KR101385017B1 - Retaining wall and its costructure method - Google Patents

Abstract

The present invention relates to an anchor type retaining wall structure and, more specifically, to a retaining wall structure and a method for constructing a retaining wall using the structure. Without installing a scaffold at a construction site, the retaining wall structure can prevent a safety accident of a worker who works at a high altitude in advance by allowing the worker to use a prefabricated reinforcing bar and a prefabricated wall structure for constructing a retaining wall. Moreover, the retaining wall can reduce costs by simplifying a construction method. [Reference numerals] (AA) A direction

Description

Retaining wall structure and retaining wall construction method using the same {Retaining wall and its costructure method}

The present invention relates to an anchor retaining wall structure, and more particularly, by using prefabricated preformed reinforcing bars and wall structures for retaining wall construction without installing a scaffold in the field, thus preventing safety accidents of workers from working at high altitudes. The present invention relates to a retaining wall structure and a retaining wall construction method using the same.

When reinforcing or linking reinforcing bars, it is necessary to ensure the required length to prevent the reinforcing bars from concrete due to external forces acting on the rebars. The settlement and joint length of the reinforcing bars are closely related to the strength of the reinforcing bars and the bond strength of the concrete. Reinforcing bars and joints are usually longer because the more reinforcing bars are, the stronger they are to be separated from the concrete.

In addition, the higher the strength of the concrete, the higher the bond strength. Therefore, the higher the strength of the concrete in the case of reinforcing steel bars with the same strength, the shorter the fixing and joint length.

As described above, rebar is an element that is frequently used in construction sites such as concrete structures. When reinforcing walls such as floors or walls of buildings are used without reinforcing bars, the reinforcing bars are inevitably weakened.

On the other hand, when constructing the floor of the building, we lay the reinforcing bar in the frame and lay the concrete on top of it, so there is little risk to work. However, the construction of retaining wall such as a wall is completed through the process of installation of formwork, reinforcement (bonding), ready-mixed concrete laying, curing, form dismantling, backfilling, etc. Since the work to complete the above layer is repeatedly performed, the work may not be easy.

In particular, in the reinforcement of the reinforcing bar reinforcement to build up the retaining wall of each layer, in the prior art, the worker climbs to a high position through a ladder or scaffolding, and binds the reinforcing bars individually at that position. The work is quite dangerous because it must be done.

In addition, the construction of the retaining wall requires additional auxiliary personnel, which causes a problem of an increase in construction costs due to the increasing labor costs.

Therefore, the present invention intends to present a construction method that can be installed in the retaining wall while omitting the scaffold installation in view of this.

As a problem of the present invention, by using prefabricated reinforcement and wall structures for retaining wall construction, the retaining wall structure which can prevent the safety accident of the worker due to working in high altitude and reduce the cost due to the simplicity of the construction method And to provide a retaining wall construction method using the same.

Means for solving the above problems are as follows.

Performing an anchor construction after performing the thumb pile construction and the trench (S100);

Installing the belt and the pedestal, and tensioning the anchor (S200);

Coupling the strips (50, 51) to the strips (80, 81) as a medium for connecting the panel (200) and the strip (50) (S300);

Preparing a panel to be bonded to the band-binding member, and coupling the band-binding member (S400);

After the completion of the step S400, for further work, further proceeds with the digging work downward, and further performing steps S100 to S400, so that a multi-layer panel is installed in the vertical direction (S500);

A step (S600) formed on one side of each of the upper and lower layers of the panel 200 to fall down such that the longitudinal rebars penetrate into the center of the pipe-shaped longitudinal rebar guides 470; , ≪ / RTI &

On one side of the panel 200, a plurality of reinforcing bar fasteners 300 are formed to protrude perpendicular to the panel surface, transverse bars (401 ~ 404) are bound across the reinforcing bar fasteners,

The longitudinal rebar guide receiving portion 420, 423, which is a hole formed in a portion where the respective reinforcing bar fastenings and the horizontal reinforcing bar is further installed, is further provided with a vertical rebar guide 470 in the vertical direction, so that the longitudinal rebar of the step S600 passes. Characterized in that, the retaining wall construction method is presented and the details will be described in detail for carrying out the invention.

