ATLAS COPCO AIR MOTORS

Transcription

ATLAS COPCO AIR MOTORS
ATLAS COPCO
AIR MOTORS
A full range of compact, high
performance air motors
2
AT L A S C O P C O A I R M OTO R S
AIR MOTOR FEATURES
AND CHARACTERISTICS
• Air motors are compact and lightweight. An air motor
weighs only a quarter as much and occupies only one
sixth of the space of an electric motor of equivalent output
power. Air motors develop far more power relative to size
and weight than most other motor types.
Our air motors are explosion proof
certified, in compliance with the
European Union´s ATEX directive
94/9/EC. For equipment used in
potentially explosive environments.
• Air motors can be stalled indefinitely without overheating
or sustaining any other damage. They can be started and
stopped repeatedly to an unlimited extent.
• Torque, speed and direction of rotation can be changed
easily using simple control methods.
• Output inherently adjusts to match the applied load.
• Controllable over a wide speed range.
• Virtually unaffected by hostile environment.
• Smooth start-up to minimize ”shock” loading on
­transmission components.
ATLAS COPCO – AIR
MOTORS
• Leading the industry in development and innovation.
• Offering a comprehensive range of standard air motors.
• A premier supplier of air motors engineered to meet
­customer requirements.
• Delivering orders, on time, to customer schedules.
• Offering a truly worldwide service.
Atlas Copco air motors – the natural choice for
design engineers in the industries of today and
tomorrow.
AT L A S C O P C O A I R M OTO R S
3
ADDITIONAL INFORMATION
ABOUT AIR MOTORS FROM
ATLAS COPCO
Guide
Pocket
tors
Air Mo
Selecting the right motor has never been easier!
Just enter the required working point for the application and
the most suitable motor will automatically be selected. For
the selection use the Atlas Copco selection tool.
Air motor selection program, available at
www.atlascopco.com/airmotors
Log in to www.atlascopco.com/
airmotors
24-hour access
Visit our website and browse through our on-line catalogue.
You’ll find comprehensive technical information as well as
details of accessories, spare parts and dimensional drawings.
You can also subscribe to our news.
4
AT L A S C O P C O A I R M OTO R S
Want to know more about air motors?
In this pocket guide you will find information about function,
design, motor selection and installation. Use the Ordering
No. 9833 9067 01.
CONTENTS
Introducing the air motor
• Methods of modifying motor output
•Using the catalogue
Choosing your motor
• The working point
• Atlas Copco air motor selection guide
• Starting torque and stall torque
• Accelerating a load to speed
• Shaft loading
• Silencing
• Temperature
• Hostile environments
• Atlas Copco air motor selection program
Installing your air motor
• Air lines
• Recommended hose connectors
• Air preparation
• Lubrication
• Control valves for air motors
• Installation examples
• Introduction to Atlas Copco air motors and gear units
LZB vane motors introduction
• Shaft loading
• Mounting
• Connection
• Hose dimensions
• LZB vane motors: data, specification and performance curves
• Accessories for LZB motors
LZL vane motors introduction
• Shaft loading
• Mounting
• Connection
• Hose dimensions
• LZL vane motors: data, specification and performance curves
• LZL vane motor/gear unit combinations
• LZL air motors: with helical gear units data, specification and performance curves
• Accessories for LZL motors
ATEX
• Explosion prevention guidelines
• ATEX code definition
6–7
8–9
10 – 13
14 – 67
68 – 86
87 – 88
AT L A S C O P C O A I R M OTO R S
5
INTRODUCING THE AIR
MOTOR
It should be noted that all vane air motors produce a variable
starting torque, due to the position of the vanes in the motor
when it is started. The variation differs between motor types
and must be checked on an individual basis.
The air motor is one of the toughest and most
The power that an air motor produces is a function of torque
and speed. All ungoverned air motors produce the same
­characteristic power curve, with maximum power occurring
at around 50% of the free speed. The torque produced at
this point is often referred to as ”torque at maximum output.”
versatile power units available to today´s
design engineer. It is easy to control over a
wide speed range, and it produces maximum
torque where it is often most needed – at start
up.
The performance of an air motor is dependent on the inlet
pressure. At a constant inlet pressure, ungoverned air
motors exhibit the characteristic linear output torque/speed
relationship. Figure 1.
The performance curves for an ungoverned air motor operating at a constant air pressure are illustrated in Figure 3.
Torque
[Nm]
Stall
torque
Torque
Power
Min
starting
torque
Torque
[Nm]
Speed [r/min]
Figure 3
Figure 1
Speed [r/min]
However, by simply regulating the air supply, using the
techniques of throttling or pressure regulation, the output of
an air motor can easily be modified.
The free speed and torque can be regulated down to 50%
for an LZB air motor. The free speed for an LZL can be regulated down to 10% and the torque can be regulated down to
20%. The shaded areas in Figure 2 illustrate this.
Torque
[100%]
100
Torque
[100%]
100
The use of gear units
Air motors operate at high speed and, although they can be
controlled over a wide speed range, the output characteristics are not always suitable for the application. To achieve the
required output an appropriate gear unit can be selected. The
ability to change the output by use of a gear unit is illustrated
in Figure 4.
Torque
[Nm]
Torque
Power
50
50
2:1
1:1
20
4:1
50
LZB
100
Speed [100%]
10
50
LZL
100
Speed [100%]
1:1, 2:1, 4:1 = gear ratios
Speed [r/min]
Figure 4
Figure 2
The planetary and helical gear units used by Atlas Copco
have a high level of efficiency that can be assumed to be
100%. The power output remains virtually unchanged also
when gears are used.
6
AT L A S C O P C O A I R M OTO R S
METHODS OF MODIFYING MOTOR OUTPUT
Throttling
Par
[Nm]
A throttle is usually fitted into the motor´s inlet, although
it can also be complemented with some throttling at the
exhaust. You should never create a back pressure above 1
bar at the exhaust.
Notes on performance data
The performance data stated in this catalogue is valid for
an air supply pressure of 6.3 bar (91 psi), gauge. Air consumption values are for free air delivery – (i.e., the volume
the consumed air would occupy if allowed to expand to
atmospheric pressure).
The direction of rotation for a motor is always stated looking
from the back of the motor. Figure 7 illustrates clockwise
rotation.
Torque
[Nm]
Velocidad [r/min]
Speed [r/min]
Figure 5
Figure 7
Pressure regulation
When using a pressure regulator it is mostly fitted into the
motor´s inlet hose. The use of pressure regulation is ideal
when control of the stall torque is required and a high starting torque is not so important, Figure 6.
Torque
[%]
100
Understanding the performance curves
The output of an air motor is most clearly seen from its
performance curves, Figure 8. For each motor/gear unit the
power, torque and air consumption are shown as a function
of speed.
The diagrams shown apply to an inlet pressure of 6.3 bar, to
calculate performance at other pressures refer to page 8 in
this catalogue.
Operating pressure
7 bar
6 bar
5 bar
Torque
[Nm]
Power
[kW]
4 bar
3 bar
Max
output
Air cons.
[l/s]
Power
Air. cons.
100
Speed [%]
Figure 6
Torque
at max
output
Using the catalogue
Torque
Speed [r/min]
Note: The starting torque
produced by an air motor is
variable and depends on vane
position. These diagrams
do not indicate the starting
torque – this can be obtained
from data tables, where the
minimum value is shown.
Figure 8
Motor selection
Motor data, specification and performance
­curves
For each Atlas Copco motor/gear unit combination the
­following information is presented in this catalogue.
1.Tabular data – summary of main performance
parameters.
2.Dimensional drawings.
3.Performance curves.
Guidelines on motor selection are given on page 8 in this
catalogue – Choosing Your Motor.
Installation
General installation recommendations are given on page 10.
Details specific to a motor are shown in the section relevant
to that motor type.
AT L A S C O P C O A I R M OTO R S
7
CHOOSING YOUR
MOTOR
If necessary, one of the flow control methods can be used
to modify the output of a motor to meet the working point
exactly (Figure 7).
The working point
Torque
[Nm]
When selecting an air motor for a certain application, the first
step is to establish what is called the “working point”. This is
the point described by the desired operating speed for the
motor and the torque required at that speed.
Desired working point
Torque with standard
motor at 6.3 bar (91 psi)
Torque with throttled
motor
Torque with pressure
regulator
The wide operating range of the air motor makes it probable
that a number of motors could run with the same working
point. However as it is most efficient to run an air motor at
the speed at maximum output, the motor that produces maximum power nearest to the working point should probably be
selected. Other criteria that can influence the choice are
minimum starting torque, stall torque and free speed.
Speed [r/min]
Figure 7
The power required at the working point is calculated by:
Pressure regulation
Power = π x M x n
30
Sometimes the motor operates at other supply pressures
than 6.3 bar. In these cases the performance of a motor
must be re-calculated to ensure the working point can be
achieved.
[W]
Where, M = Torque at working point (in Nm)
n = Speed at working point (in r/min)
Example:
To calculate performance at supply pressures other than 6.3
bar, multiply the data at 6.3 bar by the correction factors
shown in ­Table 6.
A Non-reversible motor is required to run at 300 r/min and p
­ roduce a
­torque of 10 Nm. Selection of correct motor size is as f­ollows:
Power required (W) = 3.14 x 10 x 300/30 = 314
From Table 5 the correct size of Non-reversible
motor for this application is the LZB 33.
Correction factors
Air Pressure
(bar)
Once the motor size has been identified, simply look at the
performance curves for each motor variant and select the
one with max. output nearest to the working point. For the
above example this would be the LZB33-A007.
7
6
5
4
3
(psi)
101
87
73
58
44
Output
1.13
0.94
0.71
0.51
0.33
Speed
1.01
0.99
0.93
0.85
0.73
Torque
1.09
0.95
0.79
0.63
0.48
Air
Consumption
1.11
0.96
0.77
0.61
0.44
Table 6
Power Torque
[kW]
[Nm]
Air cons.
[l/s]
Power Torque
[kW]
[Nm]
0.4
0.4
0.3
0.3
0.2
0.1
20
10
16
8
12
6
8
4
4
2
400
200
600
Example:
24
20
0.2
16
12
0.1
8
4
8
M1
n1 M2 n2 =
=
=
=
desired torque
6
desired speed
4
torque at maximum output
speed at maximum output
2
LZB 33 A005
Figure 6
AT L A S C O P C O A I R M OTO R S
An LZB 22 A036 is required to run at 1155 r/min and produce 1.2 Nm;
­calculate the required inlet pressure to achieve this.
For this motor at maximum output
the torque is 1.5 Nm and the speed is
10
1650 r/min.
Speed
Calculate
the ratios
M1/M2 and
n1/n2
400
200
600 [r/min]
Therefore M1/M2 = 0.8 and n1/n2 = 0.7
Speed
800 [r/min]
LZB 33 A007
8
It is also easy to calculate the inlet pressure required to
Air cons.
[l/s]
achieve a desired working
point.
Apply these values to the diagram in Figure 8 and read off
the pressure at the intersection point.
The required inlet pressure is 4.2 bar (61 psi)
Temperature
Atlas Copco air motors can operate reliably in ambient temperatures that range from –20°C (–4°F) to +60°C (+140°F).
However, below ambient temperatures of +5°C (+41°F)
the compressed air may need to be dried to avoid freezing
­problems.
M1
M2
2.2
2.0
1.8
1.6
bar
1.4
7
psi
6
101
5
87
0.6
4
73
0.4
3
58
1.2
1.0
0.8
Please note it is often possible to operate these motors at
much h
­ igher temperatures but this should not be attempted
without first checking with your local Atlas Copco representative.
44
0.2
n1
n2
0.2 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2
Speed [r/min]
Hostile environments
Figure 8
Starting torque and stall torque
Atlas Copco air motors are found in use in many hostile environments, often with little or no modification. These environments are typified as being:
Many applications demand that a motor produces a minimum torque at start-up. In these a minimum starting torque,
for a given motor, can be looked up in the tabular data. If it
is necessary to modify the motor’s output, but also maintain
a high starting torque, the technique of throttling the air flow
should be utilized.
Acidic – Explosive – Radioactive – High temperature –
Moist – Dusty – Intense electric fields – Underwater – High
­humidity.
Other applications require a certain stall torque. A motor’s
stall torque can be calculated by looking up the ”torque at
maximum output“ and multiplying this value by two. Where
it is desirable to control the stall torque, the technique of
pressure regulation should be used.
However, to ensure safe and reliable service, we recommend
you always consult your local Atlas Copco representative
before using an air motor in a hostile environment.
Accelerating a load to speed
The Atlas Copco Air Motor Selection Program makes it very
easy for you to select the right motor. The Windows-based
program stores data on all Atlas Copco air motors. Simply
specify the required torque and speed of the motor and the
program will select the most suitable motor for your application. Available at www.atlascopco.com/airmotors
Certain applications require the acceleration of a load up to
a given speed. In these cases, the choice of motor involves
complex calculations. It is therefore recommended that you
seek guidance from your nearest Atlas Copco representative
before proceeding.
It is also possible to power an air motor with many types of
compressed gas, for example nitrogen or natural gas.
Atlas Copco Air motor Selection Program
Shaft loading
Always ensure shaft loadings are within the stated allowable
limits.
Silencing
The noise generated by an air motor is mainly caused by
the exhaust air of the motor. The noise level increases with
speed and is greatest at the free speed.
All Atlas Copco motors are supplied with a threaded exhaust
port which, to reduce noise levels, can accept a screw in
silencer. However, an exhaust hose can also be fitted, and
when used with a silencer, it can reduce noise levels even
further. The effects of employing the various silencing techniques are indicated in table on page 63.
AT L A S C O P C O A I R M OTO R S
9
INSTALLING YOUR AIR
MOTOR
Air lines
The recommended dimensions of air lines are given in the
introductory section to each motor type. Note that exhaust
hose is larger than inlet hose.
The recommendations are valid for hose lengths of up to
3 meters. For distances between 3 and 15 meters select a
hose diameter one size up, and for distances between 15
and 50 meters select a hose diameter two sizes up.
It is important to note that the output of the motor will be
reduced if these guidelines are not followed.
Recommended hose connectors
Because of the compact dimensions of Atlas Copco vane
motors, special hose connectors are available with small key
width – facilitating easy installation.
The hose connectors can be ordered through your local Atlas
Copco representative. See table 2 on page 17.
Lubrication
Lubricated vane motors
To achieve optimum service life and performance the lubricated vane motors should be used. They should be supplied
with 50 mm3 of oil for each cubic meter (1000 liters) of consumed air (one oil drop ≈ 15 mm3).
Insufficient lubrication will result in accelerated vane wear
and performance reduction.
The following example shows how to calculate the lubrication
required for a motor running at a known working point.
Example:
A Non-reversible LZB 42 motor running at maximum output consumes
13 liters/sec of air.
In one minute it consumes 780 liters of air, therefore the lubrication
required is:
780 x 50 = 39 mm3/min
1000
If an oil-fog lubricator is to be used it should be set to deliver 3 drops of
oil a minute (1 drop = 15 mm3).
Air preparation
The selected lubrication oil, should have a viscosity between
32-46 mm2/s at the motor’s working temperature.
For optimum performance and maximum machine
life we recommend the use of compressed air with
a maximum dew point of +10°C. We also recommend
the installation of an Atlas Copco refrigeration-type air dryer.
In applications where there is a risk of insufficient or
un­reliable air lubrication, we recommend using a lubrication
free vane motor.
To ensure reliable service an air filter and lubricator should be
fitted into the inlet air line – within 3 meters from the motor.
Table 9 shows how reduced lubrication can affect service life
and power for a lubricated vane motor.
It is recommended that a pressure regulator is also incorporated into the air preparation package. This has the function
of maintaining the desired working pressure, and can be
used to modify the motor’s output to meet the needs of the
application.
When selecting an air preparation package, ensure all components have sufficient flow capacity to meet the requirements
of the motor. The filter shall remove solid particles larger than
15 microns and also remove more than 90 % of liquid
water. A typical arrangement of an air preparation
installation is shown below, Figure 9.
Lubricant
quantity
(mm3 oil m3)
50
10
1
0.1
0
1 drop of oil is appr. 15 mm3
Service
life
(hours)
1000–3000
500–1000
200–500
100–300
10–30
Output
power
(%)
100
100
90
80
30
Table 9
Lubrication free vane motors
Atlas Copco’s LZB vane motors up to LZB33 and LZB
stainless steel are available with lubrication free vanes as
standard, for the bigger LZB models lubrication free kits are
available.
If running a motor with 100% dry air and no lubrication, performance can be reduced by 5-15% at max. output depending on model. Free speed will be more affected, reduced by
10-30%.
To optimize the service intervals for a lubrication free vane
motor, use lubricated air if the application allows it.
A = Filter
B = Pressure regulator
C = Oil fog lubricatior
10
AT L A S C O P C O A I R M OTO R S
Figure 9
Directional control valves
These valves are used to start or stop a motor, or to change
its direction of rotation. It is most usual to use what is
­termed a 5/3 valve to control a reversible motor, and a 3/2
valve to control a Non-reversible motor.
3/2 valve
The valve designations refer to the number of connection
ports and the number of operating positions the valve pro­
vides, for a 5/3 valve this is 5-connection ports and 3 positions.
When selecting any control valve it is important to ensure
that it has a sufficient flow capacity to supply the requirements of the motor.
5/3 valve
Figure 10
The symbols used to represent these valves in an installation diagram.
Installation examples
Typical installation diagrams for type LZB and LZL air motors,
together with their associated control valves, filters, regulators lubricators and silencers.
For LZL air motors it is important that an inlet restrictor is
­placed upstream from the inlet. It must be placed so it does
not affect the exhaust at reversible running. This means that
it has to be placed before the control valve.
LZL Circuits
LZB Circuits
Non-reversible duty
with 3/2 valve
Non-reversible
Reversible duty
with 5/3 valve and
closed mid position
Reversible
Figure 11
Reversible duty
with 5/3 valve and
open mid position
A = Filter
B = Pressure regulator
C = Oil fog lubricator
D = Silencer
E = 5/3 valve
F = Air motor
G = 3/2 valve
1 = Inlet restrictor
2 = Outlet restrictor
Figure 12
A = Filter
B = Pressure regulator
C = Oil fog lubricator
D = Silencer
E = 5/3 valve
F = Air motor
Figure 13
The direction of rotation is controlled manually by a lever-operated 5/3
valve. The air preparation unit ensures that the motor is supplied with
clean air and lubrication. The built-in pressure regulator can also be used
to modify the output of the motor.
AT L A S C O P C O A I R M OTO R S
11
INTRODUCTION TO
ATLAS COPCO AIR MOTORS
AND GEAR UNITS
LZB Vane motors – 0.1 kW to 2.8 kW
Type LZB Atlas Copco vane motors are compact in design,
light in weight, and available with a host of different gear
­ratios to meet a variety of speed and torque requirements.
They are particularly s­ uitable for building into handheld machines, or indeed any industrial equipment.
Planetary gear units
Atlas Copco planetary gear units are particularly suitable for
use with LZB vane motors. The gear and motor components
can be accommodated within a single, extremely compact
housing where they provide high torque capacity for their
size and exceptional efficiency, Figure 9.
Stainless steel air motors
Atlas Copco’s stainless steel motors enlarge the field of applications to areas where the environment is corrosive. This
can be in the food processing industries where corrosive
detergents are used or in the chemical industry where the
atmosphere as such is corrosive.
Atlas Copco’s stainless steel motors have a “clean“ design.
Their smooth surfaces are cylindrical with no pockets where
dirt can c­ ollect. The motors are easy to clean.
The motors have double seals in Viton at the output shaft to
prevent dirt and liquids from entering the motor gears. The
seals also prevent the gear lubricant from leaking out. All
external parts, including the output shaft, are made of stainless steel. The grease in the motor complies with NSF H1
and FDA 21CFR § 178.3570.
Explosion proof
All our air motors are explosion proof certified for fixtured
applications, in compliance with the European Union´s ATEX
directive 94/9/EC. For equipment used in potentially explosive
environments. The LZL motors with Helical gears are not
ATEX certified.
Figure 9
12
AT L A S C O P C O A I R M OTO R S
EX-Certified air motors are ideal in hazardous environments
where sparks or high outer temperatures might otherwise
ignite explosive gases, vapour or dust.
See Explosion prevention guidelines on page 87 and the
ATEX key: how to read the ATEX code on page 88.
Lubrication free air motors
Atlas Copco’s lubrication free air motors are equipped with
low-friction vanes, sealed bearings and vented cylinder p
­ lates.
Since they release no lubricants into the air, they offer a
viable drive solution for sensitive processes and hygienic
environments where oil contamination would be at best a
problem and, at worst, a catastrophe.
LZL vane motors – 1.05 kW to 6.5 kW
Type LZL Atlas Copco vane motors have been designed to
offer outstanding starting and low speed performance. These
general purpose motors are powerful, rugged and hard wear­
ing, Figure 10.
LZB33 high torque –
low speed air motors
Achieving high torques generally calls for very
large motors with correspondingly high air consumption. The LZB33 high torque/low speed air
motors are based on the combination of LZB33,
the workhorse in Atlas Copco´s air motor program, and the gears used in the large LZB42-54
motors. This gives a compact motor/gear
package. The gears are dimensioned to stand being l­oaded
at full stall torque indefinitely.
Competing low speed air motors
often have to limit their output torques to prevent gear breakage.
Figure 10
Helical gear units
LZB22-LR, LZB33-LR and LZB34-RL-LR
low speed ­air motors
Atlas Copco helical gear units are normally fitted to Type LZL
vane motors. Standard units are highly efficient, providing
speeds of 500 r/min down to 17 r/min and output torque up
to 3200 Nm. The gear unit is connected to the motor with
IEC flange, Figure 11.
When there is a need for low speed only, LR
motors offer a complete and low price solution
compared to the high torque LZB33 air motors.
Motors with brake
The most popular vane motors, LZB33, 34, 54, are
available with parking brake. This brake is located
between the motor and the gear. It is a disc
brake that is spring activated when the motor is
not running. When the motor is started the brake
is released by a built-in pneumatic piston. The
brake is used when it is important that the
output shaft must not turn when
the motor isn’t running and
a ­torque is applied on the
shaft.
5000 r/min
Figure 11
500 r/min
A:
AR:
AV:
L:
LB:
LR:
R:
RL:
RLB:
RLR:
Clockwise rotation
Reversible
Anti-clockwise rotation
Lubrication free
With brake module
Low speed
Stainless steel
Stainless steel, lubrication free
Stainless steel, with brake module
Stainless steel, low speed
Table 1 explains what features the letters in the motor
designation stand for.
Table 1
AT L A S C O P C O A I R M OTO R S
13
LZB
VANE MOTORS
14
AT L A S C O P C O A I R M OTO R S
AT L A S C O P C O A I R M OTO R S
15
LZB VANE MOTORS
Introduction
LZB vane motors are designed to provide high performance
and high standards of reliability. They are characterized by
high power output and small physical size, Figure 12.
Fr
(N)
3500
3000
2500
2000
1500
1000
500
Figure 12
1000
500
1500
2000
2500
3000
3500
4000
4500
5000
Fa
(N)
Curve e
Curve g
The design of the motor is long and slim. This gives a number of advantages, such as high power-to-volume ratio, low
air consumption and long vane life. All motors utilize five
vanes, which are supplied with vane air, to ensure excellent
starting and low speed performance. Multi-step planetary
gears are used to meet the torque and speed requirements
of the application, offering high efficiency with compact
dimensions.
Fr
Cylindric
A
Threa
Fa
shaft
Shaft loading
shaft
Figure 14
The maximum allowable loads on a given motor´s output
shaft are illustrated in Figures 13, 14. The relevant load curve
code for a motor is stated in the data tables for each specific motor designation, under the ”Shaft load code” column.
These values have been calculated for shaft and bearing
­working lives of 10 million turns. To achieve a working life of
100 million turns, the loading factor must be halved.
Fr
(N)
2000
1500
1000
500
Fr
Threaded
Fa
500
Curve d
Curve c
Curve b
Curve a
Fa
shaft
1000
1500
Fa
2000 (N)
A = 20 mm
A = 15 mm
A = 9 mm
A = 8 mm
Coversion factor
1N = 0.225 lbf
Figure 13
Fr
(N)
Fr
(N)
4000
450
400
3000
350
300
2000
250
200
150
1000
100
50
0
500
1000
Curve a
Curve b
Curve c
16
AT L A S C O P C O A I R M OTO R S
1500
2000
2500
Fa
(N)
1000
Curve h
Curve g
Curve f
Curve e
2000
A = 20 mm
A = 15 mm
A = 20 mm
A = 15 mm
3000
4000
5000
6000
7000
Fa
(N)
Reversible Motor
Type LZB vane motors may be mounted in any position. To
facilitate this, flange and foot mounting are available for each
motor, Figure 15.
The compressed air supply should be connected to the inlet
that gives the desired direction of rotation, Figure 17.
The inlet not in use functions as an additional outlet: it must
not be plugged.
1 2
Foot
1 2
Flange
Connection
Figure 15
Non-reversible Motor
When the compressed air supply is connected to the inlet,
the direction of rotation will be as shown in Figure 16. If the
exhaust air is to be piped away, a hose should be connected
to the exhaust outlet. (EXH).
Figure 17
Hose dimensions
Information on hose dimensions recommended for use with
type LZB air motors is detailed in Table 2. These dimensions
are valid for hose lengths up to 3 m. If lengths above that are
used, choose a one size larger hose.
Clockwise
rotation
Anti-clockwise
rotation
Figure 16
Hose size up to 3m length
Motor size
Rotation
Inlet
connection
thread
Inlet
connection
thread
Inlet
hose*
[bothoninlets
­reversible]
(BSP)
(NPTF)
(mm)
Inlet
recomended
nipple
­connection
(ordering
number)
LZB14
A, AV, AR
1/8"
8
9900 0240 00
LZB22
A, AV
1/8"
8
9900 0240 00
LZB22
AR, LR
1/8"
8
9900 0240 00
LZB33, LZB34
A, AV, AR, LR
1/4"
10
9900 0247 00
LZB42
A, AR
1/4"
10
9900 0247 00
LZB46
A, AV, AR
1/4"
10
9900 0247 00
LZB54
A, AV, AR
3/8"
13
9900 0248 00
LZB66
A, AR
3/8"
13
9900 0248 00
LZB77
A, AR
1/2" **
1/2"-14
16
9900 0244 00
* recommended minimum inner diameter
** alternative connection thread BSP ½" delivered with the product
Inlet
nipple*
diameter
Outlet
connection
thread
Outlet
hose*
Outlet
recomended
nipple connection
Outlet
nipple*
diameter
(mm)
(BSP)
(mm)
(order number)
(mm)
5.0
5.0
5.0
8.0
8.0
8.0
9.3
10.3
13.4
1/8"
1/4"
1/8"
1/4"
1/2"
1/2"
1/2"
3/4"
-
8
10
8
10
16
16
16
20
-
9900 0240 00
9900 0247 00
9900 0240 00
9900 0247 00
9900 0244 00
9900 0244 00
9900 0244 00
9900 0245 00
-
5.0
8.0
5.0
8.0
13.4
13.4
13.4
17
Table 2
AT L A S C O P C O A I R M OTO R S
17
LZB VANE MOTORS
Mounting
VANE MOTORS LZB14-L
Lubrication free
0.11 – 0.16 kW
0.15 – 0.21 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Speed
at max
output
Max
output
Model
Lubrication free
[kW] [hp]
[r/min]
Clockwise rotation (Keyed shaft)
LZB14-L-A190-11
0.16
0.21
9100
LZB14-L-A048-11
0.16
0.21
2200
LZB14-L-A029-11
0.16
0.21
1330
LZB14-L-A012-11
0.16
0.21
530
LZB14-L-A007-11
0.16
0.21
320
Clockwise rotation (Threaded shaft)
LZB14-L-A190-12
0.16
0.21
9100
LZB14-L-A048-12
0.16
0.21
2200
LZB14-L-A029-12
0.16
0.21
1330
LZB14-L-A012-12
0.16
0.21
530
LZB14-L-A007-12
0.16
0.21
320
Anti-clockwise rotation (Keyed shaft)
LZB14-L-AV190-11
0.16
0.21
9100
LZB14-L-AV048-11
0.16
0.21
2200
LZB14-L-AV029-11
0.16
0.21
1330
LZB14-L-AV012-11
0.16
0.21
530
LZB14-L-AV007-11
0.16
0.21
320
Reversible (Keyed shaft)
LZB14-L-AR140-11
0.11
0.15
7000
LZB14-L-AR034-11
0.11
0.15
1690
LZB14-L-AR020-11
0.11
0.15
1020
LZB14-L-AR008-11
0.11
0.15
410
LZB14-L-AR005-11
0.11
0.15
250
Torque
at max
output
Torque
at max
output
Min
starting
torque
[Nm]
[lb-ft]
[Nm]
[lb-ft]
0.17
0.7
1.15
2.9
4.8
0.13
0.52
0.85
2.1
3.5
0.29
1.23
2
5.1
8.5
0.17
0.7
1.15
2.9
4.8
0.13
0.52
0.85
2.1
3.5
0.17
0.7
1.15
2.9
4.8
0.15
0.62
1.03
2.6
4.3
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
0.21
0.91
1.48
3.8
6.27
0.34
1.4
2.3
5.8
9.6
0.25
1.03
1.7
4.28
7.1
19500
4800
2900
1140
700
4.0
4.0
4.0
4.0
4.0
8.5
8.5
8.5
8.5
8.5
0.30
0.30
0.30
0.33
0.33
0.66
0.66
0.66
0.73
0.73
0.29
1.23
2.0
5.1
8.5
0.21
0.91
1.48
3.8
6.27
0.34
1.4
2.3
5.8
9.6
0.25
1.03
1.7
4.28
7.1
19500
4800
2900
1140
700
4.0
4.0
4.0
4.0
4.0
8.5
8.5
8.5
8.5
8.5
0.30
0.30
0.30
0.33
0.33
0.13
0.52
0.85
2.1
3.5
0.23
0.99
1.63
4.1
6.8
0.17
0.73
1.2
3.0
5.0
0.34
1.4
2.3
5.8
9.6
0.25
1.03
1.7
4.3
7.1
19500
4800
2900
1140
700
4.0
4.0
4.0
4.0
4.0
8.5
8.5
8.5
8.5
8.5
0.11
0.46
0.76
1.92
3.2
0.24
1.01
1.67
4.2
6.9
0.18
0.74
1.23
3.1
5.1
0.3
1.24
2.1
5.2
8.6
0.22
0.91
1.5
3.8
6.3
13000
3400
2000
800
490
3.6
3.6
3.6
3.6
3.6
7.6
7.6
7.6
7.6
7.6
Weight
ATEX code
Ordering
No.
a
a
a
a
a
Ex II 2GD c T4 IIC T110°C Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0113 00
8411 0113 18
8411 0113 26
8411 0113 34
8411 0113 42
0.66
0.66
0.66
0.73
0.73
a
a
a
a
a
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0114 09
8411 0114 17
8411 0114 25
8411 0114 33
8411 0114 41
0.30
0.30
0.30
0.33
0.33
0.66
0.66
0.66
0.73
0.73
a
a
a
a
a
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0117 06
8411 0117 14
8411 0117 22
8411 0117 30
8411 0117 48
0.30
0.30
0.30
0.33
0.33
0.66
0.66
0.66
0.73
0.73
a
a
a
a
a
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0115 08
8411 0115 16
8411 0115 24
8411 0115 32
8411 0115 40
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
Conversion factor 1 mm = 0.04 inch
Dimensions (mm)
Keyed shaft (-11)
Threaded shaft (-12)
130.5*
7.9
17
111*
7.9
12
Reversible
9.5
2
A/F 23
BSP 1/8”
123*
Ø27
6.8
A/F 25
BSP 1/8”
6.8
Ø6 h6
7.9
*) +9.8 mm for LZB14
A012, A007, AR008, AR005,
AV012, AV007
2 h7
3.95
6.8
111*
5/16” -24 UNF
Clockwise/
Anti-clockwise
Optional mountings
2
2
52
2
Foot
Ordering No. 4430 0189 80
18
AT L A S C O P C O A I R M OTO R S
M5
28.2
30
80
ø30h7
29.5
60
30
3.5
R1
21
5
ø5.5
15.5
Flange
Ordering No. 4430 0165 85
Optional
accessories
pages 66-67.
