Nonlinear variable rigidity adjusting method for rubber and metal composite type spherical hinge
A rubber-metal composite technology with variable stiffness, applied in the functional characteristics of springs/shock absorbers, springs made of plastic materials, springs, etc., to broaden the design concept, realize the later stiffness requirements, and reduce elastic vibration.
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Embodiment 1
[0031] It can be seen from the accompanying drawings that the present invention relates to a method for nonlinear variable stiffness of a rubber-metal composite ball hinge, which adjusts the non-linear rigidity of the rubber-metal composite ball hinge by adjusting the positional relationship between the metal parts and the rubber parts of the rubber-metal composite ball hinge. Linear variable stiffness, which is characterized by adjusting the positional relationship between the metal parts and the rubber parts of the rubber-metal composite ball hinge. Adjusting the nonlinear variable stiffness of the rubber-metal composite ball hinge is by adjusting the axial variable Stiffness, so that the axial stiffness of the entire rubber-metal composite ball joint changes nonlinearly, and the nonlinear variable stiffness of the rubber-metal composite ball joint is adjusted through the nonlinear change of the axial stiffness of the rubber-metal composite ball joint.
[0032] The adjustment...
Embodiment 2
[0040] The implementation principle of the second embodiment is the same as that of the first embodiment, but the adjustment method is different. It is a non-linear variable stiffness method for rubber-metal composite ball hinges, which adjusts the nonlinear variable stiffness of rubber-metal composite ball hinges by adjusting the positional relationship between the metal parts and the rubber parts of rubber-metal composite ball hinges. The positional relationship between the metal parts and the rubber parts of the rubber-metal composite ball hinge adjusts the nonlinear variable stiffness of the rubber-metal composite ball hinge. By adjusting the axial variable stiffness of the rubber-metal composite ball hinge, the entire rubber-metal composite ball hinge The axial stiffness of the hinge varies nonlinearly, and the nonlinear variable stiffness of the rubber-metal composite spherical hinge is adjusted through the nonlinear variation of the axial stiffness of the rubber-metal co...
Embodiment 3
[0050] The implementation principle of Embodiment 3 is the same as that of Embodiment 1, except that the adjustment method is slightly different. It is a method of nonlinear variable stiffness of rubber-metal composite ball hinges. By adjusting the metal parts and rubber of rubber-metal composite ball hinges Adjust the nonlinear variable stiffness of the rubber-metal composite ball joint by adjusting the positional relationship of the rubber-metal composite ball joint. By adjusting the axial variable stiffness of the rubber-metal composite ball joint, the axial stiffness of the entire rubber-metal composite ball joint changes nonlinearly, and the rubber-metal composite ball joint is adjusted through the nonlinear change of the axial stiffness of the rubber-metal composite ball joint. Nonlinear variable stiffness of a spherical joint.
[0051] The adjustment of the axial variable stiffness of the rubber-metal composite ball hinge is to install an axial variable stiffness adjust...
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