Disc couplings

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AEC Disc couplings

Description

AEC Disc Couplings are designed with a package of thin metal sheets that form flexible disks, offering a modern alternative to classical flexible couplings. With no friction or moving parts, these couplings do not require lubrication and can safely operate in high-temperature environments. Their simplified structure allows for the transmission of large torques despite their lightweight design, while accommodating various types of misalignments.

AEC Disc couplings are known for their high torsional rigidity and the absence of backlash, making them ideal for precise applications. The design, composed of few parts, allows for quick and reliable assembly and disassembly. One of the key advantages of ABS Disc Couplings is their high reliability; even if some of the metal sheets in the disk pack are damaged due to unexpected overload, the coupling continues to function, helping maintain the operation of the entire system.

Key features

  • No Lubrication Required: Operates without friction or moving parts, eliminating the need for oil.
  • High Temperature Tolerance: Suitable for high-temperature environments due to its all-metal design.
  • Lightweight and Strong: Transmits large torques while maintaining a low weight.
  • Misalignment Compensation: Handles different types of misalignments with ease.
  • No Backlash: Ensures precise power transmission with high torsional rigidity.
  • Easy Installation and Maintenance: Few parts allow for fast assembly and disassembly.
  • High Reliability: Continues operating even when some disk sheets are damaged.

Industrial applications

  • High-Precision Equipment: Ideal for applications requiring precise torque transmission without backlash.
  • High-Temperature Environments: Suitable for operations where lubrication is impractical or temperature resistance is required.
  • Industries Requiring Reliability: Perfect for industries such as steel, mining, and power generation, where maintaining system functionality is crucial despite overloads or damage.
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