According to the present invention, by using the prefabricated pre-formed reinforcing bar and wall structure for the construction of the retaining wall, it is possible to prevent the safety accident of the operator due to working in high altitude and achieve cost reduction due to the simplicity of the construction method.

1 is a view of the state of the thumb pile construction and burrow,
2 is a scene in which the anchor is constructed,
3 is a state in which the belt and the pedestal is installed in the state of FIG. 2 and the anchor is tensioned;
Figure 4 is a state diagram immediately before coupling the band binding body to the band of Figure 3
5 is a state diagram immediately before the cross-bar is bound and the cover is attached to the other side, the panel is prepared and coupled to the band-like binding body,
6 is an enlarged view of the band-binding member
7 is a state in which the cover and the panel is separated,
8 and 9 is a state diagram before and after the longitudinal rebar installation,
10 is a view from above and from the front of the panel, respectively;
Figure 11 is a state of installing a two-stage anchor, repeated panel construction
12 is a state diagram immediately before placing the foundation concrete, installing a safety fence, and inserting the longitudinal reinforcing bar into the longitudinal rebar guide from above;
It is a figure which finishes wall concrete pouring.

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

However, the scope of the present invention includes all inventions equivalent to the claims at the level of those skilled in the art.

Referring to the retaining wall construction procedure, first, FIG. 1 is a view showing a state of construction of a thumb pile and a trench, and FIG. 2 corresponds to a scene where an anchor is constructed. In the present invention can be applied to any anchor construction without being particularly limited to the anchor construction method, a detailed description thereof will be omitted.

As shown in FIG. 3, the belts 50 and 51 and the pedestal 60 are installed and the anchor is tensioned.

After 4, the unique structure and construction method of the present invention are presented.

4 is a state diagram immediately before coupling the band binding body (80,81) to the band of Figure 3, in the present invention, instead of installing a scaffolding structure is installed in the usual retaining wall construction, as shown in FIG. After the other structures have been prepared in advance, use a unique method of binding them to the band- ing.

A medium connecting the panel (FIG. 9, 200) and the strip 50 corresponds to the strip binding 80. One side of the belt binding body is formed with a thread 85 (Fig. 6) that can be screwed with the bolt (Fig. 5, 105). Of course, it is also possible to form a nut in place of the bolt and a bolt structure in place of the thread 85 female.

6 shows a detailed view in which the band binding body 80 and the band length are combined.

It is preferable that the belt-binding body legs are formed in a total of four, and each pair is formed in such a manner that the two pairs are fitted with both sides of the body of the belt-length 50 interposed therebetween. In particular, the leftmost leg 87a is preferably formed longer than the other legs 87b, 87c and 87d (close to the H length) in consideration of the bending moment imposed on the band-bond.

Referring to FIG. 5, a panel 200 and a reinforcing fixture 300 coupled to the panel 300 (see FIG. 8) and a cover 100 structure are illustrated in front of the strip.

The bolt 105 couples the panel and the cover to the strip 50. Meanwhile, the fastening finish material 108 serves to cover the bolt, and aims to prevent infiltration of aesthetics and moisture or other contaminants.

On one side of the panel of Figure 5, the horizontal reinforcing bars (401, 402) is bound, the detailed view of Figure 5 can be grasped with reference to FIG.

In Figure 8, the transverse rebars (401 ~ 404) are bound with the reinforcing bar 300, and prepared in advance outside the construction site can significantly improve the productivity of the construction work. The structure of FIG. 8 will be collectively referred to as a panel structure (except 370-376 longitudinal bars).

Of course, unlike FIG. 7, the panel structure and the cover 100 of FIG. 8 may be attached in advance and prepared before construction.

