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Cross section-variable underground continuous wall and construction method thereof

An underground diaphragm wall and construction method technology, applied in excavation, sheet pile wall, foundation structure engineering and other directions, can solve the problems of slow construction progress, difficulty in forming grooves, large height difference, etc., to save engineering costs, save manufacturing materials, Good water cutoff effect

Inactive Publication Date: 2012-04-25
GUANGDONG FOUND ENG GRP CO LTD
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, the geology of some construction sites is layered up and down. For example, the bedrock is carbonaceous limestone. At the same time, the karst caves in the area are strongly developed, and the surface of the slightly weathered rock is directly covered with sand layers. Because the limestone surface usually has a large and irregular height difference , the bottom of the diaphragm wall is difficult to fit into the embedded rock surface, and the groundwater will flow around the bottom of the wall and enter the foundation pit, causing the risk of base water gushing, so the entire wall is used (according to the requirements of the diaphragm wall construction process, usually the length of each wall is 4-6m) If the bottom of the flat wall is completely embedded in limestone, there will be problems such as large amount of rock entering, difficulty in trough formation, and high risk of breaking through the karst cave during the trough formation process, which will inevitably lead to high construction costs, slow construction progress, and difficult to control construction risks

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  • Cross section-variable underground continuous wall and construction method thereof
  • Cross section-variable underground continuous wall and construction method thereof
  • Cross section-variable underground continuous wall and construction method thereof

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Embodiment Construction

[0022] refer to figure 1 , the variable-section underground diaphragm wall is formed by connecting multiple underground diaphragm walls, and the bottom of a single underground diaphragm wall is in the shape of double steps along the width direction of the wall body 1 . That is to say, two steps are arranged at the bottom of the wall along the wall body 1 , and the extension direction of the step surface is in the same direction as the extension direction of the wall. The two steps at the bottom of the wall can be embedded in the rock layer under the sand layer, which has a good water interception effect; however, if a flat-bottomed underground diaphragm wall groove is excavated, a lot of rock needs to be broken, the construction volume is too large, and the labor intensity high.

[0023] refer to figure 2 , a construction method for a variable-section underground diaphragm wall, comprising the following steps:

[0024] a1) Measure the rock depth at the construction locatio...

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Abstract

The invention discloses a cross section-variable underground continuous wall, which is formed by connecting multiple underground continuous walls. The wall bottom of the single underground continuous wall is in a double-step shape along the width direction of a wall body. The invention also discloses a construction method for the cross section-variable underground continuous wall, which comprises the following steps: (a1) measuring the rock depth condition at a construction position to determine the embedded rock depth of the steps at the wall bottom of the single cross section-variable underground continuous wall; (a2) performing construction operation to manufacture an underground continuous wall slot with two steps, wherein the depth of the two steps meets the requirement of the embedded rock depth determined in the step (a1); and (a3) lowering a steel net, and casting underwater concrete to form the cross section-variable underground continuous wall. The wall bottom of the cross section-variable underground continuous wall is provided with two steps, and the two steps are embedded into a rock face, thus, a good water interception effect is achieved. The construction method disclosed by the invention is capable of rapidly, accurately and conveniently processing the cross section-variable underground continuous wall disclosed by the invention. The cross section-variable underground continuous wall disclosed by the invention can be widely applied to the construction operation of the underground continuous wall.

Description

technical field [0001] The invention relates to an underground continuous wall in the field of engineering construction and its construction method. Background technique [0002] With the increase of subway lines, there are more and more foundation pit projects in karst areas. By setting the underground diaphragm wall as a reliable support method, the number of joints on the facade can be reduced, and the joints have joints that have been practiced for a long time to ensure the water-stop effect and high quality assurance. The water interception effect is much better than that of the retaining pile scheme. Then, this can cope with some projects with complex geological conditions. However, the geology of some construction sites is layered up and down. For example, the bedrock is carbonaceous limestone. At the same time, the karst caves in the area are strongly developed, and the surface of the slightly weathered rock is directly covered with sand layers. Because the limesto...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): E02D5/20E02D17/02E02D19/18
Inventor 蒋学文洪三金谢琪
Owner GUANGDONG FOUND ENG GRP CO LTD
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