KR100891949B1 - Temporary retaining wall structure for water supply and drainage works in low depth - Google Patents

Abstract

A low-depth temporary retaining wall structure for water supply and drainage construction is provided to improve the recycling rate of material and to prevent the soil collapse of the lower region of an excavation when inserting an embedment pipe. A low-depth temporary retaining wall structure for water supply and drainage construction comprises a plurality of guide pipes(100) arranged close to the sides of an excavation at regular intervals, a plurality of embedment pipes(200) which is inserted into a through hole(101) of the guide pipe in order to rotate and is near inserted into the bottom soil, an upper soil retaining plate(110) fastened to the rear side of the guide pipes, and a lower soil retaining plate which is slid down along a guide groove(103) and installed between the embedment pipes.

Description

TEMPORARY RETAINING WALL STRUCTURE FOR WATER SUPPLY AND DRAINAGE WORKS IN LOW DEPTH}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of civil engineering, and more particularly, to a simple earth block structure (aka SK panel) used for construction for forming a pipeline such as a water pipe for water and sewage.

1 to 3 show the structure and construction method of a conventional simple earthenware construction using a pipeline.

As shown, the simple earth block structure is installed to prevent the side collapse of the pit for the duct 2 for the pipework formed by the excavation work of the ground (1), basically a plurality of thumb piles (20) by H-pile, etc. ) And a space retaining member 40 for maintaining the gap between the thumb pile 20 with the earth block member (aka earth plate) 30 mounted between the thumb pile 20 and the pit soil portion 2 therebetween. ), And structures such as a water pipe (10) are installed on the bottom of the pit soil (2) reinforced by this.

Digging work in pipeline construction is characterized by lower depth of pit excavation and longer length of pit excavation than general structure, so prefabricated earth block structure such as SK panel has structure that is easy to assemble and dismantle. It is desirable to.

Referring to Figure 2 and 3 will be described in more detail the construction method of the conventional simple earthen structure as follows.

Forming the pit pit 2 by the first pit pit operation on the ground (1) where the pipeline is to be formed, and places the thumb pile 20 and the retaining member 30 on the bottom of the pit pit (2). 2b, 2c)

While performing the secondary excavation, the thumb pile 20 and the retaining member 30 are gradually typed, and when the lower retaining member reaches a predetermined depth, the upper retaining member is inserted thereon. (FIGS. 2D, 2E, 2f)

In general, the depth of the first gulto work (L1) is about 2m, the total depth (L2) of the second gulto work is about 4m, the reason for proceeding the gulto work in two steps, the low depth pit Due to the nature of the pipeline construction that the engine should be advanced at a high speed, the first work is performed up to the limit depth (about 2m) to allow the pit work to work without the masonry structure, and then the construction of the masonry structure and the second pit work are performed simultaneously. Because it is efficient.

When the simple earthquake structure is completed, the pipe 10 is embedded in the inner space, and after the backfilling work to dismantle the thumb pile 20 and the earth retaining member 30, it is re-installed in the pit of the forward position. Figure 2g, 2h, 2i, 2j)

By the way, the conventional duct construction simple structure having such a configuration has been pointed out as a problem in the following points.

As shown in Figure 3, once the pitto work up to the first depth (L1), and proceed to the pit pit and earth block structure type work up to the second depth (L2), the thumb pile 20 is the pit pit ( It can not be avoided to some extent towards the inside of 2), which causes the following problems.

First, the retaining member 30 is installed while being guided by both side grooves of the H-pile that is the thumb pile 20. Since the thumb pile 20, which is a reference of the installation, is bent, the installation work of the retaining member 30 is performed. There is no choice but to suffer from this difficulty.

Second, despite the situation that the earthen structure is forced to be bent as a whole, because the construction by force is made, many deformations of the thumb pile 20 and the earthing member 30 can not be avoided, which can be recycled after dismantling the material It is a factor that makes it difficult.

Third, because the installation process of the pipeline proceeds in the state that the earth block structure is not properly constructed, the risk of safety accident is high.

The present invention has been made in order to solve the above problems, it is an object of the present invention to provide a low-depth simple earthquake structure of an efficient structure to facilitate the construction and increase the recycling rate of the material.

In order to achieve the object as described above, the present invention, a simple earth block installed on both inner surfaces of both sides of the excavation portion 2 to prevent side collapse of the excavation portion 2 formed by the excavation operation of the ground (1) In the structure, a plurality of guide pipes 100 are formed in the core portion in the up and down direction guide pipe penetration hole 101, which is installed at predetermined intervals adjacent to the side surface of the pit member (2); A plurality of inlet pipes 200 rotatably inserted into the inlet pipe guide through-holes 101 and installed to enter the lower soil body; An upper earth plate 110 coupled to the rear surface of the plurality of guide pipes 100; A lower earth plate 210 installed between the plurality of inlet pipes 200 by sliding downward along a guide groove 103 formed between the guide pipe 100 and the upper earth plate 110. We present simple earth block structure suitable for water and sewage construction.

