KR100980637B1 - Device for both spacer and bearing plate, and retaining wall construction method thereof - Google Patents

Abstract

PURPOSE: A pressing plate with a functional spacer for a reinforced retaining wall and a construction method of a retaining wall using the same are provided to integrally form a reinforced concrete wall on the ground. CONSTITUTION: A pressing plate with a functional spacer for a reinforced retaining wall comprises a first plate(110), a second plate(120), connection bolts(130), and fixing nuts(140). The first plate comprises reinforcing through holes(111) and first bolt through holes(112). The second plate is separated from the first plate and comprises second bolt through holes(122). The connection bolts simultaneously pass through the first and second bolt through holes. The fixing nuts fix the connection bolts to the first and second plates.

Description

Device for both spacer and bearing plate, and retaining wall construction method

The present invention, in the reinforced integral retaining wall integrally constructs the reinforced concrete wall to the ground surface stabilized by the ground reinforcement by any one of nail, earth anchor, rock bolts, while fixing the ground reinforcement to the ground surface and at the same time easy wall reinforcement It relates to a spacer combined pressure plate that can be preferably used to reinforce, and a retaining wall construction method thereby.

Large-scale ground cutting is inevitable for the efficient use of land in roads, railways and housing complexes. In this case, retaining walls must be properly constructed to prevent ground collapse.

1 is a view showing a conventional retaining wall, these retaining walls are constructed in such a way as to build a retaining wall sphere from the foundation and then backfill the retaining wall mainly after dig. Such a construction method generally has a problem that the work load increases and the air lengthens as the trench and backfill process progress. Proposed to solve this problem is a reinforced integral retaining wall as shown in FIG.

Figure 2 is a reinforced integral retaining wall according to the patent 0698758 is constructed by reinforcing the ground by the nailing method to build a reinforced concrete wall integrally to the reinforced ground surface. The retaining wall constructed in this way ensures structural stability without foundation because the reinforced ground and reinforced concrete walls behave in one piece.

On the other hand, the reinforced concrete wall in the reinforcement-integrated retaining wall according to Figure 2 was constructed by placing the concrete after the wall reinforcement on the protruding nail head as shown in Figure 2 (b). However, this method was inconvenient to further process the protruding nail head. In other words, the ground surface is processed unevenly, and accordingly, the length of the nail head protruding from the ground surface is also different. Therefore, in order to construct a reinforced concrete wall of a predetermined thickness over the nail head, the nail head may be extended to extend the wall. It was necessary to secure the length of the rebar, or cut the nail heads that protruded more than necessary to prevent the nail heads from protruding from the reinforced concrete wall.

The present invention has been developed to improve the problems of the conventional reinforcement integrated retaining wall construction described above has the following technical problems.

The present invention is to provide a spacer combined pressure plate that can be preferably used to easily reinforce the wall reinforcement while at the same time tightly fixing the ground reinforcement to the ground surface in the reinforced integral retaining wall construction.

The present invention is to provide a reinforcement integrated retaining wall retaining wall construction method preferably using the spacer combined pressure plate.

In order to solve the above technical problem, the present invention provides a spacer combined pressure plate for reinforcing integral retaining wall construction and thereby a reinforcing integral retaining wall construction method.

The spacer combined pressure plate for reinforcing integrated retaining wall construction according to the present invention is to be installed in the ground reinforcement projecting from the ground surface stabilized by ground reinforcement by any one of nail, earth anchor, rock bolt, the ground protruding from the plate surface A first plate having a reinforcing hole through which the reinforcing hole passes and having a first bolt through hole formed therein; A second plate disposed to be spaced apart from the first plate and having a second bolt through hole formed on the plate surface; A connection bolt installed to simultaneously pass through the first bolt through hole of the first plate and the second bolt through hole of the second plate; And a fixing nut screwed to the connecting bolt to fix the connecting bolt to the first plate and the second plate, respectively.