LZB VANE MOTORS
VANE MOTORS LZB14-RL
Stainless steel and lubrication free
0.11 – 0.16 kW
0.15 – 0.21 hp
Material in parts:
• back head and front part stainless steel:
ISO 683/XIII Type 17, SS 14 2346, DIN 17440 X12CrNiS188
• outgoing shaft and casing/gear rim stainless steel:
ISO 683/XIII Type 9b, SS 14 2321, DIN 17440 X22CrNi17
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Speed
at max
output
Max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
Min
starting Stall
torque torque
Stall
torque
Model
Lubrication free
[kW] [hp]
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
Clockwise rotation (Keyed shaft)
LZB14-RL-A190-11
0.16
0.21
9100
0.17
0.13
0.29
0.21
0.34
0.25
LZB14-RL-A048-11
0.16
0.21
2200
0.70
0.52
1.23
0.91
1.4
1.03
LZB14-RL-A029-11
0.16
0.21
1330
1.15
0.85
2.0
1.48
2.3
1.7
LZB14-RL-A012-11
0.16
0.21
530
2.9
2.1
5.1
3.8
5.8
4.3
LZB14-RL-A007-11
0.16
0.21
320
4.8
3.5
8.5
6.3
9.6
7.1
Reversible (Keyed shaft)
LZB14-RL-AR140-11 0.11
0.15
7000
0.15
0.11
0.24
0.18
0.3
0.22
LZB14-RL-AR034-11 0.11
0.15
1690
0.62
0.46
1.01
0.74
1.24
0.91
LZB14-RL-AR020-11 0.11
0.15
1020
1.03
0.76
1.67
1.23
2.1
1.5
LZB14-RL-AR008-11 0.11
0.15
410
2.6
1.92
4.2
3.1
5.2
3.8
LZB14-RL-AR005-11 0.11
0.15
250
4.3
3.2
6.9
5.1
8.6
6.3
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
Air
Free consumption
speed at max output
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code1)
19500
4800
2900
1140
700
4.0
4.0
4.0
4.0
4.0
8.5
8.5
8.5
8.5
8.5
0.37
0.37
0.37
0.40
0.40
0.82
0.82
0.82
0.88
0.88
13000
3400
2000
800
490
3.6
3.6
3.6
3.6
3.6
7.6
7.6
7.6
7.6
7.6
0.37
0.37
0.37
0.40
0.40
0.82
0.82
0.82
0.88
0.88
Dimensions (mm)
Weight
ATEX code
Ordering
No.
a
a
a
a
a
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0122 09
8411 0122 17
8411 0122 25
8411 0122 33
8411 0122 41
a
a
a
a
a
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0122 58
8411 0122 66
8411 0122 74
8411 0122 82
8411 0122 90
Conversion factor 1 mm = 0.04 inch
Keyed shaft (-11)
Clockwise
7.9
134*
17.1
114.2*
7.9
12
A/F 23
BSP 1/8”
Reversible
Ø27
2
6.8
6.8
BSP 1/8”
Optional mountings
52
2
2
2
60
Foot
Ordering No. 4430 0923 80
M5
28.2
30
72
ø30h7
30
3.5
R1
29.5
A/F 25
Ø6 h6
7.9
*) +9.8 mm for LZB14-RL
A012, A007, AR008, AR005
2 h7
3.95
6.8
21.8
5
Optional mountings
Flange
Orderingø5.5
No. 4430 0922 80
15.5
Flange
Ordering No. 4430 0922 80
Optional
accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
19
LZB14-L: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A and AV)
LZB14-L-A190
kW
0.18
0.16
0.14
0.12
kW
0.10
0.18
0.08
0.16
0.06
0.14
0.04
0.12
0.02
0.10
Nm
0.36
0.32
0.28
0.24
Nm
0.20
0.36
0.16
0.32
0.12
0.28
0.08
0.24
0.04
0.20
0.08
0.06
0.04
kW
0.02
0.18
0.16
0.12
0.08
Nm
0.04
4 r/min
4000 8000 12000 16000 20000
3
2
LZB14-L-A012
l/s
1
0.16
0.14
0.12
6
kW Nm
0.10
5
0.18
4
0.08
0.16
0.06
3
0.14
2
0.04
0.12
6
0.02
1
0.10
5
4
0.08
0.06
3
2
0.04
0.02
1
4000 8000 12000 16000 20000 r/min
kW Nm
0.12
l/s
LZB14-L-A190
l/s
5
4
3
2
1
5
LZB14-L-A012
l/s
5
4
3
2
1
5
200 400 600 800 1000 12004 r/min
3
2
1
200 400 600 800 1000 1200 r/min
LZB14-L-AR140
l/s
kW
0.18
0.16
0.14
0.12
kW
0.10
0.18
0.08
0.16
0.06
0.14
0.04
0.12
0.02
0.10
Nm
1.6
1.4
1.2
Nm
1.0
0.8
1.6
0.6
1.4
0.4
1.2
0.2
1.0
0.8
0.6
0.4
Nm
0.2
0.08
0.06
0.04
kW
0.02
0.18
0.16
0.14
0.12
kW
0.10
0.18
0.08
0.16
0.06
0.14
0.04
0.12
0.02
0.10
10.5
9.0
Nm
7.5
6.0
4.5
10.5
3.0
9.0
1.5
7.5
0.08
0.06
0.04
0.02
6.0
4.5
3.0
1.5
LZB14-L-A048
l/s
LZB14-L-A048
l/s
5
4
3
2
1
5
1000 2000 3000 4000 50004 r/min
3
2
LZB14-L-A007
l/s
1
kW Nm
0.18
0.16 2.4
0.14 2.1
0.12
1.8
kW Nm
0.10 1.5
0.18
1.2
0.08 2.4
0.16
0.06 2.1
0.9
0.14
0.6
0.04 1.8
0.12
0.02 1.5
0.3
0.10
0.08 1.2
0.06 0.9
0.04 0.6
0.02 0.3
1000 2000 3000 4000 5000 r/min
kW Nm
0.12
LZB14-L-A007
LZB14-L-A029
l/s
LZB14-L-A029
l/s
5
4
3
2
1
5
500 1000 1500 2000 2500 30004 r/min
3
2
1
500 1000 1500 2000 2500 3000 r/min
l/s
5
4
3
2
1
5
100 200 300 400 500 600 7004 r/min
3
2
1
100 200 300 400 500 600 700 r/min
LZB14-L-AR034
l/s
Reversible
(AR)
LZB14-L-AR020
kW Nm
0.12 2.4
0.10
5
0.10 1.5
5
0.10
0.08 0.4
kW Nm
0.12
0.06 0.3
4
l/s
4
l/s
3
0.08 1.2
kW Nm
0.12
0.06 0.9
3
0.08 1.6
kW Nm
0.12
0.06 2.4
1.2
0.10
0.04 0.2
5
2
0.10
0.04 1.5
0.6
5
2
0.10
0.04
2.0
0.8
5
2
0.08
0.02 0.4
0.1
4
1
0.08
0.02 1.2
0.3
4
1
0.08
0.02
1.6
0.4
4
1
0.06 0.3
3
r/min
2
0.06 0.9
0.06
1.2
0.04
0.8
1l/s
0.02
Nm
kW 0.3
0.12 9.0
0.02
0.4
0.04 0.2
0.02
0.1
kW Nm
0.12
6
0.10
5
0.08
4
kW Nm
0.12
6
0.06
3
LZB14-L-AR140
4000
8000
12000
LZB14-L-AR008
4000
8000
12000
LZB14-L-AR008
r/min
5
0.04 0.6
0.10 7.5
3
0.08 6.0
kW Nm
0.12
0.06 9.0
4.5
4
l/s
LZB14-L-AR034
3
500 1000 15002000250030003500 r/min
2
LZB14-L-AR005
1l/s
LZB14-L-AR005
0.10
0.04 7.5
3.0
5
2
0.08
0.02
4
1
4
1
0.08
0.02 6.0
1.5
4
1
0.06
3
0.04
2
0.02
1
600
800
3
1000 r/min
2
1
400
600
800
1000 r/min
0.06 4.5
0.04 3.0
LZB14-L-AR020
100
200
300
400
0.02 1.5
3
3
400 800 1200 1600 2000 2400 r/min
2
1
400 800 1200 1600 2000 2400 r/min
3
500 r/min
2
1
100
200
300
400
Torque
[Nm]
Power
[kW]
Max
output
500 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
AT L A S C O P C O A I R M OTO R S
4
l/s
3
5
2
400
5
4
l/s
5
2
200
2.0
500 1000 15002000250030003500 r/min
5
0.10
0.04
200
20
l/s
LZB VANE MOTORS
VANE MOTORS LZB22-L
Lubrication free
0.16 – 0.27 kW
0.21 – 0.36 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Model
Lubrication free
[kW] [hp]
[r/min]
Clockwise rotation (Keyed shaft)
LZB22-L-A220-11
0.27
0.36
9600
LZB22-L-A049-11
0.27
0.36
2100
LZB22-L-A036-11
0.27
0.36
1590
LZB22-L-A022-11
0.27
0.36
960
LZB22-L-A011-11
0.26
0.35
480
LZB22-L-A008-11
0.26
0.35
360
LZB22-L-A005-11
0.26
0.35
210
Clockwise rotation (Threaded shaft)
LZB22-L-A220-12
0.27
0.36
9600
LZB22-L-A049-12
0.27
0.36
2100
LZB22-L-A036-12
0.27
0.36
1590
LZB22-L-A022-12
0.27
0.36
960
LZB22-L-A011-12
0.26
0.35
480
LZB22-L-A008-12
0.26
0.35
360
LZB22-L-A005-12
0.26
0.35
210
Anti-clockwise rotation (Keyed shaft)
LZB22-L-AV220-11
0.27
0.36
9600
LZB22-L-AV049-11
0.27
0.36
2100
LZB22-L-AV036-11
0.27
0.36
1590
LZB22-L-AV022-11
0.27
0.36
960
LZB22-L-AV011-11
0.26
0.35
480
LZB22-L-AV008-11
0.26
0.35
360
LZB22-L-AV005-11
0.26
0.35
210
Reversible (Keyed shaft)
LZB22-L-AR126-11
0.16
0.21
7000
LZB22-L-AR028-11
0.16
0.21
1570
LZB22-L-AR021-11
0.16
0.21
1170
LZB22-L-AR013-11
0.16
0.21
700
LZB22-L-AR006-11
0.16
0.21
350
LZB22-L-AR005-11
0.16
0.21
260
LZB22-L-AR003-11
0.16
0.21
160
Torque
at max
output
Torque
at max
output
Min
starting
torque
[Nm]
[lb-ft]
[Nm]
[lb-ft]
0.27
1.2
1.6
2.7
5.3
7.1
11.8
0.20
0.89
1.2
2.0
3.9
5.2
8.7
0.51
2.3
3.1
5.1
10
13.5
22
0.27
1.2
1.6
2.7
5.3
7.1
11.8
0.20
0.89
1.2
2.0
3.9
5.2
8.7
0.27
1.2
1.6
2.7
5.3
7.1
11.8
0.24
1.1
1.4
2.4
4.7
6.3
10.5
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
0.38
1.7
2.3
3.8
7.4
10
16.2
0.54
2.4
3.2
5.4
10.6
14.2
23.6
0.4
1.8
2.4
4.0
7.8
10.5
17.4
21500
4700
3550
2100
1040
770
480
5.3
5.3
5.3
5.3
5.3
5.3
5.3
11.2
11.2
11.2
11.2
11.2
11.2
11.2
0.55
0.55
0.55
0.55
0.75
0.75
0.75
1.21
1.21
1.21
1.21
1.65
1.65
1.65
0.51
2.3
3.1
5.1
10
13.5
22
0.38
1.7
2.3
3.8
7.4
10
16.2
0.54
2.4
3.2
5.4
10.6
14.2
23.6
0.4
1.8
2.4
4.0
7.8
10.5
17.4
21500
4700
3550
2100
1040
770
480
5.3
5.3
5.3
5.3
5.3
5.3
5.3
11.2
11.2
11.2
11.2
11.2
11.2
11.2
0.55
0.55
0.55
0.55
0.75
0.75
0.75
0.20
0.89
1.2
2.0
3.9
5.2
8.7
0.32
1.4
1.9
3.2
6.0
8.5
14
0.24
1.0
1.4
2.3
4.4
6.2
10.3
0.54
2.4
3.2
5.4
10.6
14.2
23.6
0.4
1.8
2.4
4.0
7.8
10.5
17.4
21500
4700
3550
2100
1040
770
480
6.5
6.5
6.5
6.5
6.5
6.5
6.5
13.8
13.8
13.8
13.8
13.8
13.8
13.8
0.18
0.81
1.0
1.8
3.5
4.6
7.7
0.32
1.4
1.9
3.2
6.3
8.5
14
0.24
1.0
1.4
2.4
4.6
6.3
10.3
0.48
2.2
2.8
4.8
9.4
12.6
21
0.35
1.6
2.1
3.5
6.9
9.3
15.5
13100
2850
2100
1300
640
480
290
5.0
5.0
5.0
5.0
5.0
5.0
5.0
10.6
10.6
10.6
10.6
10.6
10.6
10.6
Weight
ATEX code
Ordering
No.
b
b
b
b
b
b
b
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0214 08
8411 0214 16
8411 0214 24
8411 0214 32
8411 0214 40
8411 0214 57
8411 0214 65
1.21
1.21
1.21
1.21
1.65
1.65
1.65
b
b
b
b
b
b
b
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0214 73
8411 0214 81
8411 0214 99
8411 0215 07
8411 0215 15
8411 0215 23
8411 0215 31
0.55
0.55
0.55
0.55
0.75
0.75
0.75
1.21
1.21
1.21
1.21
1.65
1.65
1.65
b
b
b
b
b
b
b
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0226 14
8411 0209 62
8411 0207 15
8411 0216 30
8411 0226 22
8411 0226 30
8411 0226 48
0.55
0.55
0.55
0.55
0.75
0.75
0.75
1.21
1.21
1.21
1.21
1.65
1.65
1.65
b
b
b
b
b
b
b
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0215 49
8411 0215 56
8411 0215 64
8411 0215 72
8411 0215 80
8411 0215 98
8411 0216 06
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
AT L A S C O P C O A I R M OTO R S
21
Dimensions (mm)
Conversion factor 1 mm = 0.04 inch
Clockwise
9.5
6
A/F 31
7.5
BSP 1/8”
Keyed shaft (-11)
135.5*
BSP 1/4”
5
23.5
Anti-clockwise
110.9*
Ø36
16
BSP 1/8”
A/F 33
7.7
Ø12
11.4
M4
3
BSP 1/4”
THREAD DEPTH 12 mm
*) +31 mm for
LZB22-L- A011LZB22-L- AV011LZB22-L- AR006
LZB22-L- A008LZB22- L- AV008LZB22- L- AR005
LZB22-L- A005LZB22- L- AV005LZB22- L- AR003
9.5
8
6
A/F 31
9.5
11.2
Reversible
3 h7
Ø10 h6
A/F 31
Threaded shaft (-12)
3/8” -24 UNF
127*
16
111*
11
Ø18
BSP 1/8”
Optional mountings
26
2
60
8
10
32
30
80
Ø30h7
30
R1
M5
15
50
Foot
Ordering No. 4430 0160 80
5
Ø5.5
18
37.2
Flange
Ordering No.
4110 0984 85 with holes
4110 0984 80 without holes
Optional accessories
pages 66-67.
22
AT L A S C O P C O A I R M OTO R S
LZB VANE MOTORS
VANE MOTORS LZB22-RL
Stainless steel and lubrication free
0.16 – 0.27 kW
0.21 – 0.36 hp
Material in parts:
• back head, casing and front part stainless steel:
ISO 683/XIII Type 17, SS 14 2346, DIN 17440 X12CrNiS188
• outgoing shaft and gear rim stainless steel: ISO 683/XIII
Type 9b, SS 14 2321, DIN 17440 X22CrNi17
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Model
Lubrication free
[kW] [hp]
Clockwise rotation (Keyed shaft)
LZB22-RL-A220-11
0.27
0.36
LZB22-RL-A049-11
0.27
0.36
LZB22-RL-A036-11
0.27
0.36
LZB22-RL-A022-11
0.27
0.36
LZB22-RL-A011-11
0.26
0.35
LZB22-RL-A008-11
0.26
0.35
LZB22-RL-A005-11
0.26
0.35
Reversible (Keyed shaft)
LZB22-RL-AR126-11 0.16
0.21
LZB22-RL-AR028-11 0.16
0.21
LZB22-RL-AR021-11 0.16
0.21
LZB22-RL-AR013-11 0.16
0.21
LZB22-RL-AR006-11 0.16
0.21
LZB22-RL-AR005-11 0.16
0.21
LZB22-RL-AR003-11 0.16
0.21
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
9600
2100
1590
960
480
360
210
0.27
1.2
1.6
2.7
5.3
7.1
11.8
0.20
0.89
1.2
2.0
3.9
5.2
8.7
0.51
2.3
3.1
5.1
10
13.5
22
7000
1570
1170
700
350
260
160
0.24
1.1
1.4
2.4
4.7
6.3
10.5
0.18
0.81
1.0
1.8
3.5
4.6
7.7
0.32
1.4
1.9
3.2
6.3
8.5
14
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
0.38
1.7
2.3
3.8
7.4
10
16.2
0.54
2.4
3.2
5.4
10.6
14.2
23.6
0.4
1.8
2.4
4.0
7.8
10.5
17.4
19500
4700
3550
2100
1040
770
480
5.3
5.3
5.3
5.3
5.3
5.3
5.3
11.2
11.2
11.2
11.2
11.2
11.2
11.2
0.63
0.63
0.63
0.63
0.83
0.83
0.83
1.39
1.39
1.39
1.39
1.83
1.83
1.83
0.24
1.0
1.4
2.4
4.6
6.3
10.3
0.48
2.2
2.8
4.8
9.4
12.6
21
0.35
1.6
2.1
3.5
6.9
9.3
15.5
13100
2850
2100
1300
640
480
290
5.0
5.0
5.0
5.0
5.0
5.0
5.0
10.6
10.6
10.6
10.6
10.6
10.6
10.6
0.63
0.63
0.63
0.63
0.83
0.83
0.83
1.39
1.39
1.39
1.39
1.83
1.83
1.83
Weight
ATEX code
Ordering
No.
b
b
b
b
b
b
b
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0219 11
8411 0219 29
8411 0219 37
8411 0219 45
8411 0219 52
8411 0219 60
8411 0219 78
b
b
b
b
b
b
b
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0220 83
8411 0220 75
8411 0222 16
8411 0220 67
8411 0220 59
8411 0222 08
8411 0220 91
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
Dimensions (mm)
Conversion factor 1 mm = 0.04 inch
Clockwise
Keyed shaft (-11)
9.5
139.5*
BSP 1/8”
3
115*
18
3 h7
5
BSP 1/4”
Ø10 h6
*) +31.2 mm for
LZB22-RL- A011, LZB22-RL- AR006
LZB22-RL- A008, LZB22-RL- AR005
LZB22-RL- A005, LZB22-RL- AR003
THREAD DEPTH 12 mm
9.5
8
6
A/F 31
9.5
26.5
Optional mounting
2
60
BSP 1/8”
8
Ø30 h7
30
R1
10
32
30
72
Reversible
11.2
Ø36
7.5
Ø12
6
M4
24.5
15
M5
50
Foot
Ordering No. 4430 0862 80
37.2
Ø5.5
5
18
Flange
Ordering No. 4430 0861 80
Optional
accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
23
LZB22-L, LZB22-RL: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A and AV)
LZB22-L-A220
kW Nm
0.30
l/s
0.25 0.75
kW
0.20
0.30
0.15
0.25
0.10
0.20
0.05
0.15
LZB22-L-A220
Nm
0.60
7.5
0.25
2.5
l/s
6.0
kW
0.20
0.30
0.15
0.25
0.10
0.20
0.05
0.15
Nm
2.0
3.0
1.5
2.5
1.0
2.0
0.5
1.5
4.5
7.5
3.0
6.0
1.5
4.5
0.45
0.75
0.30
0.60
0.15
0.45
LZB22-L-A049
kW Nm
0.30 3.0
LZB22-L-A049
4000 8000 12000 16000 20000 24000
3.0r/min
LZB22-L-A022
l/s
1.5
0.10 1.0
kW Nm
0.05 0.5
0.30 12
1000
0.25
7.5
4000 8000 12000 16000 20000 24000
7.5r/min
0.25
1000
kW
0.20
0.30
0.15
0.25
0.10
0.20
0.05
0.15
Nm
6.0
LZB22-L-A022
l/s
6.0
4.5
7.5
3.0
6.0
1.5
4.5
4.5
7.5
3.0
6.0
1.5
4.5
0.10 3.0
kW Nm
0.05 1.5
0.30 30
400
0.25
25
400
kW
0.20
0.30
0.15
0.25
0.10
0.20
0.05
0.15
Nm
20
30
15
25
10
20
5
15
0.10
10
0.05
5
800
1200 1600 2000 24003.0r/min
l/s
1.5
LZB22-L-A005
800
10
4
0.05
2
7.5r/min
1200 1600 2000 2400
LZB22-L-A005
3000
4000
2000
3000
4000
LZB22-L-A011
kW Nm
0.20
8
0.30 12
0.15
6
0.25 10
0.10
4
0.20
8
0.05
2
0.15
6
0.10
2000
LZB22-L-A011
0.25
l/s
6.0
kW Nm
0.20
4
0.30
0.15
3
0.25
0.10
2
0.20
4
0.05
1
0.15
3
400
600
800
1000
7.5r/min
5000
0.25
1000
1.5
200
400
600
800
15
0.10
6
0.05
3
2000
2000
40003.0
r/min
l/s
1.5
3000
LZB22-L-A008
4000
7.5r/min
l/s
6.0
4.5
7.5
3.0
6.0
1.5
4.5
200
400
600
800
10003.0r/min
1.5
200
1000 1200 r/min
3000
LZB22-L-A008
kW Nm
0.20 12
0.30 18
0.15
9
0.25 15
0.10
6
0.20 12
0.05
3
0.15
9
1000 12003.0r/min
l/s
6.0
4.5
7.5
3.0
6.0
1.5
4.5
0.10
2
kW Nm
0.05
1
0.30 18
4.5
7.5
3.0
6.0
1.5
4.5
200
LZB22-L-A036
50003.0r/min
l/s
1.5
l/s
6.0
l/s
7.5
7.5
4.5
7.5
3.0
6.0
1.5
4.5
0.10 0.30
kW Nm
0.05 0.15
0.30
LZB22-L-A036
kW Nm
0.30
l/s
400
600
800
1000 r/min
l/s
6.0
4.5
7.5
3.0
6.0
1.5
4.5
100
200
300
400
5003.0
r/min
1.5
LZB22-L, LZB22-RL: Performance curves at air pressure 6.3 bar (91 psi)
kW Nm
0.18 0.45
0.16 0.40
0.14 0.35
Nm
kW 0.30
0.12
0.18 0.25
0.45
0.10
0.16 0.20
0.40
0.08
0.14 0.15
0.35
0.06
0.12 0.10
0.30
0.04
0.10 0.05
0.25
0.02
0.08 0.20
0.06 0.15
0.04 0.10
Nm
kW
0.02 0.05
0.18
4.5
0.16 4.0
0.14 3.5
kW Nm
0.12
3.0
0.18 2.5
4.5
0.10
0.16
4.0
0.08 2.0
0.14 1.5
3.5
0.06
0.12 1.0
3.0
0.04
0.10 0.5
2.5
0.02
0.08 2.0
0.06 1.5
0.04 1.0
kW Nm
0.02 0.5
0.18
0.16
0.14 21
kW Nm
0.12
18
0.18 15
0.10
0.16
0.08 12
0.14 21
0.06
9
0.12 18
0.04
6
0.10 15
0.02
3
0.08 12
0.06
9
0.04
6
0.02
3
100
200
300
400
LZB22-L-AR126
500
l/sr/min
LZB22-L-AR126
6l/s
5
4
3
26
15
4
r/min
3
2
l/s
1
4000
8000
12000
LZB22-L-AR013
4000
8000
12000
r/min
LZB22-L-AR013
6l/s
5
4
3
26
15
4
200 400 600 800 1000 1200 14003r/min
LZB22-L-AR003
2
l/s
1
200 400 600 800 1000 1200 1400 r/min
LZB22-L-AR003
50
6l/s
5
4
3
26
15
4
100 150 200 250 300 350 3r/min
2
1
50
kW
0.18
0.16
0.14
kW
0.12
0.18
0.10
0.16
0.08
0.14
0.06
0.12
0.04
0.10
0.02
0.08
0.06
0.04
kW
0.02
0.18
Nm
LZB22-L-AR028
Reversible (AR)
2.1
Nm
1.8
1.5
1.2
2.1
0.9
1.8
0.6
1.5
0.3
1.2
0.9
0.6
Nm
0.39
0.16
8
0.14
7
kW Nm
0.12
6
0.18
0.10
59
0.16
0.08
48
0.14
0.06
37
0.12
0.04
26
0.10
0.02
15
0.08
4
0.06
3
0.04
2
0.02
1
l/s
kW
0.18
0.16
0.14
kW
0.12
0.18
0.10
0.16
0.08
0.14
0.06
0.12
0.04
0.10
0.02
0.08
0.06
0.04
kW
0.02
0.18
LZB22-L-AR028
6l/s
5
4
3
26
15
4
500 1000 1500 2000 2500 3000 35003r/min
2
LZB22-L-AR006
l/s
1
Nm
2.7
2.4
2.1
Nm
1.8
2.7
1.5
2.4
1.2
2.1
0.9
1.8
0.6
1.5
0.3
1.2
0.9
0.6
Nm
0.3
0.16 12.0
0.14 10.5
kW Nm
0.12
9.0
0.18 7.5
0.10
0.16
12.0
0.08 6.0
0.14 10.5
0.06
4.5
0.12 3.0
9.0
0.04
0.10 1.5
7.5
0.02
0.08 6.0
0.06 4.5
0.04 3.0
0.02 1.5
500 1000 1500 2000 2500 3000 3500 r/min
LZB22-L-AR006
6l/s
5
4
3
26
15
4
100 200 300 400 500 600 7003r/min
2
1
Max
output
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
6l/s
5
4
3
26
15
4
400 800 1200 1600 2000 2400 3r/min
2
LZB22-L-AR005
l/s
1
400
800
100
200
300
400
500
6l/s
5
4
3
26
15
4
600 3r/min
2
1
200
300
400
500
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
100 150 200 250 300 350 r/min
Speed [r/min]
AT L A S C O P C O A I R M OTO R S
1200 1600 2000 2400 r/min
LZB22-L-AR005
For information about performance curves, see page 7.
24
l/s
LZB22-L-AR021
100
100 200 300 400 500 600 700 r/min
Torque
[Nm]
Power
[kW]
LZB22-L-AR021
600 r/min
LZB VANE MOTORS
VANE MOTORS LZB22-LR
Low speed, lubrication free and reversible
LZB22-RL-LR
Stainless steel, low speed, lubrication free
and reversible
Maximum permitted torque 9 Nm (6.6 lbf∙ft)
Within their working range these motors have a very steep torque curve.
Speed and air consumption are relatively constant regardless of the load.
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Free speed
Air
consumption at max output
Weight
Model
Lubrication free
[r/min]
[l/s
[cfm]
[kg]
[lb]
LZB22-L-LR100-11
110
5.8
12.3
0.95
2.09
LZB22-L-LR5-11
5
5.8
12.3
1.35
3.0
Stainless steel
Lubrication free
LZB22-RL-LR100-11
110
5.8
12.3
1.03
2.27
LZB22-RL-LR5-11
5
5.8
12.3
1.43
3.15
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 10-20% at free speed.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
LZB22-L -LR100
Nm
60
50
kW
0.18
Nm
50
0.16
45
0.14
40
0.12
40
0.10
30
0.08
20
Limit
0.06
0.04
10
0
0
20
40
60
80
100
120
ATEX code
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ordering No.
8411 0216 22
8411 0216 14
b
b
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0222 40
8411 0222 57
kW
0.020
LZB22-L-LR5
0.015
35
30
0.010
25
20
Limit
15
0.005
10
0.02
5
0
0
140 r/min
Shaft loading
code 1)
b
b
5.6
5.7
0
r/min
AT L A S C O P C O A I R M OTO R S
25
Conversion factor 1 mm = 0.04 inch
Dimensions LZB22-LR, LZB22-L-LR (mm)
Reversible
198.5*
9.5
23.5
9.5
172.9*
16
Ø36
3
BSP 1/8”
11.2
Ø10 h6
A/F 33
Ø12
8
6
A/F 31
M4
3 h7
*) +62 mm for LZB22-LR5.
THREAD DEPTH 12mm
Optional mountings
26
2
60
8
10
32
30
80
Ø30h7
30
R1
M5
5
15
50
Ø5.5
37.2
18
Foot
Ordering No. 4430 0160 80
Flange
Ordering No. 4110 0984 85 with holes
4110 0984 80 without holes
202.1*
9.5
24.5
9.5
177.5*
18
Ø36
3
BSP 1/8”
THREAD DEPTH 12mm
26.5
2
60
10
32
30
72
Ø30 h7
30
8
R1
15
M5
50
26
AT L A S C O P C O A I R M OTO R S
37.2
Ø5.5
5
18
11.2
Ø10 h6
A/F 33
Ø12
8
6
A/F 31
M4
3 h7
Conversion factor 1 mm = 0.04 inch
Reversible
202.1*
9.5
24.5
9.5
177.5*
18
Ø36
3
BSP 1/8”
11.2
Ø10 h6
A/F 33
Ø12
8
6
A/F 31
M4
3 h7
*) +62 mm for LZB22RL- LR5.