The panel structure will be described in more detail with reference to FIGS. 8 and 9. FIG. 8 illustrates a state immediately before dropping the longitudinal reinforcing bars 370 to 376 into the longitudinal reinforcing bar guide 470 of the panel structure.

The inside of the panel 200 allows the wire mesh 230 to be formed vertically and horizontally. This state is illustrated in detail in the upper side of FIG. 10, and the lower figure of FIG. 10 shows the state in which the wire mesh 230 is formed in the panel. have. That is, the lower side of FIG. 10 is a view for looking at the panel in the direction A of FIG. 9, to cut the center of the panel to grasp the structure of the wire mesh 230, and the upper side of FIG. 10 is a view looking down from the top of the panel.

As shown in Figure 8, the reinforcing bar 300 is to be bent to form a metal steel material similar to the form of recognition, transverse reinforcement (401 ~ 404) serves to connect between the reinforcing bar 300. Of course, the reinforcing fixture may be formed in other ways without bending the steel.

The two end portions of the reinforcing fixture 300 in the shape of legs pass through the inside of the panel 200 and are coupled with the wire mesh 230 structure.

The upper figure of FIG. 10 corresponds to a view from the top of the panel. The binding state of the inner wire mesh 230, the reinforcing bar 300, and the transverse rebars 401 and 402 of the panel can be grasped. In Fig. 10, the pipe-shaped longitudinal rebar guides (see Fig. 8, 470) for guiding the longitudinal rebars 373 are not shown.

In FIG. 8, at the point where the transverse rebars 401 to 404 are engaged with the rebar fixing tool 300, the longitudinal rebar guide accommodation parts 420 to 423 are formed. The longitudinal reinforcing bar guide portion corresponds to a hole created by overlapping the rebar and the reinforcing bar fixture, and the vertical reinforcing bar guide 470 having a pipe shape having a predetermined length is fixedly installed in the hole (vertical reinforcing bar receiving portion). do.

As shown in FIG. 8, the longitudinal rebar guide 470 is intended to be installed by passing the vertical rebars therein, and the pipe center of the vertical rebar guide 470 of the upper and lower panels of FIG. 8 is well installed. It must be aligned so that the longitudinal rebars 370-376 can pass through each longitudinal rebar guide installed in the two panels.

For convenience, the illustration of the longitudinal rebar guide, which is fixed to the pointed portion in front of the reinforcing bar 300, such as the positions 420 and 421 in FIG. 8 and 9, the longitudinal reinforcing bars will fall.

That is, in FIG. 8, after installing the structure in the upper and lower layers, the vertical reinforcing bars fall from the upper side to the lower side to penetrate the inside of the vertical reinforcing guide receiving unit, thereby structurally integrating the upper and lower panels.

In FIG. 9, all the longitudinal reinforcing bars 370 to 376 and 380 to 386 are inserted into the longitudinal reinforcing bar guide receiving unit 470 (for convenience, only upper and lower panels of FIG. 8 are shown). Reinforcing bars and longitudinal reinforcing bars are woven together to serve as a skeleton inside the wall concrete.

To summarize the features of the present invention, the panel structure as shown in Figure 8 is prepared before construction, such a panel structure is provided with a longitudinal reinforcing bar guide 470 is installed in the panel structure in advance to accommodate the longitudinal reinforcement, Since it can be inserted very easily, construction productivity is significantly increased, and since there is no need for a separate scaffolding structure, there are various advantages such as worker safety and construction cost reduction and retaining wall installation time.

After installing both the panel and the cover of FIG. 5 in the strip, two-stage anchors can be installed as shown in FIG. 11, and the panel can be repeatedly constructed. Of course, the structure shown in Figure 5 can be installed up and down in three stages depending on the retaining wall height and construction conditions.

12 is a state diagram immediately before placing the foundation concrete, installing a safety fence, and inserting the longitudinal reinforcing bars into the longitudinal reinforcing rod guides from above, and FIG. 13 corresponds to a view of finishing wall concrete placing.