Reinforcing-integrated retaining wall construction method according to the present invention, while the ground reinforcement work by any one of nail, earth anchor, rock bolt using the spacer combined pressure plate, but the reinforcing hole through the first plate A first step of performing a ground reinforcing hole while tightly fixing the first plate to the ground surface; A second step of adjusting a separation distance between the first plate and the second plate by adjusting the fixing nut in the spacer combined pressure plate; A third step of reinforcing while confining or restraining the wall reinforcement to the connecting bolt located between the first plate and the second plate of the spacer combined pressure plate; A fourth step of installing the retaining wall formwork apart from the second plate of the spacer combined pressure plate while using the long binding material; A fifth step of placing wall concrete in the retaining wall formwork; And a sixth step of demolding the retaining wall formwork.

According to the present invention, the following effects can be expected.

First, as a result of finishing the surface stabilized with ground reinforcement with reinforced concrete wall, it can be constructed as a reinforced integral retaining wall in which the ground and the wall behave in one piece. In particular, it can be installed while easily installing wall reinforcement and retaining wall formwork. .

Second, the long-walled steel used to install the retaining wall formwork can be usefully used for installing various retaining wall facilities (lights, billboards, flower beds, etc.) after completion of the retaining wall construction.

Figure 1 shows a variety of conventional retaining walls.
2 shows a conventional reinforced integral retaining wall.
3 shows a spacer combined pressure plate according to the present invention.
FIG. 4 illustrates an assembled state of the spacer combined pressure plate of FIG. 3 and the binding material.
5A to 5E show the procedure of constructing the retaining wall while using the spacer combined pressure plate of FIG. 3.

Hereinafter, the present invention will be described according to the accompanying drawings and preferred embodiments.

3 illustrates a spacer combined pressure plate 100 according to the present invention. The spacer combined pressure plate 100 according to the present invention is a device installed in the ground reinforcing hole (R) protruding from the ground surface stabilized by the ground reinforcing hole (R) by any one of nail, earth anchor, rock bolt, The first plate 110, the second plate 120, the connection bolt 130, and comprises a fixing nut 140.

The first plate 110 is a configuration in which the reinforcing hole through hole 111 through which the ground reinforcing hole R protruding from the plate surface is formed, and the first bolt through hole 112 is formed, and the second plate 120 is formed. ) Is a configuration in which the second bolt through hole 122 is formed on the plate surface and spaced apart from the first plate 110. A female screw hole 121 may be further provided on the plate surface of the second plate 120, which will be described with reference to FIG. 4. In FIG. 3, the first plate 110 having four reinforcement through-holes 111 formed in the center and four first bolt through-holes 112 formed on the outside thereof correspond to the first plate 110. At the same time, four second bolt through-holes 122 are formed at the outside, and at the same time, the second plate 120 protruding from the female screw hole 121 can be seen. The first plate 110 is configured to serve as a pressure plate and the second plate 120 is configured to serve as a spacer, which will be described in detail with reference to FIG. 5A.

The connecting bolt 130 is configured to pass through the first bolt through hole 112 of the first plate and the second bolt through hole 122 of the second plate at the same time, and the fixing nut 140 is the connecting bolt 130. Screwed) to secure the connecting bolt 130 to each of the first plate 110 and the second plate 120. The separation distance between the first plate 110 and the second plate 120 is determined according to the fastening position of the fixing nut 140. In Figure 3, while using the bolt head connection bolt 130, while fixing the connection bolt 130 to the first plate 110 with one fixing nut 140, a pair of fixing nuts 140 As can be seen that the fixing bolt 130 is fixed to the second plate 120.

4 illustrates an assembled state of the spacer combined pressure plate 100 and the binding member 220 of FIG. 3. As shown in FIG. 4, the female bolt hole 121 of the second plate may be screwed into the tightening bolt 222 of the long binding member and the sleeve 221 may be fitted. In particular, as shown in FIG. 4, if the female threaded hole 121 protrudes from the second plate 120, the sleeve 221 can be fitted into the female threaded hole 121, thereby simplifying the position fixing of the sleeve 221. Naturally, the female screw hole 121 may not be protruded from the second plate 120 but may protrude in a direction opposite to that of FIG. 4.

5A to 5E illustrate the order of constructing the retaining wall W while using the spacer combined pressure plate 100 of FIG. 3, and the retaining wall construction method according to the present invention will be described step by step.

