeds

Page 15

BLOWER DATA - DIRECT DRIVE - KGB030

BLOWER TABLE INCLUDES RESISTANCE FOR BASE UNIT ONLY WITH DRY INDOOR COIL AND AIR FILTERS IN PLACE.

FOR ALL UNITS ADD:
1 - Any factory installed options air resistance (larger gas heat section, economizer, wet coil, etc.) See page 41.

2 - Any eld installed accessories air resistance (duct resistance, diffuser, etc.) See page 41.

External Static

Pressure (in. w.g.)

High Medium Low High Medium Low

2.5 Ton Standard Efciency (Downow) KGB030S

0.0 1211 949 852 1365 1097 916

0.1 1251 946 826 1422 1099 908

0.2 1241 952 794 1419 1112 893

0.3 1234 915 749 1419 1074 861

0.4 1213 880 702 1402 1038 824

0.5 1178 846 661 1366 1003 795

0.6 111 8 790 585 1302 942 720

0.7 1054 751 518 1231 900 655

0.8 964 675 460 1130 815 600

0.9 882 626 368 1037 762 501

1.0 729 494 286 859 606 412

2.5 Ton Standard Efciency (Horizontal) KGB030S

0.0 1163 930 815 1312 1075 875

0.1 1173 912 783 1333 1060 861

0.2 1169 888 746 1337 1037 839

0.3 1152 858 704 1325 1007 809

0.4 1122 822 657 1297 969 772

0.5 1079 779 606 1252 923 728

0.6 1023 730 549 1191 870 676

0.7 953 674 488 1114 808 617

0.8 871 613 422 1020 739 550

0.9 775 545 350 911 662 476

1.0 666 470 274 785 578 395

208 VOLTS 230 VOLTS

Air Volume (cfm) at Various Blower Speeds

Page 16

BLOWER DATA - DIRECT DRIVE - KGA/KGB036, KGA/KGB048

BLOWER TABLE INCLUDES RESISTANCE FOR BASE UNIT ONLY WITH DRY INDOOR COIL AND AIR FILTERS IN PLACE.

FOR ALL UNITS ADD:
1 - Any factory installed options air resistance (larger gas heat section, economizer, wet coil, etc.) See page 41.

2 - Any eld installed accessories air resistance (duct resistance, diffuser, etc.) See page 41.

External Static

Pressure (in. w.g.)

High Medium Low High Medium Low High Medium Low

3 and 4 Ton Standard Efciency (Downow) KGA/KGB036S and KGA/KGB048S

0.0 1873 1561 1123 2094 1783 1321 2064 1727 1216

0.1 1993 1601 1148 2168 1797 1338 2105 1744 1229

0.2 1913 1601 1137 2098 1803 1308 2050 1694 1198

0.3 1858 1527 1078 2036 1725 1261 1987 1638 1167

0.4 1801 1496 1046 1973 1679 1219 1905 1598 1148

0.5 1763 1467 987 1910 1647 1177 1862 1559 1108

0.6 1709 1414 897 1830 1560 1080 1781 1509 1057

0.7 1617 1368 806 1727 1519 986 1698 1449 982

0.8 1472 1269 730 1604 1419 918 1614 1389 920

0.9 1359 1162 487 1478 1363 706 1488 1346 792

1.0 961 922 370 1093 1083 590 1167 1099 703

3 and 4 Ton Standard Efciency (Horizontal) KGA/KGB036S and KGA/KGB048S

0.0 1799 1530 1073 2012 1747 1263 2015 1756 1251

0.1 1868 1544 1088 2032 1733 1268 2071 1760 1279

0.2 1802 1494 1068 1976 1682 1228 2014 1700 1226

0.3 1735 1432 1014 1900 1618 1185 1937 1634 1187

0.4 1666 1397 980 1825 1568 1142 1878 1597 1174

0.5 1615 1350 904 1750 1516 1078 1801 1558 1124

0.6 1564 1305 842 1675 1440 1014 1743 1479 1060

0.7 1462 1228 758 1562 1364 928 1664 1415 982

0.8 1330 1151 670 1449 1287 842 1512 1335 865

0.9 1194 1011 464 1298 1185 671 1393 1297 733

1.0 878 878 355 998 1032 565 1060 1063 618

208 VOLTS 230 VOLTS 460/575 VOLTS

Air Volume (cfm) at Various Blower Speeds

Page 17