Industrial shock absorbers PowerStop

PowerStop

The unique spiral groove technology is a defining feature of PowerStop brand industrial shock absorbers. In contrast with conventional industrial shock absorbers with throttle bores, the constantly tapering spiral groove causes precise, low-vibration shock absorption. This means that PowerStop achieves maximum energy absorption with the smallest space.

Our expertise – your advantages:

  • Highest quality for the most extreme requirements and loads
  • High energy absorption thanks to maximum utilization in each piston position
  • Low-vibration and precise braking due to the constantly narrowing spiral groove
  • Less wear thanks to the hydrostatic piston guide
  • High level of operational safety and reliability
  • Corrosion protection from using stainless steel
  • Individual configuration for customized solutions

 

The series at a glance

High Energy

  • The high-end solution: High energy absorption for long service life
  • Thread diameter: M4 to M45
  • Degrees of hardness: Supersoft W, Soft S, Medium M, Hard H
  • Head: without, with steel head, with plastic head, with bellow
  • Energy absorption per stroke: 0.5 - 2800 Nm
  • Corrosion protection with stainless steel
  • Can be used in pressure chamber up to 10 bar
  • Volume compensation: Spring

 

[ 1 ] Housing (stainless steel)
[ 2 ] Return valve
[ 3 ] Damping piston with spiral groove
[ 4 ] Pressure sleeve
[ 5 ] Return spring
[ 6 ] Piston rod (stainless steel)
[ 7 ] Volume compensation (spring)
[ 8 ] Oil reserve storage
[ 9 ] Low-pressure chamber
[ 10 ] High-pressure chamber

 

Standard Energy

  • The standard version: Energy absorption at standard level with service life usual for the market
  • Thread diameter: M8 to M45
  • Degrees of hardness: Soft S, Medium M, Hard H
  • Head: without, with steel head, with plastic head
  • Energy absorption per stroke: 1.5 - 350 Nm
  • Corrosion protection with stainless steel
  • Cannot be used in a pressure chamber
  • Volume compensation: Cellular rubber
[ 1 ] Housing (stainless steel)
[ 2 ] Return valve
[ 3 ] Return spring
[ 4 ] High-pressure chamber
[ 5 ] Damping piston with spiral groove
[ 6 ] Piston rod (stainless steel)
[ 7 ] Volume compensation (cellular rubber)
[ 8 ] Low-pressure chamber

 

Functional sequence

1. Home position

Return valve is opened and the high-pressure chamber is filled with hydraulic medium (oil)

2. Retraction with damping

External force or kinetic energy (impact) pushes the piston rod in together with the piston

  • Pressure build-up in the high-pressure chamber
  • Return valve closes
  • Oil flows from the high-pressure chamber into the low-pressure chamber and the oil reserve storage via the spiral groove
  • Throttle effect of the spiral groove
  • Due to the throttle effect, a force (damping or supporting force) is generated via the stroke to the retracting piston that counters the movement.
  • Due to the friction of the throttled oil flow, the kinetic energy is converted into heat (hydraulic damping), whereby 100% of the kinetic energy is damped
  • The volume compensation compression compensates for the volume of the retracting piston rod

3. Returning

Removal of external force from the piston rod

  • Return spring pushes the piston rod back together with the piston
  • Return valve opens for quick oil return flow
  • Oil flows from the low-pressure chamber back into the high-pressure chamber via the return valve

 

Know-how

PowerStop industrial shock absorbers

Throttle mechanism

 

Conventional industrial shock absorbers

Throttle mechanism

Spiral groove technology as a damping principle. In the case of the PowerStop industrial shock absorbers, the throttle effect necessary for damping is provided optimally and free of vibration by the circumferential, tapering spiral groove in the piston.

 

In the case of conventionally designed industrial shock absorbers, the throttle effect necessary for damping is provided in steps and burdened with vibrations by the throttle bores positioned in a sleeve.

 

Throttle characteristic

The spiral groove tapers toward the top in the depth. With a retracting piston, the throttle cross-section affecting the trailing edge lessens. A constant decrease of the throttle surface results from the continuous progression of the spiral groove depth. This means that the shock absorber adapts ideally to the velocity reducing through the stroke and is optimally utilized for maximum energy absorption capacity in every piston position. In addition, the stress on the oil is reduced to a minimum.

 

 

Throttle characteristic

The retracting piston gradually wears away the throttle bores laid out in the stroke direction, which reduces the throttle cross-section step by step.

This results in an unsteady reduction of the throttle surface. This results in the shock absorber adapting only in certain areas to the velocity being reduced through the stroke. The oil is also greatly stressed by the forced detour.

Shock absorber curve

The constant throttle characteristic results in a low-vibration, almost ideal force-stroke curve. The prevention of vibrations upon impact not only preserves the relevant components and systems, but also ensures jerk-free braking of the moving masses.

 

 

Shock absorber curve

The force-stroke characteristic curve is characterized by the inconsistent throttle characteristics that cause vibrations in the force curve. This in turn leads to vibrations and thus to damage to the machines, which is precisely what should be prevented by a shock absorber.