THREAD DEPTH 12mm
Optional mountings
26.5
2
60
10
32
30
72
Ø30 h7
30
8
R1
15
M5
50
Foot
Ordering No. 4430 0862 80
37.2
Ø5.5
5
18
Flange
Ordering No. 4430 0861 80
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
27
LZB VANE MOTORS
Dimensions LZB22-RL-LR (mm)
VANE MOTORS LZB33-L
Lubrication free
0.24 – 0.39 kW
0.32 – 0.52 hp
EX certification valid for fixture mounted use only with a maximum surrounding
temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
Min
starting Stall
torque torque
Stall
torque
Model
Lubrication free
[kW] [hp]
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
Clockwise rotation (Keyed shaft)
LZB33-L-A210-11
0.39
0.52
9400
0.4
0.3
0.76
0.56
0.8
0.59
LZB33-L-A060-11
0.39
0.52
2600
1.4
1.0
2.7
2.0
2.8
2.1
LZB33-L-A033-11
0.39
0.52
1450
2.6
1.9
4.9
3.6
5.2
3.8
LZB33-L-A026-11
0.39
0.52
1170
3.2
2.4
6.1
4.5
6.4
4.7
LZB33-L-A013-11
0.38
0.51
580
6.4
4.7
12
8.9
12.8
9.4
LZB33-L-A007-11
0.38
0.51
320
11.5
8.5
21
15.5
23
17
LZB33-L-A005-11
0.38
0.51
260
14.2
10.5
26
19.2
28
21
LZB33-L-A0030-11
0.37
0.50
160
22.3
16.4
40
30
45
33
Clockwise rotation (Threaded shaft)
LZB33-L-A210-12
0.39
0.52
9400
0.4
0.3
0.76
0.56
0.8
0.59
LZB33-L-A060-12
0.39
0.52
2600
1.4
1.0
2.7
2.0
2.8
2.1
LZB33-L-A033-12
0.39
0.52
1450
2.6
1.9
4.9
3.6
5.2
3.8
LZB33-L-A026-12
0.39
0.52
1170
3.2
2.4
6.1
4.5
6.4
4.7
LZB33-L-A013-12
0.38
0.51
580
6.4
4.7
12
8.9
12.8
9.4
LZB33-L-A007-12
0.38
0.51
320
11.5
8.5
21
15.5
23
17
LZB33-L-A005-12
0.38
0.51
260
14.2
10.5
26
19.2
28
21
Anti-clockwise rotation (Keyed shaft)
LZB33-L-AV210-11
0.39
0.52
9400
0.4
0.3
0.69
0.51
0.8
0.59
LZB33-L-AV060-11
0.39
0.52
2600
1.4
1.0
2.4
1.8
2.8
2.1
LZB33-L-AV033-11
0.39
0.52
1450
2.6
1.9
4.4
3.2
5.2
3.8
LZB33-L-AV026-11
0.39
0.52
1170
3.2
2.4
5.5
4.1
6.4
4.7
12.8
9.4
LZB33-L-AV013-11
0.38
0.51
580
6.4
4.7
11
8.1
LZB33-L-AV007-11
0.38
0.51
320
11.5
8.5
19.5
14.4
23
17
LZB33-L-AV005-11
0.38
0.51
260
14.2
10.5
24
17.7
28
21
LZB33-L-AV0030-11 0.37
0.50
160
22
16.2
38
28
44
32
Reversible (Keyed shaft)
LZB33-L-AR150-11
0.25
0.34
7000
0.34
0.25
0.46
0.34
0.68
0.5
LZB33-L-AR043-11
0.25
0.34
1960
1.2
0.89
1.6
1.2
2.4
1.8
LZB33-L-AR024-11
0.25
0.34
1090
2.2
1.6
3.0
2.2
4.4
3.2
LZB33-L-AR019-11
0.25
0.34
880
2.7
2.0
3.7
2.7
5.4
4.0
LZB33-L-AR009-11
0.25
0.34
430
5.4
4.0
7.0
5.2
10.8
8.0
LZB33-L-AR005-11
0.25
0.34
240
9.8
7.2
12.6
9.3
19.6
14.5
LZB33-L-AR004-11
0.25
0.34
190
12.1
8.9
15.6
11.5
24
17.8
LZB33-L-AR0026-11 0.24
0.32
120
19
14
20
14.8
38
28
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
28
AT L A S C O P C O A I R M OTO R S
Air
Free consumption
speed at max output
Weight
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1
19000
5350
3000
2400
1180
650
520
340
8.1
8.1
8.1
8.1
8.1
8.1
8.1
8.1
17.2
17.2
17.2
17.2
17.2
17.2
17.2
17.2
0.75
0.75
0.75
0.75
1.02
1.02
1.02
1.5
1.65
1.65
1.65
1.65
2.25
2.25
2.25
3.31
19000
5350
3000
2400
1180
650
520
8.1
8.1
8.1
8.1
8.1
8.1
8.1
17.2
17.2
17.2
17.2
17.2
17.2
17.2
0.75
0.75
0.75
0.75
1.02
1.02
1.02
19000
5350
3000
2400
1180
650
520
340
9.5
9.5
9.5
9.5
9.5
9.5
9.5
9.5
20.2
20.2
20.2
20.2
20.2
20.2
20.2
20.2
13300
3800
2000
1700
800
450
360
230
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
ATEX code
Ordering
No.
c
c
c
c
c
c
c
d
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0306 07
8411 0306 15
8411 0306 23
8411 0306 31
8411 0306 49
8411 0306 56
8411 0306 64
8411 0306 72
1.65
1.65
1.65
1.65
2.25
2.25
2.25
c
c
c
c
c
c
d
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0306 80
8411 0306 98
8411 0307 06
8411 0307 14
8411 0307 22
8411 0307 30
8411 0307 48
0.75
0.75
0.75
0.75
1.02
1.02
1.02
1.5
1.65
1.65
1.65
1.65
2.25
2.25
2.25
3.31
c
c
c
c
c
c
c
d
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0352 42
8411 0352 59
8411 0352 00
8411 0345 91
8411 0336 27
8411 0352 67
8411 0336 19
8411 0345 59
0.75
0.75
0.75
0.75
1.02
1.02
1.02
1.5
1.65
1.65
1.65
1.65
2.25
2.25
2.25
3.31
c
c
c
c
c
c
c
d
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0307 63
8411 0307 71
8411 0307 89
8411 0307 97
8411 0308 05
8411 0308 13
8411 0308 21
8411 0308 70
Keyed shaft (-11)
9
9
119.5*
Ø41.5
20
Ø41.5
4 h7
9
13.5
A/F 38
A/F 38
M4
5.5
4 h7
THREAD DEPTH 12mm
*) +35.5
THREAD DEPTH 12mm
A/F 34
9
9
A/F 34
7.5
7.5
9
M4
Anti-clockwise
151*
119.5*
mm for
LZB33- L- A013LZB33-L- AV013LZB33-L- AR009
LZB33- L- A007LZB33- L- AV007LZB33- L- AR005
LZB33- L- A005LZB33- L- AV005LZB33- L- AR004
Threaded shaft (-12)
Ø 41.5
A/F 34
A/F 34
9
9
7.5
7.5
9
3/8” -24 UNF
9
135.5*
16
11
16
135.5*
119.5*
119.5*
11
Ø18
9
9
Ø18
Ø 41.5
Reversible
3/8” -24 UNF
BSP 1/4”
BSP 1/4”
BSP 1/4”
BSP 1/4”
32.5
Optional mounting
60
2
20
M5
42.7
50
50
Foot
Ordering No. 4430 0162 80
7
17
230
195
35
35
35
35
21
195
7
25
16.1
16.1
54
5 h7
Ø6.5
Ø41.5
Ø6.5
70
5 h7
Ø41.5
M4
Thread length 12
Thread length 12
5.5
42.7
2
Ø42
90
90
21
5
Ø14 h6
25
34.5
17
30
20
54 h6
Ø14
70
34.5
5
Flange
Ordering No.
4110 0878 85 with holes
4110 0878 80 without holes
230
30
M4
Ø36 h7
34.7
34.7
5.5
10
10
M5
Ø42
0.7
R2
Ø36 h7
0.7
2
2
60
R2
LZB33-L- A0030
LZB33-L- AV0030
LZB33-L- AR0026
32.5
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
29
Ø12 h6
20
5.5
BSP 1/4”
BSP 1/4”
31.5
13.5
A/F 34
A/F 34
9
9
31.5
Ø12 h6
151*
7.5
7.5
All versions
Clockwise
LZB VANE MOTORS
Dimensions (mm)
VANE MOTORS LZB34-RL
Stainless steel and lubrication free
0.25 – 0.39 kW
0.34 – 0.52 hp
Material in parts:
• back head, casing and front part stainless steel:
ISO 683/XIII Type 17, SS 14 2346, DIN 17440 X12CrNiS188
• outgoing shaft and gear rim stainless steel:
ISO 683/XIII Type 9b, SS 14 2321, DIN 17440 X22CrNi17
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Model
Lubrication free
[kW] [hp]
Clockwise rotation (Keyed shaft)
LZB34-RL-A210-11
0.39
0.52
LZB34-RL-A060-11
0.39
0.52
LZB34-RL-A033-11
0.39
0.52
LZB34-RL-A026-11
0.39
0.52
LZB34-RL-A013-11
0.38
0.51
LZB34-RL-A007-11
0.38
0.51
LZB34-RL-A005-11
0.38
0.51
Reversible (Keyed shaft)
LZB34-RL AR150-11 0.25
0.34
LZB34-RL-AR043-11 0.25
0.34
LZB34-RL-AR024-11 0.25
0.34
LZB34-RL-AR019-11 0.25
0.34
LZB34-RL-AR009-11 0.25
0.34
LZB34-RL-AR005-11 0.25
0.34
LZB34-RL-AR004-11 0.25
0.34
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
9400
2600
1450
1170
580
320
260
0.4
1.4
2.6
3.2
6.4
11.5
14.2
0.3
1.0
1.9
2.4
4.7
8.5
10.5
0.76
2.7
4.9
6.1
12
21
26
7000
1960
1090
880
430
240
190
0.34
1.2
2.2
2.7
5.4
9.8
12.1
0.25
0.89
1.6
2.0
4.0
7.2
8.9
0.46
1.6
3.0
3.7
7.0
12.6
15.6
1) For Shaft loading curves, see page 16.
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
0.56
2.0
3.6
4.5
8.9
15.5
19.2
0.8
2.8
5.2
6.4
12.8
23
28
0.59
2.1
3.8
4.7
9.4
17
21
19000
5350
3000
2400
1180
650
520
8.1
8.1
8.1
8.1
8.1
8.1
8.1
17.2
17.2
17.2
17.2
17.2
17.2
17.2
0.95
0.95
0.95
0.95
1.2
1.2
1.2
2.09
2.09
2.09
2.09
2.65
2.65
2.65
0.34
1.2
2.2
2.7
5.2
9.3
11.5
0.68
2.4
4.4
5.4
10.8
19.6
24
0.5
1.8
3.2
4.0
8.0
14.5
17.7
13300
3800
2000
1700
800
450
360
7.9
7.9
7.9
7.9
7.9
7.9
7.9
16.8
16.8
16.8
16.8
16.8
16.8
16.8
0.95
0.95
0.95
0.95
1.2
1.2
1.2
2.09
2.09
2.09
2.09
2.65
2.65
2.65
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
30
AT L A S C O P C O A I R M OTO R S
Weight
ATEX code
Ordering
No.
c
c
c
c
c
c
c
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0338 41
8411 0338 58
8411 0338 66
8411 0338 74
8411 0338 82
8411 0338 90
8411 0339 08
c
c
c
c
c
c
c
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0339 16
8411 0339 24
8411 0339 32
8411 0339 40
8411 0339 57
8411 0339 65
8411 0339 73
Conversion factor 1 mm = 0.04 inch
Keyed shaft (-11)
Clockwise
9
10
6
155.2*
31.5
BSP 1/4”
123.7*
30
Reversible
9
25
9
Ø41.5
3
BSP 1/4”
13.5
Ø12 h6
A/F 38
M4
Ø15
7.5
9
A/F 34
4 h7
THREAD DEPTH 12mm
*) +34.5 mm for
LZB34-RL-A013, LZB34-RL-AR009
LZB34-RL-A007, LZB34-RL-AR005
LZB34-RL-A005, LZB34-RL-AR004
Optional mounting
Foot
Ordering No. 4430 0855 80
Flange
Ordering No. 4430 0850 80
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
31
LZB VANE MOTORS
Dimensions (mm)
LZB33-L, LZB34-RL: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A and AV)
LZB33-L-A210
kW Nm
l/s
0.40
3.2
l/s
LZB33-L-A033
kW Nm
l/s
0.40
10.5
0.35
2.8
10.5
0.35
0.30 0.90
9.0
0.30
2.4
9.0
0.30
6
9.0
0.25 0.75
7.5
0.25
2.0
7.5
0.25
5
7.5
0.20 0.60
6.0
0.20
1.6
6.0
0.20
4
6.0
0.15 0.45
4.5
0.15
1.2
4.5
0.15
3
4.5
0.10 0.30
3.0
0.10
0.8
3.0
0.10
2
3.0
0.05 0.15
1.5
0.05
0.4
1.5
0.05
1
0.35
LZB33-L-A026
kW Nm
l/s
0.40
10.5
1000 2000 3000 4000 5000 6000 r/min
4000 8000 12000 16000 20000 24000 r/min
LZB33-L-A013
kW Nm
l/s
0.40
1.5
500 1000 1500 2000 2500 3000 3500 r/min
LZB33-L-A007
kW Nm
l/s
0.40
0.35
7
10.5
0.35
14
10.5
0.35
28
10.5
0.30
6
9.0
0.30
12
9.0
0.30
24
9.0
0.25
5
7.5
0.25
10
7.5
0.25
20
7.5
0.20
4
6.0
0.20
8
6.0
0.20
16
6.0
0.15
3
4.5
0.15
6
4.5
0.15
12
4.5
0.10
2
3.0
0.10
4
3.0
0.10
8
3.0
0.05
1
1.5
0.05
2
1.5
0.05
4
1000 1500 2000 2500 3000 r/min
500
LZB33-L-A005
kW Nm
l/s
200 400 600 800 1000 1200 1400 r/min
LZB33-L-A0030
kW Nm
0.40
32
0.35
28
10.5
0.35
0.30
24
9.0
0.30
0.25
20
7.5
0.25
0.20
16
6.0
0.15
12
0.10
0.05
l/s
1.5
100 200 300 400 500 600 700 800 r/min
LZB33-L-A0020
kW Nm
l/s
0.40
80
10.5
0.35
70
10.5
9.0
0.30
60
9.0
50
7.5
0.25
50
7.5
0.20
40
6.0
0.20
40
6.0
4.5
0.15
30
4.5
0.15
30
4.5
8
3.0
0.10
20
3.0
0.10
20
3.0
4
1.5
0.05
10
1.5
0.05
10
1.5
0.40
200
100
300
400
500
LZB33-L-A0015
kW Nm
600 r/min
l/s
50 100 150 200 250 300 350 400
LZB33-L-A0011
kW Nm
40
r/min
l/s
80
120
160
200
LZB33-L-A0008
kW Nm
240 r/min
l/s
0.40
120
0.35
105
10.5
0.35 140
10.5
0.35 210
10.5
0.30
90
9.0
0.30 120
9.0
0.30 180
9.0
0.25
75
7.5
0.25 100
7.5
0.25 150
7.5
0.20
60
6.0
0.20
80
6.0
0.20 120
6.0
0.15
45
4.5
0.15
60
4.5
0.15
90
4.5
0.10
30
3.0
0.10
40
3.0
0.10
60
3.0
0.05
15
1.5
0.05
20
1.5
0.05
30
0.40
40
80
120
160
LZB33-L-A0007
kW Nm
0.40
200 r/min
l/s
0.40 240
20
40
60
80
100 120 140 r/min
LZB33-L-A0005
kW Nm
l/s
0.40 320
1.5
20
40
60
80
LZB33-L-A0004
kW Nm
100 r/min
l/s
0.40
0.35 210
10.5
0.35 280
10.5
0.35
10.5
0.30 180
9.0
0.30 240
9.0
0.30
9.0
0.25 150
7.5
0.25 200
7.5
0.25 500
7.5
0.20 120
6.0
0.20 160
6.0
0.20 400
6.0
0.15
90
4.5
0.15 120
4.5
0.15 300
4.5
0.10
60
3.0
0.10
80
3.0
0.10 200
3.0
0.05
30
1.5
0.05
40
1.5
0.05 100
10
20
30
40 50
60 70 80 r/min
LZB33-L-A0003
kW Nm
l/s
10
20
30
40
50
LZB33-L-A0002
kW Nm
60 r/min
l/s
0.40 800
0.40
10.5
0.35 700
10.5
0.30 600
9.0
0.30 600
9.0
0.25 500
7.5
0.25 500
7.5
0.20 400
6.0
0.20 400
6.0
0.15 300
4.5
0.15 300
4.5
0.10 200
3.0
0.10 200
3.0
0.05 100
1.5
0.05 100
1.5
0.35
5
32
LZB33-L-A060
kW Nm
0.40
10
15
20
25
30
AT L A S C O P C O A I R M OTO R S
35 r/min
4
8
12
16
20
24 r/min
1.5
10
20
30
40
50 r/min
LZB VANE MOTORS
LZB33-L, LZB34-RL: Performance curves at air pressure 6.3 bar (91 psi)
Reversible (AR)
LZB33-L-AR150
kW Nm
l/s
0.30
kW Nm
0.30
2.4
l/s
LZB33-L-AR043
kW Nm
l/s
LZB33-L-AR024
0.30
0.25 0.75
10
0.25
2.0
10
0.25
5
10
0.20 0.60
8
0.20
1.6
8
0.20
4
8
0.15 0.45
6
0.15
1.2
6
0.15
3
6
0.10 0.30
4
0.10
0.8
4
0.10
2
4
0.05 0.15
2
0.05
0.4
2
0.05
1
2
4000
0.30
6
0.25
5
0.20
8000
12000
LZB33-L-AR019
kW Nm
1000
r/min
l/s
2000
4000 r/min
3000
LZB33-L-AR009
kW Nm
l/s
400
1200 1600 2000 2400 r/min
800
LZB33-L-AR005
kW Nm
l/s
0.30
12
10
0.25
10
10
0.25
20
10
4
8
0.20
8
8
0.20
16
8
0.15
3
6
0.15
6
6
0.15
12
6
0.10
2
4
0.10
4
4
0.10
8
4
0.05
1
2
0.05
2
2
0.05
4
2
400
kW Nm
800
1200
1600
LZB33-L-AR004
2000 r/min
l/s
200
kW Nm
400
600
1000 r/min
800
400
500 r/min
l/s
10
0.25
50
10
8
0.20
40
8
30
6
0.15
30
6
0.10
20
4
0.10
20
4
0.05
10
2
0.05
10
2
20
10
0.25
0.20
16
8
0.20
40
0.15
12
6
0.15
0.10
8
4
4
2
40
50 100 150 200 250 300 350 400 r/min
l/s
300
60
0.25
LZB33-L-AR0011
200
LZB33-L-AR0015
0.30
24
kW Nm
100
kW Nm
l/s
LZB33-L-AR0026
0.30
0.30
0.05
0.30
80
kW Nm
120
160
200
LZB33-L-AR0008
240 r/min
l/s
0.30 120
30
kW Nm
60
90
120
LZB33-L-AR0006
150 r/min
l/s
0.30
0.30
90
0.25
75
10
10
0.25 150
10
0.20
60
8
0.20
80
8
0.20 120
8
0.15
45
6
0.15
60
6
0.15
90
6
0.10
30
4
0.10
40
4
0.10
60
4
0.05
15
2
0.05
20
2
0.05
30
2
20
kW Nm
40
60
80
100
LZB33-L-AR0005
0.25 100
20
120 r/min
l/s
kW Nm
40
60
80
LZB33-L-AR0004
100 r/min
20
30
40
50
LZB33-L-AR0003
60 r/min
l/s
0.30
0.30
0.30 180
10
kW Nm
l/s
10
0.25
0.25 150
10
0.25 250
10
0.20 120
8
0.20 200
8
0.20 400
8
0.15
90
6
0.15 150
6
0.15 300
6
0.10
60
4
0.10 100
4
0.10 200
4
0.05
30
2
0.05
2
0.05 100
2
10
kW Nm
20
30
40
LZB33-L-AR0002
50
50 r/min
l/s
0.30
5
10 15 20
kW Nm
25 30
LZB33-L-AR0001
0.25 500
10
0.25 500
10
0.20 400
8
0.20 400
8
0.15 300
6
0.15 300
6
0.10 200
4
0.10 200
4
0.05 100
2
0.05 100
2
8
12
16
20 r/min
3
6
9
12
10
15
20
25
30 r/min
l/s
0.30 600
4
5
35 40 r/min
Torque
[Nm]
Power
[kW]
Max
output
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Torque
15 r/min
Speed [r/min]
For information about performance curves, see page 7.
AT L A S C O P C O A I R M OTO R S
33
VANE MOTORS LZB33-LR
Low speed, lubrication free and reversible
LZB34-RL-LR
Stainless steel, low speed, lubrication free
and reversible
Maximum permitted torque 14 Nm (10.3 lbf∙ft)
For applications where low speed and high torque are required LZB33 high torque/low speed motors should be considered, see page 36. Within their working
range these motors have a very steep torque curve. Speed and air consumption
are relatively constant regardless of the load.
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Air
Model
Free speed
consumption at max output
Weight
Lubrication free
Reversible (Keyed shaft)
[r/min]
[l/s]
[cfm]
[kg]
LZB33-L-LR200-11
180
9.9
21.0
1.25
LZB33-L-LR44-11
42
9.9
21.0
1.55
LZB33-L-LR20-11
18
9.9
21.0
1.55
LZB33-L-LR10-11
10
9.9
21.0
1.8
Lubrication free Stainless steel
Reversible (Keyed shaft)
LZB34-RL-LR200-11
180
9.9
21.0
1.45
LZB34-RL-LR44-11
42
9.9
21.0
1.75
LZB34-RL-LR20-11
18
9.9
21.0
1.75
LZB34-RL-LR10-11
10
9.9
21.0
2.0
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 10-20% at free speed.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
LZB33-L-LR200
Nm
50
Shaft loading
code 1)
c
c
c
c
ATEX code
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ordering No.
8411 0308 62
8411 0308 54
8411 0308 47
8411 0308 39
3.2
3.86
3.86
4.4
c
c
c
c
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0343 44
8411 0343 51
8411 0343 69
8411 0343 77
kW
0.30
Nm
60
0.25
50
0.20
40
0.15
30
45
40
[lb]
2.78
3.44
3.44
4.0
kW
LZB33-L -LR44
0.16
0.14
0.12
35
0.10
30
25
0.08
Limit
20
15
Limit
0.10
20
0.05
10
0
200 r/min
0
0.06
0.04
10
0.02
5
0
0
Nm
80
20
40
60
80
100
120
140
160
180
kW
LZB33-L-LR20
0.12
70
0.10
60
0.08
40
0.06
30
Limit
0.04
20
37
38
39
40
41
0
r/min
kW
LZB33-L-LR10
0.06
70
0.05
0.04
50
40
0.03
30
Limit
0.02
20
0.02
10
34
36
60
50
0
Nm
80
35
17
AT L A S C O P C O A I R M OTO R S
18
0
r/min
0.01
10
0
8.8
9.0
0
r/min
Conversion factor 1 mm = 0.04 inch
218*
Reversible
186.5*
31.5
9
20
Ø41.5
9
THREAD DEPTH 12mm
BSP 1/4”
13.5
Ø12 h6
A/F 38
A/F 34
9
4 h7
M4
7.5
5.5
*)+33.5 mm for LZB33-LR44, LR20
+67 mm for LZB33-LR10
Optional mounting
2
60
0.7
35
34.7
90
Ø36 h7
35
R2
10
Flange
Ordering No.
4110 0878 85 with holes
4110 0878 80 without holes
5.5
20
M5
50
5
32.5
42.7
21
Foot
Ordering No. 4430 0162 80
Dimensions LZB34-RL- LR
Conversion factor 1 mm = 0.04 inch
224.2*
Reversible
31.5
9
3
9
192.7*
25
Ø41.5
13.5
A/F 38
9
A/F 34
7.5
4 h7
Ø12 h6
BSP 1/4”
*)+35 mm for LZB34-RL- LR44, -LR20
+70 mm for LZB34-LR - LR-10
Optional mounting
2
60
35
0.7
10
35
34.7
82
Ø36 h8
R2
20
M5
50
Foot
Ordering No. 4430 0855 80
42.7
Ø5.5
33.5
5
21
Flange
Ordering No. 4430 0850 80
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
35
LZB VANE MOTORS
Dimensions LZB33-LR, LZB33-L-LR (mm)
VANE MOTORS LZB33-L
High torque and lubrication free
0.23 – 0.37 kW
0.31 – 0.50 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
Min
starting Stall
torque torque
Stall
torque
Model
Lubrication free
[kW] [hp]
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
Clockwise rotation (Keyed shaft)
LZB33-L-A0020-11
0.37
0.50
100
36
27
66
49
72
53
LZB33-L-A0015-11
0.37
0.50
75
49
36
90
66
98
72
LZB33-L-A0011-11
0.37
0.50
55
65
48
118
87
130
96
LZB33-L-A0008-11
0.37
0.50
41
88
65
158
117
176
130
LZB33-L-A0007-11
0.37
0.50
33
110
81
200
148
220
162
LZB33-L-A0005-11
0.36
0.48
24
145
107
274
202
290
214
LZB33-L-A0004-11
0.36
0.48
18
195
144
360
266
390
288
LZB33-L-A0003-11
0.36
0.48
13
260
192
490
361
520
384
LZB33-L-A0002-11
0.36
0.48
10
349
257
680
502
698
515
Reversible (Keyed shaft)
LZB33-L-AR0015-11 0.24
0.32
75
31
23
41
30
62
46
LZB33-L-AR0011-11 0.24
0.32
55
42
31
56
41
84
62
LZB33-L-AR0008-11 0.24
0.32
41
56
41
74
55
112
83
LZB33-L-AR0006-11 0.24
0.32
31
75
55
100
74
150
111
LZB33-L-AR0005-11 0.24
0.32
25
93
69
125
92
186
137
LZB33-L-AR0004-11 0.23
0.31
18
120
89
169
125
240
177
LZB33-L-AR0003-11 0.23
0.31
13
165
122
230
170
330
243
LZB33-L-AR0002-11 0.23
0.31
10
220
162
305
225
440
325
LZB33-L-AR0001-11 0.23
0.31
7
300
221
412
304
600
443
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
36
AT L A S C O P C O A I R M OTO R S
Air
Free consumption
speed at max output
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
210
150
115
80
70
50
38
26
20
8.1
8.1
8.1
8.1
8.1
8.1
8.1
8.1
8.1
17.2
17.2
17.2
17.2
17.2
17.2
17.2
17.2
17.2
2.6
2.6
2.6
2.6
2.6
5.0
5.0
5.0
5.0
5.8
5.8
5.8
5.8
5.8
11.1
11.1
11.1
11.1
g
g
g
g
g
h
h
h
h
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0322 07
8411 0322 15
8411 0322 23
8411 0322 31
8411 0322 49
8411 0322 56
8411 0322 64
8411 0322 72
8411 0322 80
140
100
75
60
45
35
25
20
14
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
2.6
2.6
2.6
2.6
2.6
5.0
5.0
5.0
5.0
5.8
5.8
5.8
5.8
5.8
11.1
11.1
11.1
11.1
g
g
g
g
g
h
h
h
h
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0323 06
8411 0323 14
8411 0323 22
8411 0323 30
8411 0323 48
8411 0323 55
8411 0323 63
8411 0323 71
8411 0323 89
[r/min]
Weight
ATEX code
Ordering
No.
Conversion factor 1 mm = 0.04 inch
All versions
Clockwise
LZB33-L-A0020
LZB33-L-A0015
LZB33-L-A0011
LZB33-L-A0008
LZB33-L-A0007
Clockwise
9
9
Reversible
LZB33-L-AR0015
LZB33-L-AR0011
LZB33-L-AR0008
LZB33-L-AR0006
LZB33-L-AR0005
250.2
43.7
30
40
21.5
7.5
Ø30
Ø30
M5
M5
THREAD DEPTH 15mm
21.5
21.5
21.5
Ø41.5
Ø41.5
7.5
Ø19 j6
66h7
h7
9
9
9
9
9
THREAD
THREAD DEPTH
DEPTH 15mm
15mm
BSP 1/4”
BSP 1/4”
99
A/F
A/F55
55
A/F
A/F34
34
7.5
7.5
Optional mounting
14
BSP 1/4”
BSP 1/4”
80
50
14
44
30
Ø10.3
42
3
35
1010
4444
35
118
118
61.2
60
Ø60h8
h8
Ø60
10
0
R330 30
R
M6
50
Ø10.3
3
42
5050
61.2
60
118
Ø60 h8
10
80
80
M6
14
14
50
0
R3
50
44
118
Ø60 h8
R3
5050
0
80
M6
30
30
61.2
61.2
FootM6
60
Ordering No.604430 0178 80
Flange
Ordering
3 No. 4430 0569 84
42
3
42
Ø10.3
Ø10.3
35
35
320.2
60
25
9
R36.5
6P
9
6P
95.7
95.7
R36.5
75
75
M8 6 holes 18 mm DEEP
M8 6 holes 18 mm DEEP
Ø28j6
8h7
9
6P9
6P
R36.5
R36.5
48
48
25
25
M8 6 holes 18 mm DEEP
2.7
Ø41.5
Ø41.5
31
M10
24
24
Ø28j6
8h7
31
2.7
2.7
Ø28j6
Ø28j6
8h7
8h7
3131
Ø83 h9
5
5
M8 6 holes 18 mm DEEP
258.2
258.2
2.7
M10
M10
Ø83
h9h9
Ø83
Ø62
K6K6
Ø62
Ø62 K6
320.2
320.2
62
62
60
60
50
50
24
95.7
75
48
50
245
320.2
Reversible
95.7
LZB33-L-AR0004
LZB33-L-AR0003 LZB33-L-AR0002 258.2LZB33-L-AR0001
Ø41.5
M10
Ø83 h9
Ø62 K6
Ø60
50
5
258.2
Ø60
60
Ø41.5
Clockwise
75
48 LZB33-L-A0005
25
LZB33-L-A0004
LZB33-L-A0003
LZB33-L-A0002
62
62
Ø60
Ø60
A/F 34
9
A/F 34
A/F 55
A/F 55
Ø60
Ø60
THREAD DEPTH 15mm
9
BSP 1/4”
1/4”
BSP
Ø19 j6
Ø41.5
30
30
6 h7
Ø19j6j6
Ø19
9
95.7
95.7
A/F55
55
A/F
Ø30
M5
99
55
9
40
40
A/F 55
Ø41.5
43.7
43.7
BSP 1/4”
9
6 h7
250.2
250.2
Ø30
M5
7.5
7.5
A/F
A/F34
34
Reversible
Ø60
95.7
Ø60
5
BSP 1/4”
95.7
30
9
5
40
A/F 55
7.5
7.5
9
A/F 34
9
9
A/F 34
250.2
43.7
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
37
LZB VANE MOTORS
Dimensions (mm)
LZB33-L high torque motors: Performance curves at 6.3 bar (91 psi)
Non-reversible (A)
LZB33-L-A0020
kW Nm
0.40
80
0.35
70
0.30
60
0.25
l/s
LZB33-L-A0015
kW Nm
l/s
LZB33-L-A0011
kW Nm
l/s
0.40
120
10.5
0.35
105
10.5
0.35 140
10.5
9.0
0.30
90
9.0
0.30 120
9.0
50
7.5
0.25
75
7.5
0.25 100
7.5
0.20
40
6.0
0.20
60
6.0
0.20
80
6.0
0.15
30
4.5
0.15
45
4.5
0.15
60
4.5
0.10
20
3.0
0.10
30
3.0
0.10
40
3.0
0.05
10
1.5
0.05
15
1.5
0.05
20
1.5
40
80
120
160
200
240 r/min
LZB33-L-A0008
kW Nm
0.40
l/s
0.40
40
80
120
160
LZB33-L-A0007
kW Nm
200 r/min
l/s
0.40 240
20
40
60
80
100 120 140 r/min
LZB33-L-A0005
kW Nm
l/s
0.40 320
0.35 210
10.5
0.35 210
10.5
0.35 280
10.5
0.30 180
9.0
0.30 180
9.0
0.30 240
9.0
0.25 150
7.5
0.25 150
7.5
0.25 200
7.5
0.20 120
6.0
0.20 120
6.0
0.20 160
6.0
0.15
90
4.5
0.15
90
4.5
0.15 120
4.5
0.10
60
3.0
0.10
60
3.0
0.10
80
3.0
0.05
30
1.5
0.05
30
1.5
0.05
40
1.5
20
40
60
80
100 r/min
LZB33-L-A0004
kW Nm
l/s
10
20
30
60 70 80 r/min
40 50
LZB33-L-A0003
kW Nm
l/s
20
30
40
50
LZB33-L-A0002
kW Nm
60 r/min
l/s
0.40 800
0.40
0.40
10
0.35
10.5
10.5
0.35 700
10.5
0.30
9.0
0.30 600
9.0
0.30 600
9.0
0.25 500
7.5
0.25 500
7.5
0.25 500
7.5
0.20 400
6.0
0.20 400
6.0
0.20 400
6.0
0.15 300
4.5
0.15 300
4.5
0.15 300
4.5
0.10 200
3.0
0.10 200
3.0
0.10 200
3.0
0.05 100
1.5
0.05 100
1.5
0.05 100
1.5
10
20
30
40
0.35
50 r/min
5
10
15
20
25
30
4
35 r/min
8
12
16
20
24 r/min
Reversible (AR)
kW Nm
0.30
60
0.25
50
0.20
0.15
0.10
0.05
l/s
LZB33-L-AR0015
40
30
20
10
30
kW Nm
60
90
120
l/s
kW Nm
LZB33-L-AR0008
l/s
0.30 120
10
0.25
75
10
8
0.20
60
8
0.20
80
8
6
0.15
45
6
0.15
60
6
4
0.10
30
4
0.10
40
4
2
0.05
15
2
0.05
20
2
20
150 r/min
l/s
LZB33-L-AR0006
LZB33-L-AR0011
90
0.30
kW Nm
40
60
80
100
LZB33-L-AR0005
10
0.25 100
20
120 r/min
l/s
0.30 180
kW Nm
40
60
80
LZB33-L-AR0004
100 r/min
l/s
0.30
0.25 150
10
0.25 150
10
0.25 250
10
0.20 120
8
0.20 120
8
0.20 200
8
0.15
90
6
0.15
90
6
0.15 150
6
0.10
60
4
0.10
60
4
0.10 100
4
0.05
30
2
0.05
30
2
0.05
2
10
kW Nm
20
30
40
50
60 r/min
l/s
LZB33-L-AR0003
10
kW Nm
20
30
40
LZB33-L-AR0002
50
50 r/min
l/s
5
10 15 20
kW Nm
35 40 r/min
25 30
LZB33-L-AR0001
l/s
0.30 600
0.30
0.30
10
0.25 500
10
0.25 500
10
0.20 400
8
0.20 400
8
0.20 400
8
0.15 300
6
0.15 300
6
0.15 300
6
0.10 200
4
0.10 200
4
0.10 200
4
0.05 100
2
0.05 100
2
0.05 100
2
0.25
5
38
kW Nm
0.30
10
15
20
25
AT L A S C O P C O A I R M OTO R S
30
4
8
12
16
20 r/min
3
6
9
12
15 r/min
LZB VANE MOTORS
VANE MOTORS LZB33-LB
Brake module, lubrication free and reversible
LZB34-RLB
Stainless steel, brake module, lubrication free
and reversible
0.23 – 0.25 kW
0.31 – 0.34 hp
Braking torque from 0.55–520 Nm.
