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Elastic-Hysteretic Low Frequency Large Displacement Vibration Isolator Based on Electromagnetic Negative Stiffness

A negative stiffness and vibration isolator technology, applied in the functional characteristics of springs/shock absorbers, springs/shock absorbers, springs, etc., can solve the problem of increasing the internal damping and energy dissipation performance of the vibration isolation system, and there is no vibration damping device that has a large low frequency. Displacement vibration response, difficult to achieve efficient isolation and other problems, to achieve the effect of simple structure, strong bearing capacity and small size

Active Publication Date: 2022-03-15
HEFEI UNIV OF TECH
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Problems solved by technology

Existing quasi-zero stiffness vibration isolators have a good isolation effect on low-frequency micro-displacement vibration responses, while negative-stiffness mechanisms are accompanied by strong stiffness nonlinear characteristics under the excitation of low-frequency large-displacement vibrations, making it difficult to achieve low-frequency large-displacement vibration Efficient isolation
Therefore, in order to effectively suppress the low-frequency large-displacement vibration response in actual engineering, the internal damping and energy dissipation performance of the vibration isolation system is increased by connecting the negative stiffness mechanism and the positive stiffness element in series to control the low-frequency large-displacement vibration response, but it is still At the stage of theoretical exploration, there is no effective vibration damping device to deal with the low-frequency large-displacement vibration response in actual engineering

Method used

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  • Elastic-Hysteretic Low Frequency Large Displacement Vibration Isolator Based on Electromagnetic Negative Stiffness
  • Elastic-Hysteretic Low Frequency Large Displacement Vibration Isolator Based on Electromagnetic Negative Stiffness
  • Elastic-Hysteretic Low Frequency Large Displacement Vibration Isolator Based on Electromagnetic Negative Stiffness

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Embodiment Construction

[0039] see figure 1 , the structural form of the elastic-hysteretic low-frequency large-displacement vibration isolator based on electromagnetic negative stiffness in this embodiment is:

[0040] The upper platform 1 and the lower platform 21 are connected by 6 arched beam springs 7 with the same structure distributed on the outer periphery at equal intervals, and the arched beam springs 7 constrain the upper platform 1 to move relative to the lower platform 21 only in the axial direction.

[0041]On the lower platform 21, the electromagnetic negative stiffness spring composed of the inner magnetic ring 14, the outer magnetic ring 15 and the electromagnetic coil 18 is fixedly arranged, and the electromagnetic negative stiffness spring is connected in parallel with the second leaf spring 8 and the third leaf spring 19 to form a real-time adjustable electromagnetic spring. The bistable mechanism, the electromagnetic bistable mechanism is configured in series with the first leaf ...

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Abstract

The invention discloses an elastic-hysteretic low-frequency large-displacement vibration isolator based on electromagnetic negative stiffness. The upper platform and the lower platform are connected by arched beam springs, so that the upper platform can only move axially relative to the lower platform; On the lower platform, the electromagnetic negative stiffness spring composed of inner and outer magnetic rings and electromagnetic coils is connected in parallel with the second and third thin springs to form a real-time adjustable electromagnetic bistable mechanism, and the electromagnetic bistable mechanism is fixedly connected to the upper platform. The first leaf spring on the top is arranged in series; under the excitation of low-frequency large-displacement vibration, the electromagnetic bistable mechanism jumps back and forth between the two balance points and consumes energy to generate elastic-hysteresis phenomenon, achieving high-efficiency vibration isolation; provided by the inner and outer magnetic rings Permanent magnet negative stiffness, adjusting the size of the current in the electromagnetic coil can realize the real-time regulation of the electromagnetic negative stiffness performance, so as to obtain the ideal electromagnetic bistable characteristics, and realize the active and passive integrated vibration isolation. The invention is especially suitable for low frequency large Displacement vibration isolation and buffering conditions.

Description

technical field [0001] The invention relates to the field of vibration isolation technology, in particular to an elastic-hysteresis low-frequency large-displacement vibration isolator designed in series based on a bistable mechanism of electromagnetic negative stiffness and a linear thin spring. Background technique [0002] Mechanical vibration is ubiquitous in production practice. Although vibration phenomena are often used in industry for screening, pile sinking and transportation to provide many conveniences for actual production; but in most working conditions, vibration will bring many adverse effects to human production. Especially with the rapid development of aerospace high-tech, in order to meet the ever-increasing on-orbit operation indicators, various aerospace equipment, such as antennas, solar panels, etc., are developing in the direction of large-scale and flexible For example, a loop antenna with a diameter of 15m produces a low-frequency large-displacement v...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F16F15/04F16F15/03F16F15/06
CPCF16F15/046F16F15/03F16F2228/063
Inventor 董光旭毕传兴周蓉张小正张永斌徐亮许吉敏
Owner HEFEI UNIV OF TECH
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