KR20160073795A - Retaining wall construction method in which the vertical precast structures utilizing this structure - Google Patents

Abstract

The present invention relates to a vertical precast structure, and a retaining wall construction method using the same. More specifically, provided are the retaining wall construction method using the vertical precast structure, and a new form of the vertical precast structure which has no limitations for transportation and transfer even if the precast structure is integrally manufactured without field joining; is conveniently installed in a site; and reduces a construction time for a retaining wall structure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a vertical precast structure and a reticulated wall construction method using the same,

The present invention relates to a vertical precast structure and a method of constructing a retaining wall using the structure. More particularly, the present invention relates to a vertical precast structure and a method of constructing a retaining wall structure The present invention relates to a new type of vertical precast structure capable of shortening the construction air of the building, and a method of constructing a retaining wall using the structure.

Generally, a retaining wall is installed to install structures such as earth, road, railroad, park, river bank, etc. on a slope.

These retaining wall works have been constructed mainly by installing reinforcing bars and formworks on the site and installing concrete.

However, since construction of concrete retaining wall by such site casting is carried out directly on site in order to form a retaining wall structure, construction period is prolonged and construction cost is high, There is a problem that the inconvenience is large and the risk of a safety accident is large.

In consideration of this problem, recently, a method of assembling an L-shaped or inverted T-shaped precast concrete retaining wall manufactured in the factory in the field has been used.

The prefabricated precast concrete retaining wall has a fast construction speed and can be backfilled immediately after installation of the retaining wall and restoration of the surrounding wrapping, so it is very effective for complicated downtown and urgent construction because it can solve problems such as civil inconvenience and safety accident caused during construction .

However, such a conventional precast concrete retaining wall is limited in its size because it is subject to restriction on the road traffic laws and shaft weight when moving from the factory to the installation site. Therefore, precast concrete retaining wall which can overcome limitations of road traffic law and is easy to install on site is needed.

For the above reasons, in recent years, several precast structures in the form of blocks have been stacked to form a single retaining wall, and a method of constructing a retaining wall has been developed.

The vertical prestressing precast retaining wall and the construction method thereof as an embodiment of the above-described retaining wall construction method are disclosed in Japanese Patent Application Laid-Open No. 10-2009-0066562 (published on June 24, 2009)

A plurality of rigid rods connected to a lower surface of the base through a nut and erected upright from an upper surface of the base; And a plurality of precast wall blocks stacked in an upward direction from an upper surface of the base portion while being sandwiched between the steel bars,

And a nut is fastened to an upper end of the steel rods in a state where prestressing is applied to the precast wall blocks through the steel rods.

Also, as a construction method of the vertical prestressing precast retaining wall constructed as described above,

A steel bar having a nut at its lower end is fixed at regular intervals, a foundation is made by casting foundation concrete,

The precast wall blocks are factory-manufactured by each unit and transported to the site are inserted from the upper side to the lower side in the steel bar to stack the precast wall blocks from the upper side of the base portion in the upward direction,

The pre-casting wall blocks are prestressed through the steel rods, and grouting concrete is poured into the steel rod insertion portions of the precast wall block in a state where the nuts are fastened to the upper ends of the steel rods.

However, in the process of constructing the retaining wall by using the precast structure of block type as described above, there is a problem that the construction period is delayed due to the addition of a separate structure for stacking the blocks and for maintaining the stacked state of the blocks firmly. There arises a problem that it is difficult to assemble.

Also, due to the characteristics of the high-mounted retaining wall structure, the safety of the worker due to the assembly of the structure is significantly deteriorated.

Therefore, in constructing the retaining wall, it is possible to carry out the safe transportation because it is possible to overcome the limitation of the road traffic law even if the precast structure is manufactured in a large size while maintaining the effect of quick installation using the precast structure and safety improvement of the operator. It is necessary to provide a new type precast structure capable of constructing a more rigid precast retaining wall and a construction method using this structure.

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to overcome the limitation of travel in the Road Traffic Act, The present invention is to provide a new type precast structure having features such as convenience of installation, shortening of safety and shortening of air by connecting several precast structures, and a construction method using the structure.