The brake is activated by spring force and released by air pressure.
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed Torque Torque
Min
Min
at max at max at max starting starting Stall
output output output torque torque torque
Air
Stall Braking Braking Free consumption
torque torque torque speed at max output
Model
Lubrication free
[kW] [hp] [r/min] [Nm] [lb-ft]
[Nm] [lb-ft] [Nm]
[lb-ft]
[Nm] [lb-ft] [r/min]
Reversible (Keyed shaft)
LZB33-LB-AR150-11 0.25 0.34 7000
0.34
0.25
0.46
0.34
0.68
0.5
0.55
0.4
13300
LZB33-LB-AR043-11 0.25 0.34 1960
1.2
0.89
1.6
1.2
2.4
1.8
2.0
1.5
3800
LZB33-LB-AR024-11 0.25 0.34 1090
2.2
1.6
3.0
2.2
4.4
3.2
3.5
2.6
2000
LZB33-LB-AR019-11 0.25 0.34 880
2.7
2.0
3.7
2.7
5.4
4.0
4.4
3.2
1700
LZB33-LB-AR009-11 0.25 0.34 430
5.4
4.0
7.0
5.2
10.8
8.0
8.9
6.6
800
LZB33-LB-AR005-11 0.25 0.34 240
9.8
7.2
12.6
9.3
19.6
14.5
16
12
450
LZB33-LB-AR004-11 0.25 0.34 190
12.1
8.9
15.6
11.5
24
17.8
20
15
360
LZB33-LB-AR0026-11 0.24 0.32 120
19
14
20
14.8
38
28
32
24
230
LZB33-LB-AR0015-11 0.24 0.32
75
31
23
41
30
62
46
52
38
140
LZB33-LB-AR0011-11 0.24 0.32
55
42
31
56
41
84
62
71
52
100
LZB33-LB-AR0008-11 0.24 0.32
41
56
41
74
55
112
83
93
67
75
LZB33-LB-AR0006-11 0.24 0.32
31
75
55
100
74
150
111
130
95
60
LZB33-LB-AR0005-11 0.24 0.32
25
93
69
125
92
186
137
160
120
45
LZB33-LB-AR0004-11 0.23 0.31
18
120
89
169
125
240
177
210
160
35
LZB33-LB-AR0003-11 0.23 0.31
13
165
122
230
170
330
243
290
210
25
LZB33-LB-AR0002-11 0.23 0.31
10
220
162
305
225
440
325
380
280
20
LZB33-LB-AR0001-11 0.23 0.31
7
300
221
412
304
600
443
520
380
14
1) For Shaft loading curves, see page 16.
The brake needs minimum 3 bar to release. Performance curves same as standard motors, see page 33 and 38.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
7.9
1.35
1.35
1.35
1.35
1.63
1.63
1.63
2.1
3.2
3.2
3.2
3.2
3.2
5.6
5.6
5.6
5.6
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
16.8
Weight
2.97
2.97
2.97
2.97
3.59
3.59
3.59
4.6
7.0
7.0
7.0
7.0
7.0
12.3
12.3
12.3
12.3
c
c
c
c
c
c
c
d
g
g
g
g
g
h
h
h
h
ATEX code
Ordering
No.
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0340 05
8411 0340 13
8411 0340 21
8411 0340 39
8411 0340 47
8411 0340 54
8411 0340 62
8411 0340 70
8411 0340 88
8411 0340 96
8411 0341 04
8411 0341 12
8411 0341 20
8411 0341 38
8411 0341 46
8411 0341 53
8411 0341 61
ATEX code
Ordering
No.
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0341 79
8411 0341 87
8411 0341 95
8411 0342 03
8411 0342 11
8411 0342 29
8411 0342 37
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed Torque Torque
Min
Min
at max at max at max starting starting Stall
output output output torque torque torque
Air
Stall Braking Braking Free consumption
torque torque torque speed at max output
Model
Stainless steel
Lubrication free
[kW] [hp] [r/min] [Nm] [lb-ft]
[Nm] [lb-ft] [Nm]
[lb-ft]
[Nm] [lb-ft] [r/min]
Reversible (Keyed shaft)
LZB34-RLB-AR150-11 0.25 0.34 7000
0.34
0.25
0.46
0.34
0.68
0.5
0.55
0.4
13300
LZB34-RLB-AR043-11 0.25 0.34 1960
1.2
0.89
1.6
1.2
2.4
1.8
2.0
1.5
3800
LZB34-RLB-AR024-11 0.25 0.34 1090
2.2
1.6
3.0
2.2
4.4
3.2
3.5
2.6
2000
LZB34-RLB-AR019-11 0.25 0.34 880
2.7
2.0
3.7
2.7
5.4
4.0
4.4
3.2
1700
LZB34-RLB-AR009-11 0.25 0.34 430
5.4
4.0
7.0
5.2
10.8
8.0
9.0
6.6
800
LZB34-RLB-AR005-11 0.25 0.34 240
9.8
7.2
12.6
9.3
19.6
14.5
16
12
450
LZB34-RLB-AR004-11 0.25 0.34 190
12.1
8.9
15.6
11.5
24
17.7
20
15
360
1) For Shaft loading curves, see page 16.
The brake needs minimum 3 bar to release. Performance curves same as standard motors, see page 33 and 38.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
7.9
7.9
7.9
7.9
7.9
7.9
7.9
1.39
1.39
1.39
1.39
1.66
1.66
1.66
16.8
16.8
16.8
16.8
16.8
16.8
16.8
Weight
3.06
3.06
3.06
3.06
3.66
3.66
3.66
c
c
c
c
c
c
c
AT L A S C O P C O A I R M OTO R S
39
Dimensions (mm)
Conversion factor 1 mm = 0.04 inch
14
14
14
4h7
4h7
Thread length 12
31.5 Thread length 12
10
50
82
21
2
2
5
33.5
5
33.5
5.5
21
5.5
5.5
21
21
10
2
7
21
35
LZB34-RLB, Stainless flange
Ordering No. 4430 0850 80
100
2
35
82
Ø36 h8
35
Ø36 h7
17
25
20
50
35
30
34.7
35
Stainless9foot
9
Ordering
No. 4430 0855 80
LZB33-LB, Flange
Ordering No.285
4110 0878 85 with
holes
250
4110
0878
80
without
holes
2
90
0.7
R2
Foot
Ordering No. 4430 0162 80
14
5.5
5.5
32.5
42.7
33.5
5
5
21
21
M4
35
9
35
30
25
30
250
17
14
100
14
7
2512 Thread depth
2
100
177
Ø6.5
Reversible
with brake
9
LZB33-LB-AR0026
BSP 1/4”
285
250
Ø41.5
9
9
16.28
Ø42 h9
55
7.5
285
9
35
82
5.5
5
5.5
32.5
5
32.5
5
35
35
82
35
21
2
60
M5
5
2
33.5
2
42.720
42.7
50
5.5
13.5
Ø41.5
32.5
20
M5
M5
35 Ø36 h8
35
35
90
2
35
10
34.7
34.7
42.7
Ø12h6
35
50
M5
0.7
R2
90
20
90
10
R2
Ø36 h7
Ø36 h7
60
Ø36 h7
0.7
Thread length 12
Ø36 h8
Ø36 h8
M4
0.7
R2
60
A/F 34
*) +34 mm for LZB33-LB-AR009
14
100
LZB33-LB-AR005
LZB33-LB-AR004
4h7
*) +39 mm for LZB34-RLB-AR009
LZB34-RLB-AR005
LZB34-RLB-AR004
34.7
BSP 1/4”
Ø41.5
55
7.5
9
60
Optional mounting
BSP 1/4”
174*
*) +4 mm for LZB34-RLB-AR150
3
25
LZB34-RLB-AR043
LZB34-RLB-AR024
LZB34-RLB-AR019
35
A/F 34
Ø12h6
Ø12h6
205.5*
Thread length 12
A/F 34
9
A/F 934
13.5
13.5
Ø12h6
BSP 1/4”
BSP 1/4”
BSP 1/4”
13.5
Ø41.5
Ø41.5
Ø41.5
Ø41.5
Ø41.5
M4
Ø41.5
M4 M4
55
55
7.5
9
7.5
7.5
9
9
55
4h7
7.5
100
100
100
35
9
9
35
9
2
A/F 34
54
9
9
31.5
31.5
31.5
3
25
33
25
25
9
9
205.5*
205.5*
174*
174* 174*
205.5*
70
Reversible with brake
LZB33-LB-AR150
LZB33-LB-AR043
LZB33-LB-AR024
LZB33-LB-AR019
9
14
54
16.1
Ø41.5
Ø6.5
12 Thread depth
BSP 1/4”
A/F 34
16.1
Ø14 j6
5 h7
Optional accessories
pages 66-67.
40
AT L A S C O P C O A I R M OTO R S
16.1
70
54
Ø14 j6
Ø6.5
12 Thread depth
BSP 1/4”
16.1
5 h7
Ø41.5
M4
16.28
9
Ø42 h9
5 h7
55
7.5
A/F 34
Ø14 j6
A/F 34
Ø6.5
12 Thread depth
2
BSP 1/4”
70
100
7
25
54 70
17
Ø41.5
30
Ø14 j6
250
35
M4
16.28M4
Ø42 h9
Ø42 h9
16.28
55
9
9
9
7.5
55
7.5
5 h7
285
Conversion factor 1 mm = 0.04 inch
Reversible with brake
LZB33-LB-AR0015
9
LZB33-LB-AR0011
9
LZB33-LB-AR0008
LZB33-LB-AR0006
304.5
44
304.5
150
M5
Ø41.5
30
Ø41.5
M5
5
9
Ø30
65
Ø60
BSP 1/4”
A/F 34
A/F 55
Ø30
65
7.5
14
100
A/F 55
40
7.5
14
100
30
44
5
9
9
150
40
9
BSP 1/4”
LZB VANE MOTORS
Dimensions (mm)
THREAD DEPTH 15mm
A/F 34
6 h7
THREAD DEPTH 15mm
6 h7
100
14
Ø60
Ø19 j6
150
40
Ø19 j6
9
21.5
304.5
44
9
30
Ø41.5
Ø30
14
9
65
M5
7.5
14
A/F 55
5
Optional mounting
80
Ø60 h8
THREAD DEPTH 15mm
0
M6
44
30
60
61.2
3
10
42
M6
6 h7
Ø60 h8
10
44
R3
21.5
0
R3
A/F 34
Ø19 j6
80
BSP 1/4”
30
60
61.2
3
42
14
80
Foot
Ordering No. 4430 0178 80
0
44
10
375
62
M8 6 holes 18 mm DEEP
150
100
42
3
14
9
Ø41.5
R36.5
6P
375
62
313
25
M8 6 holes 18 mm DEEP
150
75
48
14
100
Ø60
9
6P
R36.5
Ø28j6
8h7
Ø41.5
313
60
50
5
75
48
25
Ø60
24
31
M10
375
62
M8 6 holes 18 mm DEEP
150
100
14
9
6P
R36.5
24
83 h9
30
61.2
Ø60
25
M10
Ø62 K6
83 h9
60
Reversible with brake
60
LZB33-LB-AR0004 50
5
LZB33-LB-AR0003 2.7
LZB33-LB-AR0002
LZB33-LB-AR0001
Ø62 K6
75
48
50
5
70
313
M6
60
Flange
Ordering No. 4430 0569 84
Ø60 h8
R3
Ø41.5
M10
83 h9
Ø62 K6
70
54
2.7
Ø28j6
8h7
31
24
2.7
Ø28j6
31
16.1
8h7
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
41
Ø60
VANE MOTORS LZB42
0.50 – 0.71 kW
0.67 – 0.95 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Model
Lubricated
[kW] [hp]
Clockwise rotation (Keyed shaft)
LZB42-A200-11
0.71
0.95
LZB42-A065-11
0.71
0.95
LZB42-A040-11
0.71
0.95
LZB42-A025-11
0.71
0.95
LZB42-A015-11
0.70
0.94
LZB42-A010-11
0.70
0.94
LZB42-A005-11
0.70
0.94
LZB42-A0030-11
0.68
0.91
LZB42-A0020-11
0.68
0.91
LZB42-A0012-11
0.68
0.91
LZB42-A0008-11
0.66
0.89
LZB42-A0005-11
0.66
0.89
Reversible (Keyed shaft)
LZB42-AR170-11
0.53
0.71
LZB42-AR050-11
0.53
0.71
LZB42-AR030-11
0.53
0.71
LZB42-AR020-11
0.53
0.71
LZB42-AR010-11
0.52
0.70
LZB42-AR007-11
0.52
0.70
LZB42-AR004-11
0.52
0.70
LZB42-AR0025-11
0.51
0.68
LZB42-AR0015-11
0.51
0.68
LZB42-AR0010-11
0.51
0.68
LZB42-AR0006-11
0.50
0.67
LZB42-AR0004-11
0.50
0.67
1) For Shaft loading curves, see page 16.
42
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
10000
3100
1960
1180
690
440
260
150
95
55
37
23
0.68
2.2
3.5
5.8
9.7
15.1
25
44
69
114
173
272
0.5
1.6
2.6
4.3
7.2
11.1
18.4
32
51
84
128
201
1.09
3.5
5.6
9.3
15.5
24
40
70
110
182
277
435
8000
2500
1570
940
550
350
210
120
75
46
29
19
0.63
2.0
3.2
5.4
9.0
14
23
41
64
106
162
255
0.46
1.5
2.4
4.0
6.6
10.3
17
30
47
78
119
188
0.85
2.7
4.3
7.3
12.2
18.9
31
55
86
143
219
344
AT L A S C O P C O A I R M OTO R S
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
0.8
2.6
4.1
6.9
11.4
18
30
52
81
134
204
321
1.4
4.4
7.0
11.6
19.4
30
50
88
138
228
346
544
1.0
3.2
5.2
8.6
14.3
22
37
65
102
168
255
401
19000
6100
3800
2200
1300
850
500
270
180
105
70
42
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
13.0
28.0
28.0
28.0
28.0
28.0
28.0
28.0
28.0
28.0
28.0
28.0
28.0
1.2
1.2
1.2
1.2
1.25
1.25
1.25
2.7
2.7
2.7
4.9
4.9
2.65
2.65
2.65
2.65
2.75
2.75
2.75
5.8
5.8
5.8
10.7
10.7
0.63
2.0
3.2
5.4
9.0
13.9
23
41
63
105
162
254
1.3
4.0
6.4
10.8
18
28
46
82
128
212
324
510
1.0
3.0
4.7
8.0
13.3
21
34
60
94
156
239
376
14200
4500
2800
1700
980
640
375
210
140
80
50
33
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
12.5
27.0
27.0
27.0
27.0
27.0
27.0
27.0
27.0
27.0
27.0
27.0
27.0
1.2
1.2
1.2
1.2
1.25
1.25
1.25
2.7
2.7
2.7
4.9
4.9
2.65
2.65
2.65
2.65
2.75
2.75
2.75
5.8
5.8
5.8
10.7
10.7
Weight
ATEX code
Ordering
No.
e
e
e
e
e
e
e
g
g
g
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0420 08
8411 0420 16
8411 0420 24
8411 0420 32
8411 0420 40
8411 0420 57
8411 0420 65
8411 0420 73
8411 0420 81
8411 0420 99
8411 0421 07
8411 0421 15
e
e
e
e
e
e
e
g
g
g
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0423 05
8411 0423 13
8411 0423 21
8411 0423 39
8411 0423 47
8411 0423 54
8411 0423 62
8411 0423 70
8411 0423 88
8411 0423 96
8411 0424 04
8411 0424 12
Conversion factor 1 mm = 0.04 inch
Clockwise
LZB42-A200
LZB42-A065
LZB42-A040
LZB42-A025
LZB42-A015
LZB42-A010
LZB42-A005 60
60 15 mm
THREAD DEPTH
60
Ø45 h8
Ø45 h8
Ø45 h8 Ø45 h8
18
Ø16 j6
18 18
1818
Ø16 j6
Ø16 j6 Ø16 j6
Ø16Ø16
j6 j6
Ø8.3
Ø8.3Ø8.3
2
26 26
Flange
Ordering 26
No. Ø8.3
4430 0490 81
2
47.2
28
28
256
44
40
28
80
80
80
Ø60
Ø60
28 28
80 80
30
28
80
Ø60
Ø30
Ø46
Ø46
Ø46
5
THREAD DEPTH 15mm
THREAD DEPTH 15mm
THREAD DEPTH 15mm
6 h7
6 h7
6 h7
Ø60 Ø60
Ø60
21.5
256 256
30
44
39
30 40
30
5
Ø30
Ø30
M5
M5
Ø30Ø30
M5
Ø30
M5 M5
M5
5
Reversible
LZB42-AR0025
LZB42-AR0015
LZB42-AR0010
256
256
2
39 39
20
256 47.2 47.2
Ø8.3
26
Ø8.3
6 h76 h7
6 h7
21.5
5
5
50
40
26
26
21.521.5
Clockwise
LZB42-A0030
LZB42-A0020
LZB42-A0012
44
2
2
2
Ø19 j6
50 50
44
44
40
40
3044
30
5
40
39
39
39
Ø19 j6
Ø19 j6 Ø19 j6
Foot Ordering
M5No. 4430 0575 80
20
20
20
47.2
47.2
47.2
20 20
Ø19Ø19
j6 j6
50
3
A/F 55
50
50
R
R2
10
A/F A/F
55 55
M5 M5
38
3838
M5
M5
M5
R
23
A/F 5555
Ø46
Ø46
A/F
55 A/F Ø46
10
10 10
1010
10
A/F 41
23
10 10
Ø45Ø45
h8 h8
60
BSP 1/2”
3
R2
3
R23
R2
5 h7
10
10
10
60 60
5 h75 h7
Ø46
4040
4040
40
40
9696
40 40 96
40 40
40
40
96 96
96
OptionalTHREAD
mountings
THREAD
DEPTH
DEPTH
15 mm
15 mm
38
A/F 41
A/F 41
A/F 41
A/F 41
A/F 41 A/F 41
THREAD DEPTH 15 mm
THREAD DEPTH 15 mm
THREAD DEPTH 15 mm
5 h7
5 h7
5 h7
Ø46 Ø46
30
4
BSP 1/2”
BSP 1/2”
A/F 41 BSP 1/2”
A/F 41
A/F 41
BSP BSP
1/2” 1/2”
Ø46
A/F A/F
41 41
M5
40
30 30
4
BSP BSP
1/4” 1/4”
BSP 1/4”
Ø46
Ø46
167
38 38
10.6
10.6
10.6
10.5
10.5
10.5
10.610.6
10.6
10.510.5
10.5
10
M5
M5
Ø17
Ø17
Ø17
10
A/F 10
41
A/F 41
BSP BSP
1/2” 1/2”
1010
10 A/F 41
BSP 1/2”
BSP 1/4”
10
10 10 BSP 1/4”
BSP 1/4”
10 10 10
4
209 167 167
M5 M5
BSP 1/2”
BSP 1/2”
BSP 1/2”
Ø17
Reversible
A/F 41
A/F 41
A/F 41
4
4
4
Ø17Ø17 M5
10.5
BSP 1/4”
167
167
167
209 209
42
42
40
40
40
30
3042 42
30
42
40 40
BSP BSP
1/4” 1/4”
209
209
209
21.5
21.5
BSP 1/4”
BSP 1/4”
BSP 1/4”
42
10.510.5
14.3
14.3
14.3
10.5
10.5
10.5
14.314.3
14.3
Clockwise
Reversible
LZB42-AR170
LZB42-AR050
LZB42-AR030
LZB42-AR020
LZB42-AR010
LZB42-AR007
LZB42-AR004
18
All versions
THREAD
THREAD
DEPTH
DEPTH
15mm
15mm
THREAD DEPTH 15mm
80
60
326.5
Foot Ordering No. 4430 0178 80
THREAD
THREAD
DEPTH
DEPTH
24mm
24mm
2.7
THREAD DEPTH 24mm
5050
5050
50
118
118
50 50
50 50 118
50
50
118118
118
50
Ø10.3
Ø10.3
35 35
Ø10.3
35
8 h7
3131
8 h78 h7
31
8 h7
8 h7
31 31
8 h7
31
27.7
M8 (x6)
M8 (x6)
DEPTH
DEPTH
18mm
18mm
M8 (x6)
DEPTH 18mm
Ø28 j6
80
Ø28Ø28
j6 j6
80 80
M8 (x6)
M8 (x6)
DEPTH 18mm
M8
(x6) 18mm
DEPTH
DEPTH 18mm
6 P9
6 P9
27.727.7
80
6 P9
Ø60
97
80
80
6 P96 P9
6 P9
Ø28 j6
Ø28 j6 Ø28 j6
2.7
2.7
THREAD DEPTH
2.7 24mm
THREAD DEPTH 24mm
THREAD DEPTH 24mm
2.7 2.7
25
3
Ø10.3
Flange Ordering No. 4430 0569 84
97
326.5 264.5
97 264.5
27.7
97
264.5 27.7
27.7
97 97
Ø60
Ø60
25 2548
3
42
35 Ø10.3
Ø10.3
264.5
Ø60
Ø30
50
Ø30Ø30
5
M10
5
48
48
48 25
25
25
48 48
264.5
264.5
326.5
326.5
Ø60Ø60
50 60
50
5
Ø30
Ø30
Ø30
5
5
326.5
326.5
M10M10
Reversible
LZB42-AR0006
LZB42-AR0004
5
Ø83 h9
Ø83 h9 Ø83 h9
Ø62
K6K6
Ø62
Ø83Ø62
h9 K6
Ø83
h9
Ø83 h9
Ø62Ø62
K6 K6
Ø62 K6
M10
M10
M10
Clockwise
LZB42-A0008
LZB42-A0005
62
62
60
62
60
50
60
50
62 62
50
62
60 60
42 42 3
30
61.2 61.2
61.2
35
35
A
A/FØ46 /FA7/F57
R36.5
5
7R36.5
5
R36.5
A/F A
A/
7 /F
R36.5
R36.5 5 75 R36.5 F 75
60 60
3
3
Ø46Ø46
M6
3
42
42
42
Ø46
Ø46
M6 M6
30
30
30
61.2
61.2
61.2
30 30
14
Ø46
44
60
0
0
R3 R3
0
R3
44
4444
10
60
60
44 44
10
M6
10 10
1010
80
14 14
Ø60 h8
80 80
M6
M6
0
R3
0
R30
R3
Ø60Ø60
h8 h8
Optional mountings
80
Ø60 h8
Ø60 h8 Ø60 h8
80
14
14
14
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
43
LZB VANE MOTORS
Dimensions (mm)
LZB42: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A)
LZB42-A200
kW Nm
l/s
l/s
0.7
LZB42-A040
kW Nm
0.8
8
l/s
0.7
7
18
0.6
6
18
5
15
0.5
5
15
0.4
4
12
0.4
4
12
9
0.3
3
9
0.3
3
9
0.4
6
0.2
2
6
0.2
2
6
0.2
3
0.1
1
3
0.1
1
3
0.7
1.4
0.6
1.2
18
0.6
0.5
1.0
15
0.5
0.4
0.8
12
0.3
0.6
0.2
0.1
1000 2000 3000 4000 5000 6000 7000 r/min
4000 8000 12000 16000 20000 24000 r/min
LZB42-A025
kW Nm
l/s
0.8 12.0
LZB42-A015
kW Nm
l/s
0.8
0.7 10.5
1000
32
3000
4000
LZB42-A010
kW Nm
0.8
2000
5000 r/min
l/s
0.7
21
0.7
28
0.6
9.0
18
0.6
18
18
0.6
24
18
0.5
7.5
15
0.5
15
15
0.5
20
15
0.4
6.0
12
0.4
12
12
0.4
16
12
0.3
4.5
9
0.3
9
9
0.3
12
9
0.2
3.0
6
0.2
6
6
0.2
8
6
0.1
1.5
3
0.1
3
3
0.1
4
500
1000
1500
2000
LZB42-A005
kW Nm
300
2500 r/min
l/s
0.8
600
900
1200
LZB42-A0030
kW Nm
1500 r/min
l/s
0.8
0.7
3
200
400
600
800
LZB42-A0020
kW Nm
1000 r/min
l/s
0.8
0.7
0.7 140
0.6
60
18
0.6
90
18
0.6 120
18
0.5
50
15
0.5
75
15
0.5 100
15
0.4
40
12
0.4
60
12
0.4
80
12
0.3
30
9
0.3
45
9
0.3
60
9
0.2
20
6
0.2
30
6
0.2
40
6
0.1
10
3
0.1
15
3
0.1
20
100
200
300
400
500
LZB42-A0012
kW Nm
600 r/min
l/s
0.8 240
0.7 210
50 100 150 200 250 300 350 r/min
LZB42-A0008
kW Nm
0.8
400
l/s
3
40
80
120
160
LZB42-A0005
kW Nm
200 r/min
l/s
0.8
0.7
350
0.6 180
18
0.6
300
18
0.6 600
18
0.5 150
15
0.5
250
15
0.5 500
15
0.4 120
12
0.4
200
12
0.4 400
12
0.3
90
9
0.3
150
9
0.3 300
9
0.2
60
6
0.2
100
6
0.2 200
6
0.1
30
3
0.1
50
3
0.1 100
20
Torque
[Nm]
Power
[kW]
Max
output
40
60
80
100
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
120 r/min
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
44
LZB42-A065
kW Nm
0.8
0.8
AT L A S C O P C O A I R M OTO R S
0.7
10
20
30
40
50
60 70
80 r/min
3
10
20
30
40
50 r/min
LZB VANE MOTORS
LZB42: Performance curves at air pressure 6.3 bar (91 psi)
Reversible (AR)
LZB42-AR170
kW Nm
l/s
0.6
LZB42-AR050
kW Nm
l/s
LZB42-AR030
kW Nm
l/s
0.6
0.6
0.5
1.5
0.5
5
0.5
7.5
0.4
1.2
16
0.4
4
16
0.4
6.0
16
0.3
0.9
12
0.3
3
12
0.3
4.5
12
0.2
0.6
8
0.2
2
8
0.2
3.0
8
0.1
0.3
4
0.1
1
4
0.1
1.5
4
4000
8000
12000
LZB42-AR020
kW Nm
16000 r/min
l/s
1000
0.5
25
16
0.4
20
16
0.3
12
12
0.3
15
12
0.2
8
8
0.2
10
8
0.1
4
4
0.1
5
4
0.5
8
16
0.4
0.3
6
12
0.2
4
8
0.1
2
4
LZB42-AR004
2000 r/min
l/s
0.6
0.5
50
0.4
40
16
l/s
16
10
0.4
kW Nm
LZB42-AR007
kW Nm
20
0.5
1600
l/s
30
0.6
1200
500 1000 1500 2000 2500 3000 3500 r/min
5000 r/min
0.6
12
800
4000
3000
LZB42-AR010
kW Nm
0.6
400
2000
200
90
0.5
75
0.4
60
600
800
100 200 300 400 500 600 700 r/min
1000 1200 r/min
LZB42-AR0025
kW Nm
0.6
400
l/s
LZB42-AR0015
kW Nm
l/s
0.6
0.5 150
16
0.4 120
16
90
12
0.3
30
12
0.3
45
12
0.3
0.2
20
8
0.2
30
8
0.2
60
8
0.1
10
4
0.1
15
4
0.1
30
4
100
200
300
400
LZB42-AR0010
kW Nm
500 r/min
l/s
40
80
120
160
200
LZB42-AR0006
kW Nm
l/s
l/s
LZB42-AR0004
0.5 500
0.5
0.5 200
kW Nm
60 80 100 120 140 160 r/min
0.6 600
0.6
0.6 240
20 40
240 r/min
0.4 160
16
0.4 400
16
0.4 400
16
0.3 120
12
0.3 300
12
0.3 300
12
8
0.2 200
8
0.2 200
8
4
0.1 100
4
0.2
0.1
80
4
40
20
40
60
80
100 r/min
0.1 100
10
20
30
40
50
Torque
[Nm]
Power
[kW]
Max
output
60 r/min
5 10
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
15
20
25 30
35
40 r/min
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
AT L A S C O P C O A I R M OTO R S
45
VANE MOTORS LZB46
0.59 – 0.84 kW
0.79 – 1.13 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Model
Lubricated
[kW] [hp]
[r/min]
Clockwise rotation (Keyed shaft)
LZB46-A200-11
0.84
1.13
10800
LZB46-A065-11
0.84
1.13
3300
LZB46-A040-11
0.84
1.13
2100
LZB46-A025-11
0.84
1.13
1270
LZB46-A015-11
0.82
1.10
740
LZB46-A010-11
0.82
1.10
480
LZB46-A005-11
0.82
1.10
280
LZB46-A0030-11
0.81
1.09
160
LZB46-A0020-11
0.81
1.09
105
LZB46-A0012-11
0.81
1.09
62
LZB46-A0008-11
0.79
1.06
39
LZB46-A0005-11
0.79
1.06
25
Clockwise rotation (Threaded shaft)
LZB46-A200-12
0.84
1.13
10800
LZB46-A065-12
0.84
1.13
3300
LZB46-A040-12
0.84
1.13
2100
LZB46-A025-12
0.84
1.13
1270
LZB46-A015-12
0.82
1.10
740
LZB46-A010-12
0.82
1.10
480
LZB46-A005-12
0.82
1.10
280
LZB46-A0030-12
0.81
1.09
160
LZB46-A0020-12
0.81
1.09
105
LZB46-A0012-12
0.81
1.09
62
Anti-clockwise rotation (Keyed shaft)
LZB46-AV200-11
0.84
1.13
10800
LZB46-AV065-11
0.84
1.13
3300
LZB46-AV040-11
0.84
1.13
2100
LZB46-AV025-11
0.84
1.13
1270
LZB46-AV015-11
0.82
1.10
740
LZB46-AV010-11
0.82
1.10
480
LZB46-AV005-11
0.82
1.10
280
LZB46-AV0030-11
0.81
1.09
160
LZB46-AV0020-11
0.81
1.09
105
LZB46-AV0012-11
0.81
1.09
62
LZB46-AV0008-11
0.79
1.06
39
LZB46-AV0005-11
0.79
1.06
25
Reversible (Keyed shaft)
LZB46-AR170-11
0.63
0.84
8500
LZB46-AR050-11
0.63
0.84
2600
LZB46-AR030-11
0.63
0.84
1670
LZB46-AR020-11
0.63
0.84
1000
LZB46-AR010-11
0.62
0.83
590
LZB46-AR007-11
0.62
0.83
370
LZB46-AR004-11
0.62
0.83
220
LZB46-AR0025-11
0.60
0.80
125
LZB46-AR0015-11
0.60
0.80
80
LZB46-AR0010-11
0.60
0.80
49
LZB46-AR0006-11
0.59
0.79
31
LZB46-AR0004-11
0.59
0.79
20
1) For Shaft loading curves, see page 16.