Hydrostatic piston guide

In addition to jerk-free damping, the spiral groove technology also provides reduced wear hydrostatic piston movement. Thanks to the spiral groove, oil is located between the piston and the running surface during the entire stroke. The relatively moving parts are separated by an anti-friction film, which minimizes wear. This guarantees a high degree of reliability.

   

 

Characteristics

Function

An industrial shock absorber absorbs the energy of a moving mass and transforms the kinetic energy 100% into heat through the friction of the internal oil flow (hydraulic damping).

Degree of hardness

  • The degree of hardness of a hydraulic shock absorber stands for the range of impact velocity for which the shock absorber is optimally configured. In this velocity range, the shock absorber reaches its maximum energy absorption per stroke.
  • Below the minimum speed, the shock absorber functions with a reduced energy absorption capacity due to the reduced throttle effect.
  • There is a risk of bouncing when the impact velocity is exceeded. This means that the mass lifts slightly or recoils upon impact, because the oil at the throttle point cannot flow away quickly enough.
  • The softer the degree of hardness, the higher the velocity range. This means that in the range from the degree of hardness "Hard" to "Soft", the optimal impact velocity increases.

Characteristics of the shock absorber curve

  • As a default, the individual degrees of hardness tend to demonstrate the following characteristics in the force over stroke shock absorber curve.
  • Due to the throttling, the characteristic depends upon the impact velocity and can thus only be indicated as a trend.

 

 

Product key

Selection of industrial shock absorbers

according to thread, series, stroke, degree of hardness and head

M25x1.5 R L M S

Thread

"M25..." Thread rated diameter

"...x1.5" Thread pitch

Series

-- High Energy

R Standard Energy

Stroke

-- Standard stroke

L Long stroke

Degree of hardness

W Supersoft

S Soft

M Medium

H Hard

Head

-- No head

S Mounted with steel head

K Mounted with plastic head

B Mounted with bellow

 

Notes:

  • Delivery including a steel locknut for simple and safe installation.
  • The degree of hardness specifies the velocity range (from degree of hardness W to H; velocity decreases as hardness increases).
  • The energy absorption and the impact velocity can be determined with the help of the shock absorber selection guide online at www.zimmer-group.com/pdti or with the formulas and calculations listed in the attachment.

Head:

steel head (S)
Using a steel head reduces the contact pressure during impact due to the enlarged surface. The steel head is mostly used for soft opposing materials on the other side.

plastic head (K)
Using a plastic head is recommended for reducing the amount of noise that is generated.

bellow (B)
The bellow of PTFE (Teflon):

  • offers high level of protection for use in dirty environments against
     liquids like coolants, oil and cleaning agents,
     as well as against dirt and chips.
  • when used in the clean room, prevents the discharge of particles from
     the shock absorber

 

Accessories

Locknut

Available for M4-M45

Steel locknut
A nut made of nickel-plated steel is supplied for each shock absorber. An additional nut is required for installation in a hole with no threading.

Stainless steel locknut
Alternatively, a nut made from stainless steel provides increased corrosion protection.

 

Stop sleeve

Available for M6-M45

The PowerStop may not be used as a fixed stop. Using a stop sleeve is recommended. This lets you set the end stop individually using the additional locknut by screwing the sleeve onto the outer thread of the shock absorber. The stop sleeve, including the additional locknut, is made of stainless steel.

Clamping flange

Available for M6-M45

You can use a clamping flange to connect the shock absorber to the construction more easily. The shock absorber is clamped tight together with the clamping flange in the screwed-in state with the provided screws and fastened to the construction, which makes the locknut unnecessary.

Side load adapter/air barrier adapter

Available for M10-M45

With this article, consisting of a stainless steel piston rod and a housing of burnished steel, two requirements are met at once:

Side load adapter
A side load adapter must be provided if the system applies a force to the shock absorber at an impact angle higher than the permitted misalignment of 2°. This increases the permitted impact angle up to 30°.

Air barrier adapter
An air barrier adapter is recommended if there is increased dirt buildup. Connecting a compressed air supply enables an air cushion to protect the shock absorbers from the ingress of dirt particles. This option is only available for the High Energy series.

Cooling nut

Available for M10-M45

The energy absorption per hour (at an ambient temperature of 20 °C) can be increased up to 1.5 x by using a surface-enlarging aluminum cooling nut so that the 70 °C operating temperature of the PowerStop shock absorber is not exceeded even during shorter cycle times. This enables shorter cycle times to be attained.

 

Anwendungen

Linear cylinders

 

Swivel unit

 

Automatic placement system

 

Cylinder head handling

 

Special Solutions

Shock absorbers for pallet circulation systems

  • Specially tailored shock absorbers for applications with greatly varying, moving masses and/or velocities, whereby, however, the end position should always be reached.
  • Integrated valve connections make it possible to cover large energy and velocity ranges with independent adjustment so that the mass reaches the end position safely
  • Ideal for use in pallet circulation systems.

Heavy load emergency stop damper

  • Customer-specific special solutions for robot portal systems.
  • Dampers made from coated steel with an energy absorption of 6,500 Nm per stroke.
  • The damper has a damping stroke of 100 mm and an outer diameter of 60 mm.

