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Leading the Future in Refrigeration Technology
EMERSONZB Scroll Compressor
Product Manual
ZB Series
Index
General Information 1
Description of Features 2
Nomenclature & BOM 3
Application Envelope 4-5
R22 4
R404A/R507C & R134a 5
Application Guide
1. Scroll Compression process 6-6
2. Compressor Internal Protections 7-8
3. Compressor Information 8-10
4. System Protection Guidelines 10-11
5. Testing Guidelines 11-13
6. Field & Installation Guidelines 13-14
Performance Data 15-43
R22 50Hz 1-Phase 15-16
R22 50Hz 3-Phase 17-21
R404A/R507C 50Hz 1-Phase 22
R404A/R507C 50Hz 3-Phase 23-25
R134a 50Hz 1 & 3-Phase 26-28
R22 60Hz 1-Phase 29-30
R22 60Hz 3-Phase 31-35
R404A/R507C 60Hz 1-Phase 36-37
R404A/R507C 60Hz 3-Phase 38-40
R134a 60Hz 1 & 3-Phase 41-43
Technical Data 44-45
Dimensions 46-65
Brazing Connection 46-49
ZB15~ZB29 (BOM 524) 46
ZB38~ZB48 (BOM 524) 47
ZB58 (BOM 524) 48
ZB66~ZB88 (BOM 524) 49
Rotalock Connection 50-53
ZB15~ZB29 (BOM 523) 50
ZB38~ZB48 (BOM 523) 51
ZB58 (BOM 523) 52
ZB66~ZB88 (BOM 523) 53
Brazing & Sight Glass 54-55
ZB15~ZB29 (BOM 558) 54
ZB38~ZB48 (BOM 558) 55
Brazing, Sight Glass & Oil Schrader Valve 56-59
ZB58 (BOM 550) 56
ZB66~ZB88 (BOM 550) 57
ZB95~ZB114 TFD (BOM 550) 58
ZB95~ZB114 TW7/TW5 (BOM 550) 59
Rotalock & Sight Glass 60-61
ZB15~ZB29 (BOM 559) 60
ZB38~ZB48 (BOM 559) 61
Rotalock, Sight Glass & Oil Schrader Valve 62-65
ZB58 (BOM 551) 62
ZB66~ZB88 (BOM 551) 63
ZB95~ZB114 TFD (BOM 551) 64
ZB95~ZB114 TW7/TW5 (BOM 551) 65
Electrical Wiring Diagram 66-67
ZB15-ZB114 66
ZB15-ZB114 Control Circuit 67
1
ZB Series
ZB Scroll Compressors For Refrigeration And Process Cooling:
In the years since Emerson Climate Technologies Introduced ZB scroll compressors for medium-high temperature refrigeration and process cooling
applications, it has been well received by our customers. ZB scroll compressors are revolutionizing this segment of the industry by the providing
following benefits to our customers.
* Complete range between 2-15 HP
* Proven reliability
* Superior efficiency
* Low sound levels
* Availability for HFC and HCFC refrigerants
* All voltage offering
* Oil sight glass & Rotalock features
Customers can be confident that ZB scroll compressors are coming from Emerson Climate Technologies experience of over 80 million scroll
compressors. ZB scroll compressors are manufactured in our scroll factories in Suzhou, China and Rayong, Thailand. To our customers, this gives
additional value by lower inventory and reduced shipping cost.
General Information
ZB15 ZB19 ZB21 ZB26 ZB29 ZB38 ZB45 ZB48 ZB58 ZB66 ZB76 ZB88 ZB95 ZB1140
2
4
6
8
10
12
14
16
ZB Models
Nom
inal
HP
ZB Model Line Up
2
ZB Series
Description of Features
Dual Compliance
Compliance means sealing between the orbiting and fixed scroll
involutes. Dual compliance means the sealing is on both the axial and
radial directions. This prevents refrigerant leak back across successive
scroll pressure pockets. Compliance design also allows the scroll
involutes to separate in both the radial and axial directions. This allows
debris or liquid refrigerant to pass through the scroll involutes without
damaging the compressor. Benefits of Dual Compliance are:
* Increased efficiency
* Better liquid handling capability
* Better handling of debris
Scroll Wear In
The scroll involutes of Copeland scroll compressor wear in, rather than
wear out. So unlike in other compressor technologies among similar
categories, there is no constant degradation of performance with
time due to wear out.
Lower sound, vibration and pulsation
The compression process in a scroll set is symmetrical and continuous.
This inherently reduces the sound, vibration and pulsation. This
eliminates the need for use of vibration absorbers and suction or
discharge mufflers in most of the applications. In further, ZB scroll
compressors are engineered to produce smooth sound spectrum
which improves the quality of sound.
Unloaded Start
The scroll sets separate at the instant of compressor shutdown. This
allows the scroll set internal pressures to equalize on compressor
stops. In addition to this, the scroll sets are not engaged at the instant
of starting. Scroll sets engage only after few milliseconds of startup.
This allows easier startup of ZB scroll compressors. Due to this design
feature, typically a start assist kit is not required even on single phase
compressors.
DU bearings
A space age bearing material comprising of porous bronze with
PTFE-lead overlay. These bearings are used in ZB scroll compressors in
the scroll drive and main bearings. DU bearings work with exceptionally
low friction between the load bearing surfaces. In addition, DU bearings
can operate safely for a short time with loss of lubrication. This situations
could happen on compressor applications due to oil pump out during a
flooded start or heavy oil dilution after a defrost cycle.
All specifications in this catalogue are subject to change without
notice.
2 1
Crankshaft
Axi
al c
om
plia
nce
Radial compliance
Fixed scroll
Orbitingscroll
DischargeSu
ction
Figure 1
Figure 2
3
ZB Series
Nomenclature & BOM
Z B 7 6 K Q E - T F D - X X X
Generation
CompressorFamily
High/Medium Temp Refrigeration
Capacity @ 60Hz(Medium Temperature
Condition: Btu/h)
Base CapacityK x 1000
M x 10000
Bill of Material
LubricantBlank: Mineral Oil E: Ester Oil
Compressor MotorCode Description P: Single-phase T: Three-phase
Motor voltages V Ph HzJ 220-240 1 50 265 1 60V 200 1 50 208-230 1 60D 380-420 3 50 460 3 605 200-220 3 50 200-230 3 607 380 3 60
Bill of Material (BOM)
CompressorModel
BOMNumber
523
524
558
559
523*
524*
550
551
Suction & DischargeBrazing Connection
X
X
X
X
Suction & DischargeRotalock Connection
X
X
X
X
Oil Sight Glass
X
X
X
X
SchraderValve
X
X
ZB15-ZB48
ZB58-ZB114
*Not applicable for ZB95/114 models.
Compressor Motor ProtectionCode Description F: Inherent internal line break motor protector W: Electronic motor protection with themistors and control module in the terminal box
4
ZB15~ZB88
ZB Series
Application Envelope
ZB95/ZB114 (TFD Motor Only)
60
70
50
40
30
20
10
-15 -10 -5 0 5 10 15
Evaporating Temp. oC
Con
dens
ing
Tem
p.o C
60
70
50
40
30
20
10
-15 -10 -5 0 5 10 15
Evaporating Temp. oC
Con
dens
ing
Tem
p.o C
ZB95/ZB114 (TW7, TW5 Motors)
60
70
50
40
30
20
10
-15 -10 -5 0 5 10 15
Evaporating Temp. oC
Con
dens
ing
Tem
p.o C
R22
Note: 1. Envelope In Non Shaded Region, max return gas temperature of 18.3°C2. Envelope In Shaded Region, Max superheat of 11K only3. TW5-R22 approved only at 60Hz.
Note:1. Envelope In Non Shaded Region, max return gas temperature of 18.3°C2. Envelope In Shaded Region, Max superheat of 11K only
Note:1. Envelope In Non Shaded Region, max return gas temperature of 18.3°C2. Envelope In Shaded Region, Max superheat of 11K only
5
ZB15~ZB114R134a
ZB15~ZB88R404A/R507C
ZB Series
Application Envelope
ZB95/ZB114R404A/R507C
60
70
50
40
30
20
10
Evaporating Temp. oC
Con
dens
ing
Tem
p.o C
-20 -15 -10 -5 0 5 10 15
60
70
50
40
30
20
10
Evaporating Temp. oC
Con
dens
ing
Tem
p.o C
-20 -15 -10 -5 0 5 10 15
R404A/R507C & R134a
Note:1. Envelope In Non Shaded Region, max return gas temperature of 18.3°C2. Envelope In Shaded Region, Max superheat of 11K only
Note:1. Envelope In Non Shaded Region, max return gas temperature of 18.3°C2. Envelope In Shaded Region, Max superheat of 11K only
Note:1. Envelope In Non Shaded Region, max return gas temperature of 18.3°C2. Envelope In Shaded Region, Max superheat of 11K only
60
80
70
50
40
30
20
10
Evaporating Temp. oC
Con
dens
ing
Tem
p.o C
-20 -15 -10 -5 0 5 10 15
ZB Series
1. Scroll Compression process
Application Guide
Compression in the scroll is created by the interaction of an orbiting spiral and a stationary spiral. Gas enters the outer openings as one of the spirals orbits.
The open passages are sealed off as gas is drawn into the spiral.
As the spiral continues to orbit,the gas is compressed into two increasingly smaller pockets.
By the time the gas arrives at the center port, discharge pressure has
been reached.
Actually, during operation, all six gas passages are in various stages
of compression at all times, resulting in nearly continuous
suction and discharge.
The scroll is a simple compression concept first patented in 1905. A scroll is an involute spiral which, when matched with a mating scroll form as shown
above, generates a series of crescent-shaped gas pockets between the two members. During compression, one scroll remains stationary (fixed scroll)
while the other form (orbiting scroll) is allowed to orbit (but not rotate) around the first form. As this motion occurs, the pockets between the two
forms are slowly pushed to the center of the two scrolls while simultaneously being reduced in volume. When the pocket reaches the center of the
scroll form, the gas, which is now at a hige pressure, is discharged out of a port located at the center. During compression, several pockets are being
compressed simultaneouly, resulting in a very smooth process. Both the suction process (outer portion of the scroll members) and the discharge
process (inner portion) are continuous.
6
7
ZB Series
2. Compressor Internal Protections2.1 Internal Pressure Relief Valve:
Models ZB15- ZB48 has internal pressure relief valve, which open at a
discharge to suction differential pressure of 375 to 450 psi. This action
will trip the motor protector and remove the motor from the line.
Models ZB58 - ZB114 do not have internal pressure relief valves. To ensure
safe operation, a high pressure control must be used in all applications.
The high pressure control should have a manual reset feature for the
highest level of system protection. Maximum cut out settings are listed
in Table 1 If the compressor is fitted with a Rotalock valve the high
pressure switch MUST be connected on the compressor side of the valve.
Compressors require a low pressure control for loss of charge protection.
If allowed to go undetected, loss of system charge will result in
overheating and damage to the scrolls and floating seal. Prolonged
operation with low charge will result in decomposition of the oil that
might require complete system replacement. Minimum cut out settings
are listed in Table 1. The low pressure cut-out, if installed in the suction
line to the compressor, can provide additional protection against a TXV
failed in the closed position, a closed liquid line service valve, or a blocked
liquid line screen, filter, orifice, or TXV. All of these can starve the
compressor for refrigerant and result in compressor failure. The low
pressure cut-out should have a manual reset feature for the highest level
of system protection. If a compressor is allowed to cycle after a fault is
detected, there is a high probability that the compressor will be damaged
and the system contaminated with debris from the failed compressor and
decomposed oil. If the compressor is fitted with a Rotalock valve the low
pressure switch MUST be connected on the compressor side of the valve.
2.2 Internal Scroll Temperature Protection
Events such as loss of charge, condenser fan failure, or low side charging
with inadequate pressure will cause the discharge gas to quickly rise.
Excessively high discharge gas temperatures would affect the scroll
compressor reliability. To prevent damage to scroll compressors ZBKQ/E
scroll compressors are built- in with internal scroll temperature protection.
Compressor models ZB15-ZB48 incorporate a thermo disc which is a
temperature-sensitive snap disc device located at the scroll discharge
port. It is designed to open and route hot discharge gas back to the motor
protector thus removing the compressor from the line.
Compressor models ZB58-ZB114 models incorporate ASTP feature
(Advanced Scroll Temperature Protection). ASTP feature will cause the
scrolls to separate and stop pumping but allow the motor to continue to
run. After the compressor runs for some time without pumping gas, the
motor protector will open.
Depending on the heat build up in the compressor, it may take up to two
hours for the motor protector to reset.
2.3 Motor Protection
For the models with a motor protection code “F”, an internal line break
motor protector is located in the center of the Y of the motor windings.
This protector disconnects all three phases in case of an overload or
over-temperature condition. The protector reacts to a combination of
motor current and motor winding temperature. The internal protector
protects against single phasing. Time must be allowed for the motor to
cool down before the protector will reset. If current monitoring to the
compressor is available, the system controller can take advantage of the
compressor internal protector operation. The controller can lock out the
compressor if current draw is not coincident with contactor energizing,
implying that the compressor has shut off on its internal protector. This
will prevent unnecessary compressor cycling on a fault condition until
corrective action can be taken.
Application Guide
Table 1 Pressure Setting Recommendations
Model
ZB15-ZB48
ZB58-ZB114
Control Type
Low
High
Low
R22
1.3Kg/cm2
28.7Kg/cm2
1.3Kg/cm2
R404A/R507C
1.2Kg/cm2
31.88Kg/cm2
1.2Kg/cm2
R134a
0.3Kg/cm2
23.9Kg/cm2
0.3Kg/cm2
ZB Series
Application Guide
8
Models ZB95KQ/E and ZB114KQ/E with motor protection code “W” use
a combination of sensors and an electronic module (INT69SU) for motor
protection. For the INT69SU, there are four PTC (positive temperature
coefficient) internal thermisters connected in series that react with
avalanche resistance in the event of high temperatures. All four are used
to sense motor temperature. The thermister circuit is connected to the
protector module terminals S1 and S2. When any thermister reaches a
limiting value, the module interrupts the control circuit and shuts off the
compressor. After the thermister has cooled sufficiently, the resistance
will decrease, thus allowing the module to reset. However, the module
has a 30-minute time delay before reset after a thermister trip. If the
INT69SU module is applied in conjunction with a Programmable Logic
Controller, it is important that a minimum load is carried through the
M1-M2 control circuit contacts. The minimum required current through
the module relay contacts needs to be greater than 100 milliamps but
not to exceed 5 amps. If this minimum current is not maintained, this has
a detrimental effect upon the long-term contact resistance of the relay
and may result in false compressor trips. PLC operated control circuits may
not always provide this minimum current. In these cases modifications to
the PLC control circuit are required. Consult your application engineering
department for details.
3. Compressor Information3.1 Fusite (Terminal)
Fusite (Terminal) pin orientation for single-phase and three phase
refrigeration scroll compressors are shown in Figure 1 and inside the
terminal box.
3.2 Rotation Direction of Three Phase Scroll Compressors
Scroll compressors will only compress in one rotational direction.
