KR100188465B1 - Apparatus for stiffening the side of foundation pits and sheathing board - Google Patents

Abstract

The present invention relates to an earthquake method that supports the earth wall excavated at a civil engineering site to prevent collapse, and in particular, combines both H-beams by bolting to a flange that is in contact with a strip material supporting a sheet pile. The present invention relates to a pre-stressed soil blocking method in which a prestressing cable is inserted and tensioned so that the prestress moment generated in the H-shaped steel is resisted to earth pressure to support the earth pressure.

Excavation H-pile or sheet pile (Sheet Pile) is inserted and excavated like the existing strut method for excavation, but the banding material is installed on the front side of the file and the edge of the banding material is supported by the brace. ,

The plywood material is attached to the surface of the strip material at regular intervals again, but the strip material and the strip material are bolted by drilling a bolt hole in the flange portion.

Description

Prestressed earthen clogging method and its cladding

The present invention relates to an earthquake method that supports the earth wall excavated at a civil engineering site to prevent collapse, and in particular, combines both H-beams by bolting to a flange that is in contact with a strip material supporting a sheet pile. The present invention relates to a pre-stressed soil membrane construction method in which a prestressing cable is inserted into and tensioned so that the prestress moment generated in the H-beam is resisted to earth pressure to support the earth pressure.

Existing earthquake construction is divided into a permanent earthquake of concrete that is integrally formed on the earth wall or rock wall, and a temporary earthquake construction that is installed to prevent the earth wall or rock wall from collapsing only during excavation work, and then dismantled after completion of construction.

In general, during temporary construction, H-shaped struts are erected at random intervals, and earth plate or lamination is inserted between them to support the earth wall or rock wall, and at the same time, a plurality of struts between the walls and the walls to fix the H-shaped struts to the wall ( Strut) or earth anchor is fixed in the ground, and it is fixed to the H-beams by a bracket to construct the earth pressure.

The existing retaining method described above requires the installation of H-beam struts in the lateral direction, so it is economical and hassle to use separate heavy equipment, and the shoring supports more than necessary materials such as earth anchors. In addition, the use of the strut is a problem that causes a lot of restrictions on the movement of the drilling rig due to the interference of the central pile, causing air and economic losses.

This step is to remove the pre-stressing moment generated by applying a predetermined prestressing to both ends by installing a lap band with a cable in place of the existing strut in order to remove the above faults in the earthen construction. The purpose is to provide a method to resist earth pressure.

1 is a perspective view of the present invention lap strip.

2 is a cross-sectional view of the construction state of the present invention.

3 is an explanatory view of the prestressing operation of the construction state of the present invention.

Figure 4 is an explanatory view of the tensile force by the load cell during the construction of the present invention.

5 is an overall explanatory diagram of the construction state of the present invention.

* Explanation of symbols for main parts of the drawings

1: file 2: strip material

3: prop brace 4: layered cladding

5: flange portion 6: bolt

7,7 ': Bracket 8,8': Fixture

8: cable hole 10: cable

11: sleeve 12: nut

13 load cell 14 measuring instrument

15,15 ': Bolt hole

Hereinafter, embodiments of the present invention will be described in detail by the accompanying drawings.

First, insert the excavation H-pile or sheet pile (Sheet Pile) and excavate as in the conventional strut method for excavation, and install the banding material (2) in the horizontal direction on the front of the file (1), The corners of (2) are supported by braces (3).

The pleated stripe material 4 is attached to the surface of the stripe material 2 at regular intervals, but the stripe material 2 and the stripe material 4 have bolt holes 15 and 15 'in the flange portion 5. Drill and bolt together.

Here, the bolt 6 is repeatedly installed at regular intervals up to a quarter point at the end of the pleated sheet material 4 by using a high tension bolt F9TN-22.

Brackets (7) (7 ') are installed on both ends of the plywood mounting material (4) installed in this way, and fixedly attached with brackets (8) (8'), but the cable holes (9) are drilled in the brackets (7) (7 '). The cable 10 is inserted into the cable 10, and both ends of the cable 10 are tensioned and tensioned by a hydraulic jack, and then the nut 12 is coupled to the sleeve 11 compressed at both ends. To maintain the tensile force.

In this case, the cable 10 is made of a material specified by PC steel wire and should not be heated because it is high carbon steel.

In addition, a thread is formed on the outer circumferential surface of the sleeve 11 that is pressed at both ends so that the tension force of the cable 10 is maintained by fastening the nut 12.

In addition, the load cell 13 is inserted between the bracket 7 and the nut 12 so that the tensile force of the cable 10 is measured by a separate measuring device 14 connected thereto.

As shown in FIG. 3, the tension of the cable 10 is exerted on the brackets 7 and 7 'at both ends by providing the layered material 4 on which the cable 10 is mounted on the surface of the band member as described above. The prestressing moment generated by the prestressing on both ends acts in the direction of the thin arrow, and resists the pressure that pushes out like the direction of the thick arrow, so that no additional strut is needed or the number of struts is significantly reduced. It can endure it.

The prestressing according to the present invention withstands the earth pressure as shown in the following figure, and it is numerically proved that the equilibrium load is applied to the lateral symmetric triangular continuous beams with different cross-sectional secondary moments and the point reaction force and moment are calculated.

In addition, the tensile force applied to the cable 10 can be measured by a separate measuring device 14 by the combination of load cells, so that the cable 10 can be tensioned only by an appropriate amount. You can quickly check for relaxation or loosening.

As described above, the present invention provides a retaining method that resists earth pressure while eliminating the installation of the struts and earth anchors, while reducing the construction cost, thereby introducing the prestress in the lap strip, thereby removing the struts or removing the struts. By widening the intervals, high-efficiency mechanized construction of the excavation work is possible, and the efficiency of reinforcement work and concrete placing work in the construction of the structure can be improved, high quality of the structure can be expected, and the ground can be relaxed by excavation by prestress. It suppresses and prevents settlement of the ground around the excavation, and it is possible to cope with it by immediately detecting the occurrence of abnormal earth pressure by the constant measurement of the tensile force by load cells installed in the cable.

Claims (3)

Insert the excavation pile in the longitudinal direction, install the strip material (2) in the transverse direction on the front of the file (1), and support the connecting edge by the braces (3), and again of the strip material (2) It is attached to the surface by means of bolt joints with the pleated strip (4), and brackets (7) and (7 ') are installed at both ends thereof and fixedly attached with brackets (8) and (8'). The cable 10 is inserted into the hole 9 of the cable, and the nut 12 is coupled to the crimped sleeve 11 to maintain the tensile force on the cable 10 so that the prestress moment is generated in the pleated sheet material 4 to generate the earth pressure. Prestressing method using the sump to resist the. 2. The measuring device (14) according to claim 1, wherein the load cell (13) is inserted into the cable (10) drawn out of the bracket (7) to be compressed between the bracket (7) and the nut (12) by a measuring device (14) connected thereto. Pre-stressed soil clogging method characterized in that the tensile force of the cable 10 can be measured at any time. Bolt holes 15 and 15 'are formed in the flange portion 5 of the H-shaped steel, and brackets 7 and 7' are installed at both ends of the H-shaped steel, and the brackets 7 and 7 'are fixed to the brackets 8 and 8'. Perforating the cable hole (9 ') in the 7', and the earth (10) by the prestressing method, characterized in that the cable 10 is fitted to the nut (12) by fastening the nut 12 to the sleeve 11 crimped at both ends thereof. Dragon belt material.