KR101001084B1 - Composite Wall Using Angled Channel and Constructing Method thereof - Google Patents

Abstract

The present invention, in the construction of the earth wall to prevent the collapse of the back ground in the underground excavation or slope cutting step, by using a support pile for the earth wall, of the underground structure to be installed in the underground excavation or slope cutting By having the wall or retaining wall wall and the retaining wall integrated, a thumb pile having a longitudinally continuous hollow part configured to be used as a part of the wall of the present structure constructed after completion of excavation or cutting is not a temporary facility. A support pile, a composite wall using the same, and a construction method thereof.

In the present invention, the two plate members 11a and 11b face each other at intervals in the longitudinal direction, and the hollow members 12 which are continuous in the longitudinal direction are formed between the plate members 11a and 11b. 11a, 11b) is provided with a thumb pile 10 having a structure in which a rear cover 13 for closing the rear of the hollow part 12 is installed in a hole 100 bored in the ground. The filler 101 in the hole 100 is attached only outside the rear side of the thumb pile 10 so that the rear side of the thumb pile 10 is integrated with the filler 101; After the front side of the thumb pile 10 is exposed to the outside by excavation of the front ground, concrete is poured into the front of the cut surface of the back ground so as to be integrated with both sides of the front side of the thumb pile 10, and the supporting wall (2) is formed; Concrete is poured into the front surface of the support wall 2 to form a structure wall 3, so that the concrete constituting the structure wall 3 is integrally filled with the hollow part 12 of the thumb pile 10. Thus, a composite wall is provided, which has a structure for supporting the back soil by forming a structure in which the thumb pile 10, the support wall 2, and the structure wall 3 are integrally formed.

Anchor, thumb pile, wall, excavation, slope

Description

Support pile with thumb pile having continuous hollow in longitudinal direction, composite wall using same and construction method thereof {Composite Wall Using Angled Channel and Constructing Method}

The present invention relates to a support pile having a thumb pile having a continuous hollow portion in the longitudinal direction, a composite wall using the same, and a construction method thereof. In constructing the retaining wall, by using the support pile for the retaining wall, the wall or retaining wall of the underground structure installed in the underground excavation or slope cut portion and the retaining wall are integrated so that the retaining wall is not a temporary facility. The present invention relates to a support pile, a composite wall, and a construction method thereof that are used as part of a wall of the present structure to be constructed after completion of excavation or cutting.

As land use is advanced, the development of underground spaces and cutting of slopes are increasing day by day, and the size and height are also increasing. In order to prevent the back ground of the excavation from collapsing during the underground excavation or slope cutting, a columnar wall is used.

In the main thermal wall, the ground is drilled, the thumb pile made of steel beams is installed in the drilled hole, and then the supporting pile is continuously installed by injecting filler such as cement or concrete. However, in this case, since the thumb pile is completely embedded in the filler, it is extremely difficult to draw and recycle the thumb pile after the excavation or slope cutting work is completed. On the other hand, because the thumb pile is mainly made of steel and expensive, it is economically disadvantageous to simply buried the thumb pile in the filling material. In particular, there are many cases where underground walls of underground structures, such as walls of basement floors or retaining walls, are directly adjacent to earthen walls, and in this case, the rigidity of concrete basement walls is avoided without placing the thumb pile made of expensive steel. It is desirable to utilize as a structural member to increase.

In order to utilize the thumb pile as a structural member, it is necessary to install a connecting member on the thumb pile so that the connecting member is integrally combined with the concrete of the underground wall. By the way, it is very difficult to install the connection member to the thumb pile in the state of completion or ongoing construction of the trench. First, in order to install the connecting member to expose the thumb pile, a portion of the thumb pile embedded in the filler, it takes a lot of time and effort to expose the clean enough to install the connecting member. In addition, installing a large number of connecting members also requires a lot of time and effort. In order to install such a connection member, it is necessary to use a separate scaffold or a separate equipment to approach the side of the thumb pile. This operation not only has a high risk of a safety accident, but also has a high level of precision and low quality control. There is a problem that is very difficult. For this reason, until now, thumb piles have not been used as structural members to increase the rigidity of underground walls.

On the other hand, it may be installed in the hole of the ground in the state that the connecting member is pre-attached to the thumb pile, in this case, the hole of the ground is increased due to the pre-attachment of the connecting member, the cost of drilling increases accordingly, At sites with no margins, there are problems such as reduced total floor area of underground facilities.