The upper earth plate 110 includes a plurality of guide plates 111 respectively coupled to the rear surfaces of the plurality of guide pipes 100; And a fixing plate 112 detachably coupled between the plurality of guide plates 111, wherein the guide groove 103 is formed by an area between the guide pipe 100 and the guide plate 111. desirable.

On both sides of the fixing plate 112, it is preferable that the "c" shaped coupler 113 is mounted to couple to the guide plate 111.

It is preferable that the guide parts 211 having a substantially triangular cross-sectional structure are formed on both side surfaces of the lower earth plate 210 to correspond to the shape of the guide groove 103.

A plurality of lower earth plate 210 is guided and installed in sequence, it is preferable that the plurality of lower earth plate 210 are mutually coupled.

It is preferable that a blade-shaped ground inserting portion 212 is formed on a bottom surface of the earth plate installed at the lowermost side of the plurality of lower earth plate 210.

It is preferable that a perforation device coupling part 201 is formed at the top of the inlet pipe 200 to couple with the perforation device.

It is preferable that the gap maintaining member 102 is installed between the guide pipe 100 and the guide pipe 100 installed on the opposite side.

The present invention provides a low-depth simple earthquake structure suitable for water and sewage construction of an efficient structure that is easy and safe to construct, and can increase the recycling rate of materials.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figure 4 below, the present invention is basically a water and sewage installed on both inner surfaces of the pit soil 2 to prevent side collapse of the pit soil 2 formed by the excavation operation of the ground (1) It relates to a simple earthquake structure suitable for construction.

Here, a plurality of guide pipes 100 are formed in the core portion in the up and down direction guide pipe penetration hole 101, and are provided at predetermined intervals adjacent to the side surface of the pit part 2; A plurality of inlet pipes 200 rotatably inserted into the inlet pipe guide through-holes 101 and installed to enter the lower soil body; An upper earth plate 110 coupled to the rear surface of the plurality of guide pipes 100; And a lower earth plate 210 installed between the plurality of indentation pipes 200 by slide-driven downward along the guide groove 103 formed between the guide pipe 100 and the upper earth plate 110. It features.

That is, by taking the composite structure of the guide pipe 100 in which the through hole 101 was formed as the thumb pile, and the inlet pipe 200 inserted into the through hole 101 and driven downward, The lower end is pushed into the lower earth body by rotary, rudder, bit type, etc. As shown in FIGS. 6, 11 and 13, the thumb pile can be firmly fixed, so that the construction is easy and safe. You can get it.

In addition, the indentation pipe 200 is guided by the guide pipe 100 while being entered into the ground, it is possible to suppress the warpage of the pipe during the ingress is added to the advantage that can increase the recycling rate of the material.

A guide groove 103 is naturally formed between the guide pipe 100 and the upper earth plate 110 (FIGS. 9 and 14), and the lower earth plate 210 is driven downward through the groove 103, so that the pit work and Simultaneous with the indentation work of the indentation pipe 200, the fall of the side soil sediment of the lower part of the pit part 2 can be prevented efficiently.

When the guide portion 211 having a substantially triangular cross-sectional structure is formed on both sides of the lower earth plate 210 so as to correspond to the shape of the guide groove 103, the lower earth plate 210 facilitates downward driving and provides a rigid support structure. More preferred in that it can be achieved (Figs. 9 and 14).

When the depth of the pit soil 2 is deep, the lower earth plate 210 is provided with a plurality of guides sequentially installed, the plurality of lower earth plate 210 takes a structure that is mutually coupled by a separate coupler 213. It is preferable.

The bottom surface of the earth plate installed on the lowermost side of the plurality of lower earth plate 210 is formed by the blade-shaped ground inserting portion 212, it is preferable in terms of structural stability that the predetermined portion is inserted into the ground (Fig. 5, 11 ).

The upper earth plate 110 may be any structure provided on the rear surface of the guide pipe 100 to form the upper guide groove 103, but the plurality of guide plates 111 coupled to the rear surfaces of the plurality of guide pipes 100, respectively. ); It is more preferable to take an assembly structure including a fixing plate 112 detachably coupled between the plurality of guide plates 111 in terms of ease of transportation and construction of materials.

In this case, the guide groove 103 is formed by the area between the guide pipe 100 and the guide plate 111 (FIG. 9).

Both sides of the fixing plate 112 is equipped with a "c" shaped coupling sphere 113 to be coupled to the guide plate 111, and taking a structure that is mutually coupled by a bolt-nut fastening structure, etc. side of the ease of construction and stability of the structure Preferred in (Fig. 7,8).

The indentation pipe 200 has a lower end thereof in the lower earth body by a punching device such as a rotary type, a rudder type, a bit type, and the like. In order to further facilitate the operation, as shown in FIG. It is preferable that the drilling device coupling portion 201 is formed at the top of the coupling device for coupling with the above various drilling devices.