Direction of rotation is not an issue with single phase compressors since
they will always start and run in the proper direction. Three phase
compressors will rotate in either direction depending upon phasing of
the power. Since there is a 50-50 chance of connecting power in such a
way as to cause rotation in the reverse direction, it is important to include
notices and instructions in appropriate locations on the equipment to
ensure proper rotation direction when the system is installed and
operated. Verification of proper rotation direction is made by observing
that suction pressure drops and discharge pressure rises when the
compressor is energized. Reverse rotation of a scroll compressor also
results in substantially reduced current draw compared to specification
sheet values. Suction temperature will be high, discharge temperature
will be low and the compressor may be abnormally noisy There is no
negative impact on durability caused by operating three phase Copeland
Scroll compressors in the reversed direction for a short period of time
(under one hour), In models ZB58 - ZB114 oil may be lost. This oil loss
can be prevented during reverse rotation if the suction tubing is routed
at least six inches (15 cm) above the compressor. After several minutes of
operation in reverse, the compressor's motor protection system will trip the
compressor off. If allowed to repeatedly restart and run in reverse without
correcting the situation, the compressor will be permanently damaged.
All three phase scroll compressors are identically wired internally. As a
result, once the correct phasing is determined for a specific system or
installation, connecting properly phased power leads to the same
terminals will maintain proper rotation direction.
T1
CT2
ST3
R
Motor Terminal (Fusite) Connections forSingle Phase and Three Phase Scrolls
Figure 1
9
ZB Series
Brief Power Interruptions
Brief power interruptions (less than ½ second) may result in powered
reverse rotation of single-phase refrigeration scroll compressors.
High-pressure discharge gas expands backward through the scrolls at
power interruption causing the scroll to orbit in the reverse direction. If
power is reapplied while this reversal is occurring, the compressor may
continue to run noisily in the reverse direction for several minutes until
the compressor internal protector trips. This has no negative effect on
durability. When the protector resets, the compressor will start and
run normally.
No time delay is required on three phase models to prevent reverse
rotation due to power interruptions.
3.3 Oil Types
In HCFC R-22 applications, mineral oil is used in the compressor. Polyol
ester lubricants must be used with HFC refrigerants (R404A, R507 and
134a).Compressors using polyol ester oil are identified with an "E" in
the model number. A separate form may be requested (Form 93-11)
which lists Emerson approved lubricants that may be used to recharge
these compressors or if the addition of oil is required. See compressor
nameplate for original oil charge. A complete recharge should be four
ounces (118 ml) less than the original oil charge. If the oil level is above
the sight glass, it may lead to oil circulation rates higher than 1.5% which
may lead to decreased capacity as the oil coats the evaporator coils.
3.4 Deep Vacuum Operation
WARNING: DO NOT RUN A REFRIGERATION SCROLL COMPRESSOR IN A
VACUUM. FAILURE TO HEED THIS ADVICE CAN RESULT IN PERMANENT
DAMAGE TO THE COMPRESSOR.
A low-pressure control is required for protection against vacuum
operation. See the section on pressure controls for the proper set
points. (See Table 1)
Scrolls compressors (as with any refrigeration compressor) should never
be used to evacuate refrigeration or air conditioning systems.
The scroll compressor can be used to pump-down refrigerant in a unit
as long as the pressures remain within the operating envelope. Low
suction pressures will result in overheating of the scrolls and permanent
damage to the compressor drive bearing or cause the scroll temperature
protection to activate.
3.5 Shell Temperature
Certain types of system failures, such as condenser or evaporator fan
blockage or loss of charge, may cause the top shell and discharge line to
briefly but repeatedly reach temperatures above 350°F (177°C) as the
compressor cycles on its internal protection devices. Care must be taken
to ensure that wiring or other materials, which could be damaged by these
temperatures, do not come in contact with these potentially hot areas.
3.6 Suction and Discharge Fittings
Scroll compressors are available with stub tube or Rotalock connections.
The stub tube version has copper plated steel suction and discharge
fittings. These fittings are far more rugged than copper fittings used on
other compressors. Due to the different thermal properties of steel
and copper, brazing procedures may have to be changed from those
commonly used. Assembly and brazing procedures are explained in
the later part of application guide.
3.7 Starting Characteristics Of Single-Phase Compressors
Single-phase scroll compressors are designed with PSC type motors and
therefore will start without the need of start assist devices in most
applications. However, if low voltage conditions exist at start up, protector
trips can result. Therefore, start assist devices (start capacitors and relays)
are available to maximize starting characteristics under abnormal
conditions.
Application Guide
ZB Series
Application Guide
10
3.8 Special handling consideration for ZB58-ZB114
ZB58- ZB114 model compressors have the suction fitting located low on
the shell. Due to this, its recommended to leave the suction connection
plug in place until the compressor is set into the unit. The discharge
connection plug should be removed first before pulling the suction
connection plug to allow the dry air pressure inside the compressor to
escape. Pulling the plugs in this sequence prevents oil mist from coating
the suction tube making the brazing difficult.. The copper coated steel
suction tube should be cleaned before brazing. No object (example a
swaging tool) should be inserted deeper than 50mm into the suction
tube or it might damage the suction screen and motor.
4. System Protection Guidelines4.1 Accumulator Requirement:
Due to the scrolls’ inherent ability to handle liquid refrigerant in flooded
start and defrost cycle operation conditions, accumulators may not be
required. An accumulator is required on single compressor systems when
the charge limitations exceed those values listed in Table 2. On systems
with defrost schemes or transient operations that allow prolonged
uncontrolled liquid return to the compressor, an accumulator is required.
Excessive liquid flood back or repeated flooded starts will dilute the oil
in the compressor causing inadequate lubrication and bearing wear.
Proper system design will minimize liquid flood back, thereby ensuring
maximum compressor life.
4.2 Crankcase Heaters Requirement
Single-phase models
No crankcase heaters are required on single-phase scroll compressors.
The listed crankcase heaters are intended for use only when there is limited
access (Table 3). The heaters are not equipped for use with electrical
conduit. Where applicable, electrical safety codes require lead protection,
a crankcase heater terminal box should be used. Recommended
crankcase heater terminal box and cover part kit numbers are available
with Copeland Application Engineering Department.
The crankcase heater must remain energized during the compressor off cycles.
The initial start in the field is a very critical period for any compressor
because all load bearing surfaces are new and require a short break-in
period to carry high loads under adverse conditions. The crankcase
heater must be turned on a minimum of 12 hours prior to starting
the compressor. This will prevent oil dilution and bearing stress on initial
start up. If it is not feasible to turn on the crankcase heater 12 hours in
advance of starting the compressor, then use one of the techniques listed
below to prevent possible flooded start damage to the compressor: 1)
Direct a 500 watt heat lamp or other safe heat source at the lower shell
of the compressor for approximately 30 minutes to boil off any liquid
refrigerant prior to starting; or 2) Bump start the compressor by manually
energizing the compressor contactor for about one second. Wait five
seconds and again manually energize compressor for one second. Repeat
this cycle several times until the liquid in the shell has been boiled off and
the compressor can be safely started and run continuously.
Table 2 Charge Limitations
Models
ZB15- ZB48
ZB58-ZB114
Charge Limits
4.5 Kgs
7 Kgs
Model
ZB15-ZB48
ZB58-ZB114
Part No
018-0072-04
018-0067-01
Volts
240
240
Watts
70
90
Length
48" (122 mm)
48" (122 mm)
Table 3Crankcase Heater
Three-phase models
ZB15–ZB48- outdoor only
Crankcase heaters are required on three phase compressors where the
system charge exceeds 4.5 Kgs. Table 3 lists the specification of applicable
crankcase heaters.
ZB58-ZB114
Crankcase heaters are required where the system charge exceeds 7
Kgs. The crankcase heater must be located below the suction inlet.
Table 3 lists the specification of applicable crankcase heaters
11
ZB Series
4.3 Pump-Down Cycle
A pump-down cycle for control of refrigerant migration may be used
instead of, or in conjunction with, a crankcase heater when the
compressor is located so that cold air blowing over the compressor
makes the crankcase heater ineffective. A separate external check
valve must be added to the discharge line if pump-down is used.
The built-in scroll discharge check valve is designed to stop extended
reverse rotation and prevent high pressure gas from leaking rapidly
into the low side after shut off. High side leak-back through the check
valve may exceed amounts typically found in reciprocating compressors
with reed valves. This can cause the compressor to recycle more frequently.
Repeated short-cycling of this nature can result in low compressor oil
and consequent damage to the compressor. The recommended external
check valve will prevent the frequent recycling due to leak-back. The low
pressure control cut-in and cut-out settings have to be reviewed since
a relatively large volume of gas will re-expand from the high side of the
compressor into the low side on shut down. Emerson recommends that
the cut out setting of the pump-down pressure control be set no more
than a few degrees of equivalent saturated pressure below the lowest
expected normal operating pressure. It is not necessary to pump-down
into nearly a vacuum to remove all liquid refrigerant for the low side.
To achieve a fairly wide control differential the cut in setting should be
set a few degrees of equivalent saturated pressure below the lowest
expected temperature of the medium that is cooled. Copeland Scroll
compressors trap a considerable volume of high pressure gas between
the muffler plate and the top cap. When the compressor shuts down the
trapped gas will expand back into the suction side of the system. This
frequently causes a pulse of pressure to propagate down the suction
line and can cause the low pressure switch to reset. The compressor
must not be allowed to short cycle which may result in oil pump out.
The electrical circuitry should be arranged so that compressor restart
is triggered by demand from the thermostat rather than a reset low
pressure switch. Setting a wider differential between the cutout and cut
in pressures of a low pressure switch may solve the short cycling problem
but may also result in unacceptable temperature swings in the cooled
space. If short cycling cannot be avoided, using a 3 minute time delay
will limit the cycling of the compressor to an acceptable level.
4.4 Filter Screens In System
The use of screens finer than 30 x 30 mesh (0.6 mm openings) anywhere
in the system is not recommended. Field experience has shown that finer
mesh screens used to protect thermal expansion valves, capillary tubes,
or accumulators can become temporarily or permanently plugged with
normal system debris and block the flow of either oil or refrigerant to the
compressor. Such blockage can result in compressor failure.
5. Testing Guidelines5.1 Compressor Hi-Pot Testing
Refrigeration scroll compressors are configured with the motor in the
bottom of the shell. Unlike most other hermetic compressors, the motor
of a scroll compressor can be immersed in refrigerant when liquid is
present in the shell. Hi- Pot tests with liquid refrigerant in the shell can
show higher levels of current leakage due to the higher electrical
conductivity of liquid refrigerant vs. refrigerant vapor and oil. This
phenomenon can occur with any compressor when the motor is
immersed in refrigerant and does not present any safety issue. To lower
the current leakage reading, operate the system for a brief period of time
redistributing the refrigerant to a more normal configuration and test
again. Under no circumstances should the Hipot test be performed while
the compressor is in vacuum.
5.2 Scroll Compressor Functional Check
A functional compressor test with the suction service valve closed to
check how low the compressor will pull suction pressure is not a good
indication of how well a compressor is performing. Such a test will
almost certainly damage a scroll compressor. The following diagnostic
procedure should be used to evaluate whether a Copeland Scroll
compressor is working properly.
1.
2.
Application Guide
Proper voltage to the unit should be verified.
The normal checks of motor winding continuity and short to ground
should be made to determine if the inherent overload motor
protector has opened or if an internal motor short or ground fault
has developed. If the protector has opened, the compressor must
be allowed to cool sufficiently to allow it to reset.
ZB Series
Application Guide
12
5.3 Electronic Motor Protection Module and Sensor Functional Check
The following field troubleshooting procedure can be used to evaluate
the solid state control circuit: Refer to Table 4 for a technical data
summary.
Module Voltage Supply Troubleshooting
• Verify that all wire connectors are maintaining a good mechanical
connection. Replace any connectors that are loose.
• Measure the voltage across T1-T2 to ensure proper supply voltage.
Sensor Troubleshooting
• Remove the leads from S1-S2, and then by using an ohmmeter
measure the resistance of the incoming leads.
CAUTION: Use an Ohmmeter with a maximum of 9 VDC for checking – do
not attempt to check continuity through the sensors with any other type of
instrument. Any external voltage or current may cause damage requiring
compressor replacement.
• If the S1-S2 wire leads read less than 2750 ohms ±20% and the M1-M2
contacts are open, reset the module by removing the power to T1-T2
for a minimum of 5 seconds.
• Replace all wire leads and use a voltmeter to verify the M1-M2 contacts
are closed.
• If the M1-M2 contacts remain open and S1-S2 are less than 2500 ohms,
remove leads from the M1-M2 contacts and jumper together;
CAUTION: Compressor should start at this time. HOWEVER DO NOT LEAVE
JUMPER IN PLACE FOR NORMAL SYSTEM OPERATIONS. THE JUMPER IS USED
FOR DIAGNOSTIC PURPOSES ONLY.
• Go to Compressor Supply Voltage Troubleshooting.
• Determine the control voltage by using a voltmeter and then measure
the voltage across the M1-M2 contacts:
Proper indoor and outdoor blower/fan operation should be verified.
With service gauges connected to suction and discharge pressure
fittings, turn on the compressor. If suction pressure falls below
normal levels, the system is either low on charge or there is a flow
blockage in the system.
In single Phase Compressors, if suction pressure does not drop and
discharge pressure does not rise to normal levels the compressor
is faulty. But in Three Phase compressors, reverse any two of the
compressor power leads and reapply power to make sure compressor
was not wired to run in reverse direction.
Before replacing, be certain that the compressor is actually defective.
As a minimum, recheck a compressor returned from the field in the
shop or depot for Hipot, winding resistance, and ability to start.
Experience shows that more than one third of compressors are
determined to have nothing found wrong. They were mis-diagnosed
in the field as being defective. Replacing working compressors
unnecessarily costs everyone.
NEVER test a scroll compressor by closing the suction valve or the
liquid feed to the evaporator and pumping the compressor into a
vacuum.
3.
4.
5.
6.
7.
If the measured voltage is equal to the control volts then the M1-M2 contacts are open.
If the measurement is less than 1 volt and the compressor is not running, then the problem is external to the INT69SU module.
If the voltage is greater than 1 volt but less than the control voltage, the module is faulty and should be replaced.
a.
b.
c.
During normal operation, this resistance value should read less than 4500 ohms ±20%.
If the M1-M2 contacts are open, the measured S1-S2 value is above 2750 ohms ±20% and the compressor has been tripped less then 30 minutes then the module is functioning properly.
a.
b.
13
ZB Series
Compressor Supply Voltage Troubleshooting
• Remove phase sensing leads from the module from L1/L2/L3.
• Use a voltmeter to measure the incoming 3 phase voltage on L1/L2/L3.
WARNING: L1/L2/L3 could be at a potential up to 600VAC.
• Ensure proper voltage on each phase.
• Remove power to the module for a minimum of 5 seconds to reset and
replace all wire leads. Reenergize the module. If the M1-M2 contacts
are open with proper voltage to T1-T2, L1/L2/L3 and proper resistance
to S1-S2 then the module is faulty and should be replaced.
6. Field & Installation Guidelines6.1 Assembly Line And Field Brazing
ZB Scroll compressors are available with stub tube and Rotalock
connections. The stub tube version has copper plated steel suction and
discharge fittings. Due to the different thermal properties of steel and
copper, brazing procedures may have to be changed from those commonly
used The guidelines below gives a description for assembly line and field
brazing procedures.