46
AT L A S C O P C O A I R M OTO R S
Torque
at max
output
Torque
at max
output
Min
starting
torque
[Nm]
[lb-ft]
[Nm]
[lb-ft]
0.74
2.4
3.8
6.3
10.5
16.5
27
48
75
124
191
299
0.55
1.8
2.8
4.6
7.7
12.2
20
35
55
91
141
221
1.2
3.9
6.1
10
17
26
44
77
121
201
309
485
0.74
2.4
3.8
6.3
10.5
16.5
27
48
75
124
0.55
1.8
2.8
4.6
7.7
12.2
20
35
55
91
0.74
2.4
3.8
6.3
10.5
16.5
27
48
75
124
191
299
0.71
2.3
3.6
6.0
10.1
15.8
26
46
72
119
183
287
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
0.89
2.9
4.5
7.4
12.5
19.2
32
57
89
148
228
358
1.48
4.8
7.6
12.6
21
33
55
95
149
248
382
598
1.09
3.5
5.6
9.3
15.5
24.3
41
70
110
183
282
441
20000
6300
4000
2400
1400
900
540
300
200
115
70
45
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
1.2
1.2
1.2
1.2
1.3
1.3
1.3
2.7
2.7
2.7
4.9
4.9
2.65
2.65
2.65
2.65
2.9
2.9
2.9
6.0
6.0
6.0
10.8
10.8
1.2
3.9
6.1
10
17
26
44
77
121
201
0.89
2.9
4.5
7.4
12.5
19.2
32
57
89
148
1.48
4.8
7.6
12.6
21
33
55
95
149
248
1.09
3.5
5.6
9.3
15.5
24.3
41
70
110
183
20000
6300
4000
2400
1400
900
540
300
200
115
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
1.2
1.2
1.2
1.2
1.3
1.3
1.3
2.7
2.7
2.7
0.55
1.8
2.8
4.6
7.7
12.2
20
35
55
91
141
221
1.2
3.9
6.1
10
17
26
44
77
121
201
309
485
0.89
2.9
4.5
7.4
12.5
19.2
32
57
89
148
228
358
1.48
4.8
7.6
12.6
21
33
55
95
149
248
382
598
1.1
3.5
5.6
9.3
15.5
24.3
41
70
110
183
282
441
20000
6300
4000
2400
1400
900
540
300
200
115
70
45
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
0.52
1.7
2.7
4.4
7.4
11.7
19.5
34
53
88
135
212
0.96
3.1
4.9
8.1
13.5
21
35
61
96
161
247
388
0.71
2.3
3.6
6.0
10
15.5
26
45
71
119
182
286
1.42
4.6
7.2
12
20
32
53
91
143
238
366
574
1.0
3.4
5.3
8.9
14.9
23.3
39
67
105
175
270
423
15800
5000
3200
1900
1100
700
420
230
150
90
55
35
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
Weight
ATEX code
Ordering
No.
e
e
e
e
e
e
e
g
g
g
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0460 09
8411 0460 17
8411 0460 25
8411 0460 33
8411 0460 41
8411 0460 58
8411 0460 66
8411 0460 74
8411 0460 82
8411 0460 90
8411 0461 08
8411 0461 16
2.65
2.65
2.65
2.65
2.9
2.9
2.9
6.0
6.0
6.0
e
e
e
e
e
e
e
g
g
g
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0469 00
8411 0469 18
8411 0469 26
8411 0469 34
8411 0469 42
8411 0469 59
8411 0469 67
8411 0469 75
8411 0469 83
8411 0469 91
1.2
1.2
1.2
1.2
1.3
1.3
1.3
2.7
2.7
2.7
4.9
4.9
2.65
2.65
2.65
2.65
2.9
2.9
2.9
6.0
6.0
6.0
10.8
10.8
e
e
e
e
e
e
e
g
g
g
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0465 04
8411 0465 12
8411 0465 20
8411 0465 38
8411 0465 46
8411 0465 53
8411 0465 61
8411 0465 79
8411 0465 87
8411 0465 95
8411 0466 03
8411 0466 11
1.2
1.2
1.2
1.2
1.3
1.3
1.3
2.7
2.7
2.7
4.9
4.9
2.65
2.65
2.65
2.65
2.9
2.9
2.9
6.0
6.0
6.0
10.8
10.8
e
e
e
e
e
e
e
g
g
g
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0463 06
8411 0463 14
8411 0463 22
8411 0463 30
8411 0463 48
8411 0463 55
8411 0463 63
8411 0463 71
8411 0463 89
8411 0463 97
8411 0464 05
8411 0464 13
Reversible
LZB46-AR170
LZB46-AR050
LZB46-AR030
LZB46-AR020
LZB46-AR010
LZB46-AR007
LZB46-AR004
Keyed shaft (-11)
215
42
30
18
18
Ø16 j6
18
Ø16 j6
Ø16 j6
18
Ø16 j6
18
A/F 41
A/F 41 Ø17
40
Ø17
A/F 41
Ø19 j6
21.5
96
18
Ø16 j6
18
Ø16 j6
172” Ø17
-20Ø46
UNF 172” -20 UNF
Ø17
A/F 55
172” -20 UNF
172” -20 UNF
A/F 41
40
40
Ø17
96
40
Ø19 j6
21.5
96 -20 UNF
172”
40
96 Ø46
A/F 55
Ø17
Ø17
40
3/4”-16UNF
21.5
21.5
Ø19 j6
Ø19 j6
Ø19 j6
Ø30
Ø30
21.5
Ø19 j621.5
Ø19 j6
Ø30
3/4”-16UNF
3/4”-16UNF
6 P9
Ø28 j6
31
6 P9
8 h7
Ø28 j6
Ø30
3/4”-16UNF
DEPTH
26
22
Ø83 h9
Ø30
R36.5
50
118Ø30
50
244
31
3/4”-16UNF
50
50
Ø46
118
A
3/4”-16UNF
50 /F 7
50
5
50
50
118R36.5
118
Ø30
5
F7
118
A/
50
50
Ø46
21.5
Ø46 50
Ø46
118
A/F 55
3/4”-16UNF
A/F 55
50
A/F 55
Ø46
A/F 55
Ø46
118
50
Ø46
A/F 55
50
Ø60
Ø60
8 h7
244
31
31
Ø28 j6
Ø28 j6
6 P9
Ø28 j6
31
6 P9
Ø83 h9 Ø83 h9
8 h7
8 h7
31
6 P9
Ø83 h9
8 h7
8 h7
Ø28 j6
F7
M8 (x6)
THREAD DEPTH
M8 (x6)
18mm
THREAD DEPTH
8 h7
18mm
6 P9
86
5 Ø46
A/
86
27.7
M8 (x6)
THREAD DEPTH
18mm
M8 (x6)M8
(x6)
THREAD
DEPTH DEPTH
THREAD
18mm 18mm
F7
5
R36.5
Ø46
A/
F7 A
5 /F
75
R36.5
R36.5
27.7
Ø28 j6
6 P9
2.7
244
26
244
244
22
M8
26 (x6) 26
THREAD DEPTH
22
18mm 22
Ø83 h9
86
R36.5
2.7
2.7
Ø10.3
35
Ø10.3 Ø10.3
35
Ø10.3
86
35
86
Ø46
25
270.5
27.7
97
6 h7
6 h7
Threaded shaft (-12)
18mm
A/
48
50
96
A/F 4140
40
40
40
96
40
Ø60 h8
97
97
27.7
27.7
5
44
270.5
332.5
6 h7
Ø10.3
F7
M10
M10
THREAD DEPTH
2.7
24mm
THREAD DEPTH
24mm
97
6 h7
244
Flange
Ordering No. 4430 0569 84
35
A/
M10
Ø62
K6
M10
Ø62 K6
25
60
Ø30
THREAD DEPTH
24mm
THREAD
DEPTH DEPTH
THREAD
24mm 24mm
Ø62 K6
Ø30
25
48
25332.5
270.5
332.5
97
3
270.5
270.5
R36.5
M10
Ø62 K6
50
Ø30
6248
35
Ø46
5
60
25
50Ø30
3
Ø60
Ø60
26
M8 (x6)
22
THREAD
14
Ø60
62
5
50
48
86
27.7
3
244
26
22
6 h7
27.7
97
Ø60
5
60
42
6 h7
26
22
86
332.5
48
22
Ø60
Ø10.3
35
Ø60
60
61.2
60
62
50
60
195
Ø60
Ø60
35
14
3
42
6 h7
Ø60
Ø10.3
42
42
195
15
195
86
86
270.5
14 97
Ø60
2.7
62
24mm
Ø62 K6
40
Ø45 h8
44
30
61.2
30
30
61.2 30 61.2
2.7 R
Ø60 h8
44
44
Ø60 h8
Ø60 h8
R
14
3
30
Foot Ordering No.624430
0178
80
42
332.5
Ø30
5
28
3
270.5
0
Ø60 h8
30
44
44
60
Ø8.3
22
195
Ø60
15
22
22
86
Ø8.3
26
86
332.5
14
332.5
Ø60 h8
0
R3
3
5 h7
195
22
Ø8.3
28
Ø60 h8
44
M10
25
Ø30
60
THREAD DEPTH
M6
5
28
42
R3
0
R3
30
61.2
Clockwise/
Anti-clockwise
LZB46-A0008
LZB46-A0005
LZB46-AV0008
LZB46-AV0005
Ø8.3
26
86
Ø60
10
M6
Ø45 h8
38
Ø45 h8
38
M5
Ø30
50
THREAD DEPTH
24mm
M10
Ø62 K6
60
26
28
14
14262
28
42
5 h7
Ø46
15
262
62
48
60
M6
2
5 h7
5 h7
15
15
Ø8.3
26
THREAD DEPTH 15mm
10
M6
262
39
30
61.2
0
60
262
2
30
THREAD
DEPTH
15mm 15mm
THREAD
DEPTH
61.2
10
10
80
M6
10
38
38
38
Ø30
M5
M5
5
10
10.5
BSP 1/2”
39
0
60
80
86
26
195
Ø46
10
Flange
Ordering No. 4430 0490 8115
262
R3
R3
BSP 1/2”
BSP 1/2”
BSP 1/2”
47.2
60
48
THREAD DEPTH 15mm
80
50
25
5 THREAD DEPTH 15mm
80
Ø30
62
80
10
44
M5
BSP 1/4”
BSP 1/2”
R
40
Ø30
10
M6
86
28
Ø45 h8
Ø45 h8
M5
Ø30
M5
Ø30
Ø30
10
M5
5
Ø30
BSP 1/4”
40
40
10
22
Ø46
5 h7
Ø8.3
26
Reversible
3
R2
LZB46-AR0025
39
20
2
3
LZB46-AR0015
R2
47.2
39
20
2shaft
THREAD
DEPTH
15mm Keyed
39
20
(-11)
2
LZB46-AR0010
30
Ø8.3
Ø46
38
M5
Ø45 h8
M5
38
262
44
20
40
THREAD
DEPTH 15mm
44
47.2 44
20
30
40
40
47.2
5 30
30
Ø62 K6
10.6
2
R
23
5
30
M6
10.5
10.5
Ø17
Ø17
Ø17
10
10.5
10.5
80
5
BSP 1/4”
10
Reversible
LZB46-AR0006
LZB46-AR0004
262
39
15
Ø46
Ø46
26
10
R
47.2
44
5
40
BSP 1/2”
2
28
23
Optional mountings
A/F 41
39
THREAD DEPTH 15 mm
30
50
10.6
10.5
10.6
10.5
5
10
10
14.3
14.3
14.3
10.5
14.3
14.3
10.5
10.6
10.5
47.2
60
A/F 41
10.6
20
47.2
40
BSP 1/2”
10 BSP 1/2”
BSP 1/4”
BSP 1/4”
A/F 41 A/F 41
173
3
THREAD
DEPTH DEPTH
15 mm 15 mm
THREAD
4420
Clockwise/60
Anti-clockwise
M5
LZB46-A0030
50
M5
M5
LZB46-A0020
50
50
LZB46-A0012
LZB46-AV0030
LZB46-AV0020
50
M5
LZB46-AV001280
A/F 41 A/F 41 BSP 1/2”
BSP 1/2” BSP 1/2”
A/F 41
1/2”
10 BSP10
Ø17
M5
M5
10
M5
Ø17
10
14.3
10.5
10
10.6
BSP 1/4”
A/F 41
10
10.6
10.5
BSP 1/4”
10
50
173
10
173
215
R2
40
40
M5
10
10
215
30
BSP 1/2”
BSP 1/4”
42
215
173
60
Foot
Ordering No. 4430 0575
80
23
BSP 1/4”
BSP 1/4”
A/F 41
40
215
3
R2
60 DEPTH 15 30
THREAD
mm
5
60
44 THREAD DEPTH 15 mm
10
10.5
30
50
A/F 41
Clockwise/
BSP 1/2”
10
Anti-clockwise
BSPBSP
1/4”1/4”
A/F 41
30
4
4
60
All versions
10
40
42
30
40
Ø45 h8
4
42
30
10.5
14.3
A/F 41
10
40
42
195
Threaded shaft22 (-12)
173
10
172”96
-20 UNF
42 15 mm
THREAD DEPTH
60
M5
172” -20 UNF
215
Optional mountings
BSP 1/4”
A/F 41
M5
Ø17
THREAD DEPTH 15 mm
M5
10
Ø46
5 h7
BSP 1/4”
A/F 10
41
A/F 41
30
Ø16 j6
M5
4
4
Reversible
5 h7
173
40
4
A/F 41
Ø46
215
42
31
4
60
10
173
40
Ø17
Clockwise/
Anti-clockwise
LZB46-A200
LZB46-A065
LZB46-A040
LZB46-A025
LZB46-A015
LZB46-A010
LZB46-A005
LZB46-AV200
LZB46-AV065
LZB46-AV040
LZB46-AV025
LZB46-AV015
LZB46-AV010
LZB46-AV005
Conversion factor 1 mm = 0.04 inch
Ø83 h9
2.7
Ø83 h9
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
47
LZB VANE MOTORS
Dimensions (mm)
VANE MOTORS LZB46-RL
Stainless steel and lubrication free
0.60 – 0.84 kW
0.80 – 1.13 hp
Material in parts:
• Casing and front part stainless steel: ISO 683/XIII Type 17,
SS 14 2346, DIN 17440 X12CrNiS188
• Outgoing shaft and gear rim stainless steel: ISO 683/XIII Type 9b,
SS 14 2321, DIN 17440 X22CrNi17
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
Min
starting Stall
torque torque
Stall
torque
Model
Lubrication free
[kW] [hp]
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
Clockwise rotation (Keyed shaft)
LZB46-RL-A200-11
0.84
1.13
10800
0.74
0.55
1.2
0.89
1.48
1.09
LZB46-RL-A065-11
0.84
1.13
3300
2.4
1.8
3.9
2.9
4.8
3.5
LZB46-RL-A040-11
0.84
1.13
2100
3.8
2.8
6.1
4.5
7.6
5.6
LZB46-RL-A025-11
0.84
1.13
1270
6.3
4.6
10
7.4
12.6
9.3
LZB46-RL-A015-11
0.82
1.10
740
10.5
7.7
17
12.5
21
15.5
LZB46-RL-A010-11
0.82
1.10
480
16.5
12.2
26
19.2
33
24.3
LZB46-RL-A005-11
0.82
1.10
280
27
20
44
32
55
41
LZB46-RL-A0030-11 0.81
1.09
160
48
35
77
57
95
70
LZB46-RL-A0020-11 0.81
1.09
105
75
55
121
89
149
110
LZB46-RL-A0012-11 0.81
1.09
62
124
91
201
148
248
183
Reversible (Keyed shaft)
LZB46-RL-AR170-11 0.63
0.84
8500
0.71
0.52
0.96
0.71
1.42
1.0
LZB46-RL-AR050-11 0.63
0.84
2600
2.3
1.7
3.1
2.3
4.6
3.4
LZB46-RL-AR030-11 0.63
0.84
1670
3.6
2.7
4.9
3.6
7.2
5.3
LZB46-RL-AR020-11 0.63
0.84
1000
6.0
4.4
8.1
6.0
12
8.9
LZB46-RL-AR010-11 0.62
0.83
590
10.1
7.4
13.5
10
20
14.9
LZB46-RL-AR007-11 0.62
0.83
370
15.8
11.7
21
15.5
32
23.3
LZB46-RL-AR004-11 0.62
0.83
220
26
19.5
35
26
53
39
LZB46-RL-AR0025-11 0.60
0.80
125
46
34
61
45
91
67
LZB46-RL-AR0015-11 0.60
0.80
80
72
53
96
71
143
105
175
LZB46-RL-AR0010-11 0.60
0.80
49
119
88
161
119
238
1) For Shaft loading curves, see page 16.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
48
AT L A S C O P C O A I R M OTO R S
Air
Free consumption
speed at max output
Weight
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
20000
6300
4000
2400
1400
900
540
300
200
115
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
16.2
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
34.4
1.8
1.8
1.8
1.8
1.9
1.9
1.9
3.8
3.8
3.8
4.0
4.0
4.0
4.0
4.2
4.2
4.2
8.4
8.4
8.4
15800
5000
3200
1900
1100
700
420
230
150
90
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
14.0
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
29.7
1.8
1.8
1.8
1.8
1.9
1.9
1.9
3.8
3.8
3.8
4.0
4.0
4.0
4.0
4.2
4.2
4.2
8.4
8.4
8.4
ATEX code
Ordering
No.
e
e
e
e
e
e
e
g
g
g
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0472 15
8411 0472 23
8411 0472 31
8411 0472 49
8411 0470 82
8411 0471 08
8411 0471 16
8411 0471 24
8411 0471 32
8411 0471 40
e
e
e
e
e
e
e
g
g
g
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110 °C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0472 56
8411 0472 64
8411 0472 72
8411 0472 80
8411 0471 57
8411 0471 65
8411 0471 73
8411 0471 81
8411 0471 99
8411 0472 07
Conversion factor 1 mm = 0.04 inch
Clockwise
LZB46-RL-A200
LZB46-RL-A065
LZB46-RL-A040
LZB46-RL-A025
LZB46-RL-A015
LZB46-RL-A010
LZB46-RL-A005
Keyed shaft (-11)
218
42
176
40
218
Ø17
176
Ø16 j6
96
18
18
Ø16 j6
18
40
96
18
Ø16 j6
18
40
40
21.5
Ø19 j6
Ø60
6 h7
Ø19 j6 50 Ø19 j6 50
50 118
50
21.5 118
21.5
Ø19 j6
A/F 55
Ø46
A/F 55
Ø46
Ø60 h8
Ø60
6 h7
21.5
6 h7
35
Ø10.3
3
42
14
Ø10.3
21.5
3
42
Ø46
R
Ø19 j6
10
60
Ø60
6 h7
30
61.2
M6
21.5
96
Ø60
14
86
44
THREAD DEPTH 15mm
60 DEPTH 15mm
THREAD
Ø19 j6
96
96 40
40
40
4040
40
96
A/F40
55
86
86
30
30
61.2
M6
35
14
THREAD DEPTH
80 15mm
M6
60
M6
60
30
61.2
Foot Ordering No. 4430 0178 81
118
5050
50
35
3
118
3
50
50
42
118
50
Ø60 h8
42
Ø10.3
Ø10.3
35
50
60
118
60
30
30
30R
61.2
0 61.2
3
R
44
M6
10
M6
14
50
10
80
14
Ø60 h8
BSP 1/2”
0
R3
44
80
44
R3
BSP 1/2”
Ø60 h8
80
Optional mountings
10
A/F 41
Ø46
Ø46
38
28
0
R3
Reversible6 h7
LZB46-RL-AR0025
Ø60
LZB46-RL-AR0015
6 h7
LZB46-RL-AR0010
Ø8.3
14
0
A/F 41
26
Ø8.3
26
86
28
Ø6044h8
BSP 1/2”
BSP 1/2”
A/F 55
40
Ø45 h8
Ø45 h8
Ø45 h8
38
Ø45 h8
38
10
10 M5
M5
Ø30
2
2
THREAD DEPTH 15mm
A/F 41
A/F 41
26
28
80
BSP 1/4”
2
263.5
10M5
Ø30
39
28
30
40
Ø30
M5
40
2
39
Ø60
263.5
80
5 30
BSP 1/4”
10
38
M5
10
Ø30
M5
10.5
14.3
BSPBSP
1/4”1/2”
BSP 1/4”
BSP 1/2”
44
44
39
39
263.5
263.5
47.2
47.2
50
44
5
10
10.5
10.5
5
Ø30
14.3 10.5
10.5
10.5
10.5
14.3
14.3
10.6 10.5
10.5
10.6
10.6
BSP 1/2”
BSP 1/2”
BSP 1/2”
10
10
5
20
40
THREAD DEPTH 15mm
30
30
10
10.6
10.6
10
10
A/F 41
10
50
40
BSP 1/2”
47.2
20
THREAD DEPTH 15mm
44
BSP 1/4”
BSP 1/4”
A/F 41
50
Clockwise
LZB46-RL-A0030
LZB46-RL-A0020
Ø8.3
LZB46-RL-A0012
Ø8.3
26
3
47.2
Ø8.3
86
R2
M5
M5
BSP 1/4”
50
10
28 10
44
10.6
10
Reversible
A/F 41
10.5
Ø30
10
10
60
20 R23
20
M5
5 h7
5 h7
86
Ø60 h8
10
14.3
14.3
10.5
10.5
BSP 1/2”
BSP BSP
1/4” 1/4”
BSP 1/4”
M5
Ø8.3
26
28
3
R2 263.53
R2
60
30
5
2
Ø46
Ø46
5 h7
10
Flange Ordering
No. 4430 0490 81
60
44
5 h7
10
THREAD
DEPTH 15 mm
40
BSP 1/2”
Clockwise/
Anti-clockwise
10
39
263.5
DEPTH 15 mm
44 THREAD
60
Foot Ordering
No.
4430 0575 81
Keyed shaft (-11)
40
26
47.2
Ø46
Ø16 j6
20
5
2
47.2
THREAD DEPTH 15 mm
THREAD DEPTH 15 mm
30
A/F 41
39
A/F 41
38
20
50
All versions
Ø45 h8
Ø17
Ø17
R2
A/F 41
3
A/F 41
176
M5
BSP 1/4”
10
A/F 41
60
50
BSP 1/4”
Ø46
176
A/F 55
Ø46
30
10
218
3
2
218 R
38
40
176
Ø45 h8
Ø17
40
30
M5 10
M5
42
Ø17
42
M5
M5
4
M5
176
40
Optional30mountings
30
4
A/F 41
218
42
THREAD
DEPTH 15 mm
40 60
40
5 h7
Ø16 j6
A/F 41
218
42
Ø16 j6
A/F 41
Ø17
M5
THREAD DEPTH 15 mm
4
10
Ø46
A/F 55
M5
30
4
4
A/F 41
A/F 41
5 h7
40
Reversible
LZB46-RL-AR170
LZB46-RL-AR050
LZB46-RL-AR030
LZB46-RL-AR020
LZB46-RL-AR010
LZB46-RL-AR007
LZB46-RL-AR004
A/F
10 41
Ø46
42
18
30
4
30
61.2
42
42
3
Ø10.3
3
35
Ø10.3
35
Flange Ordering No. 4430 0569 84
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
49
LZB VANE MOTORS
Dimensions (mm)
LZB46, LZB46-RL: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A and AV)
LZB46-A200
kW Nm
1.0
1.5
0.8
1.2
0.6
l/s
0.8
4
20
0.8
8
20
0.9
15
0.6
3
15
0.6
6
15
0.4
0.6
10
0.4
2
10
0.4
4
10
0.2
0.3
5
0.2
1
5
0.2
2
5
LZB46-A025
1.0
15
0.8
12
0.6
9
0.4
6
0.2
3
l/s
LZB46-A005
1000
1000 2000 3000 4000 5000 6000 7000 r/min
LZB46-A015
kW Nm
l/s
2000
3000
4000
LZB46-A010
kW Nm
5000 r/min
l/s
1.0
25
20
0.8
20
20
0.8
40
20
15
0.6
15
15
0.6
30
15
10
0.4
10
10
0.4
20
10
5
0.2
5
5
0.2
10
5
l/s
1.0
1.0
300
500 1000 1500 2000 2500 3000 r/min
600
1.0
100
900
1200
LZB46-A0030
kW Nm
1500 r/min
l/s
200
400
600
800
LZB46-A0020
kW Nm
1000 r/min
l/s
1.0
0.8
60
20
0.8
80
20
0.8 160
20
0.6
45
15
0.6
60
15
0.6 120
15
0.4
30
10
0.4
40
10
0.4
80
10
0.2
15
5
0.2
20
5
0.2
40
5
100
200
400
300
LZB46-A0012
kW Nm
500
600 r/min
l/s
50
100 150
40
200 250 300 350 r/min
LZB46-A0008
kW Nm
l/s
120
80
200
160
LZB46-A0005
kW Nm
240 r/min
l/s
1.0 750
1.0
1.0
0.8
20
0.8
400
20
0.8 600
20
0.6 300
15
0.6
300
15
0.6 450
15
0.4 200
10
0.4
200
10
0.4 300
10
0.2 100
5
0.2
100
5
0.2 150
5
20
40
60
80
100 120 140 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
50
l/s
1.0
20
kW Nm
Torque
at max
output
LZB46-A040
kW Nm
5
4000 8000 12000 16000 20000 24000 r/min
Max
output
l/s
1.0
kW Nm
Torque
[Nm]
Power
[kW]
LZB46-A065
kW Nm
AT L A S C O P C O A I R M OTO R S
10 20
30 40
50 60
70
80 r/min
10
20
30
40
50 r/min
LZB VANE MOTORS
LZB46, LZB-46RL: Performance curves at air pressure 6.3 bar (91 psi)
Reversible (AR)
LZB46-AR170
kW Nm
l/s
LZB46-AR050
kW Nm
l/s
LZB46-AR030
kW Nm
l/s
0.7
1.4
0.6
1.2
0.5
1.0
20
0.5
5
20
0.5
7.5
20
0.4
0.8
16
0.4
4
16
0.4
6.0
16
0.3
0.6
12
0.3
3
12
0.3
4.5
12
0.2
0.4
8
0.2
2
8
0.2
3.0
8
0.1
0.2
4
0.1
1
4
0.1
1.5
0.7
0.7
0.6
0.6
4000
8000
12000 16000 20000 r/min
LZB46-AR020
kW Nm
l/s
0.7
4
500 1000 1500 2000 2500 3000 3500 r/min
1000 2000 3000 4000 5000 6000 r/min
LZB46-AR010
kW Nm
0.7
21
l/s
LZB46-AR007
kW Nm
0.7
35
l/s
0.6
12
0.6
18
0.6
30
0.5
10
20
0.5
15
20
0.5
25
20
0.4
8
16
0.4
12
16
0.4
20
16
0.3
6
12
0.3
9
12
0.3
15
12
0.2
4
8
0.2
6
8
0.2
10
8
0.1
2
4
0.1
3
4
0.1
5
4
400
800
1200
1600
LZB46-AR004
kW Nm
2000 r/min
l/s
0.7
200
400
100 200 300 400 500 600 700 800 r/min
800 1200 1600 r/min
600
LZB46-AR0025
kW Nm
l/s
LZB46-AR0015
kW Nm
l/s
0.7 140
0.7
0.6 120
0.6
60
0.6
90
0.5
50
20
0.5
75
20
0.5 100
20
0.4
40
16
0.4
60
16
0.4
80
16
0.3
30
12
0.3
45
12
0.3
60
12
0.2
20
8
0.2
30
8
0.2
40
8
0.1
10
4
0.1
15
4
0.1
20
4
100
200
300
400
LZB46-AR0010
kW Nm
500 r/min
l/s
50
100
150
200
LZB46-AR0006
kW Nm
l/s
60
80 100 120 140 160 r/min
l/s
0.6 600
0.6
0.6 240
40
LZB46-AR0004
kW Nm
0.7
0.7
0.7
20
250 r/min
0.5 200
20
0.5
20
0.5 500
20
0.4 160
16
0.4 400
16
0.4 400
16
0.3 120
12
0.3 300
12
0.3 300
12
0.2
80
8
0.2 200
8
0.2 200
8
0.1
40
4
0.1 100
4
0.1 100
4
20
40
60
80
100 r/min
10
20
30
40
50
60
Torque
[Nm]
Power
[kW]
Max
output
5
70 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
10
15
20 25
30
35 40 r/min
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
AT L A S C O P C O A I R M OTO R S
51
VANE MOTORS LZB54
0.79 – 1.20 kW
1.06 – 1.61 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Model
Lubricated
[kW] [hp]
[r/min]
Clockwise rotation (Keyed shaft)
LZB54-A180-11
1.20
1.61
10000
LZB54-A050-11
1.20
1.61
2900
LZB54-A030-11
1.20
1.61
1750
LZB54-A020-11
1.20
1.61
1300
LZB54-A010-11
1.18
1.58
630
LZB54-A007-11
1.18
1.58
380
LZB54-A005-11
1.18
1.58
280
LZB54-A0025-11
1.15
1.54
150
LZB54-A0017-11
1.15
1.54
95
LZB54-A0012-11
1.15
1.54
70
Anti-clockwise rotation (Keyed shaft)
LZB54-AV180-11
1.20
1.61
10000
LZB54-AV050-11
1.20
1.61
2900
LZB54-AV030-11
1.20
1.61
1750
LZB54-AV020-11
1.20
1.61
1300
LZB54-AV010-11
1.18
1.58
630
LZB54-AV007-11
1.18
1.58
380
LZB54-AV005-11
1.18
1.58
280
LZB54-AV0025-11
1.15
1.54
150
LZB54-AV0017-11
1.15
1.54
95
LZB54-AV0012-11
1.15
1.54
70
Reversible (Keyed shaft)
LZB54-AR130-11
0.82
1.10
6800
LZB54-AR035-11
0.82
1.10
1960
LZB54-AR020-11
0.82
1.10
1190
LZB54-AR015-11
0.82
1.10
880
LZB54-AR008-11
0.80
1.07
430
LZB54-AR005-11
0.80
1.07
260
LZB54-AR004-11
0.80
1.07
190
LZB54-AR0020-11
0.79
1.06
105
LZB54-AR0012-11
0.79
1.06
65
LZB54-AR0009-11
0.79
1.06
47
1) For Shaft loading curves, see page 16.