(1) First step (Fig. 5a)

The ground reinforcement work is performed by the ground reinforcement (R) by any one of nail, earth anchor, and rock bolt while using the spacer combined pressure plate 100. In this case, the spacer combined pressure plate 100 is installed in such a manner that the ground plate reinforcing hole (111) of the first plate passes through the ground reinforcing hole (R) in close contact with the ground surface. That is, the first plate 110 is installed as a pressure plate for fixing and fixing the ground reinforcement (R) to the ground surface. Since the bolt head of the connecting bolt 130 can absorb the ground surface of the soft ground or the uneven cut ground sufficiently, the first plate 110 can be installed as the pressure plate while being in close contact with the ground surface. Considering the installation of the fastening material 220, this step is to use a spacer provided with a female screw hole 121 in the second plate 120 as a combined pressure plate 100. In FIG. 5A, the nail is constructed by the ground reinforcing hole R, and the nail is passed through the reinforcing hole through hole 111 of the first plate to fix the first plate 110 with a nut.

(2) Second Step (FIG. 5A)

In the spacer combined pressure plate 100, the fixing nut 140 is adjusted to adjust the separation distance between the first plate 110 and the second plate 120. The distance between the first plate 110 and the second plate 120 is determined in consideration of the spacing spacing of the wall reinforcement (W1) to abs abs.

(3) 3rd step (FIG. 5B)

The reinforcing bar W1 is fastened or restrained to the connecting bolt 130 positioned between the first plate 110 and the second plate 120 of the spacer combined pressure plate. In Figure 5b it can be seen that the horizontal reinforcement of the reinforcing bar (W1) over the connecting bolt 130, in this case it may be constrained by binding the wall reinforcement (W1) and the connecting bolt 130 with a binding line. As such, when the reinforcement position of the horizontal reinforcement of the wall reinforcement (W1) is determined, the reinforcement position of the vertical reinforcement is naturally determined. This is because the vertical reinforcing bar can be determined by binding to the horizontal reinforcing bar.

(4) 4th step (FIG. 5C)

The retaining wall formwork 210 is installed to be spaced apart from the second plate 120 of the spacer combined pressure plate while using the binding material 220. In the present invention, it is proposed to use a long binding material 220 composed of a sleeve 221, a fastening bolt 222, a fixing key 223, and also to the second plate 120 for the use of such a long binding material 220. It is proposed to use a spacer combined pressure plate 100 having a female threaded hole 121. In the binding material 220, the sleeve 221 receives the female screw hole 121 of the second plate between the second plate 120 and the retaining wall formwork 210, respectively, the second plate 120 and the retaining wall formwork 210 The fastening bolt 222 is inserted into the sleeve 221 through the retaining wall formwork 210 and screwed into the female screw hole 121 of the second plate, and fixed to the plate surface of the second plate. The key 223 is configured to fix the fastening bolt 222 to the retaining wall formwork 210. In FIG. 5C, the fixing key 223 is provided as a nut, and the screw is fastened to the fastening bolt 222. However, if the Euroform is applied to the retaining wall formwork 210, the fastening bolt 222 is a tie bolt (one end is male thread). The other end may be formed with a flat pin coupling hole, and the fixing key 223 may apply a wedge pin (inserted into the pin coupling hole of the tie bolt).

(5) 5th step (FIG. 5D)

Wall concrete (W2) is poured into the retaining wall formwork 210. Since the retaining wall formwork 210 is tightly installed on the spacer combined pressure plate 100 by the long binding material 220 and the spacer combined pressure plate 100 is fixedly installed on the ground surface by the ground reinforcing hole R, the retaining wall formwork 210 ) Supports stably the wall concrete (W2) pour pressure without a separate brace.

(6) 6th step (FIG. 5E)

The retaining wall formwork 210 is demolded. In the case of using the long binding material 220 formed of the sleeve 221, the fastening bolt 222 and the fixing key 223, the retaining wall formwork 210 may be demolded while removing the fixing key 223 and the fastening bolt 222. . As a result, the retaining wall W in which the reinforced concrete wall is integrated on the ground surface stabilized by the ground reinforcement hole R is completed. In particular, when the fixing key 223 and the fastening bolt 222 are removed, a cap is put on the spot to protect foreign matter from accumulating in the sleeve 221 or the female screw hole 121 inside the sleeve 221 is provided with various retaining wall facilities. (Lights, billboards, flower beds, etc.) to be used as a device.

