Ayl Hydraulic Safety Coupling Shaft Quick Installation for Cement Mill, Steel Factory

The AYL cement plant hydraulic safety coupling is a hydraulic transmission device that uses liquid kinetic and potential energy to transmit power. It has the characteristics of high transmission efficiency, smooth operation, effective control of overload, absorption of vibration, and elimination of impact loads.
AYL cement plant hydraulic safety coupling, also known as hydraulic coupling, is a hydraulic transmission device that uses liquid kinetic energy and potential energy to transmit power. It has a different transmission principle from mechanical couplings, mainly transmitting power through high-speed circulation of liquid. This type of coupling not only has the function of a mechanical coupling, but also has the unique advantages of hydraulic transmission, such as high transmission efficiency (0.95-0.98), smooth operation, effective control of overload of the prime mover, absorption of vibration, elimination of the influence of impact loads, easy adjustment and implementation of automation (can achieve stepless speed regulation), greatly reducing the starting torque of the motor, thereby reducing the capacity requirement of the motor.
The structure of a hydraulic coupling mainly consists of a pump impeller, a turbine, and a rotating inner sleeve. The pump impeller and rotating inner sleeve are connected to the driving shaft, and the turbine is connected to the fan shaft through the driven shaft. In the working oil chamber formed between the pump impeller and the turbine, working oil is flushed into the turbine under the action of centrifugal force, transferring energy to the turbine and causing it to rotate with the pump impeller. The working oil returns to the pump impeller to regain energy, forming a circulation of working oil, which continuously transfers the energy of the pump impeller to the turbine through the liquid, thereby achieving power transmission.
In addition, the hydraulic coupling adjusts the speed by changing the amount of working oil in the impeller chamber of the pump and turbine to meet the needs of the load. This type of coupling is suitable for application scenarios that require fast installation and efficient power transmission, especially in industrial fields such as cement production, which can significantly improve production efficiency and equipment operation stability