Kendrion INTORQ are specialists and innovators of brake and clutch systems for motors, geared motors, wind turbines, hoists, cranes, servo motors and robotics.
Kendrion INTORQ spring-applied brakes ensure that braking takes place in a de-energised state and are so called “fail-safe brakes”. This ensures reliable braking during power failure.
ELECTROMAGNETIC BRAKES TYPES BFK 458
The Intorq BFK 458 is a versatile modular brake system with various components that can be freely configured for each specific solution. This reliable brake is used for most industrial applications due to its wide range of options to fit most tasks.
Braking torque from 1.5 to 600 Nm. Voltages Vdc 24,103, 180 & 205. Insulation Class F (155 Deg C). Protection up to IP66. Options CCV (Cold Climate Version) to -40 Deg C.
ELECTROMAGNETIC BRAKES BFK470 IP66
The Intorq BFK 470 spring applied brake provides reliable performance designed with a IP66 protection rating for dusty and humid operating conditions such as wind power, crane facilities, car washes, and textile machines. The brake is freely configurable with a range of components.
Braking torque from 2 to 370 Nm, Insulation Class F (155 Deg C). Protection IP66. Corrosion protection C4 or C5.
ELECTROMAGNETIC CLUTCHES AND BRAKES 14.115/105/800
Kendrion INTORQ electromagnetic clutches and brakes – also proven as clutch-brake combinations – are reliable components to use for packaging, labeling and filling machines as well as apparatus construction. When de-energized, our brakes and clutches release completely without any residual torque. The low-wear materials ensure a long and low-maintenance service life.
Rated torque from 7.5 to 120 Nm. 24 Vdc. Fast acceleration and braking at constant motor speed.
BRAKE CONTROL ELECTRONICS
Kendrion INTORQ offer a wide range of rectifiers and switching devices for almost every application. Whether you want to control our spring-applied brakes or the energized-to-engage clutches and brakes, you can do this safely and efficiently with our electronic accessories. Using the proper controller, you can improve stopping accuracy and switching frequencies, as well as the energy efficiency and service life. You can also make application-specific adjustments this way.