KR101834157B1 - Temporary soil sheathing Construction method using basis piles and basis piles for temporary soil sheathing work - Google Patents

Abstract

The present invention relates to a temporary sheathing structure, comprising: an earth anchor; a foundation pile; and a soil pipe. More particularly, the present invention relates to a method of manufacturing the foundation pile, which increases its rigidity due to reinforcement of the foundation pile, thereby capable of improving the rigidity without the operation of a separate band material. Especially, construction of the earth anchor can be performed without straps, the construction period can be remarkably shortened due to the simplification of a working process due to the increase in rigidity of the foundation pile. In particular, the present invention is intended to reduce a labor cost due to the simplification of the construction process and to reduce the material cost due to the shortening of a used material.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a temporary earth sheathing construction method and a temporary earth sheathing construction method using the same,

The present invention relates to a temporary earth retaining structure, and more particularly, to improving the structure of a stockholder constituting a foundation of a retaining structure to improve the rigidity of a shareholder and reduce the labor cost and the material cost, The present invention relates to a structure of a shareholder for construction of a temporary earth retaining structure and a retaining structure using the shareholder.

Generally, the earthwork is to effectively support the earth pressure generated from the earth wall excavated in order to construct the basement layer in civil engineering worksite.

These existing soil-retaining works are classified into permanent permanent earthworks with concrete piling integrally installed on the earth wall or rock wall, and temporary earth-retaining works that are installed to prevent the earth wall or rock wall from collapsing only at the time of excavation work.

Generally, in the case of the temporary soil cladding, the H-pile foundation pile is set up vertically at random intervals, and a lot of soil plates are laminated between the flanges of the neighboring H-piles to support the earth wall or rock wall. In order to fix the file to the wall, horizontally fixed band material was installed. Earth anchor was installed on the band material and fixed to the ground.

That is, a plurality of H-files are vertically arranged at regular intervals around the ground to be excavated, and a plurality of band materials and earth anchors are connected to each other to support the vertical H- And is installed sequentially from the upper side.

However, in the above-mentioned conventional piling structure, since the rigidity of the H-file used as the foundation pile is weak, it is necessary to construct the band material to improve the rigidity of the H-file, And further, the labor cost and the material cost are increased.

Korean Patent Registration No. 10-0969996.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a pile foundation which is capable of improving its rigidity by reinforcing a base pile foundation, It is possible to greatly reduce air due to simplification of the working process due to the increase in rigidity of the foundation pile and to reduce the labor cost due to the simplification of the construction process and to reduce the material cost The present invention has been made to solve the above-mentioned problems occurring in the prior art.

In order to achieve the above-mentioned object, there is provided a method of manufacturing a steel sheet, comprising a pair of H-shaped steel plates having a center web, a pair of opposing flanges formed at both ends in the width direction of the web, A base pile consisting of a plurality of reinforcing members connecting the H-shaped beams on both sides; And

And a plurality of earth anchors provided on the foundation pile at intervals so as to be spaced upward and downward,

The foundation pile,

Both side H-shaped sections are formed so as to be spaced apart from each other so as to oppose the recesses on either side so as to form a space portion passing through between the H-shaped sections forward and backward,

Each reinforcing member is formed in the shape of a single H-shaped steel, and welded to the flange of the H-shaped steel member with the internal member and the adjacent H-

Each earth anchor,

A tension member installed on the fixing base; A pedestal passing through the tensile member and fixed to the base pile; A fixing plate formed on the pedestal; A fixture having a wedge groove for imparting a fixation force to the tensile member; And a wedge member for fixing the tension member to the fusing member,

The tensile members penetrate the spaces between the H-shaped beams on both sides of the foundation pile,

The pedestal is constructed such that both sides are installed on the H-beams of both sides of the foundation pile,

A base pile installation step for installing foundation piles at regular intervals along the wall surface of excavation paper;

A soil plate installing step of installing a soil plate by stacking a soil plate on a groove formed in an H-shaped groove of a neighboring foundation pile; And

And an earth anchor installation step of installing a plurality of earth anchors at intervals of up and down with respect to each foundation pile through each installed foundation pile.