New Installations
•
•
•
•
•
•
•
Application Guide
Table 4 Technical Data Summary Of Module
Emerson P/N 071-0641-00
Manufacturer P/N Kriwan 69SU Kriwan 69SU
T1-T2 Module Power
Voltage Supply 120V & 240V
Frequency 50Hz & 60Hz
M1-M2 Module Output Contacts
Maximum Voltage 250VAC
Maximum Current 5 Amps
Minimum Current 100 milliamps
Relay Output 5 A, 300 VA
Power Output <3 VA
S1-S2 Thermal Protection
Trip Out Resistance 4500W ± 20%
Reset Resistance 2750W ± 20%
Reset Time 30 min ± 5 min
Manual Reset T1-T2 interrupt for minimum of 5 sec
L1-L2-L3 Phase Monitoring
Phase Sensor Non Phase Sensing
Phase Monitoring Circuit Rating Non Phase Sensing
Trip Delay Non Phase Sensing
Lockout Non Phase Sensing
Reset For Lockout Non Phase Sensing
3 2 1
Figure 2
The copper-coated steel suction and discharge tubes on scroll
compressors can be brazed in approximately the same manner as any
copper tube.
Recommended brazing materials: Any silfos material is recommended,
preferably with a minimum of 5% silver. However, 0% silver is acceptable.
Be sure compressor tube fittings I.D. and connecting tube O.D. are clean
prior to assembly. If oil film is present wipe with denatured alcohol,
Dichloro-Trifluoroethane or other suitable solvent.
Using a double-tipped torch apply heat in Area 1. As tube approaches
brazing temperature, move torch flame to Area 2.
Heat Area 2 until braze temperature is attained, moving torch up and
down and rotating around tube as necessary to heat tube evenly. Add
braze material to the joint while moving torch around joint to flow
braze material around circumference.
After braze material fl ows around joint, move torch to heat Area 3.
This will draw the braze material down into the joint. The time spent
heating Area 3 should be minimal.
As with any brazed joint, overheating may be detrimental to the
final result.
ZB Series
Application Guide
14
Field Service
Unbrazing System Components
CAUTION!
If the refrigerant charge is removed from a scroll unit by bleeding the
high side only, it is sometimes possible for the scrolls to seal preventing
pressure equalization through the compressor. This may leave the low
side shell and suction line tubing pressurized. If a brazing torch is then
applied to the low side, the pressurized refrigerant oil mixture could
ignite as it escapes and contacts the brazing flame. It is important to
check both the high and low sides with manifold gauges before unbrazing.
In the case of an assembly line repair, remove the refrigerant from both
the high and low sides. Instructions should be provided in appropriate
product literatures and assembly areas
• To disconnect: Reclaim refrigerant from both the high and low side of
the system. Cut tubing near compressor.
• To reconnect. Recommended brazing material is Silfos with minimum
5% silver or silver braze material with flux. Insert tubing stubs into
fitting and connect to the system with tubing connectors. Follow New
Installation brazing instructions.
Brazing Procedure
Figure 2 discusses the proper procedures for brazing the suction and
discharge lines to a Copeland Scroll compressor. It is important to flow
nitrogen through the system while brazing all joints during the system
assembly process. Nitrogen displaces the air and prevents the formation
of copper oxides in the system.
If allowed to form, the copper oxide flakes can later be swept through
the system and block screens such as those protecting capillary tubes,
thermal expansion valves, and accumulator oil return holes. The blockage
- whether it is of oil or refrigerant - is capable of doing damage resulting
in compressor failure.
6.2 Compressor Replacement after Motor Burn
In the case of a motor burn, the majority of contaminated oil will be
removed with the compressor. The rest of the oil is cleaned through use
of suction and liquid line filter dryers. A 100% activated alumina suction
filter drier is recommended but must be removed after 72 hours. Separate
bulletins are available on request for clean up procedures and for liquid
line filter drier recommendations. AE Bulletin 24-1105 for clean up
procedures AE Bulletin 11-1297 for liquid line filter drier recommendations.
It is highly recommended that the suction accumulator be replaced if
the system contains one. This is because the accumulator oil return
orifice or screen may be plugged with debris or may become plugged
shortly after a compressor failure. This will result in starvation of oil to
the replacement compressor and a second failure.
6.3 System Charging Procedure
Systems should be charged with liquid on the high side to the extent
possible. The majority of the charge should be pumped into the high side
of the system to prevent hi pot failures, and bearing washout during first
time start. If additional charge is needed, it should be added as liquid, in
a controlled manner, to the low side of the system with the compressor
operating. Pre-charging on the high side and adding liquid on the low side
of the system are both meant to protect the compressor from operating
with abnormally low suction pressures during charging.
Do not start the compressor while the system is in a deep vacuum. Internal
arcing may occur when a compressor is started in a vacuum Do not operate
compressor without enough system charge to maintain at least 7 psig
(0.5Kg/cm²) suction pressure. Do not operate with a restricted suction.
Do not operate with the low pressure cut-out jumpered. Allowing pressure
to drop below 2°F(-16°C) for more than a few seconds may overheat scrolls
and cause early drive bearing damage or cause the scroll temperature
protection to activate. Do not use compressor to test opening set point
of high pressure cutout. Bearings are susceptible to high load damage
before they have had several hours of normal running for proper break in.
Never install a system in the field and leave it unattended with no charge,
or with the service valves closed without securely locking out the system.
This will prevent unauthorized personnel from accidentally operating the
system and potentially ruining the compressor by operating with no
refrigerant flow.
15
ZB Series
50 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB15KQ
ZB19KQ
ZB21KQ
CondensingTemperature
oCModel
Evaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1-Phase
-12
3992
3838
3528
3205
2616
871
956
1152
1402
1726
4602
4424
4067
3694
3015
980
1076
1297
1578
1942
5808
5583
5132
4662
3805
1363
1496
1803
2195
2701
-10
4327
4163
3834
3490
2881
2682
869
953
1148
1397
1719
1913
4988
4799
4420
4023
3321
3091
978
1072
1292
1572
1934
2153
6295
6057
5578
5077
4191
3901
1360
1491
1797
2186
2690
2995
-5
5227
5038
4653
4249
3809
3366
3119
874
957
1149
1393
1710
1902
2120
6026
5807
5364
4897
4391
3880
3595
984
1077
1293
1568
1925
2141
2386
7604
7329
6769
6181
5541
4897
4537
1368
1497
1798
2181
2677
2977
3318
0
6248
6027
5577
5103
4588
4311
3871
3564
890
970
1158
1398
1709
1898
2113
2355
7202
6948
6429
5882
5289
4970
4462
4109
1001
1092
1304
1573
1923
2136
2377
2650
9089
8768
8113
7423
6674
6272
5631
5185
1392
1519
1813
2188
2675
2971
3306
3686
5
7169
6643
6088
5489
5168
4830
4473
988
1171
1404
1709
1894
2105
2344
8264
7657
7018
6327
5957
5567
5156
1112
1317
1580
1923
2132
2369
2638
10429
9664
8856
7984
7517
7026
6507
1546
1832
2198
2675
2965
3295
3668
12.5
8588
7893
7147
6750
6335
5899
1179
1403
1696
1875
2080
2312
9899
9098
8239
7781
7302
6800
1327
1579
1909
2111
2341
2602
12493
11482
10397
9820
9216
8582
1846
2196
2655
2935
3255
3618
10
7887
7242
6547
6177
5789
5381
1179
1406
1703
1885
2091
2326
9092
8348
7547
7120
6673
6202
1327
1582
1917
2121
2353
2617
11474
10535
9524
8986
8421
7827
1845
2200
2666
2950
3273
3640
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
16
ZB Series
50 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
ZB26KQ
ZB29KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1-Phase
-12
6708
6448
5927
5384
4395
1465
1607
1938
2358
2902
7835
7566
6963
6356
5356
1643
1788
2122
2529
3028
-10
7270
6995
6442
5863
4840
4506
1461
1603
1931
2349
2890
3218
8524
8251
7619
6949
5863
5609
1660
1803
2134
2542
3045
3338
-5
8783
8464
7818
7138
6400
5656
5240
1470
1609
1932
2343
2876
3199
3565
10237
9967
9279
8473
7646
6838
6478
1710
1846
2170
2578
3088
3387
3719
0
10498
10127
9371
8573
7709
7243
6504
5989
1496
1632
1948
2351
2874
3192
3553
3961
12020
11767
11051
10136
9118
8600
7796
7313
1766
1895
2209
2614
3129
3433
3771
4146
5
12045
11161
10229
9222
8682
8115
7516
1661
1969
2361
2874
3186
3540
3942
13754
13038
12040
10859
10229
9590
8953
1944
2246
2646
3162
3470
3814
4196
12.5
14429
13262
12009
11342
10644
9912
1984
2359
2853
3154
3498
3888
16645
15576
14201
13429
12617
11776
2283
2671
3186
3497
3847
4237
10
13252
12167
11000
10378
9726
9040
1982
2364
2864
3169
3517
3911
15342
14290
12972
12244
11486
10710
2274
2666
3182
3493
3841
4229
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
17
ZB Series
50 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB15KQ
ZB19KQ
ZB21KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
4022
3874
3543
3188
2603
779
874
1090
1354
1681
4640
4469
4087
3678
3002
884
992
1237
1537
1907
5851
5636
5154
4638
3786
1148
1288
1606
1995
2476
-10
4352
4201
3855
3475
2857
2675
778
873
1089
1353
1682
1876
5021
4846
4447
4009
3296
3086
884
991
1236
1536
1910
2129
6331
6111
5607
5055
4157
3892
1147
1286
1605
1994
2479
2764
-5
5228
5068
4685
4243
3769
3327
3095
795
887
1100
1365
1697
1893
2113
6032
5847
5405
4895
4348
3838
3570
903
1007
1248
1549
1926
2149
2398
7606
7373
6815
6172
5483
4840
4502
1172
1307
1621
2011
2501
2790
3113
0
6196
6028
5609
5104
4543
4250
3809
3516
830
918
1124
1386
1719
1916
2138
2384
7149
6954
6470
5889
5241
4904
4394
4056
942
1042
1276
1573
1951
2175
2426
2706
9014
8769
8159
7425
6609
6183
5541
5114
1223
1352
1657
2043
2533
2824
3150
3514
5
7106
6651
6085
5438
5092
4736
4374
956
1153
1409
1738
1936
2157
2406
8198
7673
7021
6273
5874
5464
5046
1085
1309
1599
1973
2197
2449
2730
10337
9675
8853
7910
7407
6889
6363
1408
1699
2076
2561
2852
3179
3545
12.5
8494
7838
7061
6636
6192
5731
1184
1424
1744
1938
2158
2405
9800
9043
8146
7656
7143
6612
1344
1617
1979
2200
2449
2730
12357
11402
10272
9654
9007
8338
1744
2099
2570
2856
3180
3544
10
7838
7212
6478
6079
5664
5237
1177
1423
1747
1942
2163
2411
9043
8320
7473
7014
6535
6041
1335
1615
1982
2205
2455
2737
11403
10492
9424
8844
8240
7618
1734
2097
2574
2862
3188
3553
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
18
ZB Series
50 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB26KQ
ZB29KQ
ZB38KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
6900
6647
6100
5535
4580
1225
1379
1738
2206
2835
7856
7567
6920
6227
5084
1461
1640
2046
2540
3154
9764
9405
8601
7740
6318
1845
2071
2583
3208
3982
-10
7454
7197
6630
6025
5019
4738
1204
1359
1718
2182
2803
3187
8501
8206
7529
6787
5581
5226
1461
1638
2043
2540
3157
3520
10566
10199
9358
8436
6937
6495
1845
2069
2580
3207
3987
4445
-5
8932
8661
8030
7317
6563
5830
5461
1195
1354
1713
2168
2771
3143
3571
10213
9899
9151
8287
7362
6499
6045
1493
1665
2064
2561
3185
3553
3964
12693
12304
11374
10300
9151
8078
7513
1885
2102
2607
3234
4021
4487
5006
0
10625
10332
9624
8787
7864
7383
6642
6160
1219
1382
1742
2191
2777
3138
3552
4026
12103
11774
10955
9970
8874
8302
7440
6867
1558
1722
2110
2601
3225
3596
4011
4474
15043
14634
13616
12392
11030
10319
9247
8535
1967
2175
2664
3285
4073
4541
5066
5650
5
12314
11514
10539
9431
8840
8233
7613
1407
1771
2213
2785
3135
3537
3995
13880
12991
11887
10621
9945
9250
8543
1793
2164
2643
3262
3632
4049
4514
17251
16147
14774
13201
12361
11497
10618
2265
2732
3338
4119
4587
5113
5701
12.5
15130
13920
12508
11739
10936
10103
1732
2169
2723
3058
3442
3879
16592
15310
13793
12963
12094
11195
2221
2673
3272
3637
4049
4513
20622
19029
17143
16111
15032
13914
2805
3375
4132
4592
5113
5699
10
13803
12675
11368
10661
9925
9165
1762
2200
2760
3100
3489
3934
15311
14088
12653
11875
11064
10229
2208
2670
3278
3645
4059
4524
19029
17509
15727
14759
13752
12713
2788
3372
4139
4603
5126
5713
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
19
ZB Series
50 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB45KQ
ZB48KQ
ZB58KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
11766
11339
10441
9445
7614
2079
2340
2950
3709
4651
12943
