Coupled electromagnetic field particle damper with ferromagnetic end cover additionally arranged at one end and vibration reduction method of particle damper for vibration structure

A particle damper and electromagnetic field technology, applied in friction dampers, non-rotational vibration suppression, magnetic springs, etc., can solve the problems of difficult application of particle damping, difficult to achieve fixed perturbators, and inaccessible perturbators, and to improve the reduction of vibration. Vibration effect, good vibration reduction effect, the effect of increasing energy consumption

Active Publication Date: 2015-05-20
XI AN JIAOTONG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] In order to overcome the problem that particle damping is difficult to apply in the above-mentioned large inertial force and weightless environment, some scholars at home and abroad have explored it.
Someone has studied the motion law of the granular material of the particle damper in a weightless environment, and proposed adding a disturber 10 (cross-shaped blade) to increase the movement of the particles and improve the vibration reduction effect of particle damping. See figure 1 , but it is difficult to fix the perturbator in the cavity 9; and after vibrating for a period of ti

Method used

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  • Coupled electromagnetic field particle damper with ferromagnetic end cover additionally arranged at one end and vibration reduction method of particle damper for vibration structure
  • Coupled electromagnetic field particle damper with ferromagnetic end cover additionally arranged at one end and vibration reduction method of particle damper for vibration structure
  • Coupled electromagnetic field particle damper with ferromagnetic end cover additionally arranged at one end and vibration reduction method of particle damper for vibration structure

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Effect test

Embodiment 1

[0032] The structure of the particle damper with a ferromagnetic end cap coupled to the electromagnetic field at one end is as follows: figure 2 As shown, ferromagnetic particles 4 are placed in the non-ferromagnetic cavity 5, and the non-ferromagnetic cavity 5 is sealed by the non-ferromagnetic end cover 1 and the ferromagnetic end cover 3 to form a particle damper. And the densely wound coil 2 is wound outside the non-ferromagnetic cavity 5, and the densely wound coil 2 is wound on the non-ferromagnetic cavity 5 to form a solenoid, wherein the material of the non-ferromagnetic cavity 5 is plexiglass .

[0033] see image 3 , connect the particle damper 7 with a ferromagnetic end cap coupled to the electromagnetic field at one end to the vibrating structure 6 through threads, supply power to the solenoid through a power supply 8, and generate a magnetic field in the non-ferromagnetic cavity 5. At this time, the ferromagnetic Both the end cap and the ferromagnetic particles...

Embodiment 2

[0038] The structure of the particle damper with a ferromagnetic end cap coupled to the electromagnetic field at one end is as follows: figure 2 As shown, ferromagnetic particles 4 are placed in the non-ferromagnetic cavity 5, and the non-ferromagnetic cavity 5 is sealed by the non-ferromagnetic end cover 1 and the ferromagnetic end cover 3 to form a particle damper. A coil 2 is wound outside the non-ferromagnetic cavity 5, the coil 2 is wound on the non-ferromagnetic cavity 5 to form a solenoid, and the material of the non-ferromagnetic cavity 5 is plexiglass.

[0039] For particle damping under rotating conditions, due to the action of centrifugal force, the particles are tightly compacted together, and the relative motion between particles is sharply reduced, which leads to the deterioration of particle damping and vibration reduction effect. By adjusting the position of the ferromagnetic end cap, the direction of the overall unidirectional force exerted on the particles b...

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Abstract

The invention discloses a coupled electromagnetic field particle damper with a ferromagnetic end cover additionally arranged at one end and a vibration reduction method of the particle damper for a vibration structure. The coupled electromagnetic field particle damper comprises a non-ferromagnetic cavity with openings in two ends, the ferromagnetic end cover is installed at one end of the non-ferromagnetic cavity, a non-ferromagnetic end cover is installed at the other end of the non-ferromagnetic cavity, the ferromagnetic end cover and the non-ferromagnetic end cover seal the non-ferromagnetic cavity, ferromagnetic particles are arranged in the non-ferromagnetic cavity, and the outer side of the non-ferromagnetic cavity is wound with a coil. When the particle damper is powered on, an electromagnetic field generated by a spiral pipe will magnetize the ferromagnetic particles and the ferromagnetic end cover, the ferromagnetic particles interacts with the electromagnetic field after being magnetized to increase the relative movement between the particles, and the purpose of increasing energy consumption is achieved; in the space weightlessness environment, the ferromagnetic end cover can apply whole one-way force on all the ferromagnetic particles, positive pressure between the particles is increased, and therefore the probability of collision between the particles and friction energy consumption are increased, and the vibration reduction function of particle damping is improved; under the condition of large inertia force, a good vibration reduction effect is also achieved.

Description

technical field [0001] The invention belongs to the field of vibration control in aerospace engineering and rotating machinery, and in particular relates to a particle damper with a ferromagnetic end cover coupled to an electromagnetic field at one end and a vibration reduction method for a vibration structure. Background technique [0002] Particle damping is to fill metal or non-metallic particles into a cavity structure according to a certain filling ratio, and consume the kinetic energy of the system through the inelastic collision, friction and momentum exchange between particles and between particles and the inner wall of the cavity, thus To achieve the purpose of vibration reduction. At present, the research on particle damping is mainly concentrated in the conventional gravity environment, and the influence of various parameters of particle damping on the vibration reduction characteristics is discussed. Moreover, in recent years, scholars have also evolved and deve...

Claims

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Application Information

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IPC IPC(8): F16F15/02
CPCF16F6/00F16F7/01
Inventor 王小鹏陈天宁张超
Owner XI AN JIAOTONG UNIV
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