As described above, according to the present invention, the main structure of the temporary earth retaining structure and the construction method of the temporary earth retaining structure using the main stake of the present invention are constituted by a double-steel structure foundation pile connected through a reinforcing member at regular intervals, It is possible to improve the rigidity of the foundation pile and improve the earth pressure holding force without the need of a separate strapping material because the construction of the anchor can be performed and the construction of the temporary earth retaining pile can be made without the construction of such a band material, It is possible to obtain an effect that the air can be remarkably shortened.

Also, in the construction of the earth anchor, it is possible to construct the structure through the space between the neighboring steel bars without banding, thereby further simplifying the structure and reinforcing the rigidity.

In addition, while simplifying the structure and simplifying the construction process, it is possible to reduce the labor cost, and it is possible to obtain the effect of reducing the material to be used and the material cost to be remarkably reduced because the banding material is not needed.

In addition, it was originally stamped after about three days after earth anchor grouting. When this method is applied, it is possible to stretch after one day, so that the whole process can be remarkably shortened.

1 is an exploded perspective view of a shareholding structure for a temporary earthwork of the present invention.
Fig. 2 is a perspective view of the main structure for the temporary earthwork of the present invention; Fig.
FIG. 3 is another embodiment of the shareholding structure for the temporary earthwork of the present invention.
4 is a view showing the entire process of a method of constructing a temporary earth retaining structure using a stockholder for a temporary earth moving construction according to the present invention.
FIG. 5 is a simplified view of the foundation pile installation step of the method of constructing a temporary earth retaining structure using a stockholder for the construction of the present invention.
FIG. 6 is a schematic view showing a step of installing a soil slab using a stockholder for a temporary clay construction according to the present invention.
FIG. 7 is a simplified view of an earth anchor installation step in a method of constructing a temporary earth retaining structure using a stockholder for the construction of the present invention.
FIG. 8 is a schematic view of the step of punching the tension portion according to the step of installing the earth anchor in the method of constructing the temporary earth retaining structure using the shareholder for the temporary earthwork construction of the present invention.
FIG. 9 is a schematic view of a step of installing a tensile member according to an earth anchor installation step in a method of constructing a permanent earth retaining structure using a stockholder for the construction of the present invention.
10 is a schematic view of the grout step according to the step of installing an anchor in a method of constructing a temporary earth retaining structure using a stockholder for the construction of the present invention.
11 is a simplified view of the step of fixing the tension member according to the step of installing the earth anchor in the method of constructing the temporary earth retaining structure using the stockholder for the temporary earthwork of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

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

FIG. 1 is an exploded perspective view of a main structure for a temporary earth retaining work according to the present invention, and FIG. 2 is an assembled perspective view of a main structure for a temporary earth retaining work according to the present invention.

As shown in FIGS. 1 and 2, the main structure of the present invention for temporary earthworks construction comprises a foundation pile 100 and an earth anchor 200.

The foundation pile 100 is a base of a temporary earth retaining pile and is composed of a pair of H-shaped beams 110 and 110 'on both sides and a plurality of reinforcing members 120 and 120'.

First, the pair of H-shaped beams 110 and 110 'are formed at the center of the web 111 like ordinary H-shaped beams.

Shaped flanks 112 and 112 'protruding from both sides in the width direction of the web 111. Between the respective flanges 112 and 112' ) 113 '.

Therefore, in the foundation pile 100 of the present invention, the grooves 113 on either side of the two side H-shaped beams 110 and 110 'are arranged so as to be opposed to each other, So that a space portion is formed between the both side H-shaped beams 110 and 110 '.

The reinforcing members 120 and 120 'are configured to connect the two side H-beams 110 and 110' arranged as described above.

