Anti-seismic bridge support

A bridge bearing and chute technology, used in bridges, bridge construction, bridge parts, etc., can solve the problems of inconsistent vibration frequency, structural damage of bridges, and inability to protect piers, so as to increase the difficulty, strengthen the protection ability, and make it difficult to side shift effect

Active Publication Date: 2018-06-15
HENGSHUI ZHONGSHENG ENG RUBBER
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] People's travel has gradually developed from walking to transportation, such as cars, trains, airplanes, ships, etc., and a series of roads, railways, etc. When it develops into aerial construction, under such conditions, the role of bridges is becoming more and more important, because in the construction of long-distance roads, it is often necessary to cross rivers, valleys and other places, so it is necessary to connect through bridges. During construction, the bridge bearing is an important component that connects and constrains the upper and lower structures of the bridge. It is an indispensable part for the load-bearing of the bridge. Displacement can easily cause structural da

Method used

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Examples

Experimental program
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Effect test

Embodiment 1

[0035] Embodiment 1, please combine the attached figure 1 , 2 , can clearly see the position of the present invention in the bridge, the present invention includes two cams 1, the cams 1 are respectively rotatably connected in the grooves 3 on both sides of the abutment 2, in the initial state, the distance of the cam 1 rotates The farthest point is placed directly below, and the groove 3 where the cam 1 is installed should not be too large, so as not to affect the overall seismic strength of the abutment 2. The lower part of the front end of the cam 1 is rotatably connected with a drive rod 4, and the drive rod 4 is separately One end is tilted outward and hinged below the main beam 5. The horizontal movement of the main beam 5 can drive the cam 1 to rotate through the driving rod 4. The upper part of the groove 3 is connected with the first chute 32 that penetrates the abutment 2 upwards. A retaining rod 6 is placed above the cam 1, and the retaining rod 6 passes through th...

Embodiment 2

[0038] Embodiment 2, on the basis of Embodiment 1, please combine the attached figure 1 , the top of the cam 1 has two symmetrical protrusions along the radial direction of the cam 1 respectively, so that the cam 1 can push up the blocking rod 6 when it rotates clockwise or counterclockwise. The cam 1 is left-right symmetrical, so that the clockwise and counterclockwise motions of the cam give the movement trend of the stop rod to be consistent.

Embodiment 3

[0039] Example 3, on the basis of Example 1, please combine Figure 5 The telescopic universal joint 18 is that the universal joint 18 includes a second telescopic rod, and the second telescopic rod is slidably connected to the second cylinder 18-4 by the second cylinder 18-4. 4 inside the second movable rod 18-3, the second cylindrical body 18-4 has an axial third chute 18-7 communicating with its inner cavity, and the second movable rod 18-3 is fixed on There is a first sliding block 18-8 axially slidingly fitted in the third chute 18-7, and the free ends of the second movable rod 18-3 and the second cylindrical body 18-4 are respectively fixed with universal joints 18 -2, wherein one universal joint 18-2 is connected on the rotating shaft 18-6, and another universal joint 18-2 is connected on the transmission shaft 18-1. The structure that the third chute 18-7 and the first sliding block 18-8 cooperate with each other is set in the second telescopic rod, so that the second...

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PUM

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Abstract

The invention relates to an anti-seismic bridge support. The support comprises a first-stage anti-seismic shock-absorbing structure and a second-stage anti-seismic shock-absorbing structure, the first-stage anti-seismic shock-absorbing structure drives baffle rods to move upwards through the rotation of cams, and jacking rods cooperate with baffle blocks at the two sides of the lower portion of across beam to limit the horizontal displacement of the cross beam; the second-stage anti-seismic shock-absorbing structure drives first gears to rotate through the vertical displacement of the jackingrods in the baffle rods and then transmits the rotation to first bevel gears through retractable universal couplings, the first bevel gears are connected with second-stage anti-seismic devices to achieve bevel self-locking of pistons and pressing blocks, and therefore second-stage anti-seismic protection is achieved; meanwhile, through a bridge pier is protected through a linkage mechanism underthe cross beam; the anti-seismic bridge support limits the displacement of the bridge cross beam well, the beam falling risk is avoided, and the structural seismic damage and the structural damage degree are reduced; meanwhile, the anti-seismic bridge support achieves two-stage seismic protection, the anti-seismic capability of a bridge is greatly improved, the buffer protection capability of thebridge pier during an earthquake can also be improved, and the anti-seismic effect is remarkable.

Description

technical field [0001] The invention belongs to the technical field of bridge engineering, in particular to an anti-seismic bridge support. Background technique [0002] An earthquake is a phenomenon of propagating vibrations that occurs when a part of the earth's interior moves rapidly. When a major earthquake breaks out, it releases huge seismic energy, causing a lot of damage to the surface and man-made engineering, seriously threatening the safety of people's lives and property. The damage to bridges by earthquakes directly affects the smoothness of lifelines in the process of earthquake relief. Therefore, how to improve the seismic capacity of bridges and reduce the damage to bridges caused by earthquakes is a very important issue. [0003] People's travel has gradually developed from walking to transportation, such as cars, trains, airplanes, ships, etc., and a series of roads, railways, etc. When it develops into aerial construction, under such conditions, the role...

Claims

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Application Information

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IPC IPC(8): E01D19/04
CPCE01D19/041
Inventor 李广慧李亮邓苗毅栗蕾
Owner HENGSHUI ZHONGSHENG ENG RUBBER
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