KR100584701B1 - A method of construction for temporary retaining wall - Google Patents

Abstract

The present invention relates to a temporary earthquake construction method for constructing underground structures, so that only minimal reinforcing transverse trees and shoring can be used during the construction of the earthquake, so that the digging work can be efficiently carried out and without the support of the crutches during the construction of the underground structure. In order to be able to construct the underground structure, the tension force is introduced into the tension member 30 disposed in front of the vertical piles 10 so that the prestress moment resists the side pressure of the soil wall to the rear of the vertical piles 10 which are in contact with the soil wall. Temporary earthquake construction method characterized by

Temporary mudstone method, vertical pile, earth plate, reinforcing transverse wood, shoring, tension material, prestress moment

Description

A method of construction for temporary retaining wall}

Figure 1 is a side view showing an embodiment of a temporary construction method according to the present invention.

FIG. 2 is an enlarged sectional view taken along line II of FIG. 1. FIG.

3 is a plan view of FIG.

Figure 4 is a side view showing another embodiment of the temporary construction method according to the present invention.

5 is an enlarged sectional view taken along line II-II of FIG. 4;

6 is a plan view of FIG. 4.

Figure 7 is a side view showing a conventional temporary soil construction method.

8 is a plan view of FIG.

9 is a perspective view for explaining a state in which the vertical pile and the reinforcing transverse of the temporary soil film is deformed by the lateral pressure of the soil wall.

The present invention relates to a temporary earthquake construction method that is installed to prevent the collapse of the earth wall at the trench site for construction of underground structures, and then removed after completion of construction of the underground structures.

In the conventional temporary soil blocking method, as shown in FIGS. 7 and 8, vertical piles 10 made of H-shaped steel are driven at random intervals, and the earth plate 12 is sandwiched between the vertical piles 10. The lateral pressure of the reinforcing cross member 14, which is called a band, is fixed to the front of the vertical pile 10 so that the side pressure of the vertical pile 10 is transmitted to the vertical piles 10 and to support the vertical piles 10. It was installed on the pedestal 16 and supported the reinforcing cross members 14 with struts 18 made of H-shaped steel.

Such a conventional temporary earthquake construction method is as shown in Figure 9 when the installation interval of the support 18 is wide, up, down, left, right, that is, the support interval of the vertical pile 10 and the reinforcing transverse wood 14 The wider the moment, shear force, and sag of the vertical pile 10 and the reinforcing transverse wood 14 are greatly increased by the lateral pressure P of the soil wall acting from the rear side of the vertical piles 10, thereby increasing the construction site. There is an increased risk of causing large-scale accidents such as ground subsidence and earthquake collapse.

Therefore, in the related art, a large amount of reinforcement transverse wood 14 and the support bar 18, as shown in Figs. 7 and 8, and had to be installed at close intervals, are expensive to install or remove them. Not only did it require time and work, but it also caused a lot of trouble in the digging work, and there were many difficulties in constructing the underground structure 20 with reinforced concrete.

That is, due to the large number of shorings (18), it was very difficult to reinforce the reinforcement and assembly of the reinforcement and the installation of the formwork, and also had a lot of problems in the transportation of materials and workers' activities,

In particular, because the struts 18 must pass through the wall 21 of the underground structure 20, some of the reinforcing bars cannot be continuous in this through portion, thereby deteriorating the strength and durability of the wall 21.

In addition, after completion of the construction of the underground structure 20, the support 18 had to be cut from both sides of the wall 21, which left part of the support 18 in the wall 21, even if the wall 21 was waterproofed. There was a problem such as leakage of groundwater at the cut portion of the shoring (18).

The present invention is to apply the pre-stress to the vertical pile that the side pressure of the excavated soil wall directly acts to have a moment that greatly resists the side pressure of the soil wall so that the construction can be carried out using only the minimum reinforcing transverse timber and shoring and underground structure In the construction, the technical task is to provide a temporary earthquake construction method that can be used to construct underground structures while removing the crutch step by step to eliminate the interference caused by the crutch.

1 to 3, a temporary soil film construction method according to an embodiment of the present invention is represented.

1 to 3, the temporary soil block construction method illustrated in Fig. 1 is a vertical pile (10) made of H-shaped steel in the vertical direction, while inserting the earth plate 12 between the vertical piles 10 while dig, for reinforcement In the temporary soil construction method that the horizontal trees 14 are installed in the transverse direction to the pedestal 16 fixed to the front of the vertical piles 10, and the support bars 18 to support the reinforcing horizontal trees 14 , Bracket 32 to which the tension member 30, such as a strand, is fitted, is arranged in a zigzag form and fixed to both sides of the flanges 34 and 34 'of the vertical piles 10, and the brackets 32 After tensioning the tension member 30 fitted in a zigzag form to introduce a tension force, the vertical pile contacting the excavated soil wall by maintaining the tension force introduced into the tension member 30 with a fixing unit 36 fixed to both ends of the tension member 30 Prestress to (10) to greatly resist the side pressure of the earth wall It was to work.