At this time, the reinforcement members 120 and 120 'are not newly realized but are formed in the form of an H-shaped steel that forms a web and a flange (not shown in the figure) like a normal H-shaped steel, , And connect the H-shaped beams 110 and 110 'through a plurality of holes.

That is, the reinforcing members 120 and 120 'are formed at a plurality of places of the H-shaped beams 110 and 110' at regular intervals in the upward and downward directions in the interspace 130 between the two side H-shaped beams 110 and 110 ' And the end of the flange is welded to the H-shaped sections 110 and 110 'in a state in which the end portions of the flange are in contact with the flanges 112 and 112' of the H-shaped sections 110 and 110 '.

As described above, the foundation pile 100 has a dual steel structure in which two H-beams 110 and 110 'are connected through a plurality of reinforcing members 120 and 120', and the two H-beams 110 and 110 ' 110 ', the space 130 is formed to be passed through before and after.

3, the space 130 formed between the two side H-beams 110 and 110 'includes a plurality of short-type dust plates 150 (150) &Quot;) < / RTI >

At this time, in the process of joining the reinforcing members 120 and 120 ', both ends of the round type dust collecting plates 150 and 150' are connected to the recesses 113 and 113 'of the H- Can be constructed to be inserted and laminated in succession from the bottom.

The earth anchor 200 is coupled to the foundation pile 100 and is disposed at regular intervals above and below the H-beams 110 and 110 '.

At this time, each earth anchor 200 is constituted by a tensile member 210 that is first embedded in a fixing ground and gives a reaction force. At this time, the tensile member 210 is not limited to be made of a steel bar or a multi- In the present invention, a multi-stranded core is used.

The earth anchor 200 is constituted by a pedestal 220. The pedestal 220 is formed in a block shape to constitute a base for fixing the tension member 210 to the foundation pile 100, The member 210 is configured to penetrate.

In this case, the pedestal 220 is configured to be in contact with both the H-shaped beams 110 and 110 'of the base pile 100 at the same time, and the two sides of the H- The reinforcing members 120 and 120 'are formed so as to be in contact with the flanges 112 and 112' of the reinforcing member 110 'through welding or bolting, and the center thereof communicates with the space 130. [ A plurality of portions are provided in the upward and downward directions at positions where they do not interfere with each other.

The earth anchor 200 includes a fixing plate 230 and is formed in the shape of a plate formed on the entire surface of the pedestal 220 of the fixing plate 230. The tension member 210 is penetrated, The tensile force of the elastic member 210 can be dispersed.

The fixing member 240 is configured to be capable of fixing the tension member 210 together with the fixing plate 230 and the tension member 210 is inserted through the fixing member 240 A wedge groove 241 is formed.

The wedge member 250 is configured to fix the tension member 210 to the fixing hole 240 and the wedge groove 250 of the fixing hole 240 is formed in the earth anchor 200. [ 241 so as to press and fix the tension member 210.

In other words, the main structure for the temporary earthworks of the present invention is constructed by connecting the pair of H-shaped beams 110 and 110 'on both sides of the foundation pile 100 by connecting the reinforcing members 120 and 120' The base pile 100 has a double-wall structure, and the stiffness of the base pile 100 is further improved. Particularly, in order to install the earth anchor 200, 110) 110 '.

Hereinafter, a method of constructing a temporary earth retaining structure using a shareholder structure for temporary construction with the above-

4 is an overall process diagram of a method of constructing a temporary earth retaining structure using a stockholder for temporary construction of the present invention.

As shown in FIG. 4, the method of constructing a temporary earth retaining structure using a shareholder for a temporary earthworks of the present invention is performed as a foundation pile installation step (S100), a soil plate installation step (S200), and an earth anchor installation step (S300).

Here, in the step S100 of installing the foundation pile,

As shown in FIG. 5, in order to construct the temporary earth retaining pavement according to the present invention, excavation paper for constructing a basement layer is excavated.

