Vibration reduction assembly, vibration isolator and compressor unit
A technology of vibration-damping components and vibration-damping structures, applied in the direction of shock absorbers, shock absorber-spring combinations, spring/shock absorber design features, etc., to achieve good vibration isolation effect, good vibration reduction effect, and improved vibration isolation effect Effect
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Embodiment 1
[0042] see Figure 1-Figure 3 As shown, this embodiment provides a damping assembly, including a rubber damping structure 2 and a spring damping structure 1, wherein: at least part of the spring damping structure 1 is located in the rubber damping structure 2, and the spring damping structure 1 It is used to independently support the vibrating object and can transmit the vibration part to the rubber vibration-damping structure 2; the rubber vibration-damping structure 2 is used to absorb the vibration energy transmitted to the support.
[0043] Wherein, the above-mentioned spring damping structure 1 mainly utilizes the elastic deformation of the spring for damping, and the rubber damping structure 2 mainly utilizes rubber for damping.
[0044] In the damping assembly of this embodiment, the rubber damping structure 2 is used to wrap at least part of the spring damping structure 1, and the spring damping structure 1 alone supports the vibrating object. First, the elastic deform...
Embodiment 2
[0059] In order to further improve the damping effect of the damping assembly in this embodiment, as an optional implementation, there is a transverse damping structure 3 between the spring damping structure 1 and the rubber damping structure 2 of this embodiment, and the transverse damping structure 3 The outer periphery of the spring damping structure 1 is used to absorb the vibration energy of the spring damping structure 1 in the transverse direction.
[0060] The above-mentioned transverse damping structure 3 can absorb part of the vibration energy in the transverse direction again after the spring damping structure 1 reduces the partial vibration transmitted by the vibrating object, and then transmit the vibration to the rubber damping structure 2 after reducing the vibration again, so as to improve the vibration damping effect.
[0061] This embodiment provides a specific implementation of a lateral damping structure, such as figure 2 and image 3 As shown, the transv...
Embodiment 3
[0071] In order to further improve the damping effect of the damping assembly in this embodiment, as an optional implementation, there is a longitudinal damping structure 4 between the spring damping structure 1 and the rubber damping structure 2 of this embodiment, and the longitudinal damping structure 4 The bottom of the spring damping structure 1 is used to absorb the vibration energy of the spring damping structure 1 in the longitudinal direction.
[0072] The above-mentioned longitudinal damping structure 4 can absorb the vibration energy in the longitudinal direction again after the spring damping structure 1 reduces the partial vibration transmitted by the vibrating object, and then transmit the vibration energy to the rubber damping structure 2 after reducing the vibration again, so as to improve the vibration damping effect.
[0073] This embodiment provides a specific implementation of the longitudinal damping structure 4, such as figure 2 and image 3 As shown, t...
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