According to the present invention, by using the prefabricated pre-formed reinforcing bar and wall structure for the construction of the retaining wall, it is possible to prevent the safety accident of the operator due to working in high altitude and achieve cost reduction due to the simplicity of the construction method.

10: pile 12: earth plate
30: anchor
50, 51: Belt 60: Base
80,81: Band-binding body 85: Receiving part
87a, 87b, 87c, 87d: Hook part
100: cover 105: bolt 108: fastener
200: panel 202: workman
230: wire mesh
300: rebar fixing ball
370,371,372,373,374,375,376
380,381,382,383,384,385,386: Vertical rebar
401,402,403,404: cross bars
420,421,422, 423: Longitudinal rebar guide accommodating part
470: length rebar guide
600: safety fence

Claims (5)

Performing an anchor construction after performing the thumb pile construction and the trench (S100);
Installing the belt and the pedestal, and tensioning the anchor (S200);
Coupling the strips (80, 81) to the strips (50, 51), which is a medium for connecting the panel (200) and the strips (50) (S300);
Preparing a panel to be bonded to the band-binding member, and coupling the band-binding member (S400);
After the completion of the step S400, for further work, further proceeds with the digging work downward, and further performing steps S100 to S400, so that a multi-layer panel is installed in the vertical direction (S500);
A step (S600) formed on one side of each of the upper and lower layers of the panel 200 to fall down such that the longitudinal rebars penetrate into the center of the pipe-shaped longitudinal rebar guides 470;

Including, but on one side of the panel 200, a plurality of reinforcing fixture 300 is formed to protrude perpendicular to the panel surface, transverse reinforcing bars (401 ~ 404) are bound across the reinforcing fixtures,
The rebar guide receiving portion (420 ~ 423), which is a hole formed in the area where each of the reinforcing bar fastening and the horizontal reinforcing bar is further installed by the vertical rebar guide 470 in the vertical direction, the longitudinal reinforcing bar in step S600 passes Retaining wall construction method characterized in that.
Performing an anchor construction after performing the thumb pile construction and the trench (S10);
Installing the belt and the pedestal, and tensioning the anchor (S20);
Coupling the strips (50, 51) to the strips (80, 81), which is a medium for connecting the panel (200) and the strips (50) (S30);
Preparing a panel to be bonded to the band-binding member, and coupling the band-binding member (S40);
A step (S50) which is formed on one side of the panel 200, through the pipe-shaped longitudinal rebar guides 470, so that the longitudinal rebars are penetrated through the pipes;
, ≪ / RTI &
On one side of the panel 200, a plurality of reinforcing bar fasteners 300 are formed to protrude perpendicular to the panel surface, transverse bars (401 ~ 404) are bound across the reinforcing bar fasteners,
The rebar guide receiving portion (420 ~ 423), which is a hole formed in the area where each of the reinforcing bar fastening and the horizontal reinforcing bar is further installed by the vertical rebar guide 470 in the vertical direction, the longitudinal reinforcement of the step S50 passes Retaining wall construction method characterized in that.
The method according to claim 1 or 2,
One side of the belt binding member is formed with a thread 85 that can be screwed with the bolt 105, the other side of the belt binding member is formed with several legs,
Each of the legs of the belt binding body is configured to be sandwiched between both sides of the body of the belt 50, and the leftmost leg 87a of the legs of the belt binding body takes into account the bending moment imposed on the belt binding body. Retaining wall construction method characterized in that it is formed longer (close to the H length) than the other legs (87b, 87c, 87d). The method according to claim 1 or 2,
The wire mesh 230 is formed inside the panel 200.
Reinforcing bar 300 is a bent portion of the two bridge shape is formed, the retaining wall construction method characterized in that the bent legs of the reinforcing bars pass through the panel 200 and is bound to the wire mesh 230 structure.

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