52
AT L A S C O P C O A I R M OTO R S
Torque
at max
output
Torque
at max
output
Min
starting
torque
[Nm]
[lb-ft]
[Nm]
[lb-ft]
1.15
4.0
6.6
8.9
18
30
40
72
119
161
0.85
3.0
4.9
6.6
13.3
22
30
53
88
119
1.8
6.4
10.5
14
29
48
65
117
193
261
1.15
4.0
6.6
8.9
18
30
40
72
119
161
0.85
3.0
4.9
6.6
13.3
22
30
53
88
119
1.15
4.0
6.6
8.9
18
30
40
72
119
161
0.85
3.0
4.9
6.6
13.3
22
30
53
88
119
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
[l/s] [cfm]
Shaft
loading
[kg] [lb] code 1)
1.33
4.7
7.7
10.3
21
35
48
86
142
193
2.3
8.0
13.2
17.8
36
60
80
144
238
322
1.7
5.9
9.7
13.1
27
44
59
106
176
237
17500
5100
3100
2300
1050
650
500
270
160
120
22.0
22.0
22.0
22.0
22.0
22.0
22.0
22.0
22.0
22.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
2.4
2.4
2.4
2.4
2.5
2.5
2.5
4.7
4.7
4.7
5.2
5.2
5.2
5.2
5.5
5.5
5.5
10.3
10.3
10.3
1.8
6.4
10.5
14
29
48
65
117
193
261
1.33
4.7
7.7
10.3
21
35
48
86
142
193
2.3
8.0
13.2
17.8
36
60
80
144
238
322
1.7
5.9
9.7
13.1
27
44
59
106
176
237
17500
5100
3100
2300
1050
650
500
270
160
120
22.0
22.0
22.0
22.0
22.0
22.0
22.0
22.0
22.0
22.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
47.0
2.4
2.4
2.4
2.4
2.5
2.5
2.5
4.7
4.7
4.7
1.4
5.1
8.4
11
23
38
51
93
153
207
1.03
3.8
6.2
8.1
17
28
38
69
113
153
2.3
8.0
13.2
17.8
36
60
80
144
238
322
1.7
5.9
9.7
13.1
27
44
59
106
176
237
12000
3700
2300
1700
800
500
370
190
120
90
18.0
18.0
18.0
18.0
18.0
18.0
18.0
18.0
18.0
18.0
38.0
38.0
38.0
38.0
38.0
38.0
38.0
38.0
38.0
38.0
2.4
2.4
2.4
2.4
2.5
2.5
2.5
4.7
4.7
4.7
Weight
ATEX code
Ordering
No.
g
g
g
g
g
g
g
h
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0560 08
8411 0560 16
8411 0560 24
8411 0560 32
8411 0560 40
8411 0560 57
8411 0560 65
8411 0560 73
8411 0560 81
8411 0560 99
5.2
5.2
5.2
5.2
5.5
5.5
5.5
10.3
10.3
10.3
g
g
g
g
g
g
g
h
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0564 04
8411 0564 12
8411 0564 20
8411 0564 38
8411 0564 46
8411 0564 53
8411 0564 61
8411 0564 79
8411 0564 87
8411 0564 95
5.2
5.2
5.2
5.2
5.5
5.5
5.5
10.3
10.3
10.3
g
g
g
g
g
g
g
h
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0563 05
8411 0563 13
8411 0563 21
8411 0563 39
8411 0563 47
8411 0563 54
8411 0563 62
8411 0563 70
8411 0563 88
8411 0563 96
Conversion factor 1 mm = 0.04 inch
Clockwise/
Anti-clockwise
LZB54-A180
LZB54-A050
LZB54-A030
LZB54-A020
LZB54-A010
LZB54-A007
LZB54-A005
All versions
Clockwise/
Anti-clockwise
BSP 3/8”
243.5
44
Ø56
A/F 55
A/F 55
Ø56
Ø56
30 THREAD DEPTH 15mm
Ø60
21.5
Ø10.3
3
35
Ø56
42
89.5
74.8
M8 (x6)
THREAD DEPTH
18mm
M8(x6)
(x6)
M8
THREADDEPTH
DEPTH
THREAD
18mm
18mm
6 P9
31
Ø28 j6
h7
88h7
31
31
Ø28
Ø28j6
j6
2.7
8 h7
66P9
P9
R36.5
R36.5
A/
F
A/ 75
A/
F7
F7
5
5
R36.5
Ø56
Ø83 h9
F7
5
M8 (x6)
Ø83 h9
DEPTH
Ø83THREAD
h9
18mm
31
Ø28 j6
8 h7
6 P9
Ø30
25
2.7 2.7
251.5
A/
50
50
50
89.5
89.5
Ø60
2.7
48.2
60
Ø19 j6
118
Ø56
50 50
50
118118
44
44
251.5
251.5
74.8
74.8
Ø56
Ø56
Ø30
313.5
30
61.2
89.5
74.8
313.5
62
M10
THREAD
DEPTH
THREAD
DEPTH
24mm
24mm
5
THREAD DEPTH
24mm
25
Flange Ordering No. 4430 0569 84
251.5
0
R3313.5
Ø30
10
M10
5
THREAD DEPTH
24mm
Ø62 K6
48.2
48.2
25
M10
M10
Ø62 K6
Ø62 K6
Ø62 K6
Reversible
5
LZB54-AR0020
LZB54-AR0012
LZB54-AR0009
313.5
25
Ø30
5
62 50
62
60
60
M6 50
50
60
Ø10.3
Ø10.3
35
35
3
118
48.2
60
35
50
Foot Ordering
No. 4430 0178 80
62
Ø60
80
BSP 1/2”
3
42
14
42
Ø60
Ø60
60
Ø60 h8
60
Ø10.3
3
42
30
61.230
61.2
10
15
M6
44
10
11
60
M6
30
30 R
61.2
50 50
0
R3
M6
Clockwise/
Anti-clockwise
LZB54-A0025
LZB54-A0017
LZB54-A0012
LZB54-AV0025
LZB54-AV0017
LZB54-AV0012
44
80
BSP 1/2”
BSP 1/4”
A/F 55
80
BSP 1/2”
Ø60 h8
Ø60 h8
Ø60 h8
0
R3
THREAD DEPTH 15mm
A/F 50
14
14
Optional mountings
10
A/F
50
13.5
A/F 50
6 h7
R36.5
M5
80
Ø30
13.5
6 h7
89.5
THREAD DEPTH 15mm
11
BSP 1/2” BSP 1/2”
6 h7
40
BSP 1/4”
14
A/F 50 A/F 50
21.5
Ø60
21.5 21.5
M5
M5 Ø30
BSP 1/4”
5
15
15
243.5
THREAD DEPTH 15mm
44
11 15
11
16
13.5
13.5
6 h7
Ø60
89.5
M5
BSP
BSP1/2”
1/4”
13.5
13.5
30
Ø30
13.5 A/F 50
BSP 3/8”
89.5
40
5
Ø30
Reversible
Ø60
Ø19 j6
15
16
15
15
16
30
BSP 1/2”
89.5
243.5
44
5
BSP 1/2”
A/F 50 13.5
15
40
5
A/F 50
243.5
4430
Ø19 Ø19
j6 j6
16
40
BSP 3/8”
A/F 55
BSP 3/8”
Reversible
LZB54-AR130
LZB54-AR035
LZB54-AR020
LZB54-AR015
LZB54-AR008
LZB54-AR005
LZB54-AR004
LZB54-AV180
LZB54-AV050
LZB54-AV030
LZB54-AV020
LZB54-AV010
LZB54-AV007
LZB54-AV005
Ø83 h9
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
53
LZB VANE MOTORS
Dimensions (mm)
VANE MOTORS LZB54-LB
Brake module, lubrication free and
reversible
0.79 – 0.82 kW
1.05 – 1.10 hp
Braking torque from 15–200 Nm.
The brake is activated by spring force and released by air pressure.
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed Torque Torque
Min
Min
at max at max at max starting starting Stall
output output output torque torque torque
Air
Stall Braking Braking Free consumption
torque torque torque speed at max output
Model
Lubrication free
[kW] [hp] [r/min] [Nm] [lb-ft]
[Nm] [ft lb] [Nm]
[lb-ft]
[Nm] [lb-ft] [r/min]
Reversible (Keyed shaft)
LZB54-LB-AR015-11 0.82 1.10 880
8.9
6.6
11
8.1
17.8
13.1
15
11
1700
LZB54-LB-AR005-11 0.80 1.07 260
30
22
38
28
60
44
50
37
500
LZB54-LB-AR004-11 0.80 1.07 190
40
30
51
38
80
59
70
52
370
LZB54-LB-AR0020-11 0.79 1.06 105
72
53
93
69
144
106
125
92.5
190
LZB54-LB-AR0012-11 0.79 1.06
65
119
88
153
113
238
176
200
148
120
1) For Shaft loading curves, see page 16.
The brake needs minimum 3 bar to release. Performance curves same as standard motors.
NOTE: - If running motors with 100% dry air and no lubrication, performance can be reduced with 5-15% at max output.
- To optimize life time for a lubrication free motor, use lubricated air if the application allows it.
54
AT L A S C O P C O A I R M OTO R S
Weight
Shaft
loading
[l/s] [cfm]
[kg] [lb] code 1)
18
18
18
18
18
4.1
4.3
4.3
6.4
6.4
38
38
38
38
38
9.0
9.4
9.4
14.0
14.0
g
g
g
h
h
ATEX code
Ordering
No.
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0568 42
8411 0568 59
8411 0568 67
8411 0568 75
8411 0568 83
Conversion factor 1 mm = 0.04 inch
Reversible with brake
LZB54-LB-AR015
LZB54-LB-AR005
LZB54-LB-AR004
324
280
44
Reversible
40
13.5
128
13.5
Ø60
324
5
280
44
M5
13.5
19
Ø56
13.5
128
30
15
Ø30
74
40
A/F 55
BSP 3/8”
11
19
30
5
BSP 3/8”
Ø60
89.5
Ø56
A/F 55
M5
THREAD DEPTH 15mm
Ø30
15
11
74
BSP 1/2”
A/F 50
6 h7
Optional mountings
THREAD DEPTH 15mm
89.5
21.5
A/F 50
Ø19 j6
BSP 1/2”
14
80
10
44
Foot Ordering No. 4430 0178 80
60
62
48.2
25
50
5
BSP 3/8”
128
331.5
60
M10
Ø62 K6
11
A/F 70
15
13.5
48.2
25
50
5
BSP 3/8”
19
393.5
Ø30
62
13.5
35
128
19
Ø56
13.5
Ø10.3
3
42
331.5
60
13.5
21.5
118
393.5
Reversible with brake
LZB54-LB-AR0020
LZB54-LB-AR0012
35
Flange Ordering No. 4430 0569 84
30
61.2
M6
Ø10.3
3
42
0
R3
50
30
61.2
60
50
14
Ø60 h8
M6
118
Ø60 h8
44
10
80
50
0
R3
Ø19 j6
50
6 h7
Ø30
89.5
154.8
Ø56
2.7
BSP 1/2”
M8 (x6)
THREAD DEPTH
89.5
18mm
F7
5
154.8
Ø83 h9
31
8 h7
Ø28 j6
R36.5
31
6 P9
M8 (x6)
THREAD DEPTH
18mm
Ø28 j6
A/
8 h7
R36.5
2.7
F7
5
THREAD DEPTH
24mm
A/
A/F 50
6 P9
M10
THREAD DEPTH
24mm
Ø62 K6
A/F 50
11
A/F 70
15
BSP 1/2”
Ø83 h9
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
55
LZB VANE MOTORS
Dimensions (mm)
LZB54: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A and AV)
LZB54-A180
kW Nm
1.4 2.8
l/s
kW Nm
1.4
l/s
kW Nm
1.4 14
LZB54-A030
l/s
1.2
2.4
30
1.2
9.0
30
1.2
12
30
1.0
2.0
25
1.0
7.5
25
1.0
10
25
0.8
1.6
20
0.8
6.0
20
0.8
8
20
0.6
1.2
15
0.6
4.5
15
0.6
6
15
0.4
0.8
10
0.4
3.0
10
0.4
4
10
0.2
0.4
5
0.2
1.5
5
0.2
2
5
4000
16000 20000 r/min
8000 12000
LZB54-A020
kW Nm
1.4 21
1000 2000 3000 4000
l/s
kW Nm
1.4
500 1000 1500 2000 2500 3000 3500 r/min
5000 6000 r/min
LZB54-A010
l/s
kW Nm
1.4 70
LZB54-A007
l/s
1.2
18
30
1.2
30
1.2
60
30
1.0
15
25
1.0
25
1.0
50
25
0.8
12
20
0.8
40
20
0.8
40
20
0.6
9
15
0.6
30
15
0.6
30
15
0.4
6
10
0.4
20
10
0.4
20
10
0.2
3
5
0.2
10
5
0.2
10
5
400
800
200
2000 2400 r/min
1200 1600
LZB54-A005
kW Nm
1.4
l/s
kW Nm
1.4
400
600
800
100 200 300 400 500 600 700 r/min
1000 1200 r/min
LZB54-A0025
l/s
kW Nm
1.4 280
LZB54-A0017
l/s
1.2
90
30
1.2 180
30
1.2 240
30
1.0
75
25
1.0 150
25
1.0 200
25
0.8
60
20
0.8 120
20
0.8 160
20
0.6
45
15
0.6
90
15
0.6 120
15
0.4
30
10
0.4
60
10
0.4
80
10
0.2
15
5
0.2
30
5
0.2
40
100
200
300
400
LZB54-A0012
kW Nm
1.4 350
500 r/min
l/s
1.2 300
30
1.0 250
25
0.8 200
20
0.6 150
15
0.4 100
10
0.2
50
5
20
Torque
[Nm]
Power
[kW]
Max
output
40
60
80
100 120 140 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
56
LZB54-A050
AT L A S C O P C O A I R M OTO R S
50
100
150
200
250
300 r/min
5
40
80
120
160
200 r/min
LZB VANE MOTORS
LZB54: Performance curves at air pressure 6.3 bar (91 psi)
Reversible (AR)
LZB54-AR130
kW Nm
l/s
2.5
1.0
0.8
2.0
0.8
8
0.6
1.5
30
0.6
6
0.4
1.0
20
0.4
4
10
0.2
0.2
0.5
4000
8000
12000
LZB54-AR015
kW Nm
1000
1.0
0.8
16
0.8
40
0.6
12
30
0.6
30
0.4
8
20
0.4
0.2
4
10
0.2
800
1200
1600
LZB54-AR004
15
0.8
12
30
0.6
9
30
20
0.4
6
20
10
0.2
3
10
4000 r/min
l/s
400
1600 2000 2400 r/min
800 1200
LZB54-AR005
kW Nm
l/s
60
30
0.6
45
30
20
20
0.4
30
20
10
10
0.2
15
10
200
400
600
800
LZB54-AR0020
kW Nm
1000 r/min
l/s
1.0 150
1.0
l/s
1.0
0.8
2000 r/min
l/s
3000
LZB54-AR020
kW Nm
1.0
20
400
2000
LZB54-AR008
kW Nm
1.0
kW Nm
l/s
2
r/min
l/s
LZB54-AR035
kW Nm
1.0
100
200
300
400
LZB54-AR0012
kW Nm
500 r/min
l/s
1.0 250
0.8 120
0.8
80
0.6
60
30
0.6
90
30
0.6 150
30
0.4
40
20
0.4
60
20
0.4 100
20
0.2
20
10
0.2
30
10
0.2
10
50 100 150 200 250 300 350 400 r/min
LZB54-AR0009
kW Nm
0.8 200
40
80
120
160
200
50
240 r/min
20
40
60
80
100 120 140 r/min
l/s
1.0
0.8 400
0.6 300
30
0.4 200
20
0.2 100
10
20
40
60
80
100 r/min
Torque
[Nm]
Power
[kW]
Max
output
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
AT L A S C O P C O A I R M OTO R S
57
VANE MOTORS LZB66
1.41 – 1.87 kW
1.89 – 2.51 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Model
Lubricated
[kW] [hp]
[r/min]
Clockwise rotation (Keyed shaft)
LZB66-A180-11
1.87
2.51
8200
LZB66-A050-11
1.87
2.51
2400
LZB66-A030-11
1.87
2.51
1440
LZB66-A020-11
1.87
2.51
1060
LZB66-A010-11
1.83
2.45
510
LZB66-A007-11
1.83
2.45
310
LZB66-A005-11
1.83
2.45
230
LZB66-A0025-11
1.80
2.41
125
LZB66-A0017-11
1.80
2.41
75
LZB66-A0012-11
1.80
2.41
55
Reversible (Keyed shaft)
LZB66-AR130-11
1.46
1.96
7500
LZB66-AR035-11
1.46
1.96
2200
LZB66-AR020-11
1.46
1.96
1320
LZB66-AR015-11
1.46
1.96
970
LZB66-AR008-11
1.43
1.92
470
LZB66-AR005-11
1.43
1.92
290
LZB66-AR004-11
1.43
1.91
210
LZB66-AR0020-11
1.41
1.89
115
LZB66-AR0012-11
1.41
1.89
70
LZB66-AR0009-11
1.41
1.89
50
1) For Shaft loading curves, see page 16.
Torque
at max
output
Torque
at max
output
Min
starting
torque
[Nm]
[lb-ft]
[Nm]
[lb-ft]
2.2
7.6
12.5
17
34
57
77
139
227
308
1.62
5.6
9.2
12.5
25
42
57
103
167
227
3.2
11.3
18.6
25
51
84
113
205
337
456
1.9
6.4
10.5
14.3
29
48
64
117
191
259
1.4
4.7
7.7
10.5
21
35
47
86
141
191
2.4
8.3
13.5
18.5
37
62
84
151
249
337
Torque
at max
output
Torque
at max
output
Min
starting
torque
[Nm]
[ft lb]
[Nm]
[lb-ft]
139
227
103
167
205
337
117
191
86
141
151
249
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
2.4
8.3
13.7
18.4
38
62
83
151
249
336
4.4
15.2
25
34
68
114
154
278
454
616
3.2
11.2
18.4
25
50
84
114
205
335
454
16000
4500
2700
2000
950
600
440
230
145
110
34
34
34
34
34
34
34
34
34
34
72
72
72
72
72
72
72
72
72
72
2.8
2.8
2.8
2.8
2.9
2.9
2.9
5.1
5.1
5.1
6.2
6.2
6.2
6.2
6.4
6.4
6.4
11.1
11.1
11.1
1.8
6.1
10
13.6
27
46
62
111
184
249
3.8
12.8
21
29
58
96
128
233
382
518
2.8
9.4
15.5
21
43
71
94
172
282
382
13500
3900
2400
1750
830
500
370
200
120
90
31
31
31
31
31
31
31
31
31
31
66
66
66
66
66
66
66
66
66
66
2.8
2.8
2.8
2.8
2.9
2.9
2.9
5.1
5.1
5.1
6.2
6.2
6.2
6.2
6.4
6.4
6.4
11.1
11.1
11.1
[l/s] [cfm]
Weight
Shaft
loading
[kg] [lb] code 1)
ATEX code
Ordering
No.
g
g
g
g
g
g
g
h
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0602 59
8411 0602 67
8411 0602 75
8411 0602 42
8411 0600 59
8411 0600 67
8411 0600 75
8411 0600 83
8411 0600 91
8411 0602 83
g
g
g
g
g
g
g
h
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0602 91
8411 0603 09
8411 0603 17
8411 0603 25
8411 0601 25
8411 0601 33
8411 0601 41
8411 0601 58
8411 0601 66
8411 0603 33
ATEX code
Ordering
No.
Compact mounting
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Model
Lubricated
[kW] [hp]
[r/min]
Clockwise rotation (Keyed shaft)
LZB66-A0025-15
1.80
2.41
125
LZB66-A0017-15
1.80
2.41
75
Reversible (Keyed shaft)
LZB66-AR0020-15
1.41
1.89
115
LZB66-AR0012-15
1.41
1.89
70
1) For Shaft loading curves, see page 16.
58
AT L A S C O P C O A I R M OTO R S
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
[Nm]
[lb-ft]
[r/min]
151
249
278
454
205
335
230
145
34
34
72
72
5.3
5.3
11.7
11.7
h
h
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0600 18
8411 0600 26
111
184
233
382
172
282
200
120
31
31
66
66
5.3
5.3
11.7
11.7
h
h
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0601 09
8411 0601 17
[l/s] [cfm]
Weight
Shaft
loading
[kg] [lb] code 1)
Conversion factor 1 mm = 0.04 inch
THREAD DEPTH 15mm
50
F7
5
5
5
184.3
184.3
2.7
Ø60
Ø60
Ø62 K6
Ø62 K6
Ø30
Ø30
M10
M10
5
THREAD
DEPTH
24mm
6 P9
R 36.5
F7
271.5
48
48
M8 (X6)
THREAD DEPTH
18 mm
2.7
8h
Ø83 h9
8h
Ø83 h9
2.7
Ø83 h9
2.7
24mm
8h
338.6
8h
31
Ø28 j6
Ø28 j6
100.8
55.6
Ø80 h11
45.2
5/16” -18 UNC (x6)
THREAD DEPTH 18mm
38.1
338.6
Ø19.05 - 00.013
26
A/F 72
4.762 h7
26
THREAD DEPTH 15mm
A/F 26
72
A/F 72
THREAD DEPTH 15mm
4.762 h7 0
Ø19.05 - 0.013
4.762 h7
Ø19.05 - 00.013
21.2
21.2
Ø60 h10
Ø60 h10
M5
Ø68.3 - 00.2 0
Ø68.3 - 0.2
Ø20
Ø20
M5
M5
THREAD DEPTH 15mm
4.762 h7
M6 (x6)
21.2
M6 (x6)
THREAD DEPTH 12mm
THREAD DEPTH 12mm
Ø60 h10
Ø68.3 - 00.2
Ø20
2.9
M6 (x6)
THREAD DEPTH 12mm
h11
5/16” -18 UNC (x6) Ø80
26
THREAD
DEPTH
5/16”
-18 UNC
(x6)18mm
A/F 72
THREAD DEPTH 18mm
M6 (x6)
THREAD DEPTH 12mm
Ø80 h11
2.955.6
45.2
45.2
38.1 DEPTH 15mm
THREAD
38.1
2.9
Ø80 h11
5/16” -18 UNC (x6)
THREAD DEPTH 18mm
21.2
338.6
338.6
R28.6
M5
100.8
38.1
55.6 100.8
R28.6
55.6
45.2
Ø60 h10
Ø68.3 - 00.2
Ø20
100.8
R28.6
R28.6
2.9
Reversible
LZB66-AR0020-15
LZB66-AR0012-15
31
THREAD
DEPTH
THREAD
24mm
DEPTH
Clockwise
LZB66-A0025-15
LZB66-A0017-15
M8 (X6)
THREAD
M8
(X6) DEPTH
18 mm DEPTH
THREAD
18 mm
Ø83 h9
6 P9
50
271.5
A/
62
60.5
60.5
50
Ø62 K6
Ø30
M10
THREAD
DEPTH
24mm
333.5
Ø60
Ø62 K6
Ø30
M10
184.3
333.5
62
5
Reversible
LZB66-AR0020-11
LZB66-AR0012-11
LZB66-AR0009-11
271.5
48
50
M8 (X6)
THREAD DEPTH
18 mm
Ø10.3
35
A/
333.5
62
60.5
50
35
5
Clockwise
LZB66-A0025-11
LZB66-A0017-11
LZB66-A0012-11
118
Ø10.3
3
3
31
10
184.3
42
42
6 P9
6 P9
60
50
Flange Ordering No. 4430 0569 84
61.2
30
61.2
60
50
G 3/4”
Ø10.3
31
44
62
M6 Ordering No. 4430 30
Foot
0178 80271.5
60.5
48
M6
35
3
42
Ø28 j6
A/F 55
G 3/4”
Ø10.3
35
14
A/ Ø60
FA
75/F
R 36.5
75
R 36.5
A/F 55
14
50
50
50
118
118
50
10
333.5
44
14.7
14.7
14
A/F 55
R3
60
3
50
14
10
0
R3
0 30
61.2
M6
118
Ø60 h8
44
80
G 3/4”
42
0
R3
80
G 3/8”
14.7
30
61.2
60
R 36.5
M6
G 3/4”
G 3/8”
14
Ø28 j6
80
Ø60 h8
10
G 3/8”
Ø60 h8
Ø60 h8
14
13.5
R3
Optional mounting
13.5
13.5
A/F 55
13.5
0
THREAD DEPTH 15mm
13.5
44
14.7
THREAD DEPTH 15mm
G 3/4”
13.5
21.5
80
G 3/4”
A/F 55
A/F 55
14
14
G 3/8”
Ø19 j6
Ø19 j6
A/F 55
6 h7
6 h7
A/F 55
A/F 55
Ø30
Ø30
M5
G 3/4”
13.5
Ø60
A/F 55
M5
5
5
M5
14.7
6 h7
Ø60
30
THREAD DEPTH 15mm
Ø30
G 3/8”
G 3/8”
13.5
Ø60
40
30
G 3/4”
18.7
18.7
18.7
14.7
14.7
Reversible
219.3
219.3
44
40
5
21.5
21.5
Ø30
14.7
G 3/8”
263.3
263.3
Ø19 j6
M5
18.7
40
30
44
6 h7
219.3
44
A/F 55
Ø60
263.3
5
A/F 55
G 3/8”
LZB66-AR008
LZB66-AR005
LZB66-AR004
219.3
Ø19 j6
Clockwise
Reversible
LZB66-AR130
LZB66-AR035
LZB66-AR020
LZB66-AR015
263.3
LZB66-A010
LZB66-A007
LZB66-A005
21.5
Clockwise
LZB66-A180
44
LZB66-A050
40
LZB66-A030
30
LZB66-A020
All versions
Ø19.05 - 00.013
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
59
LZB VANE MOTORS
Dimensions (mm)
LZB66: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A)
LZB66-A180
kW Nm
2.0
5
l/s
15
45
6
30
0.8
10
30
3
15
0.4
5
15
9
2
30
0.8
1
15
0.4
0.8
0.4
4000
1.6
40
1.2
30
0.8
0.4
8000
1000
16000 r/min
12000
LZB66-A020
kW Nm
2.0
l/s
2000
3000
4000
LZB66-A010
kW Nm
2.0 75
500 1000 1500 2000 2500 3000 r/min
5000 r/min
l/s
LZB66-A007
kW Nm
2.0
l/s
1.6
60
45
1.2
45
45
1.2
90
45
20
30
0.8
30
30
0.8
60
30
10
15
0.4
15
15
0.4
30
15
400
800 1200 1600 2000 2400 r/min
LZB66-A005
kW Nm
2.0 150
l/s
1.6 120
1.6 120
200
400
600
800
LZB66-A0025
kW Nm
2.0
100 200 300 400 500 600 700 r/min
1000 r/min
l/s
LZB66-A0017
kW Nm
2.0 500
l/s
1.6 400
1.6
1.2
90
45
1.2 300
45
1.2 300
45
0.8
60
30
0.8 200
30
0.8 200
30
0.4
30
15
0.4 100
15
0.4 100
15
100
200
300
500 r/min
400
LZB66-A0012
kW Nm
2.0
l/s
1.6 600
1.2 450
45
0.8 300
30
0.4 150
15
20
Torque
[Nm]
Power
[kW]
Max
output
40
60
80
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
100
120 r/min
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
60
1.2
1.2
3
l/s
45
45
1.2
LZB66-A030
kW Nm
2.0 25
20
12
4
l/s
1.6
1.6
1.6
LZB66-A050
kW Nm
2.0 15
AT L A S C O P C O A I R M OTO R S
50
100
150
200
250 r/min
30
60
90
120
150 r/min
LZB VANE MOTORS
LZB66: Performance curves at air pressure 6.3 bar (91 psi)
Reversible (AR)
LZB66-AR130
kW Nm
l/s
1.5
LZB66-AR035
kW Nm
1.5
15
l/s
LZB66-AR020
kW Nm
1.5
25
l/s
1.2
4
40
1.2
12
40
1.2
20
40
0.9
3
30
0.9
9
30
0.9
15
30
0.6
2
20
0.6
6
20
0.6
10
20
0.3
1
10
0.3
3
10
0.3
5
10
4000
8000
12000
LZB66-AR015
kW Nm
r/min
l/s
1000
2000
3000
LZB66-AR008
kW Nm
4000 r/min
500
l/s
1.2
1500
2000
2500 r/min
l/s
1.5 100
1.5
1.5
1000
LZB66-AR005
kW Nm
40
1.2
60
40
1.2
80
40
45
30
0.9
60
30
0.9
30
30
0.9
0.6
20
20
0.6
30
20
0.6
40
20
0.3
10
10
0.3
15
10
0.3
20
10
400
800
1200
1600
LZB66-AR004
kW Nm
200
2000 r/min
l/s
1.5 150
400
600
800
LZB66-AR0020
kW Nm
1000 r/min
100
l/s
1.5 250
200
300
400
500
LZB66-AR0012
kW Nm
600 r/min
l/s
1.5
1.2 120
40
1.2 200
40
1.2 400
40
0.9
90
30
0.9 150
30
0.9 300
30
0.6
60
20
0.6 100
20
0.6 200
20
0.3
30
10
0.3
10
0.3 100
10
50
100 150 200 250 300 350 400 r/min
LZB66-AR0009
kW Nm
50
40
80
120
160
200
240 r/min
20
40
60
80
100 120 140 r/min
l/s
1.5 500
1.2 400
40
0.9 300
30
0.6 200
20
0.3 100
10
20
40
60
80
100 r/min
Torque
[Nm]
Power
[kW]
Max
output
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
AT L A S C O P C O A I R M OTO R S
61
VANE MOTORS LZB77
2.35 – 2.80 kW
3.15 – 3.75 hp
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
For optional vanes and accessories see pages 66-67.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
Model
Lubricated
[kW] [hp]
[r/min]
[Nm]
[lb-ft]
[Nm]
Clockwise rotation (Keyed shaft)
LZB77-A027-15
2.80
3.75
1220
22
16
35
LZB77-A008-15
2.77
3.71
350
75
55
121
LZB77-A007-15
2.77
3.71
310
85
63
137
LZB77-A005-15
2.77
3.71
210
123
91
199
LZB77-A004-15
2.77
3.71
160
166
122
269
LZB77-A0020-15
2.74
3.67
90
293
216
474
LZB77-A0017-15
2.74
3.67
80
332
245
536
Reversible (Keyed shaft)
LZB77-AR024-15
2.40
3.22
1280
18
13.3
24
LZB77-AR007-15
2.38
3.19
370
62
46
84
LZB77-AR006-15
2.38
3.19
320
70
52
96
LZB77-AR004-15
2.38
3.19
220
102
75
139
LZB77-AR003-15
2.38
3.19
170
137
101
188
LZB77-AR0018-15
2.35
3.15
95
242
178
331
LZB77-AR0015-15
2.35
3.15
80
274
202
374
1) For Shaft loading curves, see page 16. NOTE: The motors have built-in silencer.