In recent years, the height of one floor of the basement of a building is often high. As the height of such a floor increases, the spacing between slabs of each floor serving as a supporting point of the underground wall becomes wider, and as a result, the earth pressure to be burdened by the underground wall increases. As a result, the thickness of the underground wall is further increased. This increase in the thickness of the basement wall not only increases the construction cost but also reduces the total floor area of the basement floor. In extreme cases, the basement depth may be further increased by increasing the number of basement floors to secure the necessary underground space.

The present invention was developed in order to overcome the problems and limitations of the conventional heating pile wall using the thumb pile, by synthesizing the thumb pile and the structure wall integrally, without the thumb pile to the earth wall It is an object of the present invention to provide a support pile that can reduce the thickness of an underground wall and a composite wall using the same, by being able to be easily used as a structural member to reinforce the rigidity of the structure to be contacted and constructed.

In particular, in the present invention to provide a composite wall to solve the various disadvantages of installing the connecting member in the thumb pile is integrally combined with the concrete of the underground wall in order to use the thumb pile as a structural member. The purpose.

According to the present invention, the thumb pile made of an expensive material that can be easily put together by the support pile with the thumb pile is firmly integrated with the underground wall without installing a separate connecting member to the thumb pile provided on the support pile concrete basement wall The effect that can be utilized as a structural member to increase the rigidity is exhibited.

In addition, since the support pile is utilized as a structural member in the present invention as described above, the thickness of the concrete underground wall can be reduced, and in the present invention, since the anchor is very easy to install, the anchor can be appropriately installed in the required location, and therefore, the underground wall The number of support points can be increased so that the thickness of the underground wall can be reduced by that much.

As such, when the thickness of the underground wall is reduced, the construction cost of the concrete underground wall is not only reduced, but the area occupied by the concrete underground wall is reduced, thereby securing a wider underground area.

The present invention includes a thumb pile inserted into a hole drilled into the ground; The thumb pile has a structure in which two plate members face each other at intervals in the longitudinal direction such that a hollow portion extending in the longitudinal direction is formed between the plate members; A rear cover for closing the rear of the hollow part is installed at the rear of the plate member; Filler is filled in the hole, but the filler is attached to the outside of the rear side of the thumb pile and the rear side of the thumb pile is embedded in the filler and integrated with the filler, but the filler is not attached to the outside of the front side of the thumb pile No, there is provided a support pile, characterized in that the hollow portion has a structure that is not filled with a filler.

In addition, in the present invention, the two plate members face each other at intervals in the longitudinal direction, the hollow member is formed in the longitudinal direction between the plate member and the rear cover for closing the rear of the hollow portion on the rear of the plate member The thumb pile having a structure is installed, is inserted into the hole drilled in the ground, the filler in the hole is attached only to the outside of the rear side of the thumb pile, the rear side of the thumb pile is integrated with the filler; After the front side of the thumb pile is exposed to the outside by excavation of the front ground, concrete is poured into the front surface of the cut surface of the rear ground so as to be integrated with both sides of the front side of the thumb pile; Concrete is poured into the front surface of the support wall to form a structure wall, wherein the concrete constituting the structure wall is integrally filled in the hollow part of the thumb pile, and the thumb pile, the support wall and the structure wall are integrally formed. There is provided a composite wall, characterized in that it has a structure for supporting the back soil by forming a structure, there is provided a method for constructing such a composite wall.

In the present invention as described above, the front cover of the thumb pile may be covered and protected so that the filler is not attached to the outside of the front side of the thumb pile.

Further, in the above-described composite wall and construction method, in the state before the structure wall is formed, an anchor is inserted into the anchor hole drilled between the hollow portions of the thumb pile, and the outer end of the anchor is the front side of the thumb pile. By fixing in, the anchor can be further installed.

Hereinafter, with reference to the accompanying drawings, the configuration of the present invention and its construction method will be described in detail.

FIG. 1 is a plan view showing a state in which the hole 100 is formed in the ground in order to construct the support pile 1 in the present invention, and FIG. 2 shows a state where the thumb pile 10 is inserted into the hole 100. 3 is a plan view showing the front side of the hole 100 to expose the front side of the thumb pile 10 is shown in FIG.

As shown in FIG. 1, a hole 100 is first drilled into the ground, and the thumb pile 10 is inserted into the hole 100 as shown in FIG. 2. In the present invention, the thumb pile 10 has a structure in which two plate members 11a and 11b face each other at intervals in the longitudinal direction, and a hollow portion 12 is formed between the plate members 11a and 11b. Has In the embodiment shown in the drawing, each plate member (11a, 11b) is made of a "c" shaped steel, the flat portion of the "c" shaped steel is arranged to face each other at intervals to the thumb pile 10 It is coming true. However, in the present invention, the thumb pile 10 is not limited to the shape of the "c" shaped beams facing each other.

