The ZJ series hydraulic installation snake spring coupling is an advanced shaft connection transmission component, which has the characteristics of simple structure, high transmission efficiency, and good vibration reduction effect. It mainly relies on snake shaped spring plates to transmit torque, and the connection between the driving shaft and the driven shaft is achieved by embedding the snake spring into the tooth groove of the two halves of the coupling. The design of this coupling largely avoids the occurrence of resonance phenomenon, and the elastic variable generated by the spring when transmitting torque enables the mechanical system to achieve good vibration reduction effect, with an average vibration reduction rate of over 36%.
The structure of the ZJ series hydraulic installation snake spring coupling mainly consists of two half couplings, two half housings, two sealing rings, and snake spring plates. During operation, the axial force exerted by the active end teeth on the snake spring drives the driven end to transmit torque. This design not only improves the torque transmission capability of the serpentine spring coupling, but also allows for certain radial, angular, and axial deviations between the two halves of the shaft, thereby enhancing its adaptability and reliability.
In addition, the ZJ series hydraulic installation snake spring coupling also has the advantage of quick disassembly and assembly. The expansion function of the shaft hole is achieved through the combination of conical surfaces and high-strength bolt tension, making the installation and disassembly process more time-saving and labor-saving. This type of coupling is suitable for various mechanical transmission applications, such as belt conveyors, hoists, fans, pumps, and other shaft connection parts. It can effectively protect equipment, reduce impact and vibration, and improve the stability and service life of mechanical systems.
Overall, the ZJ series hydraulic installation snake spring coupling has become an important component in the field of modern mechanical transmission due to its high efficiency, reliable performance, and excellent adaptability
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