12472
11485
10390
8375
2286
2574
3246
4080
5116
15356
14646
13277
11811
9217
2744
3100
3895
4878
6144
-10
12716
12262
11310
10259
8380
7731
2103
2363
2971
3730
4676
5230
13988
13488
12441
11285
9218
8504
2314
2599
3268
4103
5143
5753
16627
15890
14470
12957
10315
9287
2755
3111
3902
4879
6136
6900
-5
15329
14792
13674
12454
11085
9737
8944
2164
2414
3011
3764
4711
5268
5888
16862
16272
15041
13700
12194
10710
9839
2380
2656
3312
4141
5182
5795
6476
20140
19319
17734
16064
14111
12223
10975
2794
3147
3927
4885
6117
6865
7718
0
18340
17700
16372
14941
13358
12495
11149
10181
2234
2472
3046
3785
4724
5279
5898
6586
20174
19470
18010
16435
14694
13744
12264
11199
2458
2719
3351
4163
5196
5807
6488
7245
24186
23252
21448
19568
17412
16170
14242
12720
2863
3210
3973
4907
6107
6838
7671
8618
5
21060
19480
17795
15955
14962
13912
12799
2551
3095
3809
4730
5279
5894
6578
23166
21428
19574
17550
16458
15303
14079
2806
3404
4190
5203
5807
6483
7236
27752
25677
23531
21120
19752
18245
16572
3314
4054
4959
6123
6832
7642
8565
12.5
25075
22927
20621
19394
18109
16760
3229
3888
4765
5295
5894
6565
27583
25220
22683
21333
19920
18436
3552
4277
5241
5825
6483
7222
33120
30477
27579
25974
24231
22325
4274
5124
6224
6896
7668
8549
10
23073
21090
18950
17806
16605
15340
3173
3853
4747
5285
5890
6567
25380
23199
20845
19587
18266
16874
3491
4239
5222
5814
6479
7224
30481
28018
25296
23776
22118
20297
4185
5055
6177
6863
7648
8544
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
20
ZB Series
50 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB66KQ
ZB76KQ
ZB88KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
17199
16533
15251
13919
11366
2838
3326
4274
5339
6705
20295
19487
17973
16399
13327
3022
3697
4946
6272
7925
23515
22677
20823
18741
15085
3937
4465
5664
7120
8917
-10
18615
17905
16537
15117
12491
11594
2852
3345
4297
5359
6717
7564
21999
21126
19492
17814
14669
13551
3027
3708
4968
6300
7954
8981
25395
24535
22599
20389
16574
15289
3976
4498
5692
7152
8963
10026
-5
22555
21718
20092
18416
16546
14606
13478
2897
3399
4357
5410
6741
7569
8536
26741
25679
23697
21709
19485
17166
15779
3057
3750
5025
6359
8003
9021
10210
30490
29581
27457
24937
22038
19278
17644
4115
4610
5767
7216
9038
10116
11319
0
27110
26116
24179
22190
20008
18800
16847
15437
2968
3475
4433
5470
6769
7575
8516
9616
32202
30916
28515
26147
23581
22151
19828
18120
3139
3835
5106
6425
8042
9041
10209
11577
36123
35175
32883
30074
26764
24927
22127
20087
4348
4798
5885
7286
9087
10162
11369
12717
5
31154
28849
26492
23941
22548
21054
19441
3589
4541
5554
6815
7596
8508
9574
36876
33985
31166
28188
26566
24818
22914
3993
5243
6529
8101
9072
10210
11545
41286
38845
35767
32067
29990
27763
25390
5102
6084
7405
9148
10205
11398
12739
12.5
37062
34049
30841
29119
27296
25353
4792
5760
6951
7688
8550
9561
43496
39869
36140
34165
32077
29849
5618
6821
8292
9206
10282
11550
48725
45280
41034
38615
36001
33195
6623
7759
9354
10350
11491
12789
10
34155
31374
28399
26794
25087
23261
4693
5678
6894
7647
8526
9557
40145
36805
33344
31495
29530
27418
5465
6700
8209
9145
10244
11536
45312
41985
37915
35607
33121
30457
6405
7611
9264
10284
11447
12763
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
21
ZB Series
50 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
ZB95KQ
ZB114KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
5
45513
41761
38238
34051
31430
28308
24574
6040
6941
8384
10319
11455
12694
14032
54209
50442
46091
40954
38026
34825
31326
7084
8327
9993
12189
13520
15024
16714
12.5
53512
48986
44235
41496
38366
34733
7348
8581
10411
11533
12786
14163
64133
59025
53235
50021
46560
42828
8819
10363
12439
13709
15152
16781
10
49332
45187
40670
37994
34889
31246
7196
8509
10384
11516
12769
14138
59320
54490
48944
45839
42478
38836
8634
10222
12340
13632
15096
16747
-12
25330
24326
22303
19515
4656
5169
6454
8044
30491
29394
26708
23198
5729
6321
7755
9612
-10
27400
26307
24191
21427
4731
5223
6487
8083
32939
31799
29050
25504
5793
6376
7794
9634
-5
33178
31795
29319
26486
22405
4986
5411
6594
8179
10115
39657
38374
35390
31682
27045
5989
6548
7918
9711
12034
0
39920
38154
35133
32047
28006
25347
5343
5681
6742
8276
10232
11352
47295
45816
42493
38517
33682
30879
6250
6780
8092
9826
12091
13456
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
22
ZB Series
50 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
Q
P
Q
P
ZB15KQE
ZB19KQE
ZB21KQE
ZB26KQE
ZB29KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1-Phase
-20
3663 3310 2944 2550 2113
732 915
1146 1438 1801
4163 3812 3409 2952 2439
901 1136 1432 1811 2294
5322 4874 4359 3774 3118
1147 1447 1825 2307 2921
5909 5325 4662 3914 3079
1492 1882 2375 3004 3802
7090 6421 5685 4869 3960
1625 1933 2330 2828 3442
-15
4485 4047 3596 3116 2592 2010 738 923
1154 1445 1807 2253 5096 4662 4167 3610 2991 2309 903
1138 1433 1811 2293 2900 6516 5960 5327 4616 3825 2952 1150 1449 1825 2306 2920 3692 7281 6571 5772 4880 3890 2798 1466 1848 2330 2945 3727 4709 8694 7889 7010 6043 4974 3791 1657 1957 2350 2848 3465 4214
-10
5436 4899 4348 3767 3143 2460 742 928
1159 1450 1811 2255 6189 5652 5047 4373 3629 2814 905
1138 1432 1807 2287 2891 7913 7226 6452 5591 4640 3597 1152 1449 1823 2301 2912 3682 8896 8038 7081 6020 4852 3572 1440 1812 2280 2879 3641 4601
10563 9588 8530 7376 6113 4728 1697 1987 2372 2867 3484 4236
-5
5875 5209 4514 3775 2976
929 1162 1452 1812 2255
6796 6062 5252 4364 3398
1138 1428 1800 2276 2878
8689 7750 6714 5580 4345
1448 1818 2292 2899 3664
9751 8612 7360 5991 4499
1772 2225 2805 3546 4481
11537 10265 8890 7398 5776
2024 2400 2888 3502 4255
0
6984 6189 5365 4496 3567
927 1160 1451 1811 2252
8107 7226 6261 5211 4076
1136 1422 1790 2262 2858
10366 9239 8005 6663 5211
1446 1810 2279 2879 3639
11735 10392 8925 7331 5605
1729 2164 2722 3439 4347
13756 12235 10604 8847 6953
2073 2436 2914 3522 4273
10
8539 7413 6241 5008
1142 1435 1795 2235
10055 8725 7295 5764
1404 1759 2218 2801
12857 11155 9327 7370
1788 2240 2824 3567
14796 12831 10718 8454
2021 2530 3191 4037
16963 14713 12323 9780
2542 2992 3580 4316
5
7296 6328 5315 4241
1154 1446 1806 2246
8552 7414 6184 4860
1414 1776 2242 2832
10935 9479 7906 6213
1800 2262 2855 3606
12445 10740 8898 6915
2096 2631 3321 4199
14461 12538 10482 8281
2482 2948 3547 4292
Max return gas temperature of 18.3°C in non shaded region Max Suction superheat of 11K only in shaded region Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
23
ZB Series
50 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
Q
P
Q
P
ZB15KQE
ZB19KQE
ZB21KQE
ZB26KQE
ZB29KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-20
3618 3281 2874 2392 1829
783 997
1270 1668 2256
4343 3977 3556 3079 2544
928 1170 1476 1866 2363
5214 4775 4270 3697 3055
1111 1402 1767 2235 2830
6093 5580 4990 4321 3570
1300 1639 2067 2613 3309
7071 6476 5791 5014 4143
1474 1860 2344 2964 3754
-15
4447 4032 3547 2989 2353 1632 748 979
1252 1630 2181 2968 5316 4863 4347 3766 3121 2408 930
1172 1476 1866 2362 2986 6383 5839 5219 4522 3747 2891 1114 1403 1768 2235 2829 3577 7460 6823 6099 5285 4379 3379 1302 1641 2068 2613 3308 4182 8657 7918 7078 6133 5082 3921 1478 1862 2345 2964 3752 4745
-10
5433 4913 4325 3666 2929 2110 698 950
1225 1587 2103 2838 6457 5896 5264 4561 3785 2935 932
1172 1475 1862 2355 2978 7752 7078 6321 5477 4545 3524 1117 1404 1766 2230 2821 3567 9060 8273 7387 6400 5312 4118 1305 1642 2065 2608 3299 4171
10513 9600 8572 7427 6164 4779 1481 1862 2343 2958 3742 4731
-5
5938 5222 4436 3573 2630
915 1196 1545 2030 2714
7089 6323 5478 4553 3545
1171 1471 1855 2345 2963
8511 7592 6577 5466 4256
1403 1761 2221 2808 3550
9947 8873 7687 6388 4974
1640 2060 2598 3284 4151
11543 10296 8920 7413 5772
1861 2337 2946 3725 4708
0
7123 6252 5313 4299 3206
881 1171 1511 1967 2606
8458 7538 6531 5436 4252
1170 1465 1844 2329 2943
10155 9050 7842 6527 5105
1402 1754 2208 2790 3525
11867 10577 9164 7628 5966
1638 2051 2583 3263 4123
13772 12274 10635 8852 6923
1858 2327 2929 3701 4676
10
8768 7445 6052 4582
1158 1489 1900 2455
10490 9102 7610 6013
1446 1812 2285 2885
12595 10928 9136 7219
1733 2171 2736 3455
14719 12771 10678 8437
2024 2538 3200 4041
17081 14820 12391 9791
2296 2879 3629 4584
5
7429 6311 5120 3852
1156 1490 1922 2517
8922 7734 6451 5070
1456 1830 2309 2917
10712 9286 7745 6087
1745 2191 2766 3494
12519 10852 9051 7114
2039 2563 3235 4086
14528 12594 10504 8255
2313 2907 3669 4634
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
24
ZB Series
50 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
Q
P
Q
P
ZB38KQE
ZB45KQE
ZB48KQE
ZB58KQE
ZB66KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-20
8921 8170 7306 6325 5227
1861 2347 2959 3742 4739
10449 9569 8557 7409 6122
2106 2657 3350 4236 5364
11494 10526 9413 8150 6734
2317 2923 3685 4659 5900
13718 12440 11061 9420 7353
2999 3640 4476 5627 7212
15683 14259 12735 11036 9091
3367 4098 5025 6239 7830
-15
10922 9990 8929 7737 6411 4947 1865 2349 2960 3741 4736 5989
12793 11701 10459 9063 7509 5795 2111 2660 3351 4235 5361 6779
14072 12871 11505 9969 8260 6374 2322 2926 3686 4658 5897 7457
16719 15217 13639 11824 9607 6827 3082 3730 4539 5628 7117 9125
19191 17408 15535 13499 11227 8646 3445 4172 5088 6285 7854 9886
-10
13264 12111 10815 9371 7776 6029 1869 2350 2957 3733 4724 5972
15536 14186 12667 10976 9109 7062 2116 2661 3347 4226 5347 6760
17090 15605 13934 12073 10019 7769 2328 2927 3682 4649 5882 7436
20287 18454 16570 14472 11998 8986 3137 3815 4619 5669 7083 8982
23342 21102 18784 16314 13619 10625 3547 4263 5162 6336 7875 9872
-5
14563 12990 11254 9352 7282
2349 2949 3719 4702 5943
17058 15215 13182 10955 8530
2659 3338 4210 5323 6727
18764 16737 14500 12050 9383
2925 3672 4631 5855 7400
22218 19920 17434 14596 11244
3870 4691 5723 7086 8898
25406 22545 19543 16327 12824
4374 5250 6394 7897 9851
0
17375 15485 13417 11168 8734
2345 2936 3697 4671 5902
20351 18138 15715 13081 10230
2655 3324 4185 5288 6681
22386 19952 17287 14389 11253
2921 3657 4604 5816 7349
26579 23760 20778 17468 13670
3868 4729 5766 7099 8847
30381 26881 23250 19417 15307
4508 5353 6461 7922 9827
10
21550 18697 15633 12352
2899 3634 4581 5785
25241 21900 18311 14468
3282 4113 5186 6549
27765 24090 20142 15915
3610 4525 5704 7204
33182 28886 24312 19299
4603 5718 7058 8744
37526 32347 26986 21371
5619 6634 7990 9778
5
18328 15888 13251 10414
2920 3669 4630 5849
21468 18610 15521 12199
3306 4153 5242 6622
23615 20471 17074 13418
3636 4568 5766 7284
28158 24572 20684 16332
4708 5773 7098 8804
31853 27497 22949 18135
5476 6540 7952 9802
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
25
ZB Series
50 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
ZB76KQE
ZB95KQE
ZB114KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-20
18353 16667 14892 12900 10565
3929 4752 5817 7232 9103
22719 20772 18534 15598
4876 5975 7438 9404
27320 24841 21894 18287
5927 7238 8941 11221
-15
22353 20342 18232 15895 13205 10033 4029 4868 5925 7308 9122 11476 27694 25255 22679 19558 15484
5049 6124 7538 9429 11937
33284 30343 26980 23005 18226
6081 7387 9051 11259 14198
-10
27103 24658 22103 19312 16157 12511 4112 4976 6034 7393 9161
11444 33654 30497 27355 23820 19484 13941 5223 6289 7667 9497
11918 15071 40263 36690 32743 28231 22962 16746 6237 7544 9173
11313 14149 17869
-5
29667 26558 23203 19475 15246
5066 6134 7480 9210
11431
36653 32717 28541 23716 17837
6450 7807 9590
11938 14991
44006 39306 34087 28160 21332
7707 9307
11383 14121 17708
0
35423 31651 27624 23213 18292
5130 6217 7558 9260
11429
43880 38923 33878 28337 21893
6590 7939 9688
11978 14946
52415 46792 40699 33943 26334
7879 9453
11469 14113 17572
10
43966 38266 32162 25528
6295 7654 9326
11418
54493 47026 39369 31113
8105 9830
12043 14884
65029 56678 47760 38082
9781 11690 14159 17375
5
37436 32627 27424 21701
6274 7620 9302
11427
46129 39987 33502 26266
8044 9775
12019 14917
55325 48188 40435 31877
9611 11571 14125 17461
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
26
ZB Series
50 Hz
30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75
Q
P
Q
P
Q
P
Q
P
Q
P
ZB15KQE
ZB19KQE
ZB21KQE
ZB26KQE
ZB29KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1 & 3-Phase
-15
1900 1800 1600
800 800
1000
2200 2000 1800
900 1000 1200
2800 2700 2300
1100 1200 1500
3200 3000 2600
1200 1300 1700
3810 3458 3019
1370 1540 1940
