SKD 35-50-65-80 Active Brake
- Braking Force:
- Up to 41,400 N
DELLNER BUBENZER's model SKD disc brakes are direct acting, hydraulic or air pressure applied, spring released units. The braking force achieved is directly proportional to the applied pressure. The SKD series could be delivered with two housings each consisting of one or several cylinders or as single acting SA versions. Low pressure and high pressure version with several lining material alternatives are available.
- Hydraulic Applied, Spring Released
- Brake Pad Wear is automatically compensated
- Robust and easy maintained design with long life cycle
- Dual or Single housing configuration
- Easy adjustment (no special tools)
- Models with primary and secondary cylinder seals
- Electric or Hydraulic
- Support/pedestal including piping to one connection point
- Electrical Indicators: ON/OFF, Wear
- Lining material alternatives meeting application specific requirements
- Corrosion protection; surface paint layer thickness and shades and, stainless steel components
- Retraction spring configurations to overcome hydrostatic difficulties
Additional PRODUCTS
- All
- Caliper / Disc Brakes
- Components & Accessories
- Couplings
- Drum & Band Brakes
- Hydraulic Systems
- Locking Devices
- Monitoring & Control Systems
- Motor Mounted Brakes
- Pneumatic Drum Clutches & Brakes
- Stop Turn Lock Systems
- Storm Brakes (Rail & Wheel Brakes)
- Thruster / BUEL®
- Wind Turbine Components
- WPT Disc Clutches & Brakes
These rail clamps are storm brakes suitable for high forces. They are self-blocking type; in case a force acts on the crane and tends to put the same into motion, they press on the rail sideways.
These rail clamps are storm brakes suitable for high forces. They are self-blocking type; in case a force acts on the crane and tends to put the same into motion, they press on the rail sideways.
The DH hydraulic power packs deliver pressure up to 200 bar and can be delivered with optional hydraulic cabinets and electrical terminal boxes.
The EBA is a powerful drum brake with braking torques from 24 (ft-lb) to 9000 (ft-lb) that meets AISE (TR11) & NEMA (ICS 8) standards.
The EBH series is designed according to DIN 15435. This design is very compact and can be used in tight motor gearbox combinations.
The EBN series is designed according to DIN 15435 and has been in use in various industries for decades.
The FKE is best suited for applications with light starting and stopping loads. It is also commonly used as a slip clutch or tension brake within light horsepower and torque applications.
The FKR is often referred to as a coupling, as its expanding neoprene rubber facing engages the interior diameter of the drum directly. The resulting friction generates significant torque within a small package.
The FK is well suited as a clutch or brake for a variety of high speed and low to medium torque power transmission applications where high heat generation is not a factor.
The FKT is well suited for applications with the most demanding equipment where severe clutching and braking is required.
The FM is designed and manufactured for marine applications, mainly for use on diesel-driven reduction gears.
Our hand pump can be used to simply activate the Dellner brake calipers. It also acts as a back up system for the primary pressure supply system.
The hydraulic rotary actuator is a device which transform hydraulic power (pressure and flow) in mechanical power: torque and angular speed.
A hydraulic rotor lock offering up to 250 bar pressure with an activation time of 60 seconds.
We offer three models of the JHS-RLH-240 hydraulic rotor lock – the GL Type Certified JHS-RLH-240, the JHS-RLM-240 and the JHS-RLH-240-154. All these locks deliver up to 250 bar pressure with an activation time of just 35 seconds.
Manually activated rotor lock used for safety purposes during maintenance operations to stop the rotor mechanically. The maximum lateral force is 6400 N and the standard stroke is 95 mm. Other strokes are available upon request.
These couplings are for use in application with high dynamic loads. Damping of peak torques and vibrations as well as electrical insulation between motor and gearbox are further reasons for the use of this coupling type.
These couplings are for use in machinery where a torsionally rigid torque is required, especially on frequently varying loads and speeds.