Accordingly, a foundation pile (100), which serves as a basis for effectively supporting the earth pressure generated from the earth wall, is provided on the wall surface of the excavation paper. The foundation pile (100) It is sufficient to arrange a plurality of pieces.

In the soil plate installation step (S200)

This is to prevent the soil on the wall surface from collapsing due to the earth pressure by being closely attached to the wall surface of the excavation paper. To this end, the earth plates 160 and 160 'made of wood are used.

That is, the soil plates 160 and 160 'are installed on adjacent foundation piles installed adjacent to each other as shown in FIG. 6, and the soil plates 160 and 160' The soil plates 160 and 160 'may be successively laminated by inserting them from above into the corresponding grooves 113 and 113'.

Then, in the earth anchor installation step S300,

A plurality of earth anchors 200 are installed for imparting a reaction force to the base pile 100 constructed as described above to have a strong supporting force.

1 and 2, the earth anchor 200 includes a tension member 210, a pedestal 220, a fixing plate 230, a fixing port 240, a wedge member 230, (250) are sequentially installed. In the present invention, a large number of foundation piles (100) are provided so as to have upper and lower ends.

Meanwhile, in the case of a conventional temporary earth retaining structure, a band material connecting a foundation pile in a lateral direction is constructed in order to construct the earth anchor. In the method of constructing a permanent earth retaining structure using a stockholder for temporary construction of the present invention, The earth anchor 200 can be installed without construction.

In detail, in the earth anchor installation step (S300), the tensile drilling step (S310) is performed first.

The tensile drilling step (S310)

As shown in FIG. 8, only a half of the settlement paper can be pierced through the space 130 formed between the two side H-shaped beams 110 and 110 'constituting the foundation pile 100.

That is, in the case of applying the band material made of the normal shape steel, the perforation of the tensile portion 310 requires the construction of separate equipment and a lot of work processes accompanying the drilling of the steel shape steel, It becomes very convenient and quick.

3, in the process of perforating the tensile portion 310, when the single stage soil plates 150 and 150 'are configured in the space of the foundation pile 100, the single stage soil plates 160 ') Will be of course natural.

Thereafter, the tensile member mounting step S320 is performed,

The tensile member installation step S320 is a step in which the tensile member 210 made of a steel rod or a steel wire is passed through the space portion 130 of the foundation pile 100 and pulled into the perforated tensile portion 310 as shown in FIG. The tensile member 210 thus drawn is in a state in which the front portion of the tensile member 210 is pulled into the tensile portion 310 and the rear head portion of the tensile member 210 protrudes to the front surface of the foundation pile 100.

Thereafter, the grout step S330 is performed,

The grout step S330 is a step in which the grout 320 made of mortar is injected through the grouting into the tensioning part 310 into which the tensioning member 210 has been pulled as described above, And fixed to the tensile portion.

Thereafter, the tensile member fixing step S340 is performed,

The tensile member fixing step S340 is a step of fixing the head portion of the tensile member 210 exposed to the outside as shown in FIG. 11. To do this, first, a pedestal 220 is installed, Both sides of the back side of the tensile member 210 are installed on the flanges 112 and 112 'of the H-shaped steel pipes 110 and 110' of the foundation pile 100, Welding, bolting, or the like.

Thereafter, a fixing plate 230 is installed, and the fixing plate 230 is installed in close contact with the pedestal 220 in a state where the head of the tension member 210 passes through.

The fixing port 240 is installed in the fixing plate 230 in a state in which the head of the tension member 210 passes through the wedge groove 241.

Thereafter, the wedge member 250 is installed. At this time, before the wedge member 250 is installed, the tension member 210 is first pulled through the normal tensioning device (not shown) 250 is fixedly inserted into the wedge groove 241 of the fixing hole 240 and the head is fixed to the fixing hole 240 in a state where the tension member 210 is tensed by the pressing of the wedge member 250 .