62
AT L A S C O P C O A I R M OTO R S
Min
starting Stall
torque torque
Stall
torque
Air
Free consumption
speed at max output
Weight
Shaft
loading
[kg] [lb] code 1)
[ft lb]
[Nm]
[lb-ft]
[r/min]
26
89
101
147
198
350
395
44
150
170
246
332
586
664
32
111
125
181
245
432
490
2600
750
660
460
340
190
165
52
52
52
52
52
52
52
110
110
110
110
110
110
110
8.4
8.4
8.4
8.4
8.4
8.7
8.7
18.5
18.5
18.5
18.5
18.5
19.1
19.1
18
62
71
103
139
244
276
36
124
140
204
274
484
548
27
91
103
150
202
357
404
2300
680
600
420
310
170
155
52
52
52
52
52
52
52
110
110
110
110
110
110
110
8.4
8.4
8.4
8.4
8.4
8.7
8.7
18.5
18.5
18.5
18.5
18.5
19.1
19.1
[l/s] [cfm]
ATEX code
Ordering
No.
h
h
h
h
h
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0700 25
8411 0700 70
8411 0700 17
8411 0700 88
8411 0700 96
8411 0701 00
8411 0700 09
h
h
h
h
h
h
h
Ex II 2GD c T4 IIC T110°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
8411 0700 58
8411 0701 18
8411 0700 41
8411 0701 26
8411 0701 34
8411 0701 42
8411 0700 33
Conversion factor 1 mm = 0.04 inch
369.3
312.3
57
48.2
25
BSP 1/2” OR NPTF 1/2”–14
45
2.7
Ø100
Ø85.5 h10
M6
Ø62.1
Ø88.9 h9
23
THREAD DEPTH
16mm
A/F 70
130
4.2
6 P9
R38.1
44.5
M8 (x6) DEPTH 18mm
Clockwise
A/F
80
Reversible
6.35 h7
28.15
19.35
19.35
A/F 70
12.43
Ø25.4 j6
BSP 1/2” OR NPTF 1/2”–14
Optional accessories
pages 66-67.
AT L A S C O P C O A I R M OTO R S
63
LZB VANE MOTORS
Dimensions (mm)
LZB77: Performance curves at air pressure 6.3 bar (91 psi)
Non-reversible (A)
LZB77-A027
kW Nm
3.0
2.5
l/s
kW Nm
3.0
75
2.5 150
50
2.5 150
75
60
40
60
60
1.5
30
45
1.5
90
45
1.5
90
45
1.0
20
30
1.0
60
30
1.0
60
30
0.5
10
15
0.5
30
15
0.5
30
15
kW
Nm
3.0
600
1000 1500 2000 2500 r/min
LZB77-A005
l/s
100 200 300 400 500 600 700 r/min
100 200 300 400 500 600 700 800 r/min
kW Nm
3.0
LZB77-A004
l/s
LZB77-A0020
l/s
2.5 250
75
2.5
75
2.5
500
75
2.0 200
60
2.0 400
60
2.0
400
60
1.5 150
45
1.5 300
45
1.5
300
45
1 100
30
1.0 200
30
1
200
30
15
0.5 100
15
0.5
100
15
50
100
kW Nm
3.0
200
300
400
LZB77-A0017
500 r/min
l/s
2.5 750
75
2.0 600
60
1.5 450
45
1 300
30
0.5 150
15
20 40 60 80 100 120 140 160 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
64
75
l/s
2.0 120
0.5
Torque
at max
output
kW Nm
3.0 180
2.0 120
500
Max
output
LZB77-A007
l/s
2.0
kW Nm
3.0
Torque
[Nm]
Power
[kW]
LZB77-A008
AT L A S C O P C O A I R M OTO R S
50 100 150 200 250 300 350 r/min
40
80
120
160
200 r/min
LZB VANE MOTORS
LZB77: Performance curves at air pressure 6.3 bar (91 psi)
Reversible (AR)
LZB77-AR024
kW Nm
2.5
2.0
1.5
1.0
0.5
40
30
20
10
500
1000
1500
2000
LZB77-AR004
kW Nm
2.5 250
l/s
kW Nm
2.5 150
80
LZB77-AR007
l/s
kW Nm
2.5 150
2.0 120
80
2.0 120
80
60
1.5
90
60
1.5
90
60
40
1.0
60
40
1.0
60
40
20
0.5
30
20
0.5
30
20
100 200 300 400 500 600 700 800 r/min
2500 r/min
l/s
kW Nm
2.5
LZB77-AR003
LZB77-AR006
l/s
100 200 300 400 500 600 700 r/min
l/s
kW Nm
2.5 500
LZB77-AR0018
l/s
2.0 200
80
2.0
80
2.0 400
80
1.5 150
60
1.5 300
60
1.5 300
60
1.0 100
40
1.0 200
40
1.0 200
40
0.5
20
0.5 100
20
0.5 100
20
50
100
kW Nm
2.5
300
400
200
LZB77-AR0015
500 r/min
2.0 600
80
1.5 450
60
1.0 300
40
0.5 150
20
40
80
120
160
50 100 150 200 250 300 350 r/min
40
80
120
160
200 r/min
l/s
200 r/min
Torque
[Nm]
Power
[kW]
Max
output
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
Torque
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
Speed [r/min]
For information about performance curves, see page 7.
AT L A S C O P C O A I R M OTO R S
65
ACCESSORIES FOR LZB AIR MOTORS
Key chuck and quick chuck for LZB22/33-12
Chuck type
Key chuck
Key chuck
Key chuck
Key chuck
Quick chuck
Quick chuck
Quick chuck
Body diameter
(mm)
30
36
46
42.8
34
36
36
Mount
3/8"-24 UNF
3/8"-24 UNF
3/8"-24 UNF
1/2"-20 UNF
3/8"-24 UNF
3/8"-24 UNF
3/8"-24 UNF
Capacity
(mm)
0 - 6.5
2.0 - 10.0
2.0 - 13.0
1.5 - 13
0 - 6.5
0 - 10.0
2.0 - 13.0
Ordering No.
4021 0283 00
4021 0416 00
4021 0289 00
4021 0289 01
4021 0401 00
4021 0402 00
4021 0403 00
Collet chuck and collets for LZB22/33-12
Capacity
Type
Collet holder cpl.
Collet
Collet
Collet
Collet
Collet
Collet
Collet
Collet
66
mm
3
5
6
8
AT L A S C O P C O A I R M OTO R S
in
5/16"
1/8"
5/32"
3/16"
1/4"
Ordering No.
4110 0844 90
4150 0081 00
4150 0075 01
4150 0075 00
4150 0074 00
4150 0082 00
4150 0648 00
4150 0649 00
4150 0076 00
Threaded shafts for re-building standard motors
Motor
LZB42-A200
LZB42-A065
LZB42-A040
LZB42-A025
LZB42-A015
LZB42-A010
LZB42-A005
LZB42-A0030
LZB42-A0020
LZB42-A0012
LZB54 / LZB66-A180
LZB54 / LZB66-A050
LZB54 / LZB66-A030
LZB54 / LZB66 -A020
LZB54 / LZB66-A010
LZB54 / LZB66- A007
LZB54 / LZB66-A005
Thread dimension
1/2"–20 UNF
1/2"–20 UNF
1/2"–20 UNF
1/2"–20 UNF
1/2"–20 UNF
1/2"–20 UNF
1/2"–20 UNF
3/4"–16 UNF
3/4"–16 UNF
3/4"–16 UNF
1/2"–20 UNF
1/2"–20 UNF
1/2"–20 UNF
1/2"–20 UNF
3/4"–16 UNF
3/4"–16 UNF
3/4"–16 UNF
Ordering No.
4430 0868 80
4430 0868 80
4430 0868 81
4430 0868 82
4430 0869 80
4430 0869 80
4430 0869 80
4430 0870 80
4430 0870 80
4430 0870 80
4430 0871 80
4430 0871 80
4430 0871 81
4430 0871 82
4430 0870 80
4430 0870 80
4430 0870 80
LZB VANE MOTORS
Lubrication free vane sets
Motor
Ordering No.
LZB14
4210 0479 97
LZB22
4110 0861 97
LZB33/34
4110 0621 97
LZB42
4430 0517 97
LZB46
4430 0525 97
LZB54
4430 0543 97
LZB66
4430 1355 97
LZB77
4430 1487 97
NOTE: If running motors with 100% dry air and no lubrication, performance can be reduced by 5-15% at
max output.
Standard vane sets
Motor
LZB14
LZB22
LZB33/34
LZB42
LZB46
LZB54
LZB66
LZB77
Ordering No.
4210 0479 90
4110 0861 90
4110 0621 90
4430 0517 90
4430 0525 90
4430 0543 90
4430 1355 90
4430 1487 90
Spring supported lubrication free vane sets
Not to be used over 3 bar
Motor
LZB22
LZB33/34
Ordering No.
4430 0686 97
4430 1349 97
A
C
B
Different noise reduction possibilities and the effects thereof:
Silencers
Motor
LZB 14
LZB 22
LZB 33
LZB 42
LZB 46
LZB 54
Noise damp dB(A)
Power loss %
A
Sinter bronze
Ordering No.
9090 0507 00
9090 0508 00
9090 0508 00
9090 0510 00
9090 0510 00
9090 0510 00
B
LBB
Ordering No.
4250 1878 83
4250 1878 83
4250 1878 83
4250 1878 83
4250 1878 83
4250 1878 83
C
ECSB-2
Ordering No.
9090 2100 01
9090 2100 01
9090 2100 01
9090 2100 01
9090 2100 01
9090 2100 02
15
10
20
10
25
7
Note: The noise damping and power loss values are approximate. The
ECSB-2 silencer –01 has 1/2”and the –02 has 1” threaded port. They need
to be connected to the motor via tube or hose with suitable connections.
0.36 – kW motor
No-load speed
Anechoic room
Interval of 1 m
Measure
Noise
Level
dB(A)
None94
Silencer only
77
Hose only
84
Hose with
silencer
75
AT L A S C O P C O A I R M OTO R S
67
LZL
VANE MOTORS
68
AT L A S C O P C O A I R M OTO R S
AT L A S C O P C O A I R M OTO R S
69
LZL VANE MOTORS
Introduction
LZL vane motors are available in five sizes, offering
outputs of 1.05 kW, 1.3 kW, 2.3 kW, 3.4 kW and 5.2 kW,
­respectively.
They are designed to give outstanding starting and low speed
performance. This is achieved by using a six vane motor and
by optimum vane/cylinder sealing – obtained through a combination of ‘vane air’ and interconnecting pins.
Featuring few components, these motors are ruggedly
constructed and offer a long service life.
Figure 1
1. Six vanes for high starting torque.
2. Pins to force vanes out and provide starting reliability.
3. Cast iron housing.
4. Long life bearings.
5. Restriction at inlet and outlet ports.
70
AT L A S C O P C O A I R M OTO R S
LZL VANE MOTORS
Shaft loading
The permitted radial and axial shaft extension loadings are
illustrated in Figure 2. These values have been calculated for
shaft and bearing working lives of at least 1.000 hours at a
speed that gives maximum output.
Restrictors
LZL vane motors are supplied with internal restrictors in the
connection ports, to limit the maximum speed.
Clockwise rotation – the smaller restrictor (1) is
fitted in the inlet port and the larger restrictor (2) in the outlet
port (see Figure 3). This is how the motor is delivered.
Figure 3
Anti-clockwise rotation – the position of these restrictors must be reversed. Reversing duty – restrictor (1) must
be replaced by a second restrictor of type (2). The restrictor
(1) must then be fitted into the inlet to the control valve.
For further information, see page 11 chapter “Installation
Examples”.
It is permissible to remove these restrictors to increase
motor output. However, the motor should not be run faster
than max allowed speed (see data table).
Mounting
LZL vane motors may be mounted in any position. To
facilitate this, a flange is integrated into the motor casing and
a foot mounting is available for some motor variants.
Fa
(N)
Connection and hose dimensions
Hose size up to 3m length
Information on connection size and recommended nipple
1200 and
hose dimensions for use with LZL vane motors is shown in
Table 2. These dimensions are valid for hose lengths up to
1000
3 m. For lengths above 3 m, choose a hose one size
larger.
Inlet
connection
Motor
thread
size
Used as
(BSP)
LZL03
Non-reversible
3/8"
Reversible
3/8"
LZL05
Non-reversible
1/2"
Reversible
1/2"
LZL15
Non-reversible
3/4"
Reversible
3/4"
LZL25
Non-reversible
1"
Reversible
1"
LZL35
Non-reversible
1 1/4"
Reversible
1 1/4"
* recommended minimum inner diameter
800
600
400
Fa
(N)
Inlet
hose*
(mm)
13
16
13
20
16
25
20
32
20
32
Inlet
Outlet
nipple*
connection
diameter
thread
(mm)
(BSP)
10.3
3/8"
13.4
3/8"
10.3
1/2"
17
1/2"
13.4
3/4"
21.8
3/4"
17
1"
28
1"
17
1 1/4"
28
1 1/4"
Outlet
hose*
Outlet
nipple*
diameter
(mm)
(mm)
16
13.4
16
13.4
20
17
20
17
25
21.8
25
21.8
32
28
32 Table
28 2
32
28
32
28
1000
1400
200
1200
1000
200
400
600
800
1200
1600
800
LZL 35
LZL 25
LZL 15
LZL 05
LZL 03
600
400
A = 25 mm
A = 25 mm
A = 25 mm
A = 20 mm
A = 20 mm
200
Fr
200
LZL 35
LZL 25
LZL 15
LZL 05
LZL 03
400
600
A = 25 mm
A = 25 mm
A = 25 mm
A = 20 mm
A = 20 mm
800
1000
1200
1400
1600
1800
2000
2200
2400
2600
2800
3000
(N)
Figure 2
AT L A S C O P C O A I R M OTO R S
71
1800
LZL VANE MOTORS
1.05 – 6.5 kW
1.4 – 8.7 hp
4.
2.
1.
Power motors
The power motors come in all five sizes and are designed to
give highest power and still maintain good low speed characteristics. These motors need lubricated air.
Typically these motors are characterized by:
•
•
•
•
Reliable starting.
High starting torque and good low speed characteristics.
Wide speed and torque range.
Sturdy, compact construction to withstand rough
­treatment.
• Inlet and outlet port restrictors permit free speed running.
• Long working life and easy servicing.
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
5.
3.
1. Rubber hose valves for venting bearing and seals.
2. Vane pins.
3. Double seals.
4. Stainless steel bushing.
5. Aluminum front with stainless steel screws.
Data at air pressure 6.3 bar (91 psi)
Max
output
Speed
at max
output
Torque
at max
output
Torque
at max
output
Min
starting
torque
Min
starting
torque Stall torque
Free
speed
Model
Lubricated
[kW] [hp]
[r/min]
[Nm]
[lb-ft]
[Nm]
[lb-ft] [Nm] [lb-ft]
[r/min]
LZL03-S
1.05 1.4
5300
1.9
1.4
2.8
2.1
3.8
2.8
11000
LZL03-S-IEC
1.05 1.4
5300
1.9
1.4
2.8
2.1
3.8
2.8
11000
LZL03-S-NEMA 1.05 1.4
5300
1.9
1.4
2.8
2.1
3.8
2.8
11000
Unrestricted*
1.7
2.5
7500
2.2
1.6
2.8
2.1
3.8
2.8
LZL05-S
1.3
1.7
4300
2.9
2.1
4.8
3.5
5.8
4.3
9000
LZL05-S-IEC
1.3
1.7
4300
2.9
2.1
4.8
3.5
5.8
4.3
9000
LZL05-S-NEMA
1.3
1.7
4300
2.9
2.1
4.8
3.5
5.8
4.3
9000
Unrestricted*
2.1
2.8
6300
3.1
2.3
4.8
3.5
5.8
4.3
LZL15
2.3
3.1
3380
6.5
4.8
10.9
8.0
13
9.6
7000
LZL15-P-IEC
2.3
3.1
3380
6.5
4.8
10.9
8.0
13
9.6
7000
Unrestricted*
3.2
4.3
4500
6.8
5.0
10.9
8.0
13
9.6
LZL25
3.4
4.6
2800
11.6
8.5
18
13.2
23
17
5800
LZL25-P-IEC
3.4
4.6
2800
11.6
8.5
18
13.2
23
17
5800
Unrestricted*
5.0
6.7
4000
12.0
8.8
18
13.2
23
17
LZL35
5.2
7.0
2500
20
14.7
32
23.6
40
30
5000
LZL35-P-IEC
5.2
7.0
2500
20
14.7
32
23.6
40
30
5000
Unrestricted*
6.5
8.7
3100
20
14.7
32
23.6
40
30
* Motor without restrictor plates in the air in- and outlet, the motors should not be run above max allowed speed.
72
AT L A S C O P C O A I R M OTO R S
Max
alloweed
speed
[r/min]
11000
9200
7200
6000
5000
Air
consumption at
max output
[l/s] [cfm]
29
61
29
61
29
61
45
95
37
78
37
78
37
78
50
106
61
129
61
129
87
184
86
182
86
182
135
286
130
275
130
275
160
339
Weight
ATEX code
Ex II 2GD c T2 IIC T240°C
Ex II 2GD c T2 IIC T240°C
Ex II 2GD c T2 IIC T240°C
Ordering
No.
8411 1006 32
8411 1007 15
8411 1007 07
3.9
4.8
4.9
8.6 Ex II 2GD c T2 IIC T240°C
10.6 Ex II 2GD c T2 IIC T240°C
10.8 Ex II 2GD c T2 IIC T240°C
8411 1007 56
8411 1007 72
8411 1007 64
7.1
8.3
15.7 Ex II 2GD c IIC T2 T240ºC
18.3 Ex II 2GD c IIC T2 T240ºC
8411 1005 17
8411 1009 21
11.3
15.2
24.9 Ex II 2GD c IIC T2 T240ºC
33.5 Ex II 2GD c IIC T2 T240ºC
8411 1005 25
8411 1009 39
20
20
44.1 Ex II 2GD c IIC T2 T240ºC
44.1 Ex II 2GD c IIC T2 T240ºC
8411 1005 74
8411 1009 47
[kg] [lb]
2.9
6.4
3.9
8.6
3.8
8.4
The lube free LZL models are designed for reliable running
at very low and medium speeds. The absence of lubrication
results in a cleaner surrounding area and no contaminating
aerosols to come in contact with the driven equipment.
These motors are, among other applications, ideal for mixing.
To further ensure a clean and hygienic environment, a double
shaft seal is used and all components that come in contact
with the mixed medium are made of corrosion-resistant
material. Thanks to the cylinder design and highly stable
­bearings, LZL motors require no extra drive shaft support and
are ready for mounting without add-ons. For good adaptability, the lube free motors are available with IEC or NEMA.
4.
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
5.
LZL VANE MOTORS
Lubrication free motors
2.
1.
3.
6.
1. Rubber hose valves for venting bearing and seals.
2. Lube free vanes.
3. Double seals.
4. Stainless steel bushing.
5. Aluminum front with stainless steel screws.
6. Spring loaded pins.
Power at
3000 rpm
Power at
3000 rpm
Torque at
3000
rpm
Torque at
3000
rpm
Stall
torque
Stall
torque
Max
allowed
speed
Model
Lubrication free
[kW]
[hp]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
[r/min]
LZL03-M
0.41
0.55
1.3
0.95
3.3
2.4
3000
LZL03-M-IEC
0.41
0.55
1.3
0.95
3.3
2.4
3000
LZL03-M-NEMA
0.41
0.55
1.3
0.95
3.3
2.4
3000
Unrestricted*
1.0
1.3
3.3
2.4
3.7
3.7
3000
LZL05-M
0.63
0.84
2.0
1.5
5.8
4.3
3000
LZL05-M-IEC
0.63
0.84
2.0
1.5
5.8
4.3
3000
LZL05-M-NEMA
0.63
0.84
2.0
1.5
5.8
4.3
3000
Unrestricted*
1.7
2.2
5.3
3.9
6.7
4.9
3000
* Motor without restrictor plates in the air in- and outlet, the motors should not be run above max allowed speed.
Air
Air
consumption consumption
at 3000 rpm at 3000 rpm
[l/s]
16
16
16
24
25
25
25
35
Weight
[cfm]
34
34
34
51
52
52
52
74
[lb]
6.4
8.4
8.6
ATEX code
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
Ex II 2GD c T6 IIC T85°C
3.9
4.8
4.9
8.6
10.6
10.8
Ex II 2GD c T6 IIC T85°C 8411 1007 23
Ex II 2GD c T6 IIC T85°C 8411 1007 49
Ex II 2GD c T6 IIC T85 °C 8411 1007 31
2.
1.
Stainless steel motors
Ordering
No.
8411 1006 73
8411 1006 92
8411 1006 81
[kg]
2.9
3.8
3.9
Stainless steel motors are available in the size LZL05. They
are lube free and have the same features as the other lube
free motors. All external parts, including the output shaft,
are made of stainless steel, which makes the motors very
corrosion­resistant and ideal for applications such as the food
­industry, corrosive mixing and the chemical industry.
The material used in all external parts is ISO 683/Xlll Type 17,
SS 14 2346, DIN 17440 X 12CrNiS188.
The material in the output shaft is ISO 683/Xlll Type 9b,
SS 14 2321, DIN 17440 X 22CrNi17.
5.
EX certification valid for fixture mounted use only with a
maximum surrounding temperature of +40°C (104°F).
Power at
3000 rpm
Power at
3000 rpm
Torque at
3000
rpm
Torque at
3000
rpm
Stall
torque
3.
4.
5.
5.
1. Rubber hose valves for venting bearing and seals.
2. Lube free vanes.
3. Double seals.
4. Vane pins.
5. Stainless steel.
Stall
torque
Max
allowed
speed
Model
Lubrication free
[kW]
[hp]
[Nm]
[lb-ft]
[Nm]
[lb-ft]
[r/min]
LZL05-R-SL-IEC
0.63
0.84
2.0
1.5
4.8
3.5
3000
LZL05-R-SL-NEMA
0.63
0.84
2.0
1.5
4.8
3.5
3000
Unrestricted*
1.7
2.2
5.3
3.9
6.7
4.9
3000
* Motor without restrictor plates in the air in- and outlet, the motors should not be run above max allowed speed.
Air
Air
consumption consumption
at 3000 rpm at 3000 rpm
[l/s]
25
25
35
[cfm]
52
52
74
Weight
[kg]
6.1
6.1
[lb]
13.4
13.4
Ordering
ATEX code
No.
Ex II 2GD c T4 IIC T110°C 8411 1008 44
Ex II 2GD c T4 IIC T110°C 8411 1008 36
AT L A S C O P C O A I R M OTO R S
73
Air motor
Measurements (mm)
Conversion factor
1 mm = 0.04 inch
Air motor
Measurements (mm) Conversion factor 1 mm = 0.04 inch
Model
LZL03-M/S
LZL03-M/S-IEC
LZL03-M/S-NEMA
LZL03-M/S-NEMA
LZL05-S
LZL05-M
LZL05-M/S-IEC
LZL05-M/S-NEMA
LZL05-M/S-NEMA
LZL05-R-SL-IEC
LZL05-R-SL-NEMA
LZL05-R-SL-NEMA
LZL15
LZL15-P-IEC
LZL25
LZL25-P-IEC
LZL35
LZL35-P-IEC
[mm]
[mm]
[mm]
[inch]
[mm]
[mm]
[mm]
[mm]
[inch]
[mm]
[mm]
[inch]
[mm]
[mm]
[mm]
[mm]
[mm]
[mm]
A
124
124
124
4.88
153
153
153
153
6.02
146.7
146.7
5.76
174
182
206
220.5
238
248.5
B
Ø105
Ø160
Ø165.1
Ø6.5
Ø105
Ø105
Ø160
Ø165.1
Ø6.5
Ø160
Ø165.1
Ø6.5
Ø140
Ø200
Ø160
Ø200
Ø200
Ø250
C
D
E
F
Ø70 j6 Ø16 js7 M5x15 40
Ø110 j6 Ø14 js7 M5x15 30
Ø114.3 Ø15.875 M5x15 51.5
Ø4.5
Ø0.625 M5x15 2.03
Ø70 j6 Ø18 js7 M5x15 40
Ø70 j6 Ø16 js7 M5x15 40
Ø110 j6 Ø14 js7 M5x15 30
Ø114.3 Ø15.875 M5x15 51.5
Ø4.5
Ø0.625 M5x15 2.03
Ø110 j6 Ø14 js7
–
30
Ø114.3 Ø15.875
–
51.5
Ø4.5
Ø0.625
–
2.3
Ø95 j6 Ø22 js7 M8x15 52.5
Ø130 j6 Ø19 j6 M6x16 40
Ø110 j6 Ø28 js7 M10x15 62.5
Ø130 j6 Ø24 j6 M10x22 50
Ø130 j6 Ø28 js7 M10x15 62.5
Ø180 j6 Ø28 j6 M10x22 60
G
2.5
3.5
3.0
0.12
2.5
2.5
3.5
3.0
0.12
3.5
3.0
0.12
3.0
3.5
3.5
3.5
3.5
4.0
H
1.5
1.5
1.5
0.06
0.8
0.8
0.8
0.8
0.03
4.3
2.8
0.11
0.0
1.8
1.8
-
LZL motors with IEC interface
Measurements (mm) Conversion factor 1 mm = 0.04 inch
Model
LZL05-S-IEC
LZL15-P-IEC
LZL25-P-IEC
LZL35-P-IEC
74
Flange mounting
B5
B5
B5
B5
AT L A S C O P C O A I R M OTO R S
IEC frame
71
80
90
112
Flange No.
FF 130
FF 165
FF 165
FF 215
J
2.0
2.0
1.7
0.07
3.0
2.0
2.0
1.7
0.07
2.0
1.7
0.07
5.0
5.0
5.0
5.0
5.0
5.0
K
30
20
31.75
1.25
30
30
20
31.75
1.25
20
31.75
1.25
40
30
50
40
50
50
L
8.5
10
10
0.39
8.5
8.5
10
10
0.39
12.5
12.5
0.49
10
12
12
12
14
14
M
65
65
65
2.56
81
81
81
81
3.19
74.7
74.7
2.94
84
95.5
103
117.5
119
129
N
Ø69
Ø69
Ø69
Ø2.72
Ø76
Ø76
Ø76
Ø76
Ø3.00
Ø83
Ø83
Ø3.27
Ø100
Ø100
Ø120
Ø120
Ø134
Ø134
O
BSP 3/8"
BSP 3/8"
BSP 3/8"
BSP 3/8"
BSP 1/2"
BSP 1/2"
BSP 1/2"
BSP 1/2"
BSP 1/2"
BSP 1/2"
BSP 1/2"
BSP 1/2"
BSP 3/4"
BSP 3/4"
BSP 1”
BSP 1"
BSP 1 1/4"
BSP 1 1/4"
P
36
36
36
1.42
44
44
44
44
1.73
44
44
1.73
58
54
70
70
70
70
R
Ø85
Ø130
Ø149.4
Ø5.882
Ø85
Ø85
Ø130
Ø149.4
Ø5.882
Ø130
Ø149.4
Ø5.882
Ø115
Ø165
Ø130
Ø165
Ø165
Ø215
S
Ø7
Ø10
3/8"-16 UNC
3/8"-16 UNC
Ø7
Ø7
Ø10
3/8"-16 UNC
3/8"-16 UNC
Ø10
3/8"-16 UNC
3/8"-16 UNC
Ø8.8
Ø12
Ø8.8
Ø12
Ø12
Ø14.5
T
U
18
5 h9
16
5 h9
17.95 5 h9
0.706 0.197 h9
20.5
6 h9
18
5 h9
16
5 h9
17.95 5 h9
0.706 0.197 h9
16
5 h9
17.95 5 h9
0.71 0.197 h9
24.5
6 h9
21.5
6 h9
31
8 h7
27
8 h7
31
8 h7
31
8 h7
Power motors
LZL03-S
kW Nm
2.0
4
1.5
l/s
kW
2.4
60
45
3
1.0
2
30
0.5
1
15
LZL15
2.0
5
75
1.6
4
60
1.2
3
45
0.8
2
30
0.4
1
15
2000
l/s
4000
12
120
2.5
10
100
2.0
8
1.5
6000
8000
The restricted motors are guaranteed not
to exceed the ATEX speed limit when
running at 6.3 bar or below.