 

Sliding door dampers

  • Customer-specific special solutions for sliding glass doors.
  • Dampers made from high-strength aluminum with an energy absorption of 100 Nm per stroke.
  • The damper has a damping stroke of 30 mm and an outer diameter of 20 mm.

Adjustable shock absorbers

  • Manually adjustable degree of hardness (velocity range).
  • Combination of spiral groove technology with an adjustable bypass bore.
  • Custom adjustment to different load ranges.

I-Class emergency stop shock absorber

  • The intelligent solution for emergency stop applications where the shock absorber is operated constantly but damping only occurs in an emergency.
  • Damping is triggered only after reaching a preset velocity.
  • For example, use on machine tool axles that do not require damping during workpiece machining, but which move with rapid traverse in the event of an emergency stop.

Twin damping as accessory

  • Installation of a shock absorber in the twin damping accessory enables the activation of the shock absorber from both sides.
  • This space- and cost-saving solution transforms a single-action into a dual-action shock absorber.

 

 

  • Industriestossdämpfer

    Serie

    Highest quality for the most extreme requirements and loads

    High power consumption thanks to maximum utilization in each piston position

    Low-vibration and precise braking due to the constantly narrowing spiral groove

    Less wear thanks to the hydrostatic piston guide

    Longer service life and high operating safety thanks to the oil reserve

    Suitability for use in a pressure chamber up to 10 bar (only applies to the high energy variant)

