KR20090119037A - A composite pile for earth retaining wall and centrifugal force type earth retaining wall using it - Google Patents

Abstract

PURPOSE: A composite pile for an earth retaining wall and a centrifugal force type earth retaining wall using the same are provided to increase resistivity to horizontal earth pressure applying to the wall. CONSTITUTION: A composite pile for an earth retaining wall comprises a pile main body(100), a deformed steel bar(110) and an exposed steel plate(200). The pile main body has a convex part(120) and a concave part(130) facing each other in a longitudinal direction. The deformed steel bar is arranged inside the pile main body. The exposed steel plate is combined with one side of the pile main body.

Description

Composite file for retaining wall and centrifugal molding retaining wall using same {A COMPOSITE PILE FOR EARTH RETAINING WALL AND CENTRIFUGAL FORCE TYPE EARTH RETAINING WALL USING IT}

The present invention relates to a composite pile for the wall and centrifugal molding wall using the same, more specifically, the continuous construction is possible, the construction speed is fast, easy and easy, and the construction cost can be reduced, the resistance to horizontal earth pressure The present invention relates to a composite file for a wall of mud walls and a centrifugal wall wall using the same.

In general, a method of constructing a retaining wall by placing concrete at a location where the retaining wall is installed in order to install the retaining wall has been widely used.

For example, such a retaining wall was mainly used in various underground roadways, shifts, shores, rivers, retaining walls, etc., and in general, formwork was installed at the site, reinforcing bars were placed in it, and concrete was poured to complete the wall. .

However, such on-site concrete pouring method not only consumes a lot of manpower and time, but also has a disadvantage that construction time is delayed and quality deviation is severe because a considerable time must elapse after curing.

In addition, it is difficult and cumbersome to perform the formwork installation and removal work in a narrow space depending on the work site conditions, resulting in severe deterioration of construction.

Recently, in order to solve these shortcomings, various forms such as PHC (Pretensioned spun High strength Concrete) piles have been developed and constructed, but the walls are developed and constructed. Since it is driven to be arranged continuously and embedded to form a wall, a gap between piles is generated, which causes a number of problems such as leakage.

In addition, since there is no connection between piles, the force against the earth pressure is weak, and since the land must be bought in a closely arranged state, the driving operation is difficult and difficult.

The present invention was created in view of the above-mentioned problems in the prior art, and was created to solve this problem, and after excavating the wall pile made by pre-synthesizing high-strength concrete and steel in the factory continuously in the field, excavating the front surface of the wall pile If you do it, you can shorten the construction period by forming the earthen wall, and greatly reduce the complexity of the site, such as formwork, concrete placement, etc. In particular, the wall pile is manufactured by centrifugal molding method. The main problem is to provide a composite pile for the wall and the centrifugal wall using the same to maximize the tension on the composite section of the concrete to increase the resistance to horizontal earth pressure acting on the wall.

The present invention is a means for achieving the above-described problems, in the pile structure for the wall walls used for underground passages, shifts, lakes, rivers, retaining walls; A convex curved convex portion is formed at one side in the longitudinal direction, and a concave portion is formed at a curvature corresponding to the convex portion at the other side, and the pile body cured with concrete; A plurality of deformed steel bars embedded in an annular shape in the pile body; It provides a composite pile for the wall wall, characterized in that it is embedded in one side of the pile body in the direction orthogonal to the convex portion and the concave portion, consisting of partially exposed exposed steel sheet.

In this case, a convex groove is further formed at the center of the convex portion of the pile body, and a concave groove is formed at the center of the concave portion to face the convex groove.

In addition, the release steel bar is characterized in that the wire is further connected to surround them in a spiral.

In addition, the connection member is fixed to the exposed steel plate vertically, the connection member is characterized in that the buried fixed to the pile body.

In addition, the connecting member is characterized in that it is any one of the form of a plate, a hole punched in the plate, a stud type, a nut embedded in the pile body and a bolt type through the exposed steel plate and fastened to the nut.