-5
3000 2900 2600 2200 1800
800 800
1000 1300 1600
3500 3300 3000 2500 2100
900 1000 1200 1500 1800
4400 4200 3700 3200 2700
1100 1200 1500 1800 2200
5100 4800 4300 3700 3100
1200 1400 1700 2100 2600
5861 5568 4953 4191 3956
1390 1560 1950 2430 3020
0
3700 3500 3200 2700 2300 1900 800 900
1100 1300 1600 2000 4300 4100 3700 3100 2700 2200 900
1000 1200 1500 1800 2300 5400 5100 4600 4000 3400 2700 1100 1200 1500 1800 2300 2800 6200 5900 5300 4600 3900 3200 1200 1400 1700 2100 2600 3200 7180 6829 6096 5246 4425 3575 1400 1570 1960 2440 3020 3750
5
4500 4300 3900 3400 2900 2400 800 900
1100 1300 1600 2000 5200 5000 4500 3900 3300 2700 900
1000 1200 1500 1900 2300 6500 6200 5600 4900 4200 3500 1100 1200 1500 1900 2300 2800 7600 7200 6500 5700 4900 4000 1200 1400 1700 2100 2600 3200 8704 8294 7444 6535 5539 4513 1410 1580 1970 2440 3030 3760
15
5600 4900 4200 3500
1100 1300 1600 2000
6400 5700 4900 4000
1200 1500 1900 2300
8100 7200 6200 5100
1500 1900 2300 2900
9400 8300 7100 5900
1700 2100 2600 3300
10082 8909 7620 6213
1990 2460 3050 3770
10
5400 5200 4700 4100 3500 3000 800 900
1100 1300 1600 2000 6300 6000 5400 4700 4100 3400 900
1000 1200 1500 1900 2300 7900 7500 6800 6000 5100 4300 1100 1200 1500 1900 2300 2800 9100 8700 7800 6900 5900 5000 1300 1400 1700 2100 2600 3200
10492 10023 8997 7913 6770 5598 1420 1590 1980 2450 3040 3770
-10
2400 2300 2000 1700
800 800
1000 1300
2800 2700 2300 2000
900 1000 1200 1500
3500 3300 2900 2500
1100 1200 1500 1800
4100 3900 3300 2900
1200 1300 1700 2100
4748 4484 3869 3282
1380 1550 1940 2420
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
27
ZB Series
50 Hz
30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75
Q
P
Q
P
Q
P
Q
P
Q
P
ZB38KQE
ZB45KQE
ZB48KQE
ZB58KQE
ZB66KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1 & 3-Phase
-15
4700 4300 3800
1700 1900 2300
5700 5200 4500
2000 2200 2700
6389 5891 5187
2280 2540 3170
7443 6209 5383
2692 3011 3723
8521 7118 6176
3001 3356 4148
-5
7400 7000 6300 5400 4600
1700 1900 2400 3000 3700
8900 8500 7500 6300 5300
2000 2200 2800 3400 4300
9876 9408 8440 7180 6037
2300 2570 3210 4010 5020
11157 10561 9335 7409 6120
2758 3073 3801 4656 5637
12743 12073 10670 8456 6983
3076 3429 4247 5207 6302
0
9100 8600 7800 6700 5700 4600 1800 2000 2400 3000 3700 4700
10900 10400 9300 8000 6700 5400 2000 2200 2800 3500 4300 5400
12104 11518 10345 8939 7591 6184 2310 2590 3220 4020 5030 6280
13381 12690 11254 9266 7708 6082 2823 3131 3854 4721 5728 6875
15298 14521 12878 10590 8801 6964 3146 3490 4304 5279 6408 7685
5
11100 10500 9400 8300 7100 5800 1800 2000 2400 3000 3700 4700
13300 12700 11400 10000 8400 6800 2000 2300 2800 3500 4300 5400
14654 13979 12543 11049 9408 7766 2330 2610 3250 4040 5040 6290
15849 15053 13479 11631 9601 7659 2882 3177 3889 4759 5785 6967
18124 17231 15436 13305 10972 8763 3211 3541 4341 5320 6472 7790
15
13700 12100 10400 8900
2500 3100 3800 4700
16300 14400 12300 10100
2800 3500 4400 5400
17291 15240 13100 10844
3360 4150 5120 6340
18268 15954 13498 10898
3818 4672 5713 6939
20874 18218 15395 12422
4268 5224 6389 7758
10
13300 12700 11400 10100 8700 7200 1800 2000 2500 3000 3800 4700
15900 15200 13700 12100 10300 8500 2000 2300 2800 3500 4400 5400
17584 16852 15093 13305 11430 9583 2370 2650 3290 4080 5050 6300
18552 17642 15733 13706 11560 9548 2913 3192 3884 4749 5787 6995
21200 20181 18009 15676 13206 10910 3251 3561 4335 5308 6472 7821
-10
5900 5600 4900 4200
1700 1900 2400 3000
7100 6800 5800 5000
2000 2200 2700 3400
8001 7620 6594 5686
2290 2560 3190 4000
9178 8669 6875 5851
2708 3027 3750 4586
10480 9908 7856 6680
3021 3378 4188 5122
Max return gas temperature of 18.3°C in non shaded region Max Suction superheat of 11K only in shaded region Sub cooling 0K
CondensingTemperature
oC
28
ZB Series
50 Hz
30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75
Q
P
Q
P
Q
P
ZB76KQE
ZB95KQE
ZB114KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1 & 3-Phase
-15
9753 8145 7079
3520 3939 4870
13345 11149 9442
4427 4925 6133
15687 13079 11139
5366 5952 7387
-5
14637 13853 12219 9675 8002
3613 4024 4969 6078 7349
19911 18970 16883 13239 10336
4584 5064 6243 7772 9723
23860 22703 20159 15857 12638
5531 6098 7485 9303
11664
0
17572 16666 14753 12112 10063 7985 3696 4096 5035 6158 7464 8951
23855 22746 20359 16767 13628 9916 4685 5155 6317 7835 9781
12225 28684 27359 24460 20141 16491 12381 5647 6204 7566 9351
11672 14639
5
20805 19769 17687 15225 12546 10030 3767 4152 5076 6204 7535 9068
28302 26978 24197 21208 17329 13327 4807 5266 6412 7917 9856
12298 34019 32493 29178 25571 20931 16303 5793 6339 7675 9426
11705 14623
15
23908 20870 17642 14254
4972 6084 7439 9036
33064 29024 24670 19889
5572 6680 8159
10080 12515
33064 29024 24670 19889
5572 6680 8159
10080 12515
10
24305 23135 20634 17949 15116 12498 3798 4164 5065 6189 7536 9106
33278 31695 28427 24919 21048 17154 4955 5404 6531 8024 9954
12393 33278 31695 28427 24919 21048 17154 4955 5404 6531 8024 9954
12393
-10
12024 11358 8996 7659
3545 3962 4904 5990
16426 15605 12350 10116
4500 4989 6183 7722
19535 18516 14639 12143
5438 6015 7427 9277
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
29
ZB Series
60 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB15KQ
ZB19KQ
ZB21KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1-Phase
-12
5751
5453
4258
3868
3157
1062
1188
1367
1664
2047
5554
5339
4908
4458
3639
1252
1374
1656
2015
2480
7009
6738
6194
5626
4592
1594
1749
2109
2566
3158
-10
6202
5879
4627
4212
3477
3107
1064
1190
1363
1657
2039
2592
6019
5792
5334
4855
4007
3731
1249
1370
1651
2008
2470
2750
7597
7309
6732
6127
5057
4709
1590
1744
2102
2556
3145
3501
-5
7442
7050
5616
5128
4597
3828
3356
1065
1192
1363
1653
2029
2594
2892
7272
7008
6473
5910
5299
4683
4339
1256
1375
1651
2002
2458
2734
3047
9177
8844
8169
7459
6687
5910
5475
1599
1751
2102
2550
3130
3481
3879
0
8850
8381
6731
6158
5537
4848
4123
3547
1061
1188
1374
1659
2028
2591
2888
3215
8692
8385
7759
7098
6383
5997
5385
4959
1278
1395
1665
2009
2457
2728
3036
3385
10970
10582
9792
8958
8055
7569
6796
6258
1628
1776
2120
2558
3128
3473
3866
4310
5
9881
8017
7347
6624
5744
5089
4412
1178
1389
1666
2028
2584
2880
3207
9973
9241
8469
7635
7189
6719
6223
1420
1682
2018
2456
2723
3026
3369
12587
11663
10688
9636
9072
8479
7853
1807
2142
2570
3127
3467
3852
4289
12.5
10364
9526
8626
7316
6514
5691
1399
1664
2013
2561
2857
3182
11947
10981
9943
9391
8813
8207
1695
2016
2438
2696
2989
3323
15077
13858
12548
11851
11122
10357
2158
2567
3104
3432
3806
4231
10
9519
8740
7902
6760
6010
5237
1399
1668
2021
2571
2867
3192
10973
10074
9108
8593
8053
7485
1694
2021
2448
2709
3006
3343
13847
12714
11495
10844
10163
9446
2157
2573
3117
3449
3827
4256
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
30
ZB Series
60 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
ZB26KQ
ZB29KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1-Phase
-12
8095
7782
7154
6498
5304
1820
1996
2407
2929
3605
9467
9142
8413
7680
6472
2095
2280
2705
3224
3861
-10
8774
8442
7775
7076
5841
5438
1815
1991
2399
2918
3590
3997
10299
9970
9206
8397
7085
6777
2116
2298
2721
3241
3882
4256
-5
10600
10215
9435
8615
7723
6826
6324
1826
1999
2400
2911
3573
3974
4429
12369
12044
11212
10238
9238
8262
7827
2180
2354
2767
3286
3937
4318
4741
0
12670
12222
11309
10346
9303
8742
7849
7228
1858
2027
2420
2920
3571
3965
4413
4920
14524
14218
13353
12247
11017
10392
9420
8837
2252
2416
2816
3333
3989
4376
4808
5286
5
14537
13470
12345
11129
10478
9793
9070
2063
2445
2933
3570
3957
4398
4896
16619
15753
14548
13121
12360
11588
10818
2478
2863
3373
4031
4424
4862
5350
12.5
17414
16005
14493
13688
12846
11962
2464
2931
3544
3918
4345
4830
20112
18821
17159
16226
15245
14229
2911
3405
4062
4458
4904
5402
10
15993
14684
13276
12525
11738
10910
2463
2937
3558
3937
4369
4858
18537
17266
15675
14795
13879
12941
2899
3399
4057
4453
4897
5392
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
31
ZB Series
60 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB15KQ
ZB19KQ
ZB21KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
4907
4740
4251
3826
3123
929
1037
1308
1625
2017
5546
5332
4896
4438
3620
1200
1338
1636
2010
2523
7139
6896
6355
5766
4730
1347
1504
1866
2300
2814
-10
5304
5130
4626
4170
3429
3341
941
1047
1307
1624
2019
2158
6002
5777
5315
4826
3975
3700
1195
1336
1635
2006
2510
2831
7716
7462
6893
6263
5184
4860
1364
1518
1876
2311
2833
3129
-5
6384
6192
5622
5091
4523
4167
3889
984
1081
1320
1638
2036
2193
2423
7241
6987
6454
5881
5254
4635
4286
1198
1344
1645
2006
2489
2795
3153
9288
9007
8361
7628
6838
6061
5657
1426
1567
1911
2343
2874
3179
3513
0
7600
7386
6730
6125
5452
5335
4810
4468
1045
1131
1349
1663
2062
2221
2457
2715
8648
8359
7747
7080
6346
5950
5329
4894
1213
1365
1668
2020
2480
2770
3110
3508
11055
10745
10018
9176
8248
7761
6998
6499
1514
1639
1958
2379
2910
3220
3561
3935
5
8722
7981
7302
6525
6379
5976
5565
1197
1384
1690
2086
2244
2481
2744
9922
9223
8454
7604
7145
6661
6149
1392
1697
2038
2476
2750
3071
3447
12689
11875
10918
9847
9279
8694
8095
1735
2021
2420
2942
3252
3597
3977
12.5
10193
9406
8473
8204
7707
7193
1420
1709
2093
2269
2504
2767
11843
10906
9866
9304
8711
8086
1734
2059
2462
2713
3005
3348
15065
13926
12631
11935
11211
10464
2146
2496
2988
3290
3630
4011
10
9406
8655
7774
7560
7094
6615
1412
1708
2096
2262
2498
2762
10911
10032
9057
8530
7975
7389
1724
2054
2469
2727
3029
3383
13946
12869
11650
10997
10320
9623
2100
2468
2973
3278
3622
4003
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
32
ZB Series
60 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB26KQ
ZB29KQ
ZB38KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
8370
8031
7370
6689
5452
1501
1691
2135
2696
3410
9809
9449
8641
7775
6348
1762
1977
2466
3063
3802
11913
11508
10605
9622
7895
2263
2527
3135
3863
4729
-10
9046
8689
7989
7270
5998
5579
1488
1677
2118
2674
3384
3808
10615
10246
9401
8475
6969
6525
1761
1975
2463
3062
3806
4244
12876
12454
11503
10453
8651
8110
2292
2550
3152
3883
4759
5257
-5
10902
10488
9672
8834
7928
7009
6493
1511
1697
2132
2679
3375
3792
4260
12752
12361
11427
10348
9193
8115
7548
1799
2007
2488
3087
3839
4283
4779
15500
15032
13954
12730
11411
10116
9441
2396
2633
3210
3937
4829
5342
5902
0
13033
12547
11585
10598
9540
8971
8060
7423
1579
1764
2192
2729
3414
3823
4283
4798
15113
14701
13679
12449
11081
10367
9289
8575
1878
2076
2544
3136
3888
4335
4836
5394
18450
17932
16719
15313
13764
12952
11678
10847
2544
2754
3290
3996
4889
5410
5983
6611
5
14914
13776
12610
11371
10710
10013
9276
1833
2255
2783
3455
3857
4309
4815
17331
16222
14842
13262
12418
11551
10667
2162
2608
3187
3932
4379
4881
5442
21176
19818
18221
16434
15486
14509
13510
2915
3395
4066
4943
5464
6043
6682
12.5
17688
16198
14630
13803
12939
12034
2258
2773
3428
3819
4259
4753
20718
19117
17222
16186
15102
13979
2678
3222
3945
4384
4881
5441
25141
23240
21080
19918
18710
17463
3606
4194
5020
5527
6099
6739
10
16293
14918
13467
12699
11895
11050
2277
2796
3456
3851
4295
4793
19118
17590
15800
14827
13815
12772
2662
3219
3951
4394
4893
5454
23274
21476
19442
18353
17223
16060
3528
4147
4994
5508
6085
6726
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
33
ZB Series
60 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB45KQ
ZB48KQ
ZB58KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
14411
13897
12795
11585
9403
2556
2881
3606
4453
5448
15852
15287
14075
12744
10343
2811
3169
3966
4898
5993
18558
17829
16297
14601
11613
3502
3940
4901
6037
7418
-10
15523
14985
13826
12542
10286
9541
2575
2893
3615
4469
5484
6059
17075
16484
15208
13796
11314
10495
2832
3183
3976
4916
6032
6664
20031
19282
17699
15939
12879
11791
3545
3972
4917
6044
7425
8233
-5
18615
18015
16700
15221
13567
11943
11017
2673
2968
3664
4522
5567
6169
6827
20477
19816
18369
16743
14923
13137
12119
2941
3265
4031
4974
6124
6786
7509
24103
23286
21542
19587
17344
15167
13847
3680
4074
4969
6066
7435
8245
9150
0
22154
21483
19997
18308
16405
15369
13750
12611
2842
3103
3750
4588
5642
6258
6938
7685
24369
23631
21996
20139
18046
16906
15125
13872
3126
3413
4125
5047
6206
6884
7632
8453
28787
27877
25922
23722
21201
19795
17608
15999
3864
4219
5051
6103
7447
8252
9156
10170
5
25385
23714
21801
19635
18452
17202
15881
3294
3870
4665
5704
6324
7014
7779
27924
26085
23981
