Wind Energy Solutions | Regal Rexnord
Rotor Brakes
Small
Onshore Wind Energy Solutions | Regal Rexnord
Svendborg Brakes™
BSFI3000 Rotor Brake
Failsafe, spring-applied, hydraulic-release floating caliper rotor brake
The BSFI3000 series is comprised of a versatile range of wind turbine rotor brakes designed to seamlessly integrate into various footprints while meeting desired performance requirements. Engineered with a spring-applied, hydraulic-released floating mechanism, these brakes ensure failsafe operation, swiftly halting rotor rotation upon the release of hydraulic pressure. With its focus on reliability, precision, safety, and adaptability, this series is an ideal choice for wind turbine rotor brake systems.

Features
- Compatibility with various disc thicknesses ensures seamless integration with different designs and specifications of wind turbine rotor systems.
- Incorporates a failsafe mechanism that utilizes spring-applied, hydraulic-released brake technology to guarantee the reliable and precise braking performance necessary for the safe operation of wind turbines.
- Tailored, highly customizable air gap settings allow for ease of installation and provides fast, precise control when activating the rotor brakes during wind turbine operation.
- Features a durable, generously sized brake pad area designed to minimize wear, stress, and keep disc temperatures lower, to prolong the lifespan of the rotor braking system and ensure consistent performance despite demanding wind turbine environments.
- These rotor brakes are engineered with few moving parts to offer ease of maintenance, reducing wind turbine downtime and lifetime operational costs. Additionally, lifting eyes ensure safe and efficient handling during maintenance operations.
- Comes with drain ports that reduce contamination risks by collecting and containing any potential hydraulic fluid leakage to ensure the continued integrity and reliability of wind turbine motor operations.
- Seamlessly integrates with a variety of advanced monitoring systems that enable precise control, provide performance insights, and facilitate proactive maintenance scheduling required to achieve optimal wind turbine operational efficiency.
- Available with a wide array of friction materials to ensure optimal rotor braking performance while meeting the specific operational demands of various environmental conditions unique to wind turbine applications.