In order to achieve this object,

According to an aspect of the present invention,

And a plurality of reinforcing bars 16 are connected to the reinforcing bars 11 on the one side of the reinforcing bars 11 so that the reinforcing bars 11 are exposed. A wall portion 18 formed with a plurality of connection grooves 15 through which a reinforcing bar 14 having a base portion 19 and a screw portion 13 connected to the reinforcing bars 11 on both sides are exposed, A plurality of ribs 20 having a plurality of moving holes 21 are integrally formed on one side of the base plate 20 so as to have a cross-sectional shape of "b" or "⊥".

In another embodiment,

The concrete 12 is placed on the outside in a state where the reinforcing bars 11 are installed in the inside of the body 10 and is installed and seated on the ground of the installation area and the detachment cone 17 is formed inside the body 10 on one side, A wall 19 formed with a plurality of connecting grooves 15 for exposing a reinforcing bar 14 having a base portion 19 formed with a plurality of extended reinforcing bars 16 exposed thereon and a screw portion 13 connected to the reinforcing bars 11 at both sides, And a plurality of ribs 20 having a plurality of moving holes 21 at one side of the wall portion 17 are integrally formed to have a cross section of "b" or "⊥" .

And a plurality of fastening nuts 33 which are screwed to the threaded portion 13 and formed with through holes 31 at the central portion and a hole 32 into which the threaded portion 13 of the reinforcing bar 14 is inserted, And a coupler (30) connected to the input / output terminal.

A method of constructing a retaining wall using a vertical precast structure,

(S1) a precast factory manufacturing step (S1) of forming a precast structure by forming reinforcing bars (11) inside a mold installed in a factory, forming an elongated reinforcing bar (16) to be partially exposed to the outside of the mold, and then casting concrete;

A precast movement and field installation step (S2) of positioning the reinforcing bars (16) of the precast structure so as to be directed to the upper side, aligning the reinforcing bars (16) to the installation site using a trailer,

The coupler 30 is inserted into the reinforcing bars 14 exposed in the connection groove 15 of the structure adjacent to the connection groove 15 of the precast structure installed on the site and fastened with the tightening nut 33, A pre-cast connection establishing step (S3) for firmly connecting the first and second terminals to each other;

(S4) a reinforcing steel joint is installed on the extended reinforcing bar (16) exposed to one side and an elongating step (S4) is performed to form a mold;

And a concrete casting and curing step (S5) in which the concrete is cured and cured between the formwork and the concrete casting structure so that the lower portions of the plurality of precasted structures are integrally connected to each other.

As described above, the vertical precast structure according to the present invention has a large size precast concrete structure that can be manufactured in a size satisfying the road traffic method by removing the heel of the base portion of the structure, thereby facilitating transportation.

In addition, since the precast structure according to the present invention can be integrally manufactured by using the vertical precasting mold, the stiffness is increased to prevent breakage. Particularly, since the neighboring structure is connected with the coupler, There is a sustainable effect.

In addition, since the lower portions of the structures constituting the retaining wall are poured in a state of being integrally connected through the reinforcing bars installed on the site, the individual deformation of the structure due to the load of the retaining wall can be prevented.

In addition, according to the retaining wall construction method using the vertical precast structure according to the present invention, a new construction method is provided by merely using the advantages of construction and installation of a quick retaining wall using a precast structure and robustness of casting a concrete site, It is possible to prevent shortening of the construction period due to rapid installation of the building and the individual deformation of the retaining wall structure due to the load.

1 is a rear perspective view of a vertical precast structure according to the present invention;
2 is a cross-sectional view of a vertical precast structure according to the present invention;
3 is a cross-sectional view showing another embodiment of the vertical part precursor structure according to the present invention
4 to 5 are a perspective view and a front view showing a state where the vertical precast structure according to the present invention is connected to each other by a coupler
6 is a plan view showing a state in which a vertical precast structure according to the present invention is installed;
7 is a block diagram illustrating a method of constructing a retaining wall using a vertical precast structure according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

FIG. 1 is a rear perspective view of a vertical precast structure according to the present invention, FIG. 2 is a sectional view of a vertical precast structure according to the present invention, and FIG. 3 is a sectional view of another embodiment of a vertical precast structure according to the present invention. 4 is a perspective view showing a state in which a vertical precast structure according to the present invention is connected to a vertical precast structure according to an embodiment of the present invention. FIG. 4 is a plan view of the vertical precast structure according to the present invention, And a front view.