Furthermore, a plurality of composite wall composite piles embedded in the ground in the form of the convex portion and the concave portion of the composite wall for composite wall construction files having the structure as described above; There is also a technical feature to provide a mud wall using a mud wall composite file made of an injection material interposed between the convex portion and the concave portion of the mud wall composite piles to seal the gap.

According to the present invention, the wall pile is pre-manufactured in the factory, the quality is excellent, and because it gives tension to the cross-section of the composite of high-strength concrete and steel material is very high resistance to horizontal earth pressure and during celebration, cast-in-place concrete wall or steel Compared to the board pile wall, it is cheaper, and it is possible to shorten the construction period by enabling the construction of straight and curved walls only by driving construction, and it is easy to connect braces or concrete slabs through exposed steel sheets.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment according to the present invention.

1 is an exemplary perspective view of a composite wall pile according to the present invention, Figure 2 is an exemplary view of a connecting material for connecting the exposed steel plate of the composite wall pile according to the present invention, Figure 3 is a composite wall pile according to the present invention An illustration showing the installation example and structure of the.

As shown in Figures 1 to 3, the composite wall file, that is, the composite wall for the composite wall wall in accordance with the present invention is formed in the form that the plurality is connected to each other to form the wall wall.

At this time, the earth wall may be a straight or curved construction.

To this end, the composite file for the wall wall according to the present invention (hereinafter referred to as 'wall file') is composed of a pile body 100, the exposed steel plate 200 is coupled to one side of the pile body (100).

Here, the pile body 100 is made of concrete is poured into the mold mainly made of a centrifugal molding method using a centrifugal force.

For example, when the concrete is poured into the mold of the shape shown in the enlarged view of FIG. 3 and is cured while applying centrifugal force, the pile body 100 according to the present invention is formed.

In this case, the exposed steel sheet 200 has a form in which a part of the exposed steel sheet 200 is embedded and synthesized before curing.

In addition, the pile main body 100 is disposed in the mold to release the steel bar 110 in an annular shape before being cured in the mold, and the steel wire is spirally wound around the mold steel bar 110 to reinforce the steel reinforcement At the same time it can be configured to increase the strength of the pile body 100 after curing by allowing to fix the position of the release steel bar 110 at the same time.

In addition, in order to prevent the release steel bar 110 from flowing when concrete is cast on the mold, the end of the release steel bar 110 may be fixed to the mold.

In addition, the release steel bar 110 is fixed to the mold in advance to cure the tension, and may be to introduce a prestress to the synthetic cross-section when demolding.

Furthermore, the pile body 100 is preferably molded to have a convex portion 120 and a recess 130 on the surface facing each other in the longitudinal direction.

The convex portion 120 and the concave portion 130 are formed to have the same radius of curvature and convex or concave with each other, and the convex portion 122 and the concave portion groove 132 are preferably formed at the center of each portion. .

Thus, when the pile main body 100 is placed close to each other to make the soil wall, the convex portion 120 is disposed in the form of being fitted to the concave portion 130 to improve the bondability and increase the resistance to horizontal earth pressure. It becomes possible.

In addition, when the convex portion 120 and the concave portion 130 are disposed to be inserted into each other, the shape becomes as shown in FIG. 1 or 3, wherein the convex portion groove 122 and the concave portion groove 132 meet each other and have a substantially rectangular shape. Holes (or grooves) are formed, and filling the injection material 300, preferably grouting injection material therein to seal the gap between the pile body to solve the problem of leakage.

Here, the convex portion 122 and the concave portion 132 need not necessarily be limited to this shape, and the injection material 300 is interposed between the convex portion 120 and the concave portion 130 to seal the function. If the shape can be in charge is enough.

In addition, since the convex portion 120 and the concave portion 130 have a constant radius of curvature, as shown in FIG. 3, the wall of the soil may be formed in a straight line, or may be easily formed in a curved line.

On the other hand, the exposed steel plate 200 is installed buried in one side of the pile body 100, there is a temporary structure, such as braces are installed or to be bolted when connecting the lower slab in the underground driveway In order to fix it to the pile main body 100, the connecting member 210 is fixed in a substantially 'T' shape or 'c' shape although not shown.

