What special requirements need to be met when Mechanical Rubber Shock Absorber is used in precision instruments and equipment?
Publish Time: 2024-08-08
When Mechanical Rubber Shock Absorber is used in precision instruments and equipment, there are a series of special requirements that need to be met.
First, the shock absorption accuracy requirements are extremely high. Precision instruments are very sensitive to vibrations, and even small vibrations may affect their measurement accuracy and performance. Mechanical Rubber Shock Absorber needs to be able to effectively isolate vibrations of various frequencies from the outside world, especially low-frequency vibrations. For example, in some high-precision optical instruments, rubber shock absorbers must control the vibration amplitude at the micron or even nanometer level to ensure that the optical system of the instrument can accurately image and measure.
Secondly, stability is the key. For precision instruments and equipment, their working process requires a high degree of stability. Mechanical Rubber Shock Absorber must have long-term stable performance, and will not show a significant decline in performance over time or environmental changes. This requires the rubber material to have good aging and fatigue resistance, and to be able to maintain its elasticity and shock absorption ability during long-term use. At the same time, the structural design of the shock absorber should also be reasonable, so that it can provide stable shock absorption effect in various working postures, and the shock absorption characteristics will not be changed due to the position adjustment or slight movement of the instrument and equipment.
In addition, no additional interference can be generated. The Mechanical Rubber Shock Absorber itself cannot generate electromagnetic interference, noise interference, etc. to the precision instruments. For example, for some precision instruments that need to be used in laboratories with highly pure electromagnetic environments, the material and structure of the shock absorber must ensure that no additional electromagnetic fields are generated. Moreover, the shock absorber should not have abnormal friction noise when working, so as not to affect the normal operation and measurement results of the instrument.
In addition, the convenience and accuracy of installation are also important. Precision instruments and equipment are usually complex in structure and limited in space. The Mechanical Rubber Shock Absorber needs to be easy to install and disassemble, and the installation position must be able to be accurately adjusted to achieve the best shock absorption effect. At the same time, no damage should be caused to the instruments and equipment during the installation process. In short, when the Mechanical Rubber Shock Absorber is used for precision instruments and equipment, only by meeting these special requirements can the normal operation and high-precision performance of the precision instruments and equipment be ensured.