FIG. 10 illustrates an embodiment in which the inlet pipe 200 is coupled to a rotary drilling machine. In the case of the bit type, the bit and rod are exposed to the lower opening through the inner space of the inlet pipe 200 to crush the lower ground. The way is taken.

For structural stability of the retaining structure, it is more preferable that the gap maintaining member 102 is installed between the guide pipe 100 and the guide pipe 100 installed on the opposite side (FIGS. 6 and 7).

Even in this case, since the lower end of the indentation pipe 200 is supported by the ground, it is not necessary to provide separate spacing members between the inlet pipes 200.

Therefore, there is an advantage that a sufficient working space can be secured without interfering with the space keeping member for at least the area between the inlet pipes 200.

Such a structure according to the present invention has the advantage that it can be particularly effective in the case of low-depth water and sewage pipeline construction.

Since the above has just been described with respect to some of the preferred embodiments that can be implemented by the present invention, as is well known the scope of the present invention should not be construed as limited to the above embodiments, the present invention described above All of the technical ideas together with the technical idea of the base will be included in the scope of the present invention.

1 to 3 shows a simple earthquake structure suitable for water supply and sewage construction of a conventional pipeline construction,

1 is a perspective view.

Figure 2a to 2j is a cross-sectional view showing the construction process.

3 is a cross-sectional view.

Figure 4 below shows an embodiment of a simple earthquake structure suitable for water and sewage construction according to the present invention,

4 is a perspective view of a first use state.

5 is a perspective view of a second use state.

6 is a cross-sectional view.

7 is a plan view.

8 is an exploded perspective view of the upper earth plate;

9 is a plan view of the guide pipe and the upper earth plate;

10 is a perspective view of a root pipe.

11 is a perspective view of a third use state.

12 is a perspective view of a fourth use state.

Fig. 13 is a perspective view of a fifth use state.

14 is a partial perspective view of a main part;

15 is a perspective view of a sixth use state;

** Description of the symbols for the main parts of the drawings **

1: Ground 2: Gulto part

100: guide pipe 101: through hole for indentation pipe guide

102: spacing member 103: guide groove

110: upper earth plate 111: guide plate

112: fixed plate 113: "c" shaped coupler

200: indentation pipe 201: drilling device coupling portion

210: lower earth plate 211: guide portion

212: ground insertion unit

Claims (8)

In the simple earth block structure suitable for water and sewage work installed on both inner surfaces of the pit soil 2 in order to prevent side collapse of the pit soil 2 formed by the excavation of the ground (1), A plurality of guide pipes 100 are formed in the core portion in the up-and-down pipe guide through-holes 101, and are installed at predetermined intervals adjacent to the side surface of the pit part 2. A plurality of inlet pipes 200 rotatably inserted into the inlet pipe guide through-holes 101 and installed to enter the lower soil body; An upper earth plate 110 coupled to the rear surface of the plurality of guide pipes 100; A lower earth plate 210 installed between the plurality of inlet pipes 200 by sliding downward along a guide groove 103 formed between the guide pipe 100 and the upper earth plate 110. Low depth simple earthquake structure suitable for water and sewage construction to include. The method of claim 1, The upper earth plate 110 is A plurality of guide plates 111 respectively coupled to the rear surfaces of the plurality of guide pipes 100; And a fixing plate 112 detachably coupled between the plurality of guide plates 111. The guide groove 103 is a low depth simple earthquake structure suitable for water and sewage construction, characterized in that formed by the area between the guide pipe 100 and the guide plate 111. The method of claim 2, Both sides of the fixing plate 112 is a low-depth simple earthquake structure suitable for water and sewage construction, characterized in that the "c" -shaped coupler 113 is installed to be coupled to the guide plate 111. The method of claim 1, Low depth simple earthquake structure suitable for water and sewage construction, characterized in that the guide portion 211 of the substantially triangular cross-sectional structure is formed on both sides of the lower earth plate 210 to correspond to the shape of the guide groove (103). The method of claim 1, The lower earth plate 210 is provided with a plurality of sequentially guided, The low earth plate simple earthquake structure suitable for water and sewage construction, characterized in that the plurality of lower earth plate 210 is coupled to each other. The method of claim 5, Low depth simple earthquake structure suitable for water and sewage construction, characterized in that the bottom surface of the earth plate is installed on the bottom of the plurality of lower earth plate 210, the blade-shaped ground inserting portion 212 is formed. The method of claim 1, Low depth simple earthquake structure suitable for water and sewage construction, characterized in that the drilling device coupling portion 201 for coupling with the drilling device is formed on the top of the inlet pipe 200. The method of claim 1, Low depth simple earthquake structure suitable for water and sewage construction, characterized in that the interval maintaining member 102 is installed between the guide pipe 100 and the guide pipe 100 installed on the opposite side.

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