As shown in the drawing, the vertical pre-cast structure (hereinafter, referred to as "structure") 100 according to the present invention is formed by placing concrete 12 on the outside in a state of reinforcing bars 11 inside, A base portion 19 which is seated on the ground and is exposed at one side by connecting a plurality of elongated reinforcing bars 16 to the reinforcing steel reinforcement 11 inside and a screw portion 13 connected to the reinforcing steel reinforcing bars 11 at both sides, A plurality of ribs 20 having a plurality of moving holes 21 at one side of the wall portion 18 are formed integrally with the wall portion 18 in which a plurality of connection grooves 15 in which the plurality of connection grooves 15 are exposed are formed, The cross section has the form of "ㄴ" or "⊥".

In addition, the structure 100 is constructed in a production factory by placing reinforcing bars in a mold and pouring concrete, and is installed on a ground or a foundation surface of a retaining wall installation area, and a wide foundation portion is brought into contact with a ground surface or a foundation surface of the installation area have.

The base portion 19 is provided on a ground surface or a base surface of the retaining wall mounting area, and a large floor surface is in contact with the ground surface or the base surface of the mounting area.

Typically, the bottom surface of the base portion 19 is formed in a rectangular shape. The bottom surface of the base portion 19 may be formed in a rectangle having a length L2 and a width W2 of 2.5 m x 3 m or 2.5 m x 2 m. That is, the length L2 of the bottom surface of the base portion 19 is 2.5 m according to the standard of the road traffic method, and the width W2 thereof can be set to 2 m or 3 m as required.

In addition, the upper surface of the base portion 19 may be formed to be inclined downward to both sides.

In addition, an engaging end portion 191 is formed on the rear surface of the base portion 19 in a stepwise manner so as to smoothly insert concrete, and a plurality of elongated reinforcing bars 16 are partially exposed to the outside of the engaging end portion 191 .

The reinforcing bars 16 may be formed such that one side of the reinforcing bar 16 is connected to the reinforcing bars 11 formed on the inside of the body 10 and the other side of the reinforcing bar 16 is exposed to the outside. The detachment cone 17 is integrally formed on one side of the reinforcing bars 16 and the concrete is laid to prevent the detachment of the reinforcing bars.

The wall portion 18 is formed so as to extend vertically upward in the base portion 19. [ That is, the wall portion 18 and the base portion 19 are formed as a single integral body to form a body 10 having a substantially "b" or "⊥" shape.

Further, the wall portion 18 is supported by the foundation portion 19 to block the slope of the slope of the installation region from flowing down. The width W1 of the wall portion 18 is generally the same as the width W2 (about 2 m or 3 m) of the base portion 19 and the width W1 of the wall portion 18 at the bottom of the base portion 19, And the height L1 to the upper end of the electrode assembly is approximately 7 m. However, this is only an example, and the height L1 of the wall portion 18 of the body 10 may be varied according to the needs of the installation area.

In addition, the wall portion 18 is formed so as to be thinner from the base portion 19 toward the upper end. Therefore, the thickness of the wall portion 18 is thinner than the thickness of the lower end connected to the base portion 19. However, when the soundproof wall is provided at the upper end of the wall portion 18, the upper end of the wall portion 18 may be formed thick enough to support the soundproof wall.

A plurality of connection grooves 15 are formed on both sides of the wall portion 18 to expose the reinforcing bars 14 having the screw portions 13 connected to the reinforcing bars 11 of the body 10, The coupler 30 can be firmly connected to the adjacent structure 100 '.

The coupler 30 is provided with a through hole 31 at a central portion thereof with a hole 32 through which the threaded portion 13 of the reinforcing bar 14 is inserted and has a plurality of fastenings And a nut 33.

4 and 5, the coupler 30 is positioned in the coupling groove 15 or 15 'and the reinforcing bars 14 and 14' exposed to both sides are positioned by the coupler 30 having the above- After the screw fastening nut 33 is screwed into the hole 32 and the reinforcing bar is screwed into the screw 32 with the fastening nut 33 to fasten the fastening nut 33 to the structure 100, So that the respective structures are brought into close contact with each other.

6 to 7, a method of constructing a retaining wall using a vertical precast structure according to the present invention will be described in detail with reference to the respective steps.

