- Higher torque with equal size compared to PM Line
- High consistency of torque during full service life; extended temperature range
- -15°C to +120°C, optional -40°C
The applications are the same as those of the conventional permanent magnet brake.
- Servo motors
- Medical engineering
- Handling technology
- Packaging machines
About High Torque
The HIGH TORQUE series combines the well-known properties of permanent magnet brakes - Due to a re-design of the magnetic circuit, it features further advantages such as a higher torque at identical size and power consumption, high torque constancy throughout the complete service life and an extended temperature range.
Specifications & technical details
|Nominal torque range||0.1 Nm - 300 Nm|
|Voltage||DC 24 V|
|Protection class||IP 00|
|Temperature range||-15 °C to +120 °C, optional -40 °C|
The High Torque brake is designed to operate dry. The force generated by a permanent magnetic field is utilised to produce the braking effect. To neutralise the braking action, the magnetic flux of the permanent magnets is cancelled by an alternate electromagnetic field (electromagnetically released system). The zero backlash connection between the armature and flange hub ensures zero backlash transmission of the brake torque to the machine shaft (e.g. motor shaft) and reliable release of the High Torque brake with zero residual torque. Thanks to these features, High Torque brakes are ideal for servo motor applications.
The firmly fitted field coil is installed between the housing and flange of the High Torque brake. The flying leads required to connect the field coil exit at defined positions on the brake. The permanent magnets installed in axial direction between the housing and flange generate the magnetic field required to produce the braking action. The armature is connected with the flange hub by means of segmental springs and rivet fasteners to establish an axially movable, torsion-proof and friction-free connection. This ensures zero residual torque during horizontal or vertical brake operation. The rated air gap 's' between the armature and housing of the High Torque brake is automatically adjusted during brake mounting (e.g. through mounting tolerances). The flange hub is attached to the machine shaft (e.g. motor shaft) in such a way that a torsion-proof and axially fixed connection is achieved. The permanent magnetic field attracts and pulls the armature in frictional contact with the housing and flange. The resulting friction force generates the brake torque. When DC voltage is applied to the field coil of the High Torque brake, the alternate electromagnetic field offsets the force exerted on the armature by the permanent magnetic field and the brake is released as a result of the spring force. Except for the minimal force exerted by the segmental springs, the shaft to be braked is not exposed to any other axial force.