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Large-deformation large-tonnage composite viscoelasticity damper

A damper and viscoelastic technology, applied in the field of anti-vibration devices of civil engineering structures, can solve the problems of adverse acceleration response, large performance impact, warping instability, etc., achieving good overall stability, simple and convenient production , the effect of improving hysteresis

Inactive Publication Date: 2008-01-09
SOUTHEAST UNIV
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Problems solved by technology

Fluid dampers use fluid motion to dissipate vibration energy, but bubbles are easily generated during the filling process, which leads to the necking of the energy consumption curve, and has the disadvantage of easy leakage and high cost; metal dampers and friction dampers are easy to manufacture , low cost, but its energy dissipation performance has hysteresis, which may adversely affect the acceleration response of the structure, and the energy dissipation performance of the metal damper is easily affected by various parameters such as metal characteristics and damper shape; viscoelasticity The damper is cheap in cost and strong in energy dissipation. It is one of the most widely used damping devices in engineering applications. However, its performance is greatly affected by the external environment temperature, and its deformation capacity is limited by the thickness of the viscoelastic layer, which has the disadvantage of small deformation. , generally the maximum deformation is only 60mm (300% strain amplitude), this is because the maximum thickness of the viscoelastic layer is 20mm, when the thickness is too large, the viscoelastic layer is prone to warping and instability Larger, the shear bearing capacity of the viscoelastic layer is reduced, and the tonnage of the damper is reduced. In order to expand the application range and applicable conditions of the viscoelastic damper, the deformation limit of the viscoelastic damper is increased, and the viscoelastic damping is increased. The damping force of the damper can reduce the influence of temperature on the viscoelastic damper. The patent of this invention combines the advantages of various dampers to develop a new composite viscoelastic damper with excellent performance, low price, and large deformation and large tonnage. device

Method used

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  • Large-deformation large-tonnage composite viscoelasticity damper

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Embodiment Construction

[0018] The large-deformation and large-tonnage composite viscoelastic damper of the present invention is composed of a large-deformation viscoelastic damper 1 and a lead extrusion damper 2, in the middle is a large-deformation viscoelastic damper 1, and a plurality of lead extrusions are arranged symmetrically around the The damper 2, the upper part of each damper is connected with the upper steel plate 3 respectively, and the lower part of each damper is connected with the lower steel plate 4 respectively, so that all the dampers are connected into a whole.

[0019] The above-mentioned large deformation viscoelastic damper 1 is composed of an inner restraint steel plate 10, an outer restraint steel plate 12 and a viscoelastic material layer 11; the inner restraint steel plate 10 is located in the middle, and viscoelastic material Layer 11 is provided with outer constraining steel plates 12 on both sides of the viscoelastic material layer 11, the lower part of the outer constra...

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Abstract

An anti-knock device of large distortion and heavy load visco-elasticity damper is composed by a large distortion visco-elasticity damper and lead compacting damper. The large distortion visco-elasticity damper is put in the middle and surrounded by several lead compacting dampers with the top and bottom linked to the armor plate to from an integrated damper.

Description

technical field [0001] The invention is an anti-vibration (seismic) device for civil engineering structures, especially for the situation of large deformation and large tonnage. Background technique [0002] Earthquake force and wind vibration force are the main control loads borne by the building structure, and are also the main factors leading to the damage and collapse of the building structure. Accurately understand the force mechanism and dynamic response of the structure under the action of dynamic load, and implement reliable measures for it. Anti-vibration (earthquake) protection measures are a frontier research topic. Structural energy dissipation and vibration reduction control is a new type of anti-vibration (seismic) method, that is, using energy dissipation and vibration reduction devices to consume external excitation energy, so as to reduce the damage of external excitation to the main structure. At present, energy-dissipating vibration damping devices develo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04B1/98E01D19/04
Inventor 徐赵东涂青卢立恒史春芳程文瀼
Owner SOUTHEAST UNIV
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