As described above, according to the present invention, the stock structure for the temporary earth retaining work and the method for constructing the temporary earth retaining structure using the stockholder are installed on the foundation pile directly without the need of a separate band material in the installation of the earth anchor, The construction of the foundation is very convenient. In particular, since the foundation pile has a double-wall structure, its rigidity is further improved.

In addition, since the earth anchor is installed directly on the foundation pile, the reaction force of the foundation pile is increased, so that a stronger supporting force can be obtained.

100: foundation pile 110, 110 ': H-beam
111: web 112, 112 ': flange
113, 113 ': groove 120, 120': reinforcing member
130:
200: earth anchor 210: tensile member
220: pedestal 230: fusing plate
240: Fixing hole 241: Wedge groove
250: Wedge member
310: Tensile section 320: Grout
S100: foundation pile installation step S200: soil plate installation step
S300: Earth anchor installation step S310: Tensile drilling step
S320: Tension member installation step S330: Grout step
S340: Tensile member securing step

Claims (6)

A pair of H-shaped steel bars 112 ', 112' are formed at both ends in the width direction of the web 111 and grooves 113, 113 'are formed between the flanges 112, 112' 110 'are spaced apart from each other by a predetermined distance so as to oppose the grooves 113 and 113', and an H-shaped portion having a short length is formed between the H-shaped portions 110 'and 110' A base pile 100 in which a plurality of reinforcing members 120 and 120 'are welded to flanges 112 and 112' ends of both side H-beams 110 and 110 ';
A plurality of earth anchors 200 installed in a space 130 between a plurality of reinforcing members 120 and 120 'welded at a predetermined height between a pair of H-shaped beams 110 and 110';
The grooves 113 and 113 'formed at both ends of the space portion 130 between the reinforcing members 120 and 120' of the foundation pile 100 so as to oppose each other between the pair of H-beams 110 and 110 ' (150 ', 150') to be inserted into and closed from the end plate (150).
Lt; / RTI >
The earth anchor (200)
A pedestal 220 in the form of a block fixed to both side H-shaped beams 110 and 110 'of the foundation pile 100,
A tensile member 210 that penetrates the pedestal 220 to be embedded in the fixing base to impart a reaction force,
A fusing plate 230 provided on the front surface of the pedestal 220 to disperse tensile force of the tension member 210,
A fixing port 240 for fixing the tension member 210 together with the fixing plate 230 while forming a wedge groove 241 formed so as to penetrate the tension member 210,
And a wedge member (250) for pressing and fixing a tensile member (210) passing through the wedge groove (241) of the fixing port (240) while passing through the wedge groove (241).
delete delete The temporary earthworks construction stockholder of claim 1,
A base pile installing step (SlOO) for inserting and installing base piles (100) at regular intervals along the wall surface of excavation paper;
A soil plate installation step (S200) of installing soil plates (160) and (160 ') between adjacent grooves (113) formed in H-shaped grooves between adjacent foundation piles (100) to construct a soil wall; And
An earth anchor installation for installing a plurality of earth anchors 200 spaced upward and downward in a space 130 between the reinforcing members 120 and 120 ' Step S300;
The method comprising the steps of:
5. The method of claim 4,
In the earth anchor installation step S300,
(S310) of drilling a tensile portion through a space formed between neighboring H-shaped steels of respective foundation piles;
A tensile member mounting step (S320) of pulling the tensile member through the space portion;
A grouting step (S330) of injecting grout into the tensioned portion in which the tensioned member is drawn to fix the tensioned member; And
And a tensile member fixing step (S340) of tightening the head of the tensile member exposed to the outside is performed.
6. The method of claim 5,
In the tension member fixing step S340,
Fixing the tension member using the pedestal, the fixing plate, the fixture and the wedge member,
The base,
And the two sides of the rear side of the base pile are installed on both sides of the H-shaped section of the foundation pile with the tensile member penetrating through the base pile.

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