    Installation Size: M4X0.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    PME04X05NMDD-AHIGH ENERGYNo Head0.5 [Nm]1200 [Nm/h]
    Installation Size: M5X0.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    PME05X05NMDD-AHIGH ENERGYNo Head0.8 [Nm]1800 [Nm/h]
    Installation Size: M6X0.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M6X0.5HHIGH ENERGYNo Head1.5 [Nm]3200 [Nm/h]
    M6X0.5HKHIGH ENERGYwith plastic head1.5 [Nm]3200 [Nm/h]
    M6X0.5HSHIGH ENERGYwith steel head1.5 [Nm]3200 [Nm/h]
    M6X0.5MHIGH ENERGYNo Head1.5 [Nm]3200 [Nm/h]
    M6X0.5MKHIGH ENERGYwith plastic head1.5 [Nm]3200 [Nm/h]
    M6X0.5MSHIGH ENERGYwith steel head1.5 [Nm]3200 [Nm/h]
    M6X0.5SHIGH ENERGYNo Head1.5 [Nm]3200 [Nm/h]
    M6X0.5SKHIGH ENERGYwith plastic head1.5 [Nm]3200 [Nm/h]
    M6X0.5SSHIGH ENERGYwith steel head1.5 [Nm]3200 [Nm/h]
    Installation Size: M8X0.75
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M8X0.75HHIGH ENERGYNo Head4 [Nm]9000 [Nm/h]
    M8X0.75HKHIGH ENERGYwith plastic head4 [Nm]9000 [Nm/h]
    M8X0.75HSHIGH ENERGYwith steel head4 [Nm]9000 [Nm/h]
    M8X0.75MHIGH ENERGYNo Head4 [Nm]9000 [Nm/h]
    M8X0.75MKHIGH ENERGYwith plastic head4 [Nm]9000 [Nm/h]
    M8X0.75MSHIGH ENERGYwith steel head4 [Nm]9000 [Nm/h]
    M8X0.75RHSTANDARD ENERGYNo Head1.5 [Nm]5000 [Nm/h]
    M8X0.75RHKSTANDARD ENERGYwith plastic head1.5 [Nm]5000 [Nm/h]
    M8X0.75RHSSTANDARD ENERGYwith steel head1.5 [Nm]5000 [Nm/h]
    M8X0.75RMSTANDARD ENERGYNo Head1.5 [Nm]5000 [Nm/h]
    M8X0.75RMKSTANDARD ENERGYwith plastic head1.5 [Nm]5000 [Nm/h]
    M8X0.75RMSSTANDARD ENERGYwith steel head1.5 [Nm]5000 [Nm/h]
    M8X0.75RSSTANDARD ENERGYNo Head1.5 [Nm]5000 [Nm/h]
    M8X0.75RSKSTANDARD ENERGYwith plastic head1.5 [Nm]5000 [Nm/h]
    M8X0.75RSSSTANDARD ENERGYwith steel head1.5 [Nm]5000 [Nm/h]
    M8X0.75SHIGH ENERGYNo Head3 [Nm]8000 [Nm/h]
    M8X0.75SKHIGH ENERGYwith plastic head3 [Nm]8000 [Nm/h]
    M8X0.75SSHIGH ENERGYwith steel head3 [Nm]8000 [Nm/h]
    Installation Size: M8X1
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M8X1HHIGH ENERGYNo Head4 [Nm]9000 [Nm/h]
    M8X1HKHIGH ENERGYwith plastic head4 [Nm]9000 [Nm/h]
    M8X1HSHIGH ENERGYwith steel head4 [Nm]9000 [Nm/h]
    M8X1MHIGH ENERGYNo Head4 [Nm]9000 [Nm/h]
    M8X1MKHIGH ENERGYwith plastic head4 [Nm]9000 [Nm/h]
    M8X1MSHIGH ENERGYwith steel head4 [Nm]9000 [Nm/h]
    M8X1RHSTANDARD ENERGYNo Head1.5 [Nm]5000 [Nm/h]
    M8X1RHKSTANDARD ENERGYwith plastic head1.5 [Nm]5000 [Nm/h]
    M8X1RHSSTANDARD ENERGYwith steel head1.5 [Nm]5000 [Nm/h]
    M8X1RMSTANDARD ENERGYNo Head1.5 [Nm]5000 [Nm/h]
    M8X1RMKSTANDARD ENERGYwith plastic head1.5 [Nm]5000 [Nm/h]
    M8X1RMSSTANDARD ENERGYwith steel head1.5 [Nm]5000 [Nm/h]
    M8X1RSSTANDARD ENERGYNo Head1.5 [Nm]5000 [Nm/h]
    M8X1RSKSTANDARD ENERGYwith plastic head1.5 [Nm]5000 [Nm/h]
    M8X1RSSSTANDARD ENERGYwith steel head1.5 [Nm]5000 [Nm/h]
    M8X1SHIGH ENERGYNo Head3 [Nm]8000 [Nm/h]
    M8X1SKHIGH ENERGYwith plastic head3 [Nm]8000 [Nm/h]
    M8X1SSHIGH ENERGYwith steel head3 [Nm]8000 [Nm/h]
    Installation Size: M10X1
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M10X1HHIGH ENERGYNo Head12 [Nm]20000 [Nm/h]
    M10X1HKHIGH ENERGYwith plastic head12 [Nm]20000 [Nm/h]
    M10X1HSHIGH ENERGYwith steel head12 [Nm]20000 [Nm/h]
    M10X1MHIGH ENERGYNo Head12 [Nm]20000 [Nm/h]
    M10X1MKHIGH ENERGYwith plastic head12 [Nm]20000 [Nm/h]
    M10X1MSHIGH ENERGYwith steel head12 [Nm]20000 [Nm/h]
    M10X1RHSTANDARD ENERGYNo Head3 [Nm]8000 [Nm/h]
    M10X1RHKSTANDARD ENERGYwith plastic head3 [Nm]8000 [Nm/h]
    M10X1RHSSTANDARD ENERGYwith steel head3 [Nm]8000 [Nm/h]
    M10X1RMSTANDARD ENERGYNo Head3 [Nm]8000 [Nm/h]
    M10X1RMKSTANDARD ENERGYwith plastic head3 [Nm]8000 [Nm/h]
    M10X1RMSSTANDARD ENERGYwith steel head3 [Nm]8000 [Nm/h]