21598
20297
18922
17469
3623
4257
5131
6275
6956
7716
8557
33126
30910
28416
25566
23984
22284
20456
4420
5173
6167
7473
8265
9163
10174
12.5
30072
27794
25204
23788
22289
20706
4107
4795
5770
6374
7058
7828
33079
30574
27725
26167
24518
22777
4518
5275
6347
7011
7764
8611
39687
36657
33222
31328
29303
27138
5464
6344
7566
8327
9201
10195
10
27849
25697
23251
21915
20501
19007
4021
4750
5752
6364
7054
7824
30634
28266
25577
24107
22551
20908
4423
5225
6328
7000
7759
8607
36577
33738
30510
28726
26816
24770
5351
6272
7525
8299
9182
10184
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
34
ZB Series
60 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
Q
P
ZB66KQ
ZB76KQ
ZB88KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
20438
19792
18391
16818
13794
3890
4356
5378
6589
8072
24483
23731
22102
20216
16473
4810
5248
6357
7816
9676
33386
30174
25386
22128
17993
5379
5930
7208
8794
10780
-10
22118
21427
19932
18260
15149
14145
3940
4403
5421
6632
8117
8989
26522
25689
23914
21900
18072
16765
4874
5307
6405
7857
9710
10802
36228
32880
27787
24186
19698
18316
5454
5997
7265
8850
10841
12018
-5
26812
25982
24200
22228
20036
17766
16531
4081
4533
5533
6734
8217
9090
10065
32179
31117
28918
26527
23838
21065
19491
5044
5460
6529
7954
9785
10868
12071
43628
40014
34318
30017
26331
23071
21127
5677
6192
7419
8982
10971
12155
13478
0
32263
31258
29116
26771
24193
22806
20565
19051
4250
4684
5657
6837
8307
9176
10150
11237
38666
37333
34627
31778
28677
26999
24289
22412
5245
5640
6670
8061
9862
10931
12121
13438
51158
47391
41315
36536
32276
30097
26735
24178
5971
6446
7608
9126
11090
12268
13591
15072
5
37322
34746
31954
28917
27296
25603
23832
4868
5802
6950
8396
9257
10223
11304
44372
41077
37686
34091
32183
30184
28079
5867
6850
8199
9961
11012
12185
13486
54650
48418
43385
38774
36383
33805
30944
6786
7860
9309
11224
12385
13696
15169
12.5
44675
41076
37212
35171
33052
30852
6079
7160
8550
9387
10332
11395
52214
47856
43364
41035
38632
36141
7235
8504
10192
11209
12349
13619
58487
53492
48773
46273
43550
40507
8412
9714
11511
12624
13895
15336
10
41156
37845
34275
32383
30415
28367
5977
7083
8495
9341
10294
11365
48301
44286
40114
37935
35677
33325
7088
8386
10101
11130
12282
13563
55269
50205
45466
42975
40272
37262
8200 9557
11399
12531
13819
15273
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
35
ZB Series
60 Hz
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
15
20
30
40
50
55
60
65
Q
P
Q
P
ZB95KQ
ZB114KQ
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-12
30618
29507
26928
23801
5942
6511
8017
9978
36565
35021
32142
28796
7285
7988
9696
11877
-10
33114
31943
29257
26040
6047
6592
8070
10029
39781
38006
34832
31409
7392
8079
9761
11926
-5
39994
38636
35607
32092
28007
6384
6854
8232
10158
12586
49045
46537
42305
38374
33846
7742
8376
9972
12077
14779
0
47838
46239
42762
38843
34398
31952
6844
7218
8454
10304
12723
14131
60294
56826
51087
46197
41258
38490
8228
8794
10273
12288
14925
16504
5
54818
50785
46356
41445
38783
35969
32992
7708
8760
10492
12858
14266
15816
17502
69168
61470
55170
49370
46377
43172
39643
9357
10690
12583
15125
16667
18404
20347
12.5
64590
59194
53384
50297
47076
43708
9425
10901
13111
14477
16011
17705
80695
71434
63496
59742
55982
52104
11584
13240
15583
17039
18700
20577
10
59742
54695
49211
46279
43207
39983
9172
10743
13016
14402
15946
17643
73751
65590
58477
55033
51515
47809
11246
12988
15405
16894
18584
20487
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
36
ZB Series
60 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
Q
P
ZB15KQE
ZB19KQE
ZB21KQE
ZB26KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1-Phase
-20
4396 3972 353330602535
939 1174 147018442310
5489 4961 441238213166
1172 1466 183623032886
6566 5934 527745713787
1406 1759 220327633462
7670 6931 616553394424
1641 2053 257232254041
-15
5382 4856 4315373931112412 947
1183 1480185223172889 6721 6065 5388466938853012 1183 1478 1848231428943609 8039 7254 6445558546473603 1419 1773 221827763472 4330 9391 8474 7529652454284209 1656 2070 258932404053 5053
-10
6524 5879 5217452137723772 952
1190 1487185923222322 8147 7342 6516564647113687 1189 1486 1857232229003612 9745 8782 779467545635 4410 1427 1783 2228278634804334
11383 10259 910478896582 5151 1664 2081 260132524062 5058
-5
7050 6252541745303571
1192 1490186223242892
8805 7807676556574460
1489 1861232629033612
10532 9338809267675335
1787 2233279134844334
12302 10909945379056232
2084 260732584066 5059
0
8381 7428643853954280
1188 1488186123222888
10466 9276804067385345
1484 1859232529013608
12520 11095961780596394
1782 2231278934814329
14624 129611123594147469
2079 2603325640635053
10
10248889674896010
1465184023022867
127981111093537505
183022992876 3581
1530913289111888977
2197275934504296
178821552313068 10486
256232194027 5015
5
8756759463785089
1480185423162880
10935948479656356
1849231628923598
130801114795277602
2220284934704317
1527913252111298881
258932434051 5039
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
37
ZB Series
60 Hz
10 20 30 40 50 60 10 20 30 40 50 60
Q
P
ZB29KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1-Phase
-20
8567 7759 687058844785
2072 2464 297036064389
-15
10505 9533 8470730160104581 2112 2495 2996363144185372
-10
12764 11585 10307891273875713 2163 2533 3025365544425401
-5
13940 124031074189396979
2581 3060368244655425
0
16621 1478412812106908402
2643 3105371544915448
10
20497177781489011817
3240381545645503
5
17474151501266610006
3164375845225472
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
38
ZB Series
60 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
Q
P
Q
P
ZB15KQE
ZB19KQE
ZB21KQE
ZB26KQE
ZB29KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-20
4372 3941 346629332324
947 1210 1533 1948 2484
5446 4922 437737913141
1126 1409 1764 2212 2772
6541 5911 525745533773
1351 1690 2117 2655 3327
7625 6890 612853084398
1579 1975 2474 3102 3887
8656 7822 695760254992
1759 2200 2755 3455 4330
-15
5359 4836 4272365029562174 931
1200 1526 1938 2466 3140 6668 6017 5346463238542989 1136 1420 1776 2223 2780 3467 8008 7227 6421556446293589 1363 1704 2131 2667 3336 4160 9335 8424 7484648553964184 1593 1991 2490 3117 3898 4861
10597 9563 8496736261254750 1774 2218 2773 3472 4342 5415
-10
6525 5882 5201446436562762 908
1185 1514 1924 2445 3108 8083 7284 6464560246733658 1142 1428 1784 2231 2786 3470 9707 8748 7764672856134393 1370 1713 2141 2677 3343 4164
11316 10198 9050784265435121 1601 2002 2502 3128 3907 4865
12845 11576 10274890374275813 1783 2230 2787 3484 4352 5420
-5
7098 6271539144423409
1164 1497 1906 2422 3074
8735 7746671256134425
1430 1788 2235 2789 3470
10491 9302806167415314
1716 2146 2682 3347 4164
12229 10844939778586195
2005 2507 3134 3911 4865
13883 123101066789207032
2233 2793 3490 4356 5420
0
8502 7503645253344134
1135 1473 1883 2394 3037
10384 9203797766845303
1426 1786 2233 2787 3466
12471 11052958080286369
1712 2143 2680 3344 4159
14538 128841116893587424
1999 2504 3132 3908 4860
16503 1462612678106248428
2227 2789 3488 4353 5413
10
10527905175145897
1405 1819 2324 2951
126971102292797446
1757 2208 2762 3439
1524913238111448942
2111 2651 3315 4127
17776154311299110424
2463 3096 3873 4823
20179175171474711833
2746 3449 4315 5372
5
8915766663524958
1443 1854 2362 2996
10849940979026306
1776 2225 2778 3456
130291130194917573
2132 2670
0 4147
1518913173110638828
2490 3120 3896 4846
17242149541255910021
2774 3475 4340 5398
Max return gas temperature of 18.3°C in non shaded region Max Suction superheat of 11K only in shaded region Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
39
ZB Series
60 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
Q
P
Q
P
ZB38KQE
ZB45KQE
ZB48KQE
ZB58KQE
ZB66KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-20
10915 9863 877375986295
2221 2778 347943635467
12957 11710 10414 9019 7473
2593 3243 4062 5094 6383
14253 12881 11456 9921 8220
2853 3567 4468 5604 7022
16473 15082 13519 11571 9031
3677 4463 5475 6783 8455
18929 17206 15374 13365 11110
4106 5015 6134 7523 9241
-15
13363 12059 10714928477245989 2241 2800 3502438454836837 15864 14317 12720 11022 9169 7110 2616 3270 4089 5119 6402 7984 17450 15749 13992 12124 10086 7821 2878 3597 4498 5630 7042 8782 20076 18347 16516 14372 11707 8310 3802 4580 5572 6849 8480 10534 23174 21026 18774 16348 13679 10699 4252 5151 6261 7640 9347 11443
-10
16198 14598 129551122693667330 2253 2816 3519439954956843
19227 17331 15382 13329 11119 8701 2630 3287 4109 5137 6416 7990
21150 19064 16920 14662 12231 9571 2893 3616 4519 5650 7058 8790
24375 22166 19927 17446 14515 10924 3914 4693 5676 6933 8531
10542 28189 25502 22713 19754 16557 13051 4424 5309 6403 7767 9458
11538
-5
17506 1552313452112488867
2821 3526440755016844
20782 18430 15972 13354 10526
3294 4118 5146 6422 7991
22860 20273 17569 14690 11579
3623 4529 5660 7064 8790
26658 23870 20911 17573 13646
4786 5770 7015 8591
10569
30703 27263 23656 19814 15667
5478 6552 7895 9566
11624
0
20810 18443159861339610627
2813 3522440454966836
24702 21896 18981 15905 12616
3285 4113 5143 6417 7981
27172 24085 20879 17496 13878
3613 4524 5657 7059 8779
31942 28463 24886 21000 16597
4841 5835 7078 8642
10596
36702 32495 28124 23521 18618
5650 6699 8016 9661
11693
10
25446220891859614922
3468435654496785
30201 26222 22076 17713
4050 5086 6361 7920
33221 28844 24284 19485
4455 5595 6998 8712
40076 34839 29436 23658
5809 7080 8648
10584
45289 39044 32574 25811
6951 8202 9779
11743
5
21742188571583712637
3504438854806817
25809 22387 18802 15002
4091 5124 6398 7959
28390 24626 20683 16502
4501 5636 7038 8755
33826 29489 24915 19895
5854 7106 8667
10607
38480 33229 27751 21976
6835 8122 9735
11736
Max return gas temperature of 18.3°C in non shaded region Max Suction superheat of 11K only in shaded region Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
40
ZB Series
60 Hz
10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60 10 20 30 40 50 60
Q
P
Q
P
Q
P
ZB76KQE
ZB95KQE
ZB114KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 3-Phase
-20
22201 20176 18042 15828 13564
4798 5860 7169 8705 10449
27346 24954 22265 19121
6180 7504 9240 11496
32770 29762 26481 22747
7487 9070 11051 13572
-15
27081 24640 22028 19277 16414 13471 4961 5998 7321 8911
10750 12817 33336 30438 27267 23665 19474
6443 7719 9404
11606 14432
40128 36445 32513 28149 23170
7741 9332
11299 13787 16942
-10
32792 29836 26649 23261 19702 16000 5149 6138 7455 9078
10990 13171 40405 36813 32972 28724 23911 18374 6752 7975 9604
11747 14512 18007 48720 44185 39422 34249 28485 21947 8000 9600
11555 14012 17116 21011
-5
35846 31986 27863 23508 18951
6287 7575 9211
11175 13448
44216 39517 34434 28810 22487
8264 9833
11913 14612 18037
53091 47319 41160 34431 26951
9861 11807 14235 17289 21114
0
42751 38118 33163 27914 22402
6449 7689 9315
11310 13654
52780 47034 40929 34307 27009
8580 10084 12096 14724 18076
63275 56315 48990 41119 32517
10103 12042 14442 17448 21206
10
53097 46180 38848 31132
7915 9460
11452 13874
65525 56811 47627 37815
10618 12481 14954 18145
78044 67853 57159 45780
12407 14757 17673 21301
5
45128 39241 33000 26435
7800 9396
11401 13794
55659 48343 40534 32073
10348 12288 14841 18114
66520 57851 48658 38757
12246 14620 17581 21272
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
R404A/R507CR404A/R507CR404A/R507C
41
ZB Series
60 Hz
30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75
Q
P
Q
P
Q
P
Q
P
Q
P
ZB15KQE
ZB19KQE
ZB21KQE
ZB26KQE
ZB29KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1 & 3-Phase
-15
2280 2160 1920
960 960
1200
2640 2400 2160
1080 1200 1440
3360 3240 2760
1320 1440 1800
3840 3600 3120
1440 1560 2040
4572 4150 3622
1644 1848 2328
-5
3600 3480 3120 2640 2160
960 960
1200 1560 1920
4200 3960 3600 3000 2520
1080 1200 1440 1800 2160
5280 5040 4440 3840 3240
1320 1440 1800 2160 2640
6120 5760 5160 4440 3720
1440 1680 2040 2520 3120
7034 6682 5943 5029 4748
1668 1872 2340 2916 3624
0
4440 4200 3840 3240 2760 2280 960
1080 1320 1560 1920 2400 5160 4920 4440 3720 3240 2640 1080 1200 1440 1800 2160 2760 6480 6120 5520 4800 4080 3240 1320 1440 1800 2160 2760 3360 7440 7080 6360 5520 4680 3840 1440 1680 2040 2520 3120 3840 8616 8194 7315 6295 5310 4291 1680 1884 2352 2928 3624 4500
5
5400 5160 4680 4080 3480 2880 960
