How to ensure the stable operation of Dual drive JY-850E grinding machine through dynamic balancing test and cycle test balancing?

1. Dynamic balancing test

Dynamic balancing test is a technology used to detect and correct the imbalance of rotating parts. In Dual drive JY-850E grinding machine, dynamic balancing test is mainly aimed at its rotating parts, such as grinding disc and motor. Through precise measurement and adjustment, it is ensured that these parts reach a balanced state during rotation, reduce vibration and wear, and extend the service life of the equipment.

When conducting a dynamic balancing test, the rotating parts of the Dual drive JY-850E grinding machine need to be installed on a dedicated dynamic balancing machine. Then, the vibration of the rotating parts at different speeds is recorded through sensors and measuring instruments. According to the measurement results, the position and degree of imbalance are analyzed, and correction is made by adding or removing counterweights. This process needs to be repeated until the rotating parts can maintain balance at various speeds.

2. Cycle test balancing

Cycle test balancing is a comprehensive balance correction of the Dual drive JY-850E grinding machine based on the dynamic balancing test. Unlike the dynamic balancing test, the cyclic balancing test not only focuses on the rotating parts, but also involves the operating status of the entire equipment. By simulating the actual working conditions, the Dual drive JY-850E grinding machine is tested several times, and the balancing correction is performed after each test run to ensure that the equipment can remain stable under various working conditions.

When performing the cyclic balancing test, it is necessary to set the working parameters of the Dual drive JY-850E grinding machine, such as speed, load, etc. Then, let the equipment run under these parameters, and record the vibration of the equipment through sensors and measuring instruments. According to the measurement results, the unbalanced points of the equipment are analyzed and adjusted accordingly. This process needs to be repeated until the equipment can remain balanced under various working conditions.