10000 r/min
LZL25
kW Nm
5 25
3.0
The solid lines represent restricted
motors and the dotted lines unrestricted
motors.
l/s
6
2000 4000 6000 8000 10000 12000 r/min
kW Nm
3.5 14
LZL05-S
Nm
LZL35
kW Nm
7
l/s
6
l/s
240
4
20
200
80
3
15
150
4
40
160
6
60
2
10
100
3
30
120
1.0
4
40
2
20
80
0.5
2
20
1
10
40
2000
4000
6000
1
50
5
8000 r/min
5
2000
4000
200
6000 r/min
2000
4000
6000 r/min
LZL03-M
with air flow
restrictor
LZL: Performance curves at airNmThrottled
pressure
6.3
bar (91 psi)
l/s
1.25
3.0
Curve idling speed
2.8
1400 rpm Torque
1.0
2.6
2.4
1200 rpm Torque
LZL03-M
2.2
0.75
Throttled with air flow restrictor
1000 rpm Torque
2.0
l/s
LZL05-M Nm
/ LZL05-R-SL
l/s
1.8
0.5
800idling
rpm Torque
1.25
3.0
Curve
speed
1.6
2.8
1400
rpmTorque
Torque
1.4
0.25
600 rpm
1.0
2.6
40
1.2
2.4
1200 rpm Torque
1.0
2.2r/min
0.75
200
400 30 600
800 1000
1000 rpm Torque
2.0
1.8
0.5
20
800 rpm Torque
1.6
1.4
0.25
10
600 rpm Torque
1.2
1.0
600
800 1000 r/min
500 1000 1500 2000200
2500 400
3000 r/min
Lubrication free motors and stainless steel motors
kW
LZL03-M
Nm
l/s
kW Nm
2.0 7.5
4.0
1.05 3.5
1.6 6.0
0.9 3.0
0.75 2.5
25
0.6 2.0
20
0.45 1.5
15
0.3 1.0
10
0.15 0.5
5
1.2 4.5
0.8 3.0
0.4 1.5
500 1000 1500 2000 2500 3000 r/min
LZL03-M
l/s
kW Nm
LZL05-M / LZL05-R-SL
l/s
2.0 7.5
40
1.6 6.0
25
1.2 4.5
30
0.8 3.0
20
0.4 1.5
10
20
15
10
5
000 1500 2000 2500 3000 r/min
Torque
[Nm]
Power
[kW]
Max
output
500 1000 1500 2000 2500 3000 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
1200 rpm Air Cons.
1000 rpm Air Cons.
800 rpm Air Cons.
1400
rpmAir
AirCons.
Cons.
600 rpm
1200 rpm Air Cons.
1000 rpm Air Cons.
800 rpm Air Cons.
600 rpm Air Cons.
LZL05-M
Throttled with air flow restrictor
Nm
l/s
1.75
4.0
1.5
3.5
Curve idling speed
1400 rpm Torque
1.25
1200 rpm Torque
3.0
LZL05-M
Throttled with air flow restrictor
1.0
1000 rpm Torque
2.5
Nm
l/s
0.75
1.75
4.0
2.0
800idling
rpm Torque
Curve
speed
0.5
1.5
1400
rpmTorque
Torque
3.5
1.5
600 rpm
0.25
1.25
1200 rpm Torque
3.0
1.0
200
400
600
800 1000 r/min
1.0
1000 rpm Torque
2.5
0.75
2.0
800 rpm Torque
0.5
1.5
0.25
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
1400 rpm Air Cons.
200
400
600
800
600 rpm Torque
1400 rpm Air Cons.
1200 rpm Air Cons.
1000 rpm Air Cons.
800 rpm Air Cons.
1400
rpmAir
AirCons.
Cons.
600 rpm
1200 rpm Air Cons.
1000 rpm Air Cons.
800 rpm Air Cons.
600 rpm Air Cons.
1.0
1000 r/min
For information about performance curves, see page 7.
Torque
Speed [r/min]
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
–––––
---------
Performance with restrictors
Performance without restrictors, (unrestricted)
AT L A S C O P C O A I R M OTO R S
75
LZL VANE MOTORS
LZL: Performance curves at air pressure 6.3 bar (91 psi)
LZL VANE MOTOR/GEAR
UNIT COMBINATIONS
Combined with helical gear units, LZL
vane motors can be used over a very wide
torque and speed range. Gears have a ratio
range between 6.3:1 to 164.5:1, corresponding
to a speed range of 512 to 17 r/min and
output torque up to 1836 Nm at max. output.
Helical gear units, type BF
Helical gear units are available in 2, 3, or 4-stage configurations. They deliver high efficiency levels and are available in
a wide choice of ratios, Figure 4.
Calculating sprocket or gearwheel dimensions
If it is intended to fit a sprocket, gearwheel or pulley onto the
output shaft, the radial load generated when running must be
within the permitted level.
The following formula is used to calculate the minimum diameter of these components, to ensure the radial load does
not exceed this limit.
Dmin = 2 x M x
F
where M =
F =
kt =
kt
[m]
load torque in Nm
permitted radial force halfway along
the shaft extension
1.0 for sprocket
1.3 for gear wheel
1.5 for pulley
Operating speed
To avoid damage to seals the gear units should not be run
continuously above 4200 rpm.
Mounting
There are two options of mounting arrangement:
Foot or Flange as illustrated in Figure 5.
1. Foot
2. Flange
Figure 4
Shaft loading
The maximum allowable radial load on the output shaft of
each gear unit, at the halfway point on the shaft can be
obtained from the data tables for each model.
The maximum permitted axial load is 20% of the table value
for radial load if full permitted radial load is occurring. If there
is no radial load the maximum permissible axial load is 50%
of the table value for radial force.
76
AT L A S C O P C O A I R M OTO R S
Figure 5
Temperature
The gear units can operate within an ambient temperature
range of –20°C (–4°F) and +40°C (104°F).
If it is required to use a gear unit outside these temperature
limits please consult your local Atlas Copco representative.
LZL VANE MOTORS
Mounting position
Allowed mounting positions are shown below. Installing the
motor underneath the gear unit is not allowed.
The alphanumeric numbers B3, B5, etc., are referred to in
the product information enclosed at delivery.
B3
B5
B6
B51
B7
B53
B8
B52
V5
V1
V6
V3
Position not allowed.
AT L A S C O P C O A I R M OTO R S
77
AIR MOTORS LZL05
with helical gear units
1.2 – 2.0 kW
1.7 – 2.6 hp
Data at air pressure 6.3 bar (91 psi)
Max output
Model
LZL05-BF322-A-012
LZL05-BF322-B-012
Unrestricted*
LZL05-BF322-A-018
LZL05-BF322-B-018
Unrestricted*
LZL05-BF322-A-033
LZL05-BF322-B-033
Unrestricted*
LZL05-BF322-A-060
LZL05-BF322-B-060
Unrestricted*
LZL05-BF363-A-102
LZL05-BF363-B-102
Unrestricted*
LZL05-BF363-A-140
LZL05-BF363-B-140
Unrestricted*
Ratio
12.3
12.3
12.3
18.2
18.2
18.2
33.1
33.1
33.1
59.4
59.4
59.4
102.2
102.2
102.2
139.8
139.8
139.8
[kW]
1.2
1.2
2.0
1.2
1.2
2.0
1.2
1.2
2.0
1.2
1.2
2.0
1.2
1.2
1.9
1.2
1.2
1.9
[hp]
1.7
1.7
2.6
1.7
1.7
2.6
1.7
1.7
2.6
1.7
1.7
2.6
1.6
1.6
2.6
1.6
1.6
2.6
Speed at
max
output
[r/min]
352
352
512
238
238
346
131
131
190
73
73
106
42
42
62
31
31
45
*) Unrestricted, the motors should not be run without load
A = Foot mount
B = Flange mount
78
AT L A S C O P C O A I R M OTO R S
Torque
max output
[Nm]
33
33
36
49
49
54
90
90
97
161
161
174.9
272
272
295
372
372
403
[lb-ft]
25
25
27
36
36
40
66
66
72
119
119
129
200
200
217
274
274
297
Min starting
torque
[Nm]
56
56
56
83
83
83
151
151
151
271
271
271
456
456
456
624
624
624
[lb-ft]
41
41
41
61
61
61
111
111
111
200
200
200
336
336
336
460
460
460
Free
speed
[r/min]
740
740
Max
allowed
speed
[r/min]
740
500
500
500
275
275
275
153
153
153
89
89
89
65
65
65
Air cons. at
max output
[l/s]
36
36
54
36
36
54
36
36
54
36
36
54
36
36
54
36
36
54
[cfm]
77
77
114
77
77
114
77
77
114
77
77
114
77
77
114
77
77
114
Weight
[kg]
14
14
14
14
14
14
14
14
14
14
14
14
22
22
22
22
22
22
[lb]
31
31
31
31
31
31
31
31
31
31
31
31
49
49
49
49
49
49
Max radial
load at max
output
[N]
2360
2360
2100
2770
2770
2450
3370
3370
3000
4800
4800
4280
5650
5650
5020
5690
5690
5060
Ordering No.
8411 1808 40
8411 1808 57
8411 1808 65
8411 1808 73
8411 1808 81
8411 1808 99
8411 1809 07
8411 1810 15
8411 1810 23
8411 1810 31
8411 1810 49
8411 1810 56
kW Nm
2.0 75
LZL05-BF322-A/B-012
l/s
kW Nm
2.0 100
LZL05-BF322-A/B-018
l/s
kW Nm
2.0 200
LZL05-BF322-A/B-033
l/s
1.6
60
80
1.6
80
80
1.6 160
80
1.2
45
60
1.2
60
60
1.2 120
60
0.8
30
40
0.8
40
40
0.8
80
40
0.4
15
20
0.4
20
20
0.4
40
20
100 200 300 400 500 600 700 800 r/min
kW Nm
2.0
LZL05-BF322-A/B-060
100
200
300
400
LZL05-BF363-A/B-102
500 r/min
50
100 150 200 250 300 r/min
l/s
kW Nm
2.0
1.6 400
80
1.6 600
80
1.6
800
80
1.2 300
60
1.2 450
60
1.2
600
60
0.8 200
40
0.8 300
40
0.8
400
40
0.4 100
20
0.4 150
20
0.4
200
20
20 40 60 80 100 120 140 160 r/min
Torque
[Nm]
Power
[kW]
Max
output
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
20
40
60
80
l/s
LZL05-BF363-A/B-140
kW Nm
2.0
100 r/min
LZL VANE MOTORS
Air motor LZL05 with helical gear units type BF:
Performance curves at air pressure 6.3 bar (91 psi)
10 20 30
40
50
60
l/s
70
r/min
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
For information about performance curves, see page 7.
Torque
Speed [r/min]
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
–––––
---------
Performance with restrictors
Performance without restrictors (unrestricted)
AT L A S C O P C O A I R M OTO R S
79
AIR MOTORS LZL15
with helical gear units
2.1 – 3.0 kW
2.9 – 4.1 hp
Data at air pressure 6.3 bar (91 psi)
Max output
Model
LZL15-BF322-A-011
LZL15-BF322-B-011
Unrestricted*
LZL15-BF322-A-018
LZL15-BF322-B-018
Unrestricted*
LZL15-BF322-A-033
LZL15-BF322-B-033
Unrestricted*
LZL15-BF322-A-060
LZL15-BF322-B-060
Unrestricted*
LZL15-BF363-A-102
LZL15-BF363-B-102
Unrestricted*
LZL15-BF613-A-165
LZL15-BF613-B-165
Unrestricted*
Ratio
11.2
11.2
11.2
18.2
18.2
18.2
33.1
33.1
33.1
59.4
59.4
59.4
102.2
102.2
102.2
164.5
164.5
164.5
[kW]
2.2
2.2
3.0
2.2
2.2
3.0
2.2
2.2
3.0
2.2
2.2
3.0
2.1
2.1
3.0
2.1
2.1
3.0
[hp]
2.9
2.9
4.1
2.9
2.9
4.1
2.9
2.9
4.1
2.9
2.9
4.1
2.9
2.9
4.0
2.9
2.9
4.0
Speed at
max
output
[r/min]
307
307
389
189
189
239
104
104
132
58
58
73
34
34
43
21
21
26
*) Unrestricted, the motors should not be run without load
A = Foot mount
B = Flange mount
80
AT L A S C O P C O A I R M OTO R S
Torque
max output
[Nm]
68
68
74
111
111
121
202
202
220
362
362
395
609
609
665
981
981
1071
[lb-ft]
50
50
55
82
82
89.3
149
149
162
267
267
291
449
449
491
723
723
790
Min starting
torque
[Nm]
116
116
116
188
188
188
343
343
343
615
615
615
1036
1036
1036
1668
1668
1668
[lb-ft]
86
86
86
139
139
139
253
253
253
454
454
454
764
764
764
1230
1230
1230
Free
speed
[r/min]
639
639
Max
allowed
speed
[r/min]
639
393
393
393
216
216
216
120
120
120
70
70
70
43
43
43
Air cons. at
max output
[l/s]
61
61
86
61
61
86
61
61
86
61
61
86
61
61
86
61
61
86
[cfm]
129
129
181
129
129
181
129
129
181
129
129
181
129
129
181
129
129
181
Weight
[kg]
19
19
19
19
19
19
19
19
19
19
19
19
27
27
27
70
70
70
[lb]
42
42
42
42
42
42
42
42
42
42
42
42
60
60
60
154
154
154
Max radial
load at max
output
[N]
2530
2530
2310
2970
2970
2710
3600
3600
3300
5150
5150
4710
6040
6040
5520
15000
15000
15000
Ordering No.
8411 1810 61
8411 1810 79
8411 1810 87
8411 1810 95
8411 1811 03
8411 1811 11
8411 1811 29
8411 1811 37
8411 1811 45
8411 1811 52
8411 1811 60
8411 1811 78
LZL15-BF322-A/B-018
kW Nm
3.5
3.0 120
120
3.0 240
120
3.0
120
2.5 100
100
2.5 200
100
2.5 500
100
LZL15-BF322-A/B-011
kW Nm
3.5
LZL15-BF322-A/B-033
l/s
kW Nm
3.5 140
l/s
l/s
2.0
80
80
2.0 160
80
2.0 400
80
1.5
60
60
1.5 120
60
1.5 300
60
1.0
40
40
1.0
80
40
1.0 200
40
0.5
20
20
0.5
40
20
0.5 100
20
50 100 150 200250 300 350 400 r/min
100 200 300 400 500 600 700 r/min
kW Nm
3.5
LZL15-BF322-A/B-060
l/s
kW Nm
3.0 1200
3.0
120
2.5 1000
2.5 750
100
2.0 600
80
1.5 450
60
1.0 300
40
0.5 150
20
20
Torque
[Nm]
Power
[kW]
Max
output
40
60
80
100 120
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
r/min
LZL15-BF363-A/B-102
40
kW Nm
3.0
l/s
80
120
LZL VANE MOTORS
Air motor LZL15 with helical gear units type BF:
Performance curves at air pressure 6.3 bar (91 psi)
160 200 240 r/min
LZL15-BF363-A/B-165
l/s
2.5 2000
2.0 800
120
2.0 1600
120
1.5 600
90
1.5 1200
90
1.0 400
60
1.0 800
60
0.5 200
30
0.5 400
30
10
20 30
40 50
60 70
r/min
10
20
30
40
50 r/min
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
For information about performance curves, see page 7.
Torque
Speed [r/min]
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
–––––
---------
Performance with restrictors
Performance without restrictors, (unrestricted)
AT L A S C O P C O A I R M OTO R S
81
AIR MOTORS LZL25
with helical gear units
3.3 – 4.8 kW
4.4 – 6.4 hp
Data at air pressure 6.3 bar (91 psi)
Max output
Model
LZL25-BF322-A-011
LZL25-BF322-B-011
Unrestricted*
LZL25-BF322-A-018
LZL25-BF322-B-018
Unrestricted*
LZL25-BF363-A-035
LZL25-BF363-B-035
Unrestricted*
LZL25-BF613-A-059
LZL25-BF613-B-059
Unrestricted*
LZL25-BF613-A-114
LZL25-BF613-B-114
Unrestricted*
LZL25-BF613-A-165
LZL25-BF613-B-165
Unrestricted*
Ratio
11.2
11.2
11.2
18.2
18.2
18.2
34.6
34.6
34.6
58.6
58.6
58.6
113.6
113.6
113.6
164.5
164.5
164.5
[kW]
3.3
3.3
4.8
3.3
3.3
4.8
3.2
3.2
4.7
3.2
3.2
4.7
3.2
3.2
4.7
3.2
3.2
4.7
[hp]
4.4
4.4
6.4
4.4
4.4
6.4
4.3
4.3
6.2
4.3
4.3
6.2
4.3
4.3
6.2
4.3
4.3
6.2
Speed at
max
output
[r/min]
254
254
370
156
156
227
82
82
120
48
48
71
25
25
36
17
17
25
*) Unrestricted, the motors should not be run without load
A = Foot mount
B = Flange mount
82
AT L A S C O P C O A I R M OTO R S
Torque
max output
[Nm]
123
123
128
201
201
207
373
373
386
632
632
654
1226
1226
1268
1775
1775
1836
[lb-ft]
91
91
94
148
148
153
275
275
285
466
466
482
904
904
935
1309
1309
1354
Min starting
torque
[Nm]
192
192
192
311
311
311
579
579
579
981
981
981
1902
1902
1902
2754
2754
2754
[lb-ft]
141
141
141
230
230
230
427
427
427
724
724
724
1403
1403
1403
2031
2031
2031
Free
speed
[r/min]
531
531
Max
allowed
speed
[r/min]
531
327
327
327
172
172
172
101
101
101
52
52
52
36
36
36
Air cons. at
max output
[l/s]
86
86
140
86
86
140
86
86
140
86
86
140
86
86
140
86
86
140
[cfm]
183
183
297
183
183
297
183
183
297
183
183
297
183
183
297
183
183
297
Weight
[kg]
26
26
26
26
26
26
34
34
34
77
77
77
77
77
77
77
77
77
[lb]
57
57
57
57
57
57
75
75
75
170
170
170
170
170
170
170
170
170
Max radial
load at max
output
[N]
2700
2700
2430
3170
3170
2860
4100
4100
3700
13000
13000
11700
16000
16000
16000
16000
16000
16000
Ordering No.
8411 1811 86
8411 1811 94
8411 1812 02
8411 1812 10
8411 1812 28
8411 1812 36
8411 1812 44
8411 1812 51
8411 1812 69
8411 1812 77
8411 1812 85
8411 1812 94
kW Nm
5 250
LZL25-BF322-A/B-011
l/s
kW Nm
5
LZL25-BF322-A/B-018
l/s
LZL25-BF363-A/B-035
kW Nm
5 750
l/s
4 200
200
4 400
200
4 600
200
3 150
150
3 300
150
3 450
150
2 100
100
2 200
100
2 300
100
50
1 100
50
1 150
50
1
50
100 200
kW Nm
5 1500
50 100 150 200 250 300 350 r/min
300 400 500 600 r/min
LZL25-BF613-A/B-059
l/s
kW Nm
5 2500
LZL25-BF613-A/B-114
40
120
160 200 r/min
LZL25-BF613-A/B-165
kW Nm
5
l/s
80
l/s
4 1200
200
4 2000
200
4 4000
200
3 900
150
3 1500
150
3 3000
150
2 600
100
2 1000
100
2 2000
100
1 300
50
1 500
50
1 1000
50
20
Torque
[Nm]
Power
[kW]
Max
output
40
60
80
100 120 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
10
20
30
40
50
60
r/min
LZL VANE MOTORS
Air motor LZL25 with helical gear units type BF:
Performance curves at air pressure 6.3 bar (91 psi)
5 10 15 20 25 30 35 40
r/min
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
For information about performance curves, see page 7.
Torque
Speed [r/min]
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
–––––
---------
Performance with restrictors
Performance without restrictors, (unrestricted)
AT L A S C O P C O A I R M OTO R S
83
AIR MOTORS LZL35
with helical gear units
5.1 – 6.3 kW
6.8 – 8.4 hp
Data at air pressure 6.3 bar (91 psi)
Max output
Model
LZL35-BF322-A-006
LZL35-BF322-B-006
Unrestricted*
LZL35-BF322-A-011
LZL35-BF322-B-011
Unrestricted*
LZL35-BF613-A-029
LZL35-BF613-B-029
Unrestricted*
LZL35-BF613-A-048
LZL35-BF613-B-048
Unrestricted*
Ratio
6.3
6.3
6.3
11.2
11.2
11.2
29.4
29.4
29.4
47.6
47.6
47.6
[kW]
5.0
5.0
6.2
5.0
5.0
6.2
4.9
4.9
6.1
4.9
4.9
6.1
[hp]
6.7
6.7
8.3
6.7
6.7
8.3
6.6
6.6
8.1
6.6
6.6
8.1
Speed at
max
output
[r/min]
394
394
464
221
221
261
84
84
99
52
52
61
*) Unrestricted, the motors should not be run without load
A = Foot mount
B = Flange mount
84
AT L A S C O P C O A I R M OTO R S
Torque
max output
[Nm]
121
121
128
216
216
227
555
555
583
899
899
944
[lb-ft]
90
90
94
159
159
167
409
409
430
663
663
696
Min starting
torque
[Nm]
192
192
192
340
340
340
875
875
875
1417
1417
1417
[lb-ft]
141
141
141
251
251
251
645
645
645
1045
1045
1045
Free
speed
[r/min]
838
838
Max
allowed
speed
[r/min]
838
471
471
471
180
180
180
111
111
111
Air cons. at
max output
[l/s]
385
385
159
129
129
159
129
129
159
129
129
159
[cfm]
815
815
337
273
273
337
273
273
337
273
273
337
Weight
[kg]
34
34
34
34
34
34
85
85
85
85
85
85
[lb]
75
75
75
75
75
75
187
187
187
187
187
187
Max radial
load at max
output
[N
2360
2360
2230
2810
2810
2650
10600
10600
10000
12100
12100
11400
Ordering No.
8411 1813 01
8411 1813 19
8411 1813 27
8411 1813 35
8411 1813 43
8411 1813 50
8411 1813 68
8411 1813 78
kW Nm
7
LZL35-BF322-A/B-006
l/s
kW Nm
7
LZL35-BF322-A/B-011
kW Nm
7 1050
l/s
LZL35-BF613-A/B-029
l/s
6 240
240
6
240
6 900
240
5 200
200
5 500
200
5 750
200
4 160
160
4 400
160
4 600
160
3 120
120
3 300
120
3 450
120
2
80
80
2 200
80
2 300
80
1
40
40
1 100
40
1 150
40
200
kW Nm
7
400
600
800 1000 r/min
LZL35-BF613-A/B-048
240
5 1500
200
4 1200
160
3 900
120
2 600
80
1 300
40
Torque
[Nm]
Power
[kW]
Max
output
40
80
60
300
400
500 r/min
40
80
120
160
200 r/min
100 120 r/min
Air cons.
[l/s]
Power
Air. cons.
Torque
at max
output
200
l/s
6 1800
20
100
LZL VANE MOTORS
Air motor LZL35 with helical gear units type BF:
Performance curves at air pressure 6.3 bar (91 psi)
Conversion factors
1 kW = 1.34 hp
1 Nm = 0.74 Ibf - ft
1 l/s
= 2.1 cfm
For information about performance curves, see page 7.
Torque
Speed [r/min]
1 hp = 0.75 kW
1 Ibf-ft = 1.36 Nm
1 cfm = 0.47 l/s
–––––
---------
Performance with restrictors
Performance without restrictors, (unrestricted)
AT L A S C O P C O A I R M OTO R S
85
DIMENSIONS LZL WITH HELICAL GEAR UNITS
Foot models
Conversion factor 1 mm = 0.04 inch
M
P
O
G
ØS
H
B
D
N
A
ØQ
R
F
X
E
ØC
I
K
ØT
J
U
V
L
I
F
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
G
60
70
O
60
O
70
100
60
70
100
60
100
H
50
60
50
60
90
50
60
90
50
90
P
P
I
78
93.5
78
93.5
125
78
93.5
125
78
125
J
130
130
130
130
180
130
130
180
130
180
K
70
N/A
70
N/A
N/A
70
N/A
N/A
70
N/A
K
L
156
168
156
168
232
156
168
232
156
232
M
459.5
478
ØS
509
527.5
617
547.5
566
655.5
585.5
692.5
N
O
P
Q
M10x22 BSP 1/2"
71
Ø76
M10x22 BSP 1/2"
71
Ø76
M10x22 BSP 3/4" 86.5 Ø100
ØS
M10x22 BSP 3/4" 86.5 Ø100
M16x36 BSP 3/4" 86.5 Ø100
M10x22
BSP 1"
103 Ø120
M10x22
BSP 1"
103 Ø120
M16x36
BSP 1"
103 Ø120
M10x22 BSP 1 1/4" 119.5 Ø134
M16x36 BSP 1 1/4" 119.5 Ø134
X
E
M
110
K
115
110
115
195
110
115
195
110
195
ØM
D
181
206
181
206
316
181
206
316
181
316
ØQ
C
30 h6
35 h6
30 h6
35 h6
50 h6
30 h6
35 h6
50 h6
30 h6
50 h6
R
A
B
33
8 h9
38 10 h9
GG
33
8 h9
HH
38 10 h9
53.5 14 h9
F 33
8 h9
F
38 10 h9
53.5 14 h9
33
8 h9
53.5 14 h9
ØQ
ØD D
E
ØE
N
A
N
A
Model
LZL05-BF322-A-xxx
LZL05-BF363-A-xxx
LZL15-BF322-A-xxx
LZL15-BF363-A-xxx
LZL15-BF613-A-xxx
B
LZL25-BF322-A-xxx
B
LZL25-BF363-A-xxx
LZL25-BF613-A-xxx
ØC
LZL35-BF322-A-xxx
ØC
LZL35-BF613-A-xxx
R
LZL type BF FOOT
R
42
42
55
55
55
62
62
62
68
68
S
Ø160
Ø160
Ø200
Ø200
Ø200
Ø200
Ø200
Ø200
Ø250
Ø250
T
Ø11
Ø14
Ø11
Ø14
Ø18
Ø11
Ø14
Ø18
Ø14
Ø18
U
160
170
160
170
250
160
170
250
160
250
V
190
205
190
205
300
190
205
300
190
300
X
20
16
20
16
25
20
16
25
20
25
ØT
DIMENSIONS LZL WITH HELICAL GEAR UNITS
L
I
U
V
L
J
ØT
Flange models
J
Conversion factor 1 mm = 0.04 inch
K
G
P
H
O
ØS
F
ØM
ØQ
ØE
N
A
ØD
R
B
L
ØC
I
ØT
J
LZL type BF FLANGE
Model
LZL05-BF322-B-xxx
LZL05-BF363-B-xxx
LZL15-BF322-B-xxx
LZL15-BF363-B-xxx
LZL15-BF613-B-xxx
LZL25-BF322-B-xxx
LZL25-BF363-B-xxx
LZL25-BF613-B-xxx
LZL35-BF322-B-xxx
LZL35-BF613-B-xxx
86
A
33
38
33
38
53.5
33
38
53.5
33
53.5
B
8 h9
10 h9
8 h9
10 h9
14 h9
8 h9
10 h9
14 h9
8 h9
14 h9
C
30 h6
35 h6
30 h6
35 h6
50 h6
30 h6
35 h6
50 h6
30 h6
50 h6
AT L A S C O P C O A I R M OTO R S
D
Ø250
Ø250
Ø250
Ø250
Ø300
Ø250
Ø250
Ø300
Ø250
Ø300
E
Ø180 f7
Ø180 f7
Ø180 f7
Ø180 f7
Ø230 f7
Ø180 f7
Ø180 f7
Ø230 f7
Ø180 f7
Ø230 f7
F
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
5.0
G
60
70
60
70
100
60
70
100
60
100
H
50
60
50
60
90
50
60
90
50
90
I
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
4.0
J
13
14
13
14
16
13
14
16
13
16
K
459.5
478
509
527.5
617
547.5
566
655.5
585.5
692.5
L
108
111
108
111
178.5
108
111
178.5
108
178.5
M
Ø160
Ø160
Ø200
Ø200
Ø200
Ø200
Ø200
Ø200
Ø250
Ø250
N
M10x22
M10x22
M10x22
M10x22
M16x36
M10x22
M10x22
M16x36
M10x22
M16x36
O
P
BSP 1/2"
71
BSP 1/2"
71
BSP 3/4" 86.5
BSP 3/4" 86.5
BSP 3/4" 86.5
BSP 1"
103
BSP 1"
103
BSP 1"
103
BSP 1 1/4" 119.5
BSP 1 1/4" 119.5
Q
Ø76
Ø76
Ø100
Ø100
Ø100
Ø120
Ø120
Ø120
Ø134
Ø134
R
42
42
55
55
55
62
62
62
68
68
S
Ø160
Ø160
Ø215
Ø215
Ø265
Ø215
Ø215
Ø265
Ø215
Ø265
T
Ø14
Ø14
Ø14
Ø14
Ø14
Ø14
Ø14
Ø14
Ø14
Ø14
ATEX
EXPLOSION PREVENTION GUIDELINES
In addition to the product instructions for air motors, the
­following guidelines apply to explosion protected air motors.
Temperatures
• The maximum surrounding temperature for which the
­certification is valid is 40°C (104°F).
• 40°C (104°F) is also the maximum allowed temperature of
the compressed air when it enters the motor.
• If the motor is installed in a equipment, the entire
equipment has to correspond to the guidelines 94/9/EC.
• Make sure that the compressed air fulfill our quality
demands (quality classes 2.4.3. and 3.4.4 respectively
3.5.4 acc. to ISO/DIS 8573-1).
• Do not exceed maximum pressure of 6.3 bar, or as stated
on the motor nameplate. Exceeding the operating pressure
can increase the surface temperature due to higher rotating speed and the motor can become an ignition source.
AT L A S C O P C O A I R M OTO R S
87
ATEX CODE DEFINITION
ATEX certificate:
For information about the ATEX certificate, refer to the ATEX Technical File, 9836 4610 00.
If the product is part of an assembly where the components have different ATEX codes, the component with
the lowest level of safety defines the ATEX code of the whole assembly.
Description
Equipment group
Equipment category Group I
Equipment category Group II
Value
I
II
M1
M2
1
2
3
Atmosphere
Safety design
Type of protection
Gas group
G
D
c
Ex nL
IIA
IIB
IIC
Max surface temperature in Gas
Max surface temperature in Dust
Ambient temperature range
88
AT L A S C O P C O A I R M OTO R S
Ta
Definition
Mining applications
Surface industry
May continue to operate when a potentially explosive atmosphere is present
Shall not operate when a potentially explosive atmosphere is present.
Very high level of protection
• zone 0 (gas)
• zone 1 (gas)
• zone 2 (gas)
• zone 20 (dust)
• zone 21 (dust)
• zone 22 (dust)
High level of protection
• zone 1 (gas)
• zone 2 (gas)
• zone 21 (dust)
• zone 22 (dust)
Normal level of protection
• zone 2 (gas)
• zone 22 (dust)
Atmosphere containing Gas, Vapors or Mist
Atmosphere containing Dust
Constructional safety
Explosion protection. Type: “Energy limited apparatus and circuits”
Propane/Acetone/Ammonia
Ethylene
Hydrogen/Acetylene
T1 = 450°C (848°F)
T2 = 300°C (572°F)
T3 = 200°C (392°F)
T4 = 135°C (275°F)
T5 = 100°C (212°F)
T6 = 85°C (185°F)
Example temperatures:
T85°C (185°F)
T110°C (230°F)
T120°C (248°F)
T125°C (257°F)
T240°C (464°F)
Example:
20°C Ta +40°C
SPECIAL MOTORS
Atlas Copco is a premier supplier of air motors, manufactured to individual customer specifications.
Particularly for ”OEM” requirements, a customized air motor
can be the most efficient solution when integrating an air
motor into a machine or tool. Typical examples of special
motors are those having unique casing or mounting arrange­
ments, motors utilizing non-standard materials or surface
coatings and types designed to achieve a specific output.
Whatever the requirement, Atlas Copco welcomes the
­opportunity to work with its customers in finding the best
solution for their needs.
AT L A S C O P C O A I R M OTO R S
89
COMMITTED TO SUSTAINABLE PRODUCTIVITY
We stand by our responsibilities towards our customers,
towards the environment and the people around us.
We make performance stand a test of time.
This is what we call – Sustainable Productivity.
www.atlascopco.com
90
AT L A S C O P C O A I R M OTO R S

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