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Big-tonnage rock engineering power disaster simulation experiment system

A technology for simulating test systems and dynamic disasters. It is applied in the application of repetitive force/pulse force to test the strength of materials, the application of stable tension/pressure to test the strength of materials, and the measurement device. It can solve the strain field range and uniformity of test equipment Can not well meet the problems of engineering practice, to achieve the effect of compact structure, guarantee feasibility, and reduce direct damage

Active Publication Date: 2018-03-30
YANGZHOU JIANGDU YONGJIAN
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

From the model placement method, it can be divided into two types: horizontal type and vertical type; from the model loading method, it can be divided into: it is mainly loaded by jacks, and a few are loaded by hydraulic bladders; from the way of providing reaction force: there are metal frame and foundation pit type; from the model Dimension of force: most of them are two-dimensional; From the point of view of the plane strain condition of the control model: not many are strictly achieved, and most of them adopt the quasi-plane strain condition; From the point of view of the uniformity and uniform range of the strain field generated in the model: general However, as the scale of geotechnical engineering becomes larger and larger, the engineering problems that arise become more complex, and there are more and more contents to be studied. The requirements for the scientific research design level and calculation accuracy of geotechnical engineering construction are getting higher The higher the value, the existing test equipment can no longer meet the needs of engineering practice in terms of functional loading methods, the range and uniformity of the strain field formed in the model, etc.

Method used

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  • Big-tonnage rock engineering power disaster simulation experiment system
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  • Big-tonnage rock engineering power disaster simulation experiment system

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Embodiment Construction

[0025] like figure 1 , 2 As shown, the large-tonnage rock mass engineering dynamic disaster simulation test system includes a fixed base 9 on which the first base 3, the ring frame 1, and the second base 13 are connected. The first base 3 and the second base 13 are respectively Connect the base to drive the oil cylinder 7, and connect to the fixed base 9 through the guide rail 6, the first base 3 and the second base 13 are respectively located on the front and rear sides of the ring frame 1, the first base 3, the ring frame 1, and the second base 13 pass through The pull rod 2 is connected, and one end of the pull rod 2 extends out of the first base 3 and then connects the nut 5. A spherical pad 4 is arranged between the nut 5 and the first base 3. The other end of the pull rod 2 stretches out of the second base 13 and connects with a hydraulic nut 15.

[0026] The mobile trolley 10 is connected to the fixed base 9 through the mobile trolley drive cylinder 11 , and the push c...

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Abstract

The invention provides a big-tonnage rock engineering power disaster simulation experiment system, and relates to equipment for performing experiments on big-tonnage rock. The equipment comprises a fixed base, a first base, an annular framework and a second base, wherein an upper and lower loading cylinder and a left and right loading cylinder are connected in the annular framework; a front and back loading cylinder is connected onto one side surface of the second base; each of the upper and lower loading cylinder, the left and right loading cylinder and the front and back loading cylinder comprises a static loading cylinder tube, a movable loading cylinder tube, a static loading piston rod and a movable loading piston rod; a movable loading cylinder tube installing cavity and a static loading rodless cavity are arranged in the static loading cylinder tube; the movable loading cylinder tube is arranged in a movable cylinder tube installing cavity; the static loading piston rod is arranged in the static loading rodless cavity; one end of the movable loading piston rod is provided with a movable loading piston; the movable loading piston is arranged in the movable loading cylinder tube; the other end of the movable loading piston rod penetrates through a press cover of the movable loading cylinder tube and the static loading piston rod, and is then connected with a replaceable punching head; one end, extending out of the static loading cylinder tube, of the static loading piston rod is provided with a fixing flange and a loading block. The static loading and the movable loading can be realized; the static loading and the movable loading can be also performed at the same time.

Description

technical field [0001] The invention relates to equipment for testing large-tonnage rock masses. Background technique [0002] Geomechanical model test technology is an important means to study large-scale geotechnical engineering problems. It has been widely used at home and abroad, and has played an important role in engineering scientific research design and demonstration. Many units at home and abroad have carried out experimental research on geomechanical models, and have developed supporting model test equipment of various scales. From the model placement method, it can be divided into two types: horizontal type and vertical type; from the model loading method, it can be divided into: it is mainly loaded by jacks, and a few are loaded by hydraulic bladders; from the way of providing reaction force: there are metal frame and foundation pit type; from the model Dimension of force: most of them are two-dimensional; From the point of view of the plane strain condition of ...

Claims

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Application Information

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IPC IPC(8): G01N3/10G01N3/36
CPCG01N3/10G01N3/36G01N2203/0003G01N2203/0005G01N2203/0016G01N2203/0048
Inventor 郭莲张均利马赛平冯建国陈传俊
Owner YANGZHOU JIANGDU YONGJIAN
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