On the other hand, in the thumb pile 10, the gap holding member 19 for maintaining the gap may be provided between the facing surface of the plate member (11a, 11b), that is, the hollow portion (12). The gap holding member 19 also functions as a reinforcing material when concrete is filled in the hollow portion 12, as will be described later. In addition, on the opposite surfaces of the plate members 11a and 11b, shear reinforcing materials 21 such as studs may be provided for adhesion and reinforcement with the concrete filled in the hollow part 12 in addition to the gap holding member 19. Can be.

In the state where the thumb pile 10 is disposed in the hole 100, the filler 101, such as soil cement or concrete, is injected into the hole 100.

As shown in FIG. 3, in the present invention, when excavation or slope cutting of the soil in the front direction of the hole 100 is performed, the front side of the thumb pile 10 should be exposed to the outside. To this end, in the present invention, in the state in which the filler 101 is injected into the hole 100, the back earthing direction of the thumb pile 10, that is, the rear side of the thumb pile 10 (in the embodiment shown "c) The filler 101 is attached to the outside of the flange and the abdomen part of the back-soil direction of the shaped steel so that the rear side of the thumb pile 10 is integrated with the filler 101, but the front side of the thumb pile 10 In the illustrated embodiment, the filler 101 is not attached to the outside of the flange and the part of the abdomen in the excavated soil direction of the "c" shaped steel. In addition, the filler 101 is not injected into the hollow portion 12 between the plate members 11a and 11b facing the pile 10. To this end, the following structure can be applied.

4A and 4B show schematic front and rear perspective views, respectively, showing a state where the thumb pile 10 is disposed in the hole 100. As shown in the drawing, the plate members 11a and 11b are shown. When the filler 101 is filled in the hole 100 by installing the rear cover 13 at the rear side of the hollow part 12 and closing the rear side of the hollow part 12, the filler 101 is hollow part 12. ) Can be prevented from entering. In this case, as shown in FIG. 4B, the rear cover 13 may fix its position using the fixing member 14. That is, the position of the rear cover 13 may be fixed by arranging the fixing member 14 supporting the rear cover 13 and attaching the fixing member 14 to the thumb pile 10 or by using an adhesive or the like. . Of course, the rear cover 13 itself without the fixing member 14 may be fixed to the thumb pile (10).

On the other hand, the front cover side of the thumb pile 10 is covered with the front cover 15 so that the filler 101 does not stick to the outside of the front side of the thumb pile 10. In the embodiment shown in FIG. 4A, the front cover 15 is provided to surround the front side flange and part of the abdomen of the “c” shaped steel forming the thumb pile 10. In the drawings, reference numerals 16 and 17 refer to an angle member 16 installed on the abdomen side of the “c” shaped steel, and the front cover 15 and the angle member 16 to install the front cover 15, respectively. Fastening member 17. Reference numeral 18 is a fastening member 18 for coupling the front cover 15 to each other when using the two-part front cover 15. In the present invention, the front cover 15 is not limited to the embodiment shown in the drawings and may be modified in various forms as long as it is configured to surround the front side flange and a part of the abdomen.

When the filler 101 is injected into the hole 100 in a state in which the front cover 15 of the thumb pile 10 is covered and protected using the front cover 15, the filler is formed on the outside of the rear side of the thumb pile 10. 101 is attached to the back side of the thumb pile 10 is integrated with the filler 101, but the support pile according to the invention that the filler 101 is not attached to the outside of the front side of the thumb pile 10 (1) is formed.

Subsequently, in the underground excavation or slope cutting step, the front side of the hole 100 is excavated and the front cover 23 is removed. At this time, the filler 101 outside the front side of the thumb pile 10 is also removed. Therefore, as shown in the plan view of Figure 5, the rear side of the thumb pile 10 is embedded in the filler 101, but the filler 101 is not attached to the outside of the front side of the thumb pile 10, the rear side It is in a state of being integrated with the filler 101, and the front side is easily exposed to the outside as it is.

Subsequent excavation or slope cutting operation is performed after the support pile 1 is constructed, and subsequently, the front side of the thumb pile 10 is exposed to the outside, as shown in FIG. 6 is a plan sectional view of the support wall 2 formed in the front, and FIG. 7 is a schematic perspective view of the state shown in FIG.