    M10X1RSSTANDARD ENERGYNo Head3 [Nm]8000 [Nm/h]
    M10X1RSKSTANDARD ENERGYwith plastic head3 [Nm]8000 [Nm/h]
    M10X1RSSSTANDARD ENERGYwith steel head3 [Nm]8000 [Nm/h]
    M10X1SHIGH ENERGYNo Head10 [Nm]18000 [Nm/h]
    M10X1SKHIGH ENERGYwith plastic head10 [Nm]18000 [Nm/h]
    M10X1SSHIGH ENERGYwith steel head10 [Nm]18000 [Nm/h]
    M10X1WHIGH ENERGYNo Head4 [Nm]9000 [Nm/h]
    M10X1WKHIGH ENERGYwith plastic head4 [Nm]9000 [Nm/h]
    M10X1WSHIGH ENERGYwith steel head4 [Nm]9000 [Nm/h]
    Installation Size: M12X1
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M12X1HHIGH ENERGYNo Head18 [Nm]33000 [Nm/h]
    M12X1HBHIGH ENERGYmit Faltenbalg18 [Nm]33000 [Nm/h]
    M12X1HKHIGH ENERGYwith plastic head18 [Nm]33000 [Nm/h]
    M12X1HSHIGH ENERGYwith steel head18 [Nm]33000 [Nm/h]
    M12X1MHIGH ENERGYNo Head18 [Nm]33000 [Nm/h]
    M12X1MBHIGH ENERGYmit Faltenbalg18 [Nm]33000 [Nm/h]
    M12X1MKHIGH ENERGYwith plastic head18 [Nm]33000 [Nm/h]
    M12X1MSHIGH ENERGYwith steel head18 [Nm]33000 [Nm/h]
    M12X1RHSTANDARD ENERGYNo Head9 [Nm]20000 [Nm/h]
    M12X1RHKSTANDARD ENERGYwith plastic head9 [Nm]20000 [Nm/h]
    M12X1RHSSTANDARD ENERGYwith steel head9 [Nm]20000 [Nm/h]
    M12X1RMSTANDARD ENERGYNo Head9 [Nm]20000 [Nm/h]
    M12X1RMKSTANDARD ENERGYwith plastic head9 [Nm]20000 [Nm/h]
    M12X1RMSSTANDARD ENERGYwith steel head9 [Nm]20000 [Nm/h]
    M12X1RSSTANDARD ENERGYNo Head9 [Nm]20000 [Nm/h]
    M12X1RSKSTANDARD ENERGYwith plastic head9 [Nm]20000 [Nm/h]
    M12X1RSSSTANDARD ENERGYwith steel head9 [Nm]20000 [Nm/h]
    M12X1SHIGH ENERGYNo Head16 [Nm]30000 [Nm/h]
    M12X1SBHIGH ENERGYmit Faltenbalg16 [Nm]30000 [Nm/h]
    M12X1SKHIGH ENERGYwith plastic head16 [Nm]30000 [Nm/h]
    M12X1SSHIGH ENERGYwith steel head16 [Nm]30000 [Nm/h]
    M12X1WHIGH ENERGYNo Head10 [Nm]18000 [Nm/h]
    M12X1WBHIGH ENERGYmit Faltenbalg10 [Nm]18000 [Nm/h]
    M12X1WKHIGH ENERGYwith plastic head10 [Nm]18000 [Nm/h]
    M12X1WSHIGH ENERGYwith steel head10 [Nm]18000 [Nm/h]
    Installation Size: M14X1
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M14X1HHIGH ENERGYNo Head32 [Nm]50000 [Nm/h]
    M14X1HKHIGH ENERGYwith plastic head32 [Nm]50000 [Nm/h]
    M14X1HSHIGH ENERGYwith steel head32 [Nm]50000 [Nm/h]
    M14X1MHIGH ENERGYNo Head32 [Nm]50000 [Nm/h]
    M14X1MKHIGH ENERGYwith plastic head32 [Nm]50000 [Nm/h]
    M14X1MSHIGH ENERGYwith steel head32 [Nm]50000 [Nm/h]
    M14X1RHSTANDARD ENERGYNo Head20 [Nm]35000 [Nm/h]
    M14X1RHKSTANDARD ENERGYwith plastic head20 [Nm]35000 [Nm/h]
    M14X1RHSSTANDARD ENERGYwith steel head20 [Nm]35000 [Nm/h]
    M14X1RMSTANDARD ENERGYNo Head20 [Nm]35000 [Nm/h]
    M14X1RMKSTANDARD ENERGYwith plastic head20 [Nm]35000 [Nm/h]
    M14X1RMSSTANDARD ENERGYwith steel head20 [Nm]35000 [Nm/h]
    M14X1RSSTANDARD ENERGYNo Head20 [Nm]35000 [Nm/h]
    M14X1RSKSTANDARD ENERGYwith plastic head20 [Nm]35000 [Nm/h]
    M14X1RSSSTANDARD ENERGYwith steel head20 [Nm]35000 [Nm/h]
    M14X1SHIGH ENERGYNo Head30 [Nm]45000 [Nm/h]
    M14X1SKHIGH ENERGYwith plastic head30 [Nm]45000 [Nm/h]
    M14X1SSHIGH ENERGYwith steel head30 [Nm]45000 [Nm/h]
    M14X1WHIGH ENERGYNo Head18 [Nm]33000 [Nm/h]
    M14X1WKHIGH ENERGYwith plastic head18 [Nm]33000 [Nm/h]
    M14X1WSHIGH ENERGYwith steel head18 [Nm]33000 [Nm/h]
    Installation Size: M14X1.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M14X1.5HHIGH ENERGYNo Head32 [Nm]50000 [Nm/h]
    M14X1.5HBHIGH ENERGYmit Faltenbalg32 [Nm]50000 [Nm/h]
    M14X1.5HKHIGH ENERGYwith plastic head32 [Nm]50000 [Nm/h]
    M14X1.5HSHIGH ENERGYwith steel head32 [Nm]50000 [Nm/h]
    M14X1.5MHIGH ENERGYNo Head32 [Nm]50000 [Nm/h]
    M14X1.5MBHIGH ENERGYmit Faltenbalg32 [Nm]50000 [Nm/h]
    M14X1.5MKHIGH ENERGYwith plastic head32 [Nm]50000 [Nm/h]
    M14X1.5MSHIGH ENERGYwith steel head32 [Nm]50000 [Nm/h]
