Composite structure photonic crystal vibration isolation support
A phononic crystal and vibration isolation support technology is applied in the field of composite structure phononic crystal vibration isolation supports, which can solve the problems of single vibration isolation direction, general vibration isolation effect, and narrow vibration isolation frequency range, so as to increase vibration isolation. Quantity, solve singleness, and meet the effect of vibration isolation requirements
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Embodiment 1
[0034] combine figure 1 and figure 2 Explain that a composite structure phononic crystal vibration isolation support of this embodiment is mainly composed of a vibration input bushing 1, a vibration isolation bushing 2, a support bushing 3, a surface type local resonance type vibration isolation component, an embedded local Consists of a resonance type vibration isolation assembly, an outer sleeve 10, a limiting structure 11 and a vibration isolator base 12;
[0035] The surface-type local resonance type vibration isolation component is composed of multiple scatterers Ⅰ4, multiple elastic columns 5 and punched base plate Ⅰ6, and multiple elastic columns 5 are periodically fixed on the fixed piece on the punched base plate Ⅰ6. A scatterer I4 is periodically fixed on a plurality of elastic columns 5, and the number of the two is the same;
[0036] The embedded local resonance type vibration isolation component is composed of a plurality of scatterers II7, a plurality of elast...
Embodiment 2
[0040] combine figure 2 Explain that the vibration input bushing 1 of a composite structure phononic crystal vibration isolation support in this embodiment is inserted into the vibration isolation bushing 2, and the two are glued together, and the vibration isolation bushing 2 is inserted into the support bushing 3, and the two are glued together, the supporting bushing 3 is respectively inserted into the round hole in the middle of the surface local resonance type vibration isolation component and the embedded local resonance type vibration isolation component, and the outer surface of the supporting bushing 3 is respectively It is glued together with the inner surface of the central circular hole of the surface local resonance type vibration isolation component and the inner surface of the central circular hole of the embedded local resonance vibration isolation component, and the surface of the outer ring of the surface local resonance vibration isolation component, embedde...
Embodiment 3
[0042] combine figure 2 Note that the surface-type local resonance type vibration isolation components of a composite structure phononic crystal vibration isolation bearing in this embodiment are periodically arranged along the axial direction of the support bushing 3, and the embedded local resonance type vibration isolation components are arranged along the axis of the support bushing 3. The sleeve 3 is arranged periodically in the axial direction, and each layer of embedded local resonance type vibration isolation components is evenly spaced between two layers of surface type local resonance type vibration isolation components. Such setting increases the period number of the local resonant phononic crystal on the premise of ensuring the support rigidity, which is beneficial to increase the vibration isolation capacity of the composite structure vibration isolator. Moreover, by evenly distributing the embedded local resonance type vibration isolation components at intervals...
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