Passive magneto-rheological shock absorber based on condition monitoring

A magneto-rheological shock absorber and condition monitoring system technology, applied in the direction of shock absorbers, shock absorbers, springs/shock absorbers, etc., can solve the problem of reducing system reliability, increasing the difficulty of installation and maintenance, limiting magnetic Issues such as rheological semi-active suspension system engineering application, to achieve the effect of enhancing work stability, improving stability, and widening the adjustment range

Inactive Publication Date: 2015-09-16
CHONGQING UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The demand for external power supply and the introduction of external sensors not only increase the power consumption and product cost of the magneto-rheological semi-active suspension system, but also increase the difficulty of installation and maintenance and reduce the reliability of the system to a certain extent. The engineering application of magnetorheological semi-active suspension system is limited

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  • Passive magneto-rheological shock absorber based on condition monitoring
  • Passive magneto-rheological shock absorber based on condition monitoring
  • Passive magneto-rheological shock absorber based on condition monitoring

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Embodiment Construction

[0028] The present invention will be described in detail below in conjunction with the accompanying drawings.

[0029] Such as figure 1 As shown, the passive magneto-rheological shock absorber based on state monitoring of the present embodiment is composed of a magneto-rheological shock absorber, a vibration energy harvester, an energy recovery control module and a state monitoring system; the magneto-rheological shock absorber Including cylinder 1, piston rod 2, base 3, floating piston 4, guide ring 5, electromagnetic piston 6 and guide seat 7. The cylinder 1 is made of high magnetic permeability material, such as low carbon steel, the cylinder 1 is installed on the base 3, a compensation air chamber 8 is formed between the floating piston 4 and the base 3, and a compensation air chamber 8 is formed between the floating piston 4 and the guide seat 7. A cavity 9 for accommodating magnetorheological fluid is formed. The piston rod 2 is made of a non-magnetic material, such as...

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Abstract

The invention discloses a condition monitoring based passive magneto rheological vibration damper which comprises a magneto rheological vibration damper, a vibrational energy collector, an energy recovery control module and a condition monitoring system, wherein the vibrational energy collector adopts a permanent magnet linear generator formed by an Halbach array based permanent magnet runner and a coil winding stator group, and is used for converting kinetic energy generated by vibrational source excitation into electrical energy; the energy recovery control module is used for storing the electrical energy converted by the vibrational energy collector; the condition monitoring system is used for adjusting the current input into the excitation coil in real time by the energy recovery control module, so as to change the output damping force intensity and realize passive control for the external vibration. The vibration damper provided by the invention has the advantages of small size, high efficiency, energy conservation, convenience in mounting and maintenance, reliable system and the like.

Description

technical field [0001] The invention relates to a magnetorheological shock absorber, in particular to a passive magnetorheological shock absorber capable of state monitoring. Background technique [0002] Under the action of a magnetic field, magnetorheological fluid can transform from a free-flowing linear viscoelastic liquid to a viscoplastic body with a high shear yield stress within milliseconds. The magneto-rheological shock absorber made by using this characteristic has the characteristics of simple structure, wide dynamic range, fast response speed, low energy consumption and strong bearing capacity, and is a very ideal vibration control device. [0003] The traditional magnetorheological semi-active suspension system consists of magnetorheological shock absorbers, sensors, controllers and related circuits. On the one hand, it needs an external power supply to power the magnetorheological shock absorbers to drive the electromagnetic coils in the shock absorbers. Gene...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): F16F9/53F16F9/43F16F9/36F16F9/32
Inventor 郑玲王戡卢少波李以农
Owner CHONGQING UNIV
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