In daily use, correctly checking the status of the Rubber block vibration isolation hammer is essential to ensure that it can play a normal vibration isolation role, extend its service life, and ensure the stable operation of the equipment.
First, the status of the Rubber block vibration isolation hammer can be preliminarily judged by visual inspection. Observe whether the rubber block has obvious cracks, damage or deformation. If cracks appear on the surface of the rubber block, it may cause its vibration isolation performance to decline or even break during use. At the same time, check whether the metal parts are rusted, loose or damaged. Rust may affect the strength of metal parts and the reliability of connections, and loose metal parts may affect the overall stability of the vibration isolation hammer.
Secondly, perform a static inspection. When the equipment stops running, gently press the Rubber block vibration isolation hammer with your hand to feel its elasticity and rebound force. Under normal circumstances, the rubber block should have a certain elasticity and can quickly return to its original state after being pressed. If the rubber block feels too hard or too soft, or the rebound force is significantly weakened, it may mean that the performance of the rubber block has changed and needs further inspection or replacement.
In addition, dynamic inspection is also a very important link. When the equipment is running, observe the vibration of the equipment. If the vibration of the equipment increases significantly, or there is no significant improvement compared with before the installation of the Rubber block vibration isolation hammer, there may be a problem with the vibration isolation hammer. At this time, you can check whether the vibration isolation hammer is firmly installed and whether the connection between the rubber block and the equipment is loose. At the same time, pay attention to whether there is any abnormal noise when the equipment is running. If the noise increases significantly, it may be that the rubber block of the vibration isolation hammer has aged or damaged and cannot effectively absorb vibration and reduce noise.
In addition, professional vibration measuring instruments can be used to measure the vibration of the equipment regularly. By comparing the vibration data before and after the installation of the vibration isolation hammer and at different time periods, it can be judged whether the vibration isolation effect of the vibration isolation hammer is stable. If the vibration data changes significantly, it is necessary to further analyze the cause. It may be that the performance of the vibration isolation hammer has declined or there is a problem with the equipment itself.
Finally, pay attention to check the working environment of the Rubber block vibration isolation hammer. If the vibration isolation hammer is in a harsh environment such as high temperature, humidity, and oil for a long time, it may accelerate the aging and damage of the rubber block. In this case, it is necessary to check the status of the vibration isolation hammer more frequently and take corresponding protective measures, such as adding a protective cover and regular cleaning.
In short, in daily use, through appearance inspection, static and dynamic inspection, and measurement with professional instruments, problems with the Rubber block vibration isolation hammer can be discovered in time to ensure that it is always in good working condition, providing reliable vibration isolation guarantee for the stable operation of the equipment.