Clamping and Braking Units
- Very high axial holding forces
- Dynamic and static stabilization in the axial direction
- Heavy-duty brake
- Compact design, compatible with DIN 645
- Clamps and brakes with pressure
- Very high axial holding forces
- Dynamic and static stabilization in the axial direction
- Heavy-duty brake
- Compact design, compatible with DIN 645
- Clamps and brakes with pressure
- Very high axial holding forces
- Dynamic and static stabilization in the axial direction
- Compact design, compatible with DIN 645
- Clamps with pressure
- Very high axial holding forces
- Dynamic and static stabilization in the axial direction
- Compact design, compatible with DIN 645
- Clamps and brakes with pressure
- Very high axial holding forces
- Dynamic and static stabilization in the axial direction
- Compact design, compatible with DIN 645
- Clamps with pressure
- Clamps and brakes with spring energy accumulator
- Positive locking integrated contact profiles ensure maximum axial and horizontal rigidity, and thus an excellent braking effect
- Dynamic and static stabilization in the axial direction
- Clamps and brakes without pressurization (spring energy)
- Clamping and braking units in short format
- Clamps and brakes with spring energy accumulator
- Positive locking integrated contact profiles ensure maximum axial and horizontal rigidity, and thus an excellent braking effect
- Dynamic and static stabilization in the axial direction
- Clamps and brakes without pressurization (spring energy)
- Compact design, compatible with DIN 645
- High axial holding forces with short format
- Dynamic and static stabilization in the axial direction
- Simple mechanical gripping principle in LCP and LCPS with good price/performance ratio
- Easy mounting
- Clamps with pressure (pneumatic) The clamping profiles are pressed by compressed air via a dual acting gate valve gear mechanism.
- High axial holding forces with short format
- Dynamic and static stabilization in the axial direction
- Simple mechanical gripping principle in LCP and LCPS with good price/performance ratio
- Easy mounting
- Clamps without pressurization (spring energy). In the event of a pressure drop, it clamps via the dual-action gate valve gear mechanism with two spring assemblies.
- High axial holding forces with short format
- Dynamic and static stabilization in the axial direction
- Simple mechanical gripping principle in LCP and LCPS with good price/performance ratio
- Easy mounting
- Clamps with pressure (pneumatic) by means of mechanical gripping
- High axial holding forces with short format
- Dynamic and static stabilization in the axial direction
- Simple mechanical gripping principle in LCP and LCPS with good price/performance ratio
- Easy mounting
- Clamps without pressurization (with spring energy) by means of mechanical gripping with a spring assembly (spring energy accumulator)
- Simple and safe design in compact format
- Manually operated clamping unit without auxiliary power
- Freely adjustable hand lever
- Exact positioning, high dynamics, powerful drive and long service life through the use of high-precision linear screw drives
- Manual clamping unit
- Simple and safe design in compact format
- Manually operated clamping unit without auxiliary power
- Freely adjustable hand lever
- Exact positioning, high dynamics, powerful drive and long service life through the use of high-precision linear screw drives
- Manual clamping unit
- Suitable for assembly with high ball runner blocks SNH R1621 and SLH R1624.
- Suitable for assembly with high roller runner blocks SNH R1821 and SLH R1824.
- Suitable for assembly with high ball runner blocks SNH R1621 and SLH R1624.
- Suitable for assembly with high roller runner blocks SNH R1821 and SLH R1824.