Precast  Factory Production ( S1 )

A precast structure is manufactured by placing a reinforcing steel (11) inside a mold installed in a factory and forming an extended reinforcing steel (16) to be partially exposed to the outside of the mold.

At this time, the elongated reinforcing bar 16 is integrally connected to the reinforcing steel reinforcement inside the mold or is formed integrally with the precast structure by forming a slip preventing cone and pouring concrete around the reinforcing steel reinforcing bars.

Precast  Moving and field installation phase ( S2 )

The precast structure is transported to a construction site using a trailer. In the course of loading the trailer, it is possible to prevent the extension reinforcing bars from being damaged by stacking the reinforcing bars 16 so as to face upward, And move it.

In addition, the structure moved to the installation site seats the base portion 19 so as to be in contact with the ground surface or foundation surface of the installation area.

Precast  Connection setup phase ( S3 )

The coupler 30 is inserted into the reinforcing bar 14 exposed in the connection groove 15 of the structure adjacent to the connection groove 15 of the precast structure installed at the installation site and is fastened with the fastening nut 33, The structures are connected firmly to each other.

Extension step ( S4 )

The extended reinforcing bars 16 exposed to one side of the foundation 19 are used to connect to the reinforced reinforced reinforced concrete reinforced concrete part, and the formwork is installed at one side edge thereof.

Concrete pouring and curing step ( S5 )

The concrete is laid and cured between the formwork and the praecast structure so that the foundation portions 19 of the various precast structures are connected to each other through the site reinforcement and the concrete is poured in the second order. And positional deformation can be prevented, and a more solid retaining wall can be constructed.

The present invention has been described with reference to the embodiments shown in the attached drawings, but it will be understood that various modifications and other embodiments are possible for those skilled in the art.

10: Body 11: Reinforcement
12: Concrete 13: Screw
14: Rebar 15: Connection groove
16: Extension Reinforcement 17: Retaining Cone
18: wall portion 19: base portion
191: engaging end 20: rib
21: moving ball 30: coupler
31: through hole 32: hole
33: Fastening nut

Claims (4)

And a plurality of reinforcing bars 16 are connected to the reinforcing bars 11 on the one side of the reinforcing bars 11 so that the reinforcing bars 11 are exposed. A wall portion 18 formed with a plurality of connection grooves 15 through which a reinforcing bar 14 having a base portion 19 and a screw portion 13 connected to the reinforcing bars 11 on both sides are exposed, , And a plurality of ribs (20) having a plurality of moving holes (21) are integrally formed on one side of the side wall (12) and have a cross section of "ㄷ" or "⊥".
The concrete 12 is placed on the outside in a state where the reinforcing bars 11 are installed in the inside of the body 10 and is installed and seated on the ground of the installation area and the detachment cone 17 is formed inside the body 10 on one side, A wall 19 formed with a plurality of connecting grooves 15 for exposing a reinforcing bar 14 having a base portion 19 formed with a plurality of extended reinforcing bars 16 exposed thereon and a screw portion 13 connected to the reinforcing bars 11 at both sides, Characterized in that a plurality of ribs (20) having a plurality of moving holes (21) are integrally formed at one side of the wall portion (18) and the wall portion (17) Vertical precast structures.
3. The method according to claim 1 or 2,
And a plurality of fastening nuts 33 which are screwed to the threaded portion 13 and formed with through holes 31 at the central portion and a hole 32 into which the threaded portion 13 of the reinforcing bar 14 is inserted, Further comprising a coupler (30) disposed between the first and second plates.
A method of constructing a retaining wall using the vertical precast structure of claim 1 or claim 2,
(S1) a precast factory manufacturing step (S1) of forming a precast structure by forming reinforcing bars (11) inside a mold installed in a factory, forming an elongated reinforcing bar (16) to be partially exposed to the outside of the mold, and then casting concrete;
A precast movement and field installation step (S2) of positioning the reinforcing bars (16) of the precast structure so as to be directed to the upper side, aligning the reinforcing bars (16) to the installation site using a trailer,
The coupler 30 is inserted into the reinforcing bars 14 exposed in the connection groove 15 of the structure adjacent to the connection groove 15 of the precast structure installed on the site and fastened with the tightening nut 33, A pre-cast connection establishing step (S3) for firmly connecting the first and second terminals to each other;
(S4) a reinforcing steel joint is installed on the extended reinforcing bar (16) exