First, the installation position will directly affect the degree of interference of the vibration isolation hammer on the transmission path of vibration. If the rubber block vibration isolation hammer is installed near the vibration source, such as the bottom of the equipment or the part directly connected to the vibration source, it can attenuate and isolate the vibration at the early stage of its generation. This can effectively reduce the transmission of vibration to the surrounding structure and reduce the amplitude and frequency of vibration. On the contrary, if the installation position is far away from the vibration source, the vibration may pass through multiple structural parts during the transmission process, resulting in the diffusion and enhancement of energy, thereby reducing the vibration isolation effect of the vibration isolation hammer.
Secondly, different installation positions will also affect the stress of the vibration isolation hammer. A reasonable installation position can make the vibration isolation hammer in the best stress state when subjected to vibration, and give full play to the elasticity and damping characteristics of the rubber block. For example, installing the vibration isolation hammer near the center of gravity of the equipment can make the equipment more stable when vibrating and reduce the possibility of shaking and tilting. At the same time, a suitable installation position can also prevent the vibration isolation hammer from being subjected to excessive shear or tension, thereby extending its service life.
Furthermore, the installation position will also affect the overall stability of the vibration isolation system. If the installation position of the vibration isolation hammer is unreasonable, it may cause the imbalance of the entire vibration isolation system, thus affecting the vibration isolation effect. For example, when installing multiple vibration isolation hammers, if their positions are unevenly distributed, the equipment may be deflected or twisted when vibrating. Therefore, when installing the Rubber block vibration isolation hammer, it is necessary to reasonably select the installation position according to the structure and vibration characteristics of the equipment to ensure the stability and reliability of the vibration isolation system.
Finally, in order to determine the best installation position of the Rubber block vibration isolation hammer, detailed vibration analysis and testing are required. By measuring parameters such as the vibration frequency, amplitude and direction of the equipment, the characteristics and transmission path of the vibration can be understood. Then, based on this information, combined with the performance parameters and installation requirements of the vibration isolation hammer, a suitable installation position is selected. In the actual installation process, the position and number of the vibration isolation hammer can also be adjusted to optimize and adjust to achieve the best vibration isolation effect. In short, the installation position of the Rubber block vibration isolation hammer is crucial to the vibration isolation effect, and full attention needs to be given during the design and installation process.