    M14X1.5RHSTANDARD ENERGYNo Head20 [Nm]35000 [Nm/h]
    M14X1.5RHKSTANDARD ENERGYwith plastic head20 [Nm]35000 [Nm/h]
    M14X1.5RHSSTANDARD ENERGYwith steel head20 [Nm]35000 [Nm/h]
    M14X1.5RMSTANDARD ENERGYNo Head20 [Nm]35000 [Nm/h]
    M14X1.5RMKSTANDARD ENERGYwith plastic head20 [Nm]35000 [Nm/h]
    M14X1.5RMSSTANDARD ENERGYwith steel head20 [Nm]35000 [Nm/h]
    M14X1.5RSSTANDARD ENERGYNo Head20 [Nm]35000 [Nm/h]
    M14X1.5RSKSTANDARD ENERGYwith plastic head20 [Nm]35000 [Nm/h]
    M14X1.5RSSSTANDARD ENERGYwith steel head20 [Nm]35000 [Nm/h]
    M14X1.5SHIGH ENERGYNo Head30 [Nm]45000 [Nm/h]
    M14X1.5SBHIGH ENERGYmit Faltenbalg30 [Nm]45000 [Nm/h]
    M14X1.5SKHIGH ENERGYwith plastic head30 [Nm]45000 [Nm/h]
    M14X1.5SSHIGH ENERGYwith steel head30 [Nm]45000 [Nm/h]
    M14X1.5WHIGH ENERGYNo Head18 [Nm]33000 [Nm/h]
    M14X1.5WBHIGH ENERGYmit Faltenbalg18 [Nm]33000 [Nm/h]
    M14X1.5WKHIGH ENERGYwith plastic head18 [Nm]33000 [Nm/h]
    M14X1.5WSHIGH ENERGYwith steel head18 [Nm]33000 [Nm/h]
    Installation Size: M20X1.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M20X1.5HHIGH ENERGYNo Head80 [Nm]80000 [Nm/h]
    M20X1.5HBHIGH ENERGYmit Faltenbalg80 [Nm]80000 [Nm/h]
    M20X1.5HKHIGH ENERGYwith plastic head80 [Nm]80000 [Nm/h]
    M20X1.5HSHIGH ENERGYwith steel head80 [Nm]80000 [Nm/h]
    M20X1.5MHIGH ENERGYNo Head80 [Nm]80000 [Nm/h]
    M20X1.5MBHIGH ENERGYmit Faltenbalg80 [Nm]80000 [Nm/h]
    M20X1.5MKHIGH ENERGYwith plastic head80 [Nm]80000 [Nm/h]
    M20X1.5MSHIGH ENERGYwith steel head80 [Nm]80000 [Nm/h]
    M20X1.5RHSTANDARD ENERGYNo Head32 [Nm]40000 [Nm/h]
    M20X1.5RHKSTANDARD ENERGYwith plastic head32 [Nm]40000 [Nm/h]
    M20X1.5RHSSTANDARD ENERGYwith steel head32 [Nm]40000 [Nm/h]
    M20X1.5RMSTANDARD ENERGYNo Head32 [Nm]40000 [Nm/h]
    M20X1.5RMKSTANDARD ENERGYwith plastic head32 [Nm]40000 [Nm/h]
    M20X1.5RMSSTANDARD ENERGYwith steel head32 [Nm]40000 [Nm/h]
    M20X1.5RSSTANDARD ENERGYNo Head32 [Nm]40000 [Nm/h]
    M20X1.5RSKSTANDARD ENERGYwith plastic head32 [Nm]40000 [Nm/h]
    M20X1.5RSSSTANDARD ENERGYwith steel head32 [Nm]40000 [Nm/h]
    M20X1.5SHIGH ENERGYNo Head70 [Nm]70000 [Nm/h]
    M20X1.5SBHIGH ENERGYmit Faltenbalg70 [Nm]70000 [Nm/h]
    M20X1.5SKHIGH ENERGYwith plastic head70 [Nm]70000 [Nm/h]
    M20X1.5SSHIGH ENERGYwith steel head70 [Nm]70000 [Nm/h]
    M20X1.5WHIGH ENERGYNo Head35 [Nm]40000 [Nm/h]
    M20X1.5WBHIGH ENERGYmit Faltenbalg35 [Nm]40000 [Nm/h]
    M20X1.5WKHIGH ENERGYwith plastic head35 [Nm]40000 [Nm/h]
    M20X1.5WSHIGH ENERGYwith steel head35 [Nm]40000 [Nm/h]
    Installation Size: M20X1.5L
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M20X1.5LMHIGH ENERGYNo Head120 [Nm]120000 [Nm/h]
    M20X1.5LMKHIGH ENERGYwith plastic head120 [Nm]120000 [Nm/h]
    M20X1.5LMSHIGH ENERGYwith steel head120 [Nm]120000 [Nm/h]
    M20X1.5LSHIGH ENERGYNo Head100 [Nm]100000 [Nm/h]
    M20X1.5LSKHIGH ENERGYwith plastic head100 [Nm]100000 [Nm/h]
    M20X1.5LSSHIGH ENERGYwith steel head100 [Nm]100000 [Nm/h]
    Installation Size: M25X1.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M25X1.5HHIGH ENERGYNo Head210 [Nm]120000 [Nm/h]
    M25X1.5HBHIGH ENERGYmit Faltenbalg210 [Nm]120000 [Nm/h]
    M25X1.5HKHIGH ENERGYwith plastic head210 [Nm]120000 [Nm/h]
    M25X1.5HSHIGH ENERGYwith steel head210 [Nm]120000 [Nm/h]
    M25X1.5MHIGH ENERGYNo Head210 [Nm]120000 [Nm/h]
    M25X1.5MBHIGH ENERGYmit Faltenbalg210 [Nm]120000 [Nm/h]
    M25X1.5MKHIGH ENERGYwith plastic head210 [Nm]120000 [Nm/h]
    M25X1.5MSHIGH ENERGYwith steel head210 [Nm]120000 [Nm/h]
