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Self-adaptive support structure of collapse preventing and treating engineering and method thereof

A support structure and prevention engineering technology, applied in the direction of building types, buildings, protected buildings/shelters, etc., can solve problems such as sloppy construction of support columns, insufficient depth of support column foundation, poor stability of upper rock mass, etc. To achieve the effect of shortening the project rescue time, shortening the construction time and reducing the disturbance

Pending Publication Date: 2018-06-19
INST OF EXPLORATION TECH OF CHINESE ACAD OF GEOLOGICAL SCI
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Due to the large structure and large area of ​​conventional support columns, in order to preserve the traffic passage, the designers often design the position of the support columns too close to the rock wall, without a support outside the center of gravity of the rock, and there is a possibility of further toppling or falling
[0005] 2) Due to the poor stability of the upper rock mass, the perturbation of the dangerous rock mass is too large when the conventional support column is leveling the foundation, which is extremely harmful to the construction personnel in the concave cavity
As a result, the construction of conventional support columns was sloppy, and the support columns did not cling to the upper dangerous rock mass. Instead, cement mortar was used to touch the surface afterwards, and the interior was empty.
[0006] 3) The foundation of conventional support columns is not deep enough, and the foundation is prone to instability due to factors such as vegetation root development and dynamics

Method used

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  • Self-adaptive support structure of collapse preventing and treating engineering and method thereof
  • Self-adaptive support structure of collapse preventing and treating engineering and method thereof
  • Self-adaptive support structure of collapse preventing and treating engineering and method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0038] Such as figure 1 As shown, an adaptive support structure for collapse prevention engineering includes a first steel backing plate 3, a support column 4, a second steel backing plate 6 and an adaptive top brace 7, wherein the first steel backing plate 3 is placed on a dangerous rock mass 1, the bottom of the concave cavity, the first steel backing plate 3 is fixed on the bottom of the dangerous rock mass 1 concave cavity through the technology of steel bar 2 planting, the supporting column 4 is located on the first steel backing plate 3, the bottom of the supporting column 4 and the first steel pad The plate 3 is fixed by welding, the second steel backing plate 6 is fixed on the top of the supporting column 4, the second steel backing plate 6 and the supporting column 4 are fixed by welding, and the adaptive top brace 7 is fixed on the second steel backing plate by bolts 6, the top of the self-adaptive top brace 7 contacts the top of the concave cavity of the dangerous r...

Embodiment 2

[0042] Such as figure 2 As shown, an adaptive support structure for collapse prevention engineering includes a first steel backing plate 3, a support column 4, a second steel backing plate 6 and an adaptive top brace 7, wherein the first steel backing plate 3 is placed on a dangerous rock mass 1 The bottom of the concave cavity, the first steel backing plate 3 is fixed on the bottom of the dangerous rock mass 1 cavity through the technology of steel bar 2 planting bars, the supporting column 4 is located on the first steel backing plate 3, and the supporting column 4 is a multi-section spiral steel pipe 41 Assembled and formed, the spiral steel pipes 41 are fixed by self-locking screw connections, the bottom of the support column 4 and the first steel backing plate 3 are fixed by welding, and the top of the support column 4 is fixed with a second steel backing plate 6, the second steel backing The plate 6 and the support column 4 are fixed by welding, and the self-adaptive to...

Embodiment 3

[0045] Such as image 3 Shown, utilize self-adaptive supporting structure of the present invention to prevent and treat the method for dangerous rock mass 1 collapse, specifically comprise the following steps:

[0046] 1) Prefabricated spiral steel pipe 41

[0047] For the convenience of transportation and secondary handling, the length of the spiral steel pipe 41 is 1.5m. At the steel pipe height 1.2m, weld four 15cm long short steel bars 5 for the jack to act on the spiral steel pipe 41 lifting operation, and pour the thickness of the protective layer after mold making. A slurry hole is reserved on the wall of the spiral steel pipe 41 .

[0048] A second steel backing plate 6 is welded on the top of one of the spiral steel pipes 41, and the second steel backing plate 6 has a concrete mortar overflow hole. All the other spiral steel pipes 41 do not have a steel backing plate.

[0049] 2) Prefabricated adaptive top support 7

[0050] Self-adaptive top support 7 base 71 ad...

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Abstract

The invention discloses a self-adaptive support structure of collapse preventing and treating engineering and a method thereof. The structure comprises a first steel backing plate, a support column, asecond steel backing plate and a self-adaptive top bracing, wherein the first steel backing plate is arranged at the bottom of a dangerous rock body concave cavity; the support column is located on the first steel backing plate; the second steel backing plate is fixed at the top of the support column; the self-adaptive top bracing is fixed on the second steel backing plate; the top of the self-adaptive top bracing is in contact with the top of the dangerous rock body concave cavity. The invention discloses a reasonable and effective method for collapse preventing and treating engineering. Theself-adaptive support structure of collapse preventing and treating engineering is simple and convenient to construct, short in construction period, low in disturbance on the dangerous rock body andflexible and changeable in construction range, and can achieve the permanent treatment effect; the safety of lives and properties of people in the range affected by the disaster can be ensured.

Description

technical field [0001] The invention belongs to the technical field of geological disaster and collapse prevention engineering, and relates to an adaptive support structure and method for collapse prevention and control engineering. Background technique [0002] Dangerous rock collapse is a common geological disaster in the mountainous areas of western my country, which has the characteristics of wide distribution, large scale, strong suddenness and unpredictability. In particular, Cretaceous sandstone and Jurassic strata are widely developed in eastern Sichuan. Due to the different weathering of sand and mudstone, the concave cavity of dangerous rock mass is formed. According to the latest statistics on geological disasters from the Ministry of Land and Resources, there are more than 100,000 dangerous rock disaster sites in eastern Sichuan, threatening 90,000 households and more than 800,000 people, and threatening property as high as 20 billion yuan. There are more than ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E04H9/14
CPCE04H9/14
Inventor 梁炯张勇石胜伟蔡强谢忠胜周云涛程英建李壮壮
Owner INST OF EXPLORATION TECH OF CHINESE ACAD OF GEOLOGICAL SCI
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