1080 1320 1560 1920 2400 6240 6000 5400 4680 3960 3240 1080 1200 1440 1800 2280 2760 7800 7440 6720 5880 5040 4200 1320 1440 1800 2280 2760 3360 9120 8640 7800 6840 5880 4800 1440 1680 2040 2520 3120 3840
10445 9953 8933 7843 6647 5416 1692 1896 2364 2928 3636 4512
15
6720 5880 5040 4200
1320 1560 1920 2400
7680 6840 5880 4800
1440 1800 2280 2760
9720 8640 7440 6120
1800 2280 2760 3480
11280 9960 8520 7080
2040 2520 3120 3960
12098 10691 9144 7456
2388 2952 3660 4524
10
6480 6240 5640 4920 4200 3600 960
1080 1320 1560 1920 2400 7560 7200 6480 5640 4920 4080 1080 1200 1440 1800 2280 2760 9480 9000 8160 7200 6120 5160 1320 1440 1800 2280 2760 3360
10920 10440 9360 8280 7080 6000 1560 1680 2040 2520 3120 3840
12590 12028 10797 9496 8124 6717 1704 1908 2376 2940 3648 4524
-10
2880 2760 2400 2040
960 960
1200 1560
3360 3240 2760 2400
1080 1200 1440 1800
4200 3960 3480 3000
1320 1440 1800 2160
4920 4680 3960 3480
1440 1560 2040 2520
5697 5381 4642 3939
1656 1860 2328 2904
Max return gas temperature of 18.3°C in non shaded region Max Suction superheat of 11K only in shaded region Sub cooling 0K
CondensingTemperature
oC
42
ZB Series
60 Hz
30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75
Q
P
Q
P
Q
P
Q
P
Q
P
ZB38KQE
ZB45KQE
ZB48KQE
ZB58KQE
ZB66KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1 & 3-Phase
-15
5640 5160 4560
2040 2280 2760
6840 6240 5400
2400 2640 3240
7667 7069 6225
2736 3048 3804
8932 7451 6459
3231 3614 4468
10225 8541 7411
3601 4027 4978
-5
8880 8400 7560 6480 5520
2040 2280 2880 3600 4440
10680 10200 9000 7560 6360
2400 2640 3360 4080 5160
11852 11289 10129 8616 7245
2760 3084 3852 4812 6024
13388 12673 11202 8891 7344
3310 3688 4561 5587 6764
15292 14488 12804 10148 8380
3691 4115 5096 6248 7562
0
10920 10320 9360 8040 6840 5520 2160 2400 2880 3600 4440 5640
13080 12480 11160 9600 8040 6480 2400 2640 3360 4200 5160 6480
14525 13821 12414 10726 9109 7421 2772 3108 3864 4824 6036 7536
16057 15227 13504 11119 9249 7298 3388 3757 4625 5665 6874 8250
18357 17425 15454 12708 10561 8357 3775 4188 5165 6335 7690 9221
5
13320 12600 11280 9960 8520 6960 2160 2400 2880 3600 4440 5640
15960 15240 13680 12000 10080 8160 2400 2760 3360 4200 5160 6480
17584 16775 15052 13259 11289 9320 2796 3132 3900 4848 6048 7548
19018 18063 16175 13957 11521 9190 3458 3813 4666 5710 6942 8360
21749 20677 18523 15966 13166 10515 3853 4249 5209 6384 7766 9348
15
16440 14520 12480 10680
3000 3720 4560 5640
19560 17280 14760 12120
3360 4200 5280 6480
20749 18288 15720 13012
4032 4980 6144 7608
0 0
21922 19145 16198 13077
4582 5606 6855 8327
25049 21862 18474 14907
5122 6268 7667 9309
10
15960 15240 13680 12120 10440 8640 2160 2400 3000 3600 4560 5640
19080 18240 16440 14520 12360 10200 2400 2760 3360 4200 5280 6480
21101 20222 18112 15967 13716 11500 2844 3180 3948 4896 6060 7560
22262 21170 18880 16447 13872 11457 3495 3831 4660 5699 6945 8394
25440 24217 21610 18811 15847 13092 3901 4274 5202 6369 7767 9385
-10
7080 6720 5880 5040
2040 2280 2880 3600
8520 8160 6960 6000
2400 2640 3240 4080
9601 9144 7913 6823
2748 3072 3828 4800
11014 10403 8250 7022
3249 3632 4501 5504
12575 11890 9427 8016
3625 4053 5026 6146
Max return gas temperature of 18.3°C in non shaded region Max Suction superheat of 11K only in shaded region Sub cooling 0K
CondensingTemperature
oC
43
ZB Series
60 Hz
30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75 30 35 45 55 65 75
Q
P
Q
P
Q
P
ZB76KQE
ZB95KQE
ZB114KQE
ModelEvaporating Temperature oC
Performance DataQ=Capacity (Watts) P=Power input (Watts) 1 & 3-Phase
-15
11703 9775 8495
4224 4726 5843
16014 13379 11331
5312 5910 7360
18824 15695 13367
6439 7142 8865
-5
17565 16624 14663 11609 9602
4335 4828 5963 7293 8819
23893 22763 20260 15887 12404
5501 6077 7491 9326
11668
28631 27244 24191 19028 15165
6637 7317 8982
11164 13997
0
21087 19999 17704 14534 12075 9582 4435 4915 6042 7390 8957
10742 28626 27295 24431 20121 16353 11899 5621 6186 7581 9402
11737 14670 34421 32830 29352 24169 19790 14857 6777 7445 9079
11222 14006 17567
5
24966 23723 21224 18270 15055 12037 4520 4983 6092 7445 9042
10882 33963 32374 29036 24957 20795 15992 5768 6320 7694 9501
11827 14758 40823 38992 35014 30686 25118 19563 6952 7607 9209
11311 14045 17548
15
28690 25044 21171 17104
5967 7301 8927
10844
39677 34829 29604 23867
6687 8016 9790
12096 15018
39677 34829 29604 23867
6687 8016 9790
12096 15018
10
29165 27761 24761 21539 18139 14997 4557 4997 6077 7427 9044
10927 39934 38034 34113 29903 25258 20584 5946 6485 7837 9628
11944 14871 39934 38034 34113 29903 25258 20584 5946 6485 7837 9628
11944 14871
-10
14429 13629 10795 9190
4254 4754 5885 7188
19711 18725 14820 12139
5399 5987 7420 9267
23442 22219 17567 14572
6526 7218 8912 11132
Max return gas temperature of 18.3°C in non shaded region
Max Suction superheat of 11K only in shaded region
Sub cooling 0K
CondensingTemperature
oC
44
ZB15KQZB15KQE
PFJTF5TFD
PFVTF5TF7TFD
5.97.158.056.026.061.055.027.027.011.413.68.95.04.313.215.78.95.15.016.019.012.57.06.018.522.012.57.27.0
40/44040/370
270
1/23/4
242242383
190x190(8.5)
1.241.24
2326
ZB19KQZB19KQE
PFJTF5TFD
PFVTF5TF7TFD
6.88.2
61.070.032.072.563.030.031.012.915.010.05.84.3
14.617.110.05.95.0
18.021.014.08.16.0
20.524.014.08.37.0
45/37045/370
2.570
1/23/4
242242389
190x190(8.5)
1.301.36
2529
ZB21KQZB21KQE
PFJTF5TFD
PFVTF5TF7TFD
8.610.482.083.040.095.077.039.039.016.418.411.47.55.7
15.420.712.17.47.4
23.025.816.010.58.0
21.529.017.010.310.3
60/37050/370
370
1/23/4
243244412
190x190(8.5)
1.451.45
2730
ZB26KQZB26KQE
PFJTF5TFD
PFVTF5TF7TFD
9.912.097.095.046.0
109.088.041.044.017.120.413.97.37.1
18.923.613.27.66.4
24.028.619.410.210.026.533.018.510.79.0
60/37060/370
3.570
1/23/4
243244425
190x190(8.5)
1.45/1.481.48
2831
Model
ZB Series
Technical Data
50Hz
60Hz
50Hz60HzPFJ
TF5/TW5TFDPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
50Hz
60Hz
KQ
KQE
KQ
KQE
50Hz60Hz
Motor type
Displacement (M³/HR)
LRA
RLA
Max Continuous Current
Run Capacitor (1 phase)Run Capacitor (1 phase)
ZB38KQZB38KQE
TF5TFD
TF5TF7TFD
14.417.3
139.065.5
128.064.063.0
20.710.710.0
24.012.49.6
29.015.013.5
33.617.414.0
570
1/27/8
242242457
190x190(8.5)
2.07
3841
ZB45KQZB45KQE
TF5TFD
TF5TF7TFD
17.120.6
172.074.0
156.070.075.0
20.710.711.5
26.012.610.1
29.015.016.1
32.417.714.2
670
1/27/8
242242457
190x190(8.5)
1.89
4044
ZB29KQZB29KQE
PFJTF5TFD
PFVTF5TF7TFD
11.413.8
114.098.050.0
137.091.054.050.019.322.116.49.37.9
20.025.017.19.67.9
27.031.023.013.011.028.035.024.013.511.0
60/37060/440
470
1/27/8
242242430
190x190(8.5)
1.361.36
3337
Nominal power(HP) Crankcase Heater(W)
Connection Tube size(inch)
Discharge Tube outer Diameter Suction Tube outer Diameter
Dimension(mm)
Length Width
Height Mounting pants installation size (hole size)
Oil Recharge(L)
PFJ/PFVTFD/TF5/TF7
Weight(kg)Net
Gross
45
ZB58KQZB58KQE
TF5TFD
TF5TF7TFD
22.126.7
203.095.0
195.0123.095.0
32.116.716.4
32.117.116.4
45.023.423.0
43.024.023.0
890
7/81 1/8
264284477
190x190(8.5)
2.51
5760
ZB48KQZB48KQE
TF5TFD
TF5TF7TFD
18.822.6
179.0101.0
164.0100.0100.0
25.012.112.1
26.0
13.6
35.017.017.0
36.4
19.1
770
3/47/8
242242457
190x190(8.5)
1.80
4044
ZB66KQZB66KQE
TF5TFD
TF5TF7TFD
25.731.0
231.0111.0
225.0140.0114.0
33.618.617.3
33.618.617.3
47.026.024.2
44.029.024.5
990
7/81 3/8
264284546
190x190(8.5)
3.25
5962
ZB76KQZB76KQE
TF5TFD
TF5TF7TFD
28.834.8
239.0118.0
239.0145.0125.0
41.423.620.0
41.423.620.0
54.033.126.9
58.033.028.0
1090
7/81 3/8
264284546
190x190(8.5)
3.25
6265
ZB88KQ
TF5TFD
TF5TF7TFD
33.240.1
273.0118.0
245.0145.0125.0
47.124.422.1
66.034.231.0
1290
7/81 3/8
264284546
190x190(8.5)
3.25
6265
ZB95KQ
TFDTW5
TFDTW5TW736.443.9
140.0
300.0139.0150.0
53.628.625.0
61.435.026.4
75.040.035.0
86.049.037.0
1390
7/81 3/8
264285552
190x190(8.5)
3.30
6265
ZB114KQ
TFDTW5
TFDTW5TW743.352.3
174.0
340.0196.0179.0
58.635.727.9
65.042.928.6
82.050.042.0
91.060.040.0
1590
7/81 3/8
264285553
190x190(8.5)
3.30
6366
Model
ZB Series
Technical Data
50Hz
60Hz
50Hz60HzPFJ
TF5/TW5TFDPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
TF5/TW5TF7/TW7
TFDPFJPFV
50Hz
60Hz
KQ
KQE
KQ
KQE
50Hz60Hz
Motor type
Displacement (M³/HR)
LRA
RLA
Max Continuous Current
Run Capacitor (1 phase)Run Capacitor (1 phase)
Nominal power(HP) Crankcase Heater(W)
Connection Tube size(inch)
Discharge Tube outer Diameter Suction Tube outer Diameter
Dimension(mm)
Length Width
Height Mounting pants installation size (hole size)
Oil Recharge(L)
TFD/TF5/TF7
Weight(kg)Net
Gross
46
ZB15~ZB29 (BOM 524)
ZB Series
Dimensions Brazing Connection
Compressor model
ZB15KQ/ZB15KQE
ZB19KQ/ZB19KQE
ZB21KQ/ZB21KQE
ZB26KQ/ZB26KQE
ZB29KQ/ZB29KQE
A±3
363.8
386.4
400.2
417.8
B±3
338.3
360.9
374.6
389.9
C±3
244.5
264.4
277.1
294.1
D±3
202.9
222.8
235.5
252.5
Ø 165.9
A
B
C
D
See Detail A
Copper Plated SteelDischarge Fitting Check Valveø12.78-12.95 I.D. 10.00 Min
Copper Plated SteelSuction Fitting ø19.12-19.30 I.D. 16.00 Min0.038 MinThick Exterior and 0.038 Min Thick Interior
239.6-245.6
121.3
190.5
95.3
95.3
83.1
97.3
121.
3
190.
5
58.4
236.5
225.
3
115.
5
49°
31°
4 x Ø 19.00-19.50 ø17.45 Pin CircleModels: TFD, TFE, TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Scale 2:1
A B C D
19.1
13.1 Detail A
Scale 2:1
47
ZB38~ZB48 (BOM 524)
ZB Series
Dimensions Brazing Connection
Compressor model
ZB38/45KQ(E)
ZB48KQ(E)
A±3
437.7
443.4
B±3
409.6
413.7
D
124.7
128.7
ø185.5
233.
2 ±3
.0
296.
7 ±3
.0
A
B
See Detail A
E: 12.78-12.90 I.D. 10.1 MinCopper Plated SteelDischarge Fitting/Check Valve
22.30-22.43 I.D. 19.9 Min0.06 Min ThickInterior Copper Plated Steel Suction Fitting
245.6
122.8
190.5
95.395
.310
3.5
122.
8
190.
5
245.
6
250.
4
D
242.3
62.2
44° 31° F: 19.10-19.25 I.D. 16.9 MinCopper Discharge Fitting/Steel Check Valve
ø17.45 Pin CircleModels: TFD, TFE,TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Scale 3:2
A B
233.
2
296.
719
.1
12.7 Detail A
Scale 2:1
48
ZB58 (BOM 524)
ZB Series
Dimensions Brazing Connection
476.
3
444.
3
232.2
93.6
201.
5
See Detail FOOT
ø22.30~22.42 ID 20.0 Min.0.038 Min. ThickExterior and Interior CopperDischarge Fitting/Steel Check Valve
ø28.49~28.67 ID 22.6 Min 0.038 Min. ThickExterior and Interior Copper PlatedSteel Suction Fitting
19.1 12
.693
.6
201.
5
444.
3
476.
3
Detail FOOTScale 1:1
95.0
47.5
47.9
121.
2
ø17.45Pin Circle
T-Box layoutStandard
Section A-AScale 1:1
242.5 MAX
242.
5 M
AX
121.3
190.5
4x ø19.00-19.50
190.
5
95.3
95.3
157.
8
164.
0
76.6 142.3
132.
8
121.
3
30°40°
49
ZB66~ZB88 (BOM 524)
ZB Series
Dimensions Brazing Connection
242.
8
232.2533.
2
501.
2
122.
1
See Detail FOOT
ø22.30~22.42 ID 20.0 Min.0.038 Min. ThickExterior and Interior CopperDischarge Fitting/Steel Check Valve
ø34.84~35.02 ID 22.6 Min 0.038 Min. ThickExterior and Interior Copper PlatedSteel Suction Fitting
242.5 MAX
242.
5 M
AX
121.3
190.5
190.
5
95.3
95.3
133.
0
121.
3
76.8 142.3
30° 40°
157.
8
164.
0
4x ø19.00-19.50
122.
1
242.
8
501.
2
533.
2
19.1
12.6Detail FOOT
Scale 1:1
121.
2
47.9
47.5
95.0
ø17.45Pin Circle
T-Box layoutStandard
Section A-AScale 1:1
50
ZB15~ZB29 (BOM 523)
ZB Series
Dimensions Rotalock Connection
Compressor model
ZB15/19KQ(E)
ZB21KQ(E)
ZB26KQ(E)
ZB29KQ(E)
A±3
363.8
386.4
400.8
417.8
B
338.3
360.9
372.9
389.9
C
244.5
264.4
277.1
294.1
D±3
202.9
222.8
235.5
252.5
A B
C D Ø165.9
See Detail B
25.4 ThreadRotalock SpudDischarge Fitting
31.75 ThreadRotalock SpudSuction Fitting
ø17.45 Pin CircleModels: TFD, TFE, TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Scale 2:1
19.1
13.1
A B C D
Detail BScale 2:1 19
.1
13.1
A B C D
Detail BScale 2:1
237.9-243.9121.5
190.595.3
95.3
107.
2
64.4
239.0
227.
8
190.
5
116.
7
49° 31.0°
1
1
1 2
1
51
ZB38~ZB48 (BOM 523)
ZB Series
Dimensions Rotalock Connection
Compressor model
ZB38/45KQ(E)
ZB48KQ(E)
A±3
437.7
443.4
B±3
409.6
413.7
Ø185.5
296.
7 ±3
.0
233.
2
A B
See Detail A
ø31.75 ThreadRotalock SpudSuction
ø25.4 ThreadRotalock SpudDischarge
245.6
245.
6
122.8
122.
8
190.519
0.5
95.3
95.3
115.
2
69.2
242.1
250.
4
125.
3
31°44°
ø17.45 Pin CircleModels: TFD, TFE, TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Terminal Box Layout OptionsTerminal Box Cover Not Shown
View A-AScale 3:2
A B
233.
21
296.
7019
.1
12.7 Detail A
Scale 2:1
52
ZB58 (BOM 523)
ZB Series
Dimensions Rotalock Connection
242.5 MAX
242.
5 M
AX
121.3
190.5
190.
5
95.3
95.3
157.
8
159.
3
71.9 142.3
124.
6
121.
3
30° 40°
4x Ø19.00-19.50
95.0
47.5
47.9
121.
2
476.
3
444.
3
232.2
93.6
201.
5 19.1 12
.793
.6
201.