    M25X1.5RHSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M25X1.5RHKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M25X1.5RHSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M25X1.5RMSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M25X1.5RMKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M25X1.5RMSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M25X1.5RSSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M25X1.5RSKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M25X1.5RSSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M25X1.5SHIGH ENERGYNo Head190 [Nm]100000 [Nm/h]
    M25X1.5SBHIGH ENERGYmit Faltenbalg190 [Nm]100000 [Nm/h]
    M25X1.5SKHIGH ENERGYwith plastic head190 [Nm]100000 [Nm/h]
    M25X1.5SSHIGH ENERGYwith steel head190 [Nm]100000 [Nm/h]
    M25X1.5WHIGH ENERGYNo Head100 [Nm]80000 [Nm/h]
    M25X1.5WBHIGH ENERGYmit Faltenbalg100 [Nm]80000 [Nm/h]
    M25X1.5WKHIGH ENERGYwith plastic head100 [Nm]80000 [Nm/h]
    M25X1.5WSHIGH ENERGYwith steel head100 [Nm]80000 [Nm/h]
    Installation Size: M25X1.5L
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M25X1.5LMHIGH ENERGYNo Head350 [Nm]150000 [Nm/h]
    M25X1.5LMKHIGH ENERGYwith plastic head350 [Nm]150000 [Nm/h]
    M25X1.5LMSHIGH ENERGYwith steel head350 [Nm]150000 [Nm/h]
    M25X1.5LSHIGH ENERGYNo Head250 [Nm]135000 [Nm/h]
    M25X1.5LSKHIGH ENERGYwith plastic head250 [Nm]135000 [Nm/h]
    M25X1.5LSSHIGH ENERGYwith steel head250 [Nm]135000 [Nm/h]
    Installation Size: M27X1.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M27X1.5HHIGH ENERGYNo Head210 [Nm]120000 [Nm/h]
    M27X1.5HKHIGH ENERGYwith plastic head210 [Nm]120000 [Nm/h]
    M27X1.5HSHIGH ENERGYwith steel head210 [Nm]120000 [Nm/h]
    M27X1.5MHIGH ENERGYNo Head210 [Nm]120000 [Nm/h]
    M27X1.5MKHIGH ENERGYwith plastic head210 [Nm]120000 [Nm/h]
    M27X1.5MSHIGH ENERGYwith steel head210 [Nm]120000 [Nm/h]
    M27X1.5RHSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M27X1.5RHKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M27X1.5RHSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M27X1.5RMSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M27X1.5RMKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M27X1.5RMSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M27X1.5RSSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M27X1.5RSKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M27X1.5RSSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M27X1.5SHIGH ENERGYNo Head190 [Nm]100000 [Nm/h]
    M27X1.5SKHIGH ENERGYwith plastic head190 [Nm]100000 [Nm/h]
    M27X1.5SSHIGH ENERGYwith steel head190 [Nm]100000 [Nm/h]
    M27X1.5WHIGH ENERGYNo Head100 [Nm]80000 [Nm/h]
    M27X1.5WKHIGH ENERGYwith plastic head100 [Nm]80000 [Nm/h]
    M27X1.5WSHIGH ENERGYwith steel head100 [Nm]80000 [Nm/h]
    Installation Size: M27X3
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M27X3HHIGH ENERGYNo Head210 [Nm]120000 [Nm/h]
    M27X3HKHIGH ENERGYwith plastic head210 [Nm]120000 [Nm/h]
    M27X3HSHIGH ENERGYwith steel head210 [Nm]120000 [Nm/h]
    M27X3MHIGH ENERGYNo Head210 [Nm]120000 [Nm/h]
    M27X3MKHIGH ENERGYwith plastic head210 [Nm]120000 [Nm/h]
    M27X3MSHIGH ENERGYwith steel head210 [Nm]120000 [Nm/h]
    M27X3RHSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M27X3RHKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M27X3RHSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M27X3RMSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M27X3RMKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M27X3RMSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M27X3RSSTANDARD ENERGYNo Head90 [Nm]80000 [Nm/h]
    M27X3RSKSTANDARD ENERGYwith plastic head90 [Nm]80000 [Nm/h]
    M27X3RSSSTANDARD ENERGYwith steel head90 [Nm]80000 [Nm/h]
    M27X3SHIGH ENERGYNo Head190 [Nm]100000 [Nm/h]
    M27X3SKHIGH ENERGYwith plastic head190 [Nm]100000 [Nm/h]
    M27X3SSHIGH ENERGYwith steel head190 [Nm]100000 [Nm/h]
    M27X3WHIGH ENERGYNo Head100 [Nm]80000 [Nm/h]
    M27X3WKHIGH ENERGYwith plastic head100 [Nm]80000 [Nm/h]