One embodiment of the present invention is because the tension force is introduced into the tension member 30 fitted in the bracket 32 fixed in a zigzag form on both flanges 34, 34 'side of the vertical pile (10). As shown in FIG. 1, the compression force C acts on the side where the bracket 32 is fixed in the vertical pile 10, and the tension force T acts on the opposite side facing the bracket 32.

In other words, the vertical pile has a vertical moment in the vertical pile and a middle moment in the middle of the horizontal pile by the side pressure, and the position of the horizontal strand is generated by the parent moment. The opposite of the moment generated by the side pressure by fixing the position of the bracket 32 at the positive and secondary moment positions. Since the prestress moment acts, the vertical pile 10 itself has a moment that greatly resists the lateral pressure of the soil wall, so that the vertical and horizontal installation intervals of the horizontal tree can be greatly widened, and the horizontal wooden beam for reinforcing vertical pile 10 is supported. The number of uses of (14) can be greatly reduced.

This makes the digging work more efficient.

In addition, the flanges 34 and 34 'of the vertical pile 10 are added with reinforcing plates 38 and 38' as illustrated in FIG. It is also possible to reinforce the strength of the pile 10 itself.

4 to 6 represent a temporary soil block construction according to another embodiment of the present invention.

4 to 6 is installed in the vertical pile 10 of the H-shaped steel in the vertical direction, while inserting the earth plate 12 between the vertical piles 10 while dig, for reinforcement In the temporary soil construction method that the horizontal trees 14 are installed in the transverse direction on the pedestal 16 fixed to the front of the vertical piles 10, and the support bars 18 support the reinforcing horizontal trees 14 in the horizontal direction. , A pair of brackets 32a, 32b into which the tension member 30, such as a steel bar or a stranded wire, is fitted, into the inner side of one flange 34 of the vertical piles 10 and the other flange 34 '. Fixing alternately along the longitudinal direction of the vertical piles 10 on the outside, by tensioning the tension members 30 fitted to the brackets 32a and 32b and introducing tension force into the usual anchorage 36. Of the vertical piles (10) in contact with the excavated soil wall by maintaining the tension introduced in the (30) Up to a large resistance so that the prestressing action of the side pressure of the earthen.

In FIG. 4, the double-dotted line is inserted between the tensioned tension member 30 and the flange 34 ′ by inserting the solid wood 40 capable of largely resisting the compressive force to increase the amount of eccentricity to tension the tension member 30. This is to allow greater prestress to be applied to the vertical pile 10.

Tension forces introduced inside and outside the flange are to be installed only where necessary throughout the vertical pile span.

For example, only a few flanges on the lower end of the vertical pile introduce tension or inside the flange at a particularly large position.

As shown in Figs. 1 and 4, the temporary construction method according to the present invention is structurally safe even if one support 18 is installed for each underground floor, so the bottom support is constructed when the underground structure 20 is constructed. 18) After constructing the lower wall 21 and the slab 22 to fill the space between the wall 21 and the retaining wall, the slab 22 plays the role of the shoring (18) thereon slab 22 The crutch 18 just above can be demolished.

That is, while the construction of the wall 21 and the slab 22, the backfill, the crutch demolition work iteratively it is possible to construct the underground structure 20.

Therefore, the present invention allows the construction of the underground structure 20, which is very excellent in structural strength and waterproofness, because the strut 18 does not penetrate the wall 21.

The present invention can significantly reduce the number of use of the reinforcing lateral and support shoring to support the vertical pile, compared to the prior art can be safely installed at a low cost, and to reduce the interference of the shoring efficiently the digging work efficiently It can be carried out and the underground structure can be easily constructed without the interference of the crutch, and the underground structure with excellent structural strength and waterproofness can be constructed compared to the conventional underground structure where the crutch penetrated the walls of the basement layer. There are advantages such as being able to help.

Claims (4)

The vertical piles 10 are inserted in the vertical direction, and the earth plate 12 is sandwiched between the vertical piles 10 while the trench is installed, and the reinforcing transverse trees 14 are installed in the horizontal direction in front of the vertical piles 10. In the temporary block construction method for supporting the reinforcing lateral trees 14 with the supporting members 18, the bracket 32 is installed in the longitudinal direction in front of the vertical piles 10, and the bracket 32 Temporary earthquake construction method characterized in that the prestress to resist the side pressure of the earth wall is applied to the back of the vertical pile (10) in contact with the earth wall by tensioning the tension member 30 is inserted. The tension member according to claim 1, wherein the bracket 32 is arranged and fixed in a zigzag shape inside both flanges 34 and 34 'of the vertical piles 10, and a tension member fitted in the brackets zigzag. Hypothesis construction method characterized in that the tension is introduced by pulling 30. The vertical pile (10) according to claim 1, wherein the pair of brackets (32a) and the brackets (32b) are arranged on the inside of one flange (34) of the vertical piles (10) and the outside of the other flange (34 '). And alternately fixed along the lengthwise direction of the blades, and tensioning the tension members 30 fitted to the brackets 32a and 32b to introduce tension force. 4. The method of claim 3, wherein an additional tension force is introduced into the tensioned tension member (30) by sandwiching the stump wood (40) between the tension member (30) and the vertical pile (10).

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