The present invention has been described in detail above with reference to specific embodiments, but the embodiments are only for illustrating the present invention, and thus the embodiments substituted, added, and modified within the scope without departing from the spirit of the present invention are also described below. It will be said to belong to the protection scope of the present invention as defined by the claims appended hereto.

100: spacer combined pressure plate
110: First Edition
111: reinforced hole through hole
112: first bolt through hole
120: second edition
121: Amsana Hall
122: second bolt through hole
130: connecting bolt
140: fixing nut
210: retaining wall formwork
220: long binding
221: sleeve
222: tight bolt
223: Sticky Key
R: Ground reinforcement (R)
W1: wall rebar
W2: Wall Concrete
W: retaining wall

Claims (5)

It is installed in the ground reinforcement (R) protruding from the ground surface stabilized by the ground reinforcement (R) by any one of nail, earth anchor, rock bolt,
A first plate 110 having a first bolt through hole 112 formed therein and a reinforcing hole through hole 111 through which the ground reinforcing hole R protruding from the plate surface is formed;
A second plate 120 disposed to be spaced apart from the first plate 110 and having a second bolt through hole 122 formed on a plate surface thereof;
A connection bolt 130 installed to simultaneously pass through the first bolt through hole 112 of the first plate and the second bolt through hole 122 of the second plate;
A fixing nut 140 screwed to the connection bolt 130 to fix the connection bolt 130 to the first plate 110 and the second plate 120, respectively;
Combined pressure plate 100 for a spacer for reinforcing integral retaining wall construction, characterized in that comprising a. In claim 1,
The first plate 110, the reinforcement through-holes 111 is formed in the middle of the plurality of first bolt through-holes 112 is formed in the outer,
The second plate 120, the spacer combined pressure plate for a reinforcing integral retaining wall construction, characterized in that a plurality of second bolt through-hole 122 is formed on the outside so as to correspond to the first plate (110). The method of claim 1 or 2,
The second plate 120 is a spacer combined pressure plate for reinforcing integral retaining wall construction, characterized in that the plate surface is provided with a female screw hole (121). While using the spacer combined pressure plate 100 according to claim 1 or 2, the ground reinforcement work is performed by the ground reinforcement (R) by any one of nail, earth anchor, and rock bolt, but the reinforcement of the first plate. A first step of performing a ground reinforcing hole (R) through the through-hole 111 while fixing the first plate 110 in close contact with the ground surface;
A second step of adjusting the separation distance between the first plate 110 and the second plate 120 by adjusting the fixing nut 140 in the spacer combined pressure plate 100;
A third step of reinforcing while confining or restraining the wall reinforcement W1 to the connection bolt 130 located between the first plate 110 and the second plate 120 of the spacer combined pressure plate;
A fourth step of installing the retaining wall formwork 210 spaced apart from the second plate 120 of the spacer combined pressure plate while using the binding material 220;
A fifth step of placing wall concrete (W2) in the retaining wall formwork (210);
A sixth step of demolding the retaining wall formwork 210;
Reinforced integral retaining wall construction method comprising a. In claim 4,
The first step is made while using a spacer combined pressure plate 100 having a second plate 120 provided with a female screw hole 121 on the plate surface,
In the fourth step, the female plate hole 121 of the second plate is accommodated between the second plate 120 and the retaining wall formwork 210 so as to be supported on each plate surface of the second plate and the retaining wall formwork 210. Sleeve 221; A fastening bolt 222 inserted into the sleeve 221 through the retaining wall formwork 210 and screwed into the female screw hole 121 of the second plate; It is made while using the long binding material 220, including a fixing key 223 for fixing the fastening bolt 222 fixed to the retaining wall formwork 210,
The sixth step, reinforcing integral retaining wall construction method characterized in that the fixing key 223 and the tightening bolt 222 is removed.

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