    M27X3WSHIGH ENERGYwith steel head100 [Nm]80000 [Nm/h]
    Installation Size: M33X1.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M33X1.5HHIGH ENERGYNo Head350 [Nm]140000 [Nm/h]
    M33X1.5HBHIGH ENERGYmit Faltenbalg350 [Nm]140000 [Nm/h]
    M33X1.5HKHIGH ENERGYwith plastic head350 [Nm]140000 [Nm/h]
    M33X1.5HSHIGH ENERGYwith steel head350 [Nm]140000 [Nm/h]
    M33X1.5MHIGH ENERGYNo Head350 [Nm]140000 [Nm/h]
    M33X1.5MBHIGH ENERGYmit Faltenbalg350 [Nm]140000 [Nm/h]
    M33X1.5MKHIGH ENERGYwith plastic head350 [Nm]140000 [Nm/h]
    M33X1.5MSHIGH ENERGYwith steel head350 [Nm]140000 [Nm/h]
    M33X1.5RHSTANDARD ENERGYNo Head180 [Nm]100000 [Nm/h]
    M33X1.5RHKSTANDARD ENERGYwith plastic head180 [Nm]100000 [Nm/h]
    M33X1.5RHSSTANDARD ENERGYwith steel head180 [Nm]100000 [Nm/h]
    M33X1.5RMSTANDARD ENERGYNo Head180 [Nm]100000 [Nm/h]
    M33X1.5RMKSTANDARD ENERGYwith plastic head180 [Nm]100000 [Nm/h]
    M33X1.5RMSSTANDARD ENERGYwith steel head180 [Nm]100000 [Nm/h]
    M33X1.5RSSTANDARD ENERGYNo Head180 [Nm]100000 [Nm/h]
    M33X1.5RSKSTANDARD ENERGYwith plastic head180 [Nm]100000 [Nm/h]
    M33X1.5RSSSTANDARD ENERGYwith steel head180 [Nm]100000 [Nm/h]
    M33X1.5SHIGH ENERGYNo Head300 [Nm]120000 [Nm/h]
    M33X1.5SBHIGH ENERGYmit Faltenbalg300 [Nm]120000 [Nm/h]
    M33X1.5SKHIGH ENERGYwith plastic head300 [Nm]120000 [Nm/h]
    M33X1.5SSHIGH ENERGYwith steel head300 [Nm]120000 [Nm/h]
    Installation Size: M33X1.5L
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M33X1.5LMHIGH ENERGYNo Head500 [Nm]180000 [Nm/h]
    M33X1.5LMKHIGH ENERGYwith plastic head500 [Nm]180000 [Nm/h]
    M33X1.5LMSHIGH ENERGYwith steel head500 [Nm]180000 [Nm/h]
    M33X1.5LSHIGH ENERGYNo Head450 [Nm]170000 [Nm/h]
    M33X1.5LSKHIGH ENERGYwith plastic head450 [Nm]170000 [Nm/h]
    M33X1.5LSSHIGH ENERGYwith steel head450 [Nm]170000 [Nm/h]
    Installation Size: M45X1.5
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M45X1.5HHIGH ENERGYNo Head650 [Nm]170000 [Nm/h]
    M45X1.5HKHIGH ENERGYwith plastic head650 [Nm]170000 [Nm/h]
    M45X1.5HSHIGH ENERGYwith steel head650 [Nm]170000 [Nm/h]
    M45X1.5MHIGH ENERGYNo Head650 [Nm]170000 [Nm/h]
    M45X1.5MKHIGH ENERGYwith plastic head650 [Nm]170000 [Nm/h]
    M45X1.5MSHIGH ENERGYwith steel head650 [Nm]170000 [Nm/h]
    M45X1.5RHSTANDARD ENERGYNo Head350 [Nm]140000 [Nm/h]
    M45X1.5RHKSTANDARD ENERGYwith plastic head350 [Nm]140000 [Nm/h]
    M45X1.5RHSSTANDARD ENERGYwith steel head350 [Nm]140000 [Nm/h]
    M45X1.5RMSTANDARD ENERGYNo Head350 [Nm]140000 [Nm/h]
    M45X1.5RMKSTANDARD ENERGYwith plastic head350 [Nm]140000 [Nm/h]
    M45X1.5RMSSTANDARD ENERGYwith steel head350 [Nm]140000 [Nm/h]
    M45X1.5RSSTANDARD ENERGYNo Head350 [Nm]140000 [Nm/h]
    M45X1.5RSKSTANDARD ENERGYwith plastic head350 [Nm]140000 [Nm/h]
    M45X1.5RSSSTANDARD ENERGYwith steel head350 [Nm]140000 [Nm/h]
    M45X1.5SHIGH ENERGYNo Head600 [Nm]150000 [Nm/h]
    M45X1.5SKHIGH ENERGYwith plastic head600 [Nm]150000 [Nm/h]
    M45X1.5SSHIGH ENERGYwith steel head600 [Nm]150000 [Nm/h]
    Installation Size: M45X1.5L
    Order-No.VariantVersionMaximum energy absorption per stroke in continuous operationMaximum energy absorption per hour in continuous operation
    M45X1.5LHHIGH ENERGYNo Head1200 [Nm]220000 [Nm/h]
    M45X1.5LHKHIGH ENERGYwith plastic head1200 [Nm]220000 [Nm/h]
    M45X1.5LHSHIGH ENERGYwith steel head1200 [Nm]220000 [Nm/h]
    M45X1.5LMHIGH ENERGYNo Head1200 [Nm]220000 [Nm/h]
    M45X1.5LMKHIGH ENERGYwith plastic head1200 [Nm]220000 [Nm/h]
    M45X1.5LMSHIGH ENERGYwith steel head1200 [Nm]220000 [Nm/h]
    M45X1.5LSHIGH ENERGYNo Head1000 [Nm]200000 [Nm/h]
    M45X1.5LSKHIGH ENERGYwith plastic head1000 [Nm]200000 [Nm/h]
    M45X1.5LSSHIGH ENERGYwith steel head1000 [Nm]200000 [Nm/h]
    Serie