Tuning inertance system using collision friction damping energy consumption
A technology of friction damping and inertial capacity, which is applied in the field of tuning inertial capacity system, can solve the problems of low energy consumption efficiency of vibration damping device, large additional mass of collision friction damper, large mass of collision friction ball, etc., and achieve quality synergistic effect Significant, easy quality synergistic effect, low mechanical processing requirements
Active Publication Date: 2019-01-04
TONGJI UNIV
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Problems solved by technology
However, this type of vibration damping device often has problems such as high collision noise of the collision friction ball, large mass of the additional collision friction ball, insufficient collision of the collision friction ball, and low energy consumption efficiency of the vibration reduction device.
If the overall deformation of the collision friction ball unit relative to the controlled structure is large, it will take up more building interior space
Under strong external effects such as earthquakes, the large additional mass of the collision friction damper not only cannot effectively reduce the dynamic response of the structure under earthquakes, but also has certain safety hazards
Method used
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[0029] Such as figure 1 As shown, a tuned inertial system using collision frictional damping energy consumption includes a tuning spring unit 3 , an installation unit, an inertial unit and a collisional frictional damping unit.
[0030] The installation unit includes an installation base 15 and a counter force plate 13 , the counter force plate 13 is vertically arranged on the installation base 15 , and the installation base 15 is also provided with a slide rail groove 10 perpendicular to the counter force plate 13 .
[0031] The collision friction damping unit includes several damping collision friction balls 2 , a buffer material 14 and a collision friction damping container 1 . The collision friction damping container 1 is any closed box which is convenient for installation, and several circular damping collision friction balls 2 are arranged inside it. As a preferred embodiment, the outer shell of the damping collision friction ball 2 is made of metal, which contains a ci...
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The invention relates to a tuning inertance system using collision friction damping energy consumption in the civil engineering and energy infrastructure field. The system comprises a tuning spring unit, an inertance unit, a collision friction damping unit and an installation unit. The inertance unit is taken as an energy absorption and energy consumption synergy mechanism, one end is connected tothe side portion of the installation unit and the other end is connected to the collision friction damping unit. The inertance unit and the collision friction damping unit are slidably arranged on the bottom of the installation unit through the respective bottom. Simultaneously, the two ends of the tuning spring unit are connected to the side portion of the installation unit and the collision friction damping unit. In the invention, multiple vibration absorption and energy dissipation mechanisms are established, the quality synergy effect of the inertance system is fully used and additional physical mass required for the collision friction damping unit is effectively reduced, and simultaneously, the deformation of the entire collision friction damping unit can be effectively controlled and the efficiency of the internal damping energy consumption of collision friction damping is further improved.
Description
technical field [0001] The invention belongs to the technical field of energy consumption and vibration reduction of civil engineering structures, and in particular relates to a tuning inertial system using collision friction damping energy consumption. Background technique [0002] Energy dissipation and vibration reduction technology, by adding energy dissipation and vibration reduction devices to the structure, and the structure itself bears the effects of earthquakes and wind vibrations, the energy dissipation of the additional vibration reduction devices reduces the dynamic response of the structure itself, ensuring the safety of the structure Functional requirements such as performance, comfort and normal usability. [0003] As a non-linear energy dissipation and vibration reduction device in the art, the collision friction damper absorbs and dissipates the vibration energy of the controlled structure through the nonlinear behavior of the collision friction damping uni...
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IPC IPC(8): E04H9/02E04B1/98
CPCE04H9/021
Inventor 陈清军赵志鹏张瑞甫刘浩洋
Owner TONGJI UNIV
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