 In this case, the connecting member 210 may be formed in a plate shape as shown in (a) of FIG. 2, or may be in the form of a hole 220 formed in the plate as shown in (b), at the bottom as shown in (c) It may be in the form of a stud 212 having a bolt head 214, the bolt 218 is inserted into the nut 216 and the exposed steel sheet 200 through the nut 216 is buried as shown in (d) It could also be in form.

As such, the structure for fixing the connecting member 210 may have many modifications in addition to the illustrated example.

An example of the use of the present invention made of such a configuration is as follows.

First, in order to configure the retaining wall using the pile main body 100 according to the present invention, the pile main body 100 is provided in a state in which the concrete is cast and cured in advance in a factory in the shape of the pile main body 100 according to the present invention. .

At this time, the release steel bar 110 is embedded in the longitudinal direction of the pile body 100, the inside of the pile body 100 is hardened together during curing to act as a kind of reinforcement in the type of reinforced-concrete wall.

In addition, the exposed steel sheet 200 is fixed to one side surface of the pile body 100, and both sides of the pile body 100, that is, both sides of the pile body 100 in a direction orthogonal to the exposed steel sheet 200, have convex grooves ( The convex part 120 and the recessed part 130 which have 122 and the recessed part groove 132 are formed.

After carrying a plurality of pile body 100 having such a structure to the wall construction site, the pile main body 100 is driven separately and driven into the soil by the driving method.

At this time, the convex part 120 and the concave part 130 are formed to be inserted into each other, and the curvature radius is used to determine the shape of the retaining wall, that is, straight or curved to form the retaining wall.

Thereafter, the filling material 300 is filled in the convex groove 122 and the concave groove 132 to seal the gap between the pile bodies, and then excavate the corresponding place using an excavator to easily and easily reduce the dirt in a short time. You can build walls.

1 is an exemplary perspective view of a composite wall pile according to the present invention,

Figure 2 is an illustration of a connection material for connecting the exposed steel plate of the composite wall pile according to the present invention,

Figure 3 is an exemplary view showing an installation example and structure of the composite wall pile according to the present invention.

♧ description of the symbols for the main parts of the drawing ♧

100 .... Pakyu body 110 .... Deformed steel bar

120 .... Convex section 122 .... Convex section

130 .... recesses 132 .... recesses

200 .... Exposure steel plate 210 .... Connectors

300 ....

Claims (6)

In the pile structure for the retaining wall used for underground driveways, shifts, lakes, rivers, retaining walls; A convex curved convex portion is formed at one side in the longitudinal direction, and a concave portion is formed at a curvature corresponding to the convex portion at the other side, and the pile body cured with concrete; A plurality of deformed steel bars which are annularly embedded in the pile body to introduce prestress to the composite cross section and serve as reinforcing bars; A pile file for a piling wall, wherein the pile is embedded in one side of the pile body in a direction perpendicular to the convex portion and the concave portion, and is partially exposed. The method according to claim 1; A convex groove is further formed at the center of the convex portion of the pile body, and a concave portion groove is formed at the center of the concave portion facing the convex portion groove. The method according to claim 1; The deformed steel bar composite file for the wall walls, characterized in that the wire is further wired to surround them spirally. The method according to claim 1; A connecting member is vertically fixed to the exposed steel sheet, and the connecting member is a pile file for the clam wall, characterized in that the buried fixed to the pile body. The method according to claim 4; The connecting member is a composite plate for the wall walls, characterized in that any one of a plate-shaped, a hole punched in the plate, a stud type, a nut embedded in the pile body and a bolt type through the exposed steel plate and fastened to the nut. A plurality of composite wall composite piles embedded in the ground in such a manner that the convex portions and the concave portions of the composite wall composite piles having any one of claims 1 to 5 are fitted to each other; A mud wall using the mud wall composite file, wherein the mud wall is composed of an injection material interposed between the convex part and the concave part of the mud wall composite file to seal the gap.

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