Vertical rigidity changeable shock insulation support saddle

A seismic isolation bearing and variable stiffness technology, which is applied in seismic, building components, building structures, etc., can solve the problems of difficult application and promotion, small vertical stiffness, poor seismic isolation effect, etc. Effects of Deformation Ability and Energy Dissipation Ability

Inactive Publication Date: 2008-10-01
BEIJING UNIV OF TECH
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  • Abstract
  • Description
  • Claims
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AI Technical Summary

Problems solved by technology

[0004] However, the current seismic isolation technology is mainly horizontal seismic isolation, which has no control effect on vertical seismic motion, which is extremely unfavorable to structural safety; in addition, the development of vertical seismic isolation technology for structures is slow, because the seismic isolation device must first undertake the upper It is difficult to reconcile the contradiction between the huge self-weight load of the structure and the requirement of small vertical stiffness, while ensuring the stability of the upper structure under the action of general loads (such as environmental vibration and wind load). The resea

Method used

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  • Vertical rigidity changeable shock insulation support saddle
  • Vertical rigidity changeable shock insulation support saddle
  • Vertical rigidity changeable shock insulation support saddle

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Effect test

Embodiment 1

[0035] Such as figure 2 As shown, this support includes a variable stiffness guide device, a lead core 7, a plurality of steel cylinders 5 and rubber 6 (the rubber 6 here is a rubber ring with a certain thickness), and the steel cylinder 5 and rubber 6 are the upper port area. Conical shape larger than the area of ​​the lower port. The structure of the variable stiffness guiding device is as follows: Figure 4 As shown, it includes three parts: the shaft 1, the top plate 2 and the variable stiffness curved panel 3, and the curvature of the variable stiffness curved panel 3 is zero. One end of the shaft 1 with a larger diameter is fixedly connected to the top plate 2 , one end of the tapered variable stiffness curved plate 3 is fixedly connected to the top plate 2 , and the other end is fixedly connected to the side of the shaft 1 . The outside of shaft 1 is covered with a circle of rubber 6 with a certain thickness, and the outside of rubber 6 is covered with a steel cylind...

Embodiment 2

[0043] Figure 6 It is another embodiment of the present invention, the structure of this embodiment is basically the same as that of Embodiment 1, the only difference is that the curvature of the variable stiffness curved plate 3 in the variable stiffness guiding device is not zero, but along the direction of axis 1. increasing in the outward direction. This design can make the stiffness of the support increase non-linearly with the increase of the vertical deformation when the isolation structure is subjected to a rare earthquake, that is, the greater the deformation, the faster the vertical stiffness of the support increases, so it can further ensure The support will not produce excessive deformation and shear failure.

[0044] The curvature of the variable stiffness curved panel 3 in the variable stiffness guiding device can be designed according to specific conditions.

[0045] Figure 7 It is a three-dimensional seismic isolation support formed in series with the vert...

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Abstract

The invention relates to a vertical variable-rigidity seismic isolation bearing, belonging to the field of structure ventilating control. The bearing comprises steel tubes, rubber, a lead core, a variable-rigidity guiding device. The variable-rigidity guiding device includes a shaft, a top plate and tapered variable-rigidity curve plate, wherein the upper end of the shaft is fixedly connected with the top plate, one end of the tapered variable-rigidity curve plate is fixedly connected with the top plate, the other end is fixedly connected with the side surface of the shaft, multiple layers of rubber and multiple steel tubes are alternatively arranged on the shaft below the variable-rigidity curve plate, the lead core arranged horizontally intersects with the shaft through the multiple layers of rubber and the multiple steel tubes, the lower end surfaces of the rubber and the steel plates form a tapered space having a small upper end and large lower end. The bearing has large initial rigidity and small yield rigidity in the vertical direction, and has enough vertical deformability and reset ability, after the lead yields, the vertical seismic isolation rigidity can be adjusted according to the vertical deformation, thus vertical earthquake can be effectively insulated, and the bearing the stable when no earthquake occurs.

Description

technical field [0001] The invention relates to a vertically variable stiffness shock-isolation bearing, which belongs to the field of structural vibration control. Background technique [0002] It is generally believed that horizontal earthquakes play a controlling role in structural damage, but a large number of earthquake damage shows that the impact of vertical earthquakes on structures cannot be ignored, especially high-rise structures, long-span structures and uneven vertical distribution of mass and stiffness The vertical stiffness of these structures is generally small, and the vertical natural period is similar to the excellent period of vertical ground motion. Therefore, it is very easy to cause resonance and damage during an earthquake. How to control vertical ground motion has become a research hotspot for scholars from all over the world. [0003] Base isolation technology is to reduce the basic frequency of structural vibration and prolong its vibration period ...

Claims

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Application Information

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IPC IPC(8): E04H9/02E04B1/98E04B1/36
Inventor 常乐闫维明周福霖任珉
Owner BEIJING UNIV OF TECH
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