Piezoelectric and electromagnetic compound energy harvesting type semi-active turned mass particle damper

A particle damper, particle damping technology, applied in piezoelectric effect/electrostrictive or magnetostrictive motors, generators/motors, electromechanical devices, etc., can solve the problem of poor adjustability of TMD damping, limited structural control ability, The problem of unsatisfactory vibration reduction effect, etc., achieves the effect of wide frequency range, strong adjustability of quality and frequency, and enhanced vibration reduction ability.

Active Publication Date: 2017-05-10
ZHEJIANG JIANKE DAMPING SCI & TECH CO LTD
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  • Abstract
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  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

But the traditional TMD has its shortcomings: 1) It can only control the response of a certain vibration mode of the structure (usually the first vibration mode), and the control effect is very sensitive to the frequency of the controlled vibration mode; 2) It has limited application in TMD system engineering Within the mass range, the ability to control the structure is limited, and the energy dissipation capacity is insufficient; 3) The TMD system needs to be tuned to a frequency that resonates with the con...

Method used

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  • Piezoelectric and electromagnetic compound energy harvesting type semi-active turned mass particle damper
  • Piezoelectric and electromagnetic compound energy harvesting type semi-active turned mass particle damper
  • Piezoelectric and electromagnetic compound energy harvesting type semi-active turned mass particle damper

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Embodiment 1

[0033] Such as Figure 1-4 As shown, a piezoelectric and electromagnetic composite energy-harvesting semi-active frequency modulation mass particle damper includes an inductance coil 1, a permanent magnet 2, a particle damping container 3, a multi-stage electromagnetic particle damper 4, piezoelectric ceramics 5, and an insulating pad 6. Spring 7, viscous damper 8, battery 9, current controller 10 and separator 11;

[0034] The permanent magnet 2 is fixed on one side of the particle damping container 3, the permanent magnet 2 and the particle damping container 3 are separated by an insulating pad 6, the particle damping container 3 is wound with an inductance coil 1, and the inside of the container is filled with multi-stage electromagnetic particle damping 4, multi-stage Equipped with electromagnetic particle damping 4 and separated by partitions 11 in layers;

[0035] The piezoelectric ceramics 5 bent on both sides are fixed on the wall, the inductance coil 1 is fixed on th...

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Abstract

The invention relates to a piezoelectric and electromagnetic compound energy harvesting type semi-active turned mass particle damper. The piezoelectric and electromagnetic compound energy harvesting type semi-active turned mass particle damper comprises inductive coils, a permanent magnet, a particle damping container, multi-level electromagnetic particle damping parts, piezoelectric ceramic, an insulating pad, a spring, a viscous damper, a storage battery, a current controller and partition boards (11). The permanent magnet is fixed to one side of the particle damping container, the permanent magnet and the particle damping container are isolated through the insulating pad, the inductive coils are wound around the particle damping container, the container is filled with the multi-level electromagnetic particle damping parts, and the multi-level electromagnetic particle damping parts are separated layer by layer through the partition boards. By means of the piezoelectric and electromagnetic compound energy harvesting type semi-active turned mass particle damper, vibration energy of a building structure can be collected, utilized and consumed through the energy harvesting mode and the tuning and vibration reduction mode, and the purpose of reducing vibration amplitudes of relevant members and structures is achieved.

Description

technical field [0001] The invention belongs to the field of new energy and structural vibration reduction, and specifically relates to a piezoelectric and electromagnetic composite energy-harvesting semi-active frequency-modulating mass particle damper. Background technique [0002] At present, with the continuous increase of the height of building structures in our country, the vibration deformation of building structures under the action of wind and earthquake is also gradually increasing. It is more and more important to select dampers with sufficient damping effect to slow down the vibration of building structures. Dampers at this stage generally include spring dampers, hydraulic dampers, pulse dampers, viscous dampers, wind dampers and traditional TMD dampers, etc. [0003] The traditional TMD adjusts its vibration frequency to be close to the frequency of the main structure to change the resonance characteristics of the structure to achieve shock absorption. But the ...

Claims

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Application Information

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IPC IPC(8): E04H9/02E04H9/14E04B1/98H02N2/18H02K35/02
CPCE04H9/02E04H9/027E04H9/14H02K35/02H02N2/186
Inventor 赵森林郑洁莹
Owner ZHEJIANG JIANKE DAMPING SCI & TECH CO LTD
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