5
444.
3
476.
3
See Detail FOOT
T-Box layoutStandard
Section A-AScale 1:1
(1.25-12) Thread Rotalock SpudDischarge Check ValveTorque Range 27.1-40.6 Newton-MetersSteel Check Valve (240-360 in-Ibs)
(1.75-12) Thread Rotalock SpudSuction FittingTorque Range 40.6-54.2 Newton-Meters(360-480 in-Ibs)
Detail FOOTScale 1:1
ø17.45Pin Circle
53
ZB66~ZB88 (BOM 523)
ZB Series
Dimensions Rotalock Connection
242.5 MAX
242.
5 M
AX
121.3
190.5
190.
5
95.3
95.3
124.
6
121.
3
71.9 142.3
30° 40°
157.
8
159.
34x ø19.00-19.50
121.
2
47.9
47.5
95.0
122.
1
242.
8
501.
2
533.
2
19.1 12
.7242.
8
232.2
533.
2
501.
2
122.
1
Detail FOOTScale 1:1
See Detail FOOT
Section A-AScale 1:1
(1.25-12) Thread Rotalock SpudDischarge Check ValveTorque Range 27.1-40.6 Newton-Meters(240-360 in-Ibs)
(1.75-12) Thread Rotalock SpudSuction FittingTorque Range 40.6-54.2 Newton-Meters(360-480 in-Ibs)
54
ZB15~ZB29 (BOM 558)
ZB Series
Dimensions
Compressor model
ZB15KQ/ZB15KQE
ZB19KQ/ZB19KQE
ZB21KQ/ZB21KQE
ZB26KQ/ZB26KQE
ZB29KQ/ZB29KQE
A±3
363.8
386.4
400.2
417.8
B±3
338.3
360.9
372.9
389.9
D±3
202.9
222.8
235.5
252.5
C±3
244.5
264.4
277.1
294.1
E±3
69.6
64.9
77.6
67.4
Brazing & Sight Glass
242.1-248.1
239.6-245.6
121.3
190.5
95.3
95.3
83.1
97.3
121.
3
190.
5
58.4
236.5
225.
3
115.
5
89° 49°
31°
4 x Ø 19.00-19.50
ø17.45 Pin CircleModels: TFD, TFE, TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Scale 2:1
Ø 165.9
A
B
C
D
E
Sight Glass/Socket PlugPer Bill of Material
See Detail A
Copper Plated SteelDischarge Fitting Check Valveø12.78-12.95 I.D. 10.00 Min
Copper Plated SteelSuction Fitting ø19.12-19.30 I.D. 16.00 Min0.038 MinThick Exterior and 0.038 Min Thick Interior
A B C D E
19.1
13.1 Detail A
Scale 2:1
55
A±3
437.7
437.7
443.4
Compressor model
ZB38KQ/ZB38KQE
ZB45KQ/ZB45KQE
ZB48KQ/ZB48KQE
B±3
409.6
409.6
413.7
C±3
91.3
77.2
77.2
D
124.7
124.7
128.7
ZB38~ZB48 (BOM 558)
ZB Series
Dimensions Brazing & Sight Glass
253.3-259.3
245.6
122.8
190.5
95.3
95.3
103.
5
122.
8
190.
5
245.
6
250.
4
D
242.3
62.2
132°
44° 31°
F: 19.10-19.25 I.D. 16.9 MinCopper Discharge Fitting/Steel Check Valve
ø17.45 Pin CircleModels: TFD, TFE,TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Scale 3:2
A B C
233.
2
296.
719
.1
12.7 Detail A
Scale 2:1
Sight Glass
ø185.5
233.
2 ±3
.0
296.
7 ±3
.0
A
B
C
See Detail A
E: 12.78-12.90 I.D. 10.1 MinCopper Plated SteelDischarge Fitting/Check Valve
22.30-22.43 I.D. 19.9 Min0.06 Min ThickInterior Copper Plated Steel Suction Fitting
56
ZB58 (BOM 550)
ZB Series
Dimensions Brazing, Sight Glass & Oil Schrader Valve
242.5 MAX
242.
5 M
AX
121.3
190.5
160.0
190.
5
95.3
95.3
157.
8
164.
0
76.6 142.3
132.
8
121.
3
30° 40°
95.0
47.5
47.9
121.
2
ø17.45Pin Circle
30°
Sight glass LayoutT-box Removed
T-Box layoutStandard
Section A-AScale 1:1
19.1
12.7
93.6
201.
5
74.3
444.
3
476.
3
Detail FOOTScale 1:1
74.3
67.6
Detail VALVEScale 3:4
476.
3
444.
3
232.24
93.6
201.
5
See Detail FOOTSee Detail VALVE
ø22.30~22.42 ID 20.0 Min CopperDischarge Fitting/SteelCheck Valve
ø28.49~28.67 ID 22.6 Min 0.06 Min Thick Exteriorand 0.038 Min ThickInterior Copper Plated SteelSuction Fitting
57
ZB66~ZB88 (BOM 550)
ZB Series
Dimensions Brazing, Sight Glass & Oil Schrader Valve
242.5 MAX
242.
5 M
AX
121.3
190.5
190.
5
95.3
95.3
132.
8
121.
3
76.6 142.3
30° 40°
157.
8
164.
0
160.0
121.
2
47.9
47.5
95.0
ø17.45Pin Circle
30°
Sight glass LayoutT-box Removed
T-Box layoutStandard
Section A-AScale 1:1
122.
1
242.
8
92.3
501.
2
533.
2
19.1
12.7Detail FOOT
Scale 1:1
82.1
Detail VALVEScale 3:4
242.
892.3
232.24
533.
2
501.
2
122.
1
See Detail FOOTSee Detail VALVE
ø22.30~22.42 ID 20.0 Min CopperDischarge Fitting/SteelCheck Valve
ø34.84~35.02 ID 22.6 Min 0.06 Min Thick Exteriorand 0.038 Min ThickInterior Copper Plated SteelSuction Fitting
58
ZB95~ZB114 TFD (BOM 550)
ZB Series
Dimensions Brazing, Sight Glass & Oil Schrader Valve
242.5 MAX
242.
5 M
AX
121.3
95.0
ø17.45Pin Circle
47.5
47.9
121.
2
121.
3
190.5
190.
5
95.3 160.0
95.3
76.6 142.3
157.
8
164.
0
132.
8
30° 30°40°
551.
6
519.
6
140.
5
261.
2
92.6
T-Box LayoutStandard
Section A-AScale 1:1
See Detail FOOT See Detail VALVE
234.0
Sightglass LayoutT-Box Removed
ø34.84-35.02 ID 22.6 Min 0.06 Min Thick ExteriorAnd 0.038 Min ThickInterior Copper Plated SteelSuction Fitting
ø22.30-22.42 ID 20.0 Min CopperDischarge Fitting/SteelCheck Valve
140.
5
92.6
261.
2
519.
6
551.
6
33.3
12.7
Spacer-Mounting AssmPer Bill of Material
Detail FOOTScale 1:1
Detail VALVEScale 3:4
85.5
59
ZB95~ZB114 TW7/TW5 (BOM 550)
ZB Series
Dimensions Brazing, Sight Glass & Oil Schrader Valve
551.
5
519.
5
140.
5
182.
0
See Detail FOOTSee Detail VALVE
ø22.30~22.42 ID 20.0 Min.0.038 Min. Thick Exterior and Interior Copper PlatedDischarge Fitting/Steel Check Valve
ø34.84~35.02 ID 22.6 Min 0.038 Min. Thick Exterior and Interior Copper PlatedSteel Suction Fitting
242.5 MAX
242.
5 M
AX
121.3
121.
3
190.5
190.
5
95.3
95.3
76.8 207.4
164.
0
173.
8
133.
0
30° 40° Terminal Box layout StandardScale 3:4
33.3
12.6
Detail FOOTScale 1:1
85.5
92.6
Detail VALVEScale 3:4
60
ZB15~ZB29 (BOM 559)
ZB Series
Dimensions Rotalock & Sight Glass
A B
C D
E
Ø165.9
Sight Glass/Socket PlugPer Bill of Material
See Detail B
25.4 ThreadRotalock SpudDischarge Fitting
31.75 ThreadRotalock SpudSuction Fitting
242.1-248.1
237.9-243.9121.5
190.595.3
95.3
107.
2
64.4
239.0
227.
8
190.
5
116.
7
40°
49° 31.0°
19.1
13.1
A B C D E
Detail BScale 2:1
ø17.45 Pin CircleModels: TFD, TFE, TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Scale 2:1
61
ZB38~ZB48 (BOM 559)
ZB Series
Dimensions Rotalock & Sight Glass
245.6
245.
6
122.8
122.
8
190.5
190.
5
95.395
.311
5.2
69.2
242.1
250.
4
125.
3
31°44°132°
253.3-259.3
ø17.45 Pin CircleModels: TFD, TFE, TFM, TF7ø13.46 Pin CircleModels: PFJ, PFV, TFW, TF5, PFZ
Terminal Box Layout OptionsTerminal Box Cover Not Shown
View A-AScale 3:2
A B C
233.
21
296.
7019
.1
12.7 Detail A
Scale 2:1
Ø185.5
296.
7 ±3
.0
233.
2
A B
C
Sight GlassPer Bill of Material
See Detail A
ø31.75 ThreadRotalock SpudSuction
ø25.4 ThreadRotalock SpudDischarge
62
ZB58 (BOM 551)
ZB Series
Dimensions Rotalock, Sight Glass & Oil Schrader Valve
242.5 MAX
242.
5 M
AX
121.3
190.5
160.0
190.
5
95.3
95.3
157.
8
159.
3
71.9 142.3
124.
6
121.
3
30° 30°40°
95.0
47.5
47.9
121.
2
ø17.45Pin Circle
Sight glass LayoutT-box Removed
T-Box layoutStandard
Section A-AScale 1:1
19.1
12.7
93.6
201.
5
74.3
444.
3
476.
3
Detail FOOTScale 1:1
74.3
67.6
Detail VALVEScale 3:4
476.
3
444.
3
232.2
93.6
201.
5
See Detail FOOT
See Detail VALVE
(1.25-12) Thread Rotalock Spud/Discharge Check ValveTorque Range 27.1-40.6 Newton-Meters(240-360 in-Ibs)
(1.75-12) Thread Rotalock SpudSuction FittingTorque Range 40.6-54.2 Newton-Meters(360-480 in-Ibs)
63
ZB66~ZB88 (BOM 551)
ZB Series
Dimensions Rotalock, Sight Glass & Oil Schrader Valve
242.5 MAX
242.
5 M
AX
121.3
190.5
190.
5
95.3
95.3
160.0
124.
6
121.
3
71.9 142.3
30°30°
40°
157.
8
159.
3
121.
2
47.9
47.5
95.0
ø17.45Pin Circle
Sight glass LayoutT-box Removed
T-Box layoutStandard
Section A-AScale 1:1
122.
1
92.3
242.
8
501.
2
533.
2
19.1
12.7
Detail FOOTScale 1:1
92.3
82.1
Detail VALVEScale 3:4
242.
8
232.2
533.
2
501.
2
122.
1
See Detail FOOTSee Detail VALVE
(1.25-12) Thread Rotalock Spud/Discharge Check ValveTorque Range 27.1-40.6 Newton-Meters(240-360 in-Ibs)
(1.75-12) Thread Rotalock SpudSuction FittingTorque Range 40.6-54.2 Newton-Meters(360-480 in-Ibs)
64
ZB95~ZB114 TFD (BOM 551)
ZB Series
Dimensions Rotalock, Sight Glass & Oil Schrader Valve
242.5 MAX
242.
5 M
AX
121.3
95.0
ø17.45Pin Circle
47.5
47.9
121.
2
121.
3
190.5
190.
5
95.3 160.0
95.3
71.9 142.3
157.
8
159.
3
124.
6
30° 30°40°
T-Box LayoutStandard
Section A-AScale 1:1
Sightglass LayoutT-Box Removed
140.
5
92.6
261.
2
519.
6
551.
6
33.3
12.7
Spacer-Mounting AssmPer Bill of Material
Detail FOOTScale 1:1
551.
6
519.
6
140.
5
261.
2
92.6
See Detail FOOT See Detail VALVE
234.0
(1.25-12) Thread Rotalock SpudDischarge Check ValveTorque Range 100-110 Newton-Meters(885-975 in-Ibs)
(1.75-12) Thread Rotalock SpudSuction FittingTorque Range 170-180 Newton-Meters(1500-1590 in-Ibs)
Detail VALVEScale 3:4
85.5
65
ZB95~ZB114 TW7/TW5 (BOM 551)
ZB Series
Dimensions Rotalock, Sight Glass & Oil Schrader Valve
551.
5
519.
5
140.
5
182.
0
92.6
See Detail FOOTSee Detail VALVE
(1.25-12) Thread Rotalock SpudDischarge Check ValveTorque Range 27.1-40.6 Newton-Meters(240-360 in-Ibs)
(1.75-12) Thread Rotalock SpudSuction FittingTorque Range 40.6-54.2 Newton-Meters(360-480 in-Ibs)
242.5 MAX
242.
5 M
AX
121.3
121.
3
190.5
190.
5
95.3
95.3
76.8 204.7
164.
0
173.
5
133.
0
30° 40° Terminal Box Layout StandardScale 3:4
33.3
12.7
Spacer-Mounting AssmPer Bill of Material
Detail FOOTScale 1:1
Detail VALVEScale 3:4
85.5
66
C2
L1NPE
Q1
L1
K1
N
F1 F6
RC
S
M
1
To Control Circuit
L1L2L3NPE
L1
F1 F6...8
L1
K1
L2 L3
N
Q1
M
3
To Control Circuit
Single Phase Circuit (ZB15-ZB29)
Electrical Schematics
L1/N/PE: Single Phase Lines (line/neutral/ground)
Q1: Manual Switch
F1/F6: Fuse
K1: Compressor Contactor
C2: Run Capacitor
M: Compressor Motor
R/C/S: Compressor Terminal
3 Phase (ZB15-ZB114)
(with Motor Protection Code “F”)
Electrical Schematics
L1/L2/L3/N/PE: 3 Phase Lines (line/neutral/ground)
Q1: Manual Switch
F1/F6..8: Fuse
K1: Compressor Contactor
M: Compressor Motor
L1/L2/L3: Compressor Terminal
ZB Series
Electrical Wiring Diagram
ZB15~ZB114
67
ZB15~ZB114 Control Circuit
ZB Series
Electrical Wiring Diagram
220/230 V Alternating Current
A
B
C
C1
C
Attention:If you use timer,do
not connect A&B
Other protectiondevice
(optional)
CDU Fan connector(optional)
Compressor ConnectorThermostat
Exhaust-pipeThermostat(Optional)
Traditional Solid-state Timer (optional)Fuse
Crankcase heater
3 Phase (ZB95-114 TW*)
(with Motor Protection Code “W”)
T2 T1 S2
S 2
S 1
S1 M2
L 3
L 1
L 2
L 1
L 2
L 3M1
To ControlCircuit
Motor Winding Connection
ProtectorModuleVoltage
L 1 L 2
T1 T2
Motor Overload Protector
DischargePressure
Switch
SuctionPressure
Switch
(To Motor Overload Sensors)
CompressorConatctor
Coil
OMB OilLevel Control
M1 M2
S1 S2
C
Red
Blac
k
Whi
te
(To Compressor Terminal Block)
(To 24VAC Supply)
(Reference Table 4)Discharge Line
Thermostat