After excavating the front ground in a state in which the support pile 1 of the present invention is constructed as shown in FIG. 5, the front side of the thumb pile 10 is exposed to the outside as shown in FIGS. 6 and 7. As such, the concrete is poured to the front of the cut surface of the ground to form a supporting wall 2 for supporting the back ground between the support piles 1. The support wall 2 may be formed to have a thickness of the portion of the thumb pile 10 exposed to the outside, in the case of the thumb pile 10 of the "c" shaped steel as shown in the figure, the support The wall 2 is preferably formed to a thickness to the outer flange of the "c" shaped steel. In FIG. 8, reference numeral 22 denotes a reinforcing bar 22 for reinforcing the support wall 2. The installation of the support wall 2 in this way proceeds continuously while excavating the ground in front of the support pile 1.

FIG. 8 is a plan sectional view showing a state in which the structure wall 3 is constructed. After the support wall 2 is constructed, as shown in FIG. 8, concrete is moved forward of the support wall 2. By pouring, the structure wall 3 is integrally constructed.

The concrete constituting the structure wall (3) is also filled in the hollow portion 12 between the plate member (11a, 11b) of the thumb pile 10, to reinforce the bending rigidity of the support pile (1), thumb pile 10 and the structure wall 3 are integrally synthesized to function as one structure. That is, a composite wall in which the thumb pile 10, the support wall 2, and the structure wall 3 of the support pile 1 are integrated is constructed.

Prior to placing the concrete for the construction of the structure wall 3, it is preferable to install a coupling reinforcing bar 23 in advance in the hollow portion 12 of the thumb pile 10. One side of the reinforcing bar 23 is disposed in the hollow part 12, and an end thereof is embedded in the concrete forming the structure wall 3 by protruding to the outside of the support wall 2, thereby providing the hollow part 12. In other words, the support pile 1, the support wall (2), and the structure wall (3) to function as both integral and at the same time as a reinforcing member. In the embodiment shown in the figure the coupling reinforcing bar 23 is made of a loop shape, the shape is not limited to the embodiment of the figure can be freely deformed.

The structure wall 3 may be a wall of an underground structure installed in the excavated ground, or may be a wall of a retaining wall installed in the excavated ground. In constructing the structure wall 3, the front connection side of the thumb pile 10 is further provided with a shear connector 31 such as a stud for integral coupling with the structure wall 3 (Figs. 7 and 8). See also, the shear connector 31 may be embedded in the concrete of the structure wall (3).

Meanwhile, an anchor 4 may be further installed on the support pile 1 after the support wall 2 or before the construction of the support wall 2 prior to the construction of the structure wall 3.

FIG. 9 is a side view of the structural wall 3 constructed as a vertical wall of the retaining wall after the anchor 4 is installed, and FIG. 10 is a structural wall 3 as the wall of the underground structure after the anchor 4 is installed. Side view of the construction state. In the present invention, since the thumb pile 10 is composed of the plate members 11a and 11b disposed to face each other at intervals, between the plate members 11a and 11b, the rear cover 13 passes through the rear cover 13 and in the rear ground. After drilling the anchor hole and inserting the anchor 4 into the anchor hole, the anchor 4 can be easily installed by fixing the outer end of the anchor 4 to the front side of the thumb pile 10. . By anchoring the fixing plate on both sides of the plate member (11a, 11b) on the front of the thumb pile 10 and fixing the end of the anchor (4) to the fixing plate, the anchor can be easily fixed, anchoring of the anchor The method is not limited to this.

Thus, in this invention, since the anchor 4 can be easily installed through the thumb pile 10, as shown in FIG. 9 and FIG. 10, anchor 4 of the place sufficient in excavation ground height can be provided, Since the anchor 4 is used as a permanent anchor to greatly improve the back ground support force by the support pile 2, the thickness of the support wall 2 and the structure wall 3 can be reduced by that much. Exerted.

As discussed in the above-mentioned problems of the prior art, when the height of one floor of an underground structure is increased, the spacing between slabs of each floor becomes wider, and as a result, the earth pressure to be burdened by the underground wall increases, resulting in an increase in the thickness of the underground wall. Although it is further increased, in the present invention, the installation of the anchor is very easy, so that the anchor can be sufficiently installed at the required location at each floor height, so that the thickness of the structure wall can be reduced, and thus, as in the conventional case, the thickness of the underground wall is increased, As a result, it is possible to solve the disadvantages such as increase in construction cost and decrease of floor area of basement floor.

