Description
ELECTROMAGNETIC CLUTCHES BINDER-MAGNETE – SERIES 84.033
BINDER-MAGNETE Electromagnetic Clutches – Series 84.033, featuring a steel disc pack, are designed for use in industrial mechanisms subjected to high dynamic loads, particularly in gearboxes and enclosed mechanisms where maintenance access is difficult.
⚙️ TECHNICAL CHARACTERISTICS
• Rated voltage: 24 V DC
• Steel friction discs
• Clutches operate exclusively in an oil bath
• The disc pack is traversed once by the magnetic flux
• The air gap in the engaged state represents the wear reserve of the disc pack
• In the engaged state, the presence of an air gap is eliminated
• Wear of the disc pack is automatically compensated
• No adjustment is required during operation
• Capable of handling high dynamic loads specific to demanding applications
🏭 APPLICATION AREAS
• Feed gearboxes for machine tools
• Universal and special lathes
• Conventional and modernized machine tools
• Industrial drive mechanisms with controlled engagement
• Mechanical systems and industrial automation
• Applications requiring electromagnetic clutches and brakes
📦 AVAILABLE SERIES – ELECTROMAGNETIC CLUTCHES 84.033
• 84.033.09C1
• 84.033.11C1
• 84.033.14C1
• 84.033.16C1
• 84.033.19C1
• 84.033.24C1
• 84.033.29C1
⚡ OPERATING PERFORMANCE
• Stable operation under continuous working conditions
• Reliable behavior under high dynamic loads
• Automatic wear compensation, with no intervention required during operation
• High reliability in applications with significant mechanical stress
🏭 MANUFACTURER AND WARRANTIES
• Manufacturer: BINDER-MAGNETE
• Product supplied with warranty
• Quality certificate
• Certificate of conformity
🔎 COMMON / ALTERNATIVE NAMES
In industrial practice, electromagnetic clutches of the 84.033 series are often identified by customers and users under various common names, depending on application or operating experience:
● electromagnetic clutches ● multi-disc clutches ● electromagnetic brakes ● clutch brake ● tooth clutches ● lathe clutches ● lathe brakes ● electromagnetic couplings