1 is a plan view showing a state in which a hole is formed in the ground to construct a support pile in the present invention.

FIG. 2 is a plan view illustrating a state where a thumb pile is inserted into the hole of FIG. 1. FIG.

3 is a plan view showing a state in which the front side of the thumb pile is exposed by excavating the front side of the hole in the state of FIG.

4A and 4B are schematic front and rear perspective views showing a state where a thumb pile is disposed in a hole, respectively.

5 is a plan view showing a state in which the front cover of the hole was excavated and the front cover provided in the thumb pile was removed in an underground excavation or a slope cutting step.

Figure 6 is a cross-sectional view showing a state in which the support wall is formed in front of the cut surface of the ground after performing the underground excavation or slope cutting operation.

7 is a schematic perspective view of the state shown in FIG. 6.

8 is a plan sectional view showing a state in which a structure wall is constructed.

9 is a side view showing a state in which a structure wall is constructed as a vertical wall of the retaining wall after installing the anchor.

10 is a side view showing a state in which a structure wall is constructed as a wall of an underground structure after installing an anchor.

<Explanation of symbols for the main parts of the drawings>

1: support pile

2: support wall

3: structure wall

10: Thumb pile

Claims (7)

delete delete delete The two plate members 11a and 11b face each other at intervals in the longitudinal direction, so that the hollow members 12 which are continuous in the longitudinal direction are formed between the plate members 11a and 11b and the plate members 11a and 11b. At the rear of the), a thumb pile 10 having a structure in which a rear cover 13 for closing the rear of the hollow part 12 is installed is inserted into the hole 100 drilled in the ground, but the hole Filler 101 in (100) is attached only to the outside of the rear side of the thumb pile 10, the rear side of the thumb pile 10 is integrated with the filler 101; After the front side of the thumb pile 10 is exposed to the outside by excavation of the front ground, concrete is poured into the front of the cut surface of the back ground so as to be integrated with both sides of the front side of the thumb pile 10, and the supporting wall (2) is formed; In the state before the structure wall 3 is formed, An anchor 4 is inserted into the anchor hole drilled between the hollow portions 12 of the thumb pile 10, and an outer end of the anchor 4 is fixed to the front side of the thumb pile 10 so that the anchor ( 4) is installed; Concrete is poured into the front surface of the support wall 2 to form a structure wall 3, so that the concrete constituting the structure wall 3 is integrally filled with the hollow part 12 of the thumb pile 10. And the thumb pile (10), the support wall (2), and the structure wall (3) to form a structure that is integral with the structure supporting the rear soil. The two plate members 11a and 11b face each other at intervals in the longitudinal direction, so that the hollow members 12 which are continuous in the longitudinal direction are formed between the plate members 11a and 11b and the plate members 11a and 11b. Inserting the thumb pile (10) having a structure in which a rear cover (13) for closing the rear of the hollow part (12) is installed in the rear of the hollow part (12); Filling the filler 101 in the hole 100, the filler 101 is attached to the outside of the back side of the thumb pile 10 is the back side of the thumb pile 10 is integrated with the filler 101, In the front side of the thumb pile 10, the filler 101 is not attached to the outside of the front side of the thumb pile 10, and the filler 101 is not filled in the hollow part 12. Filling the filler 101 into 100; Excavating the front side of the hole 100 while also excavating the front side of the ground for underground excavation or slope cutting to expose the front side of the thumb pile 10 to the outside; Placing a concrete on the front of the cut ground between the thumb piles (10) to form a support wall (2) for supporting the back ground; Drill an anchor hole between the hollow portions 12 of the thumb pile 10, insert an anchor 4 into the anchor hole, and attach the outer end of the anchor 4 to the front side of the thumb pile 10. Installing the anchor 4 in the thumb pile 10 by performing the fixing step; And Placing concrete in front of the support wall (2) and in front of the thumb pile 10, the concrete pile is also filled so that the hollow portion 12 between the plate member (11a, 11b) of the thumb pile 10 By forming the structural wall 3 to be integral with the 10 and the supporting wall 2,  The thumb pile (10), the support wall (2) and the structure wall (3) to form a structure that is integrally formed so as to support the structure of the back wall, composite wall construction method. The method of claim 5, Before filling the filler 101 in the hole 100, covering the front cover 15 on the front side of the thumb pile 10 so that the filler 101 is not stuck to the front side of the thumb pile 10 Perform; Composite wall construction method characterized in that the front side of the thumb pile (10) is exposed to the outside by removing the front cover (15) in the state that the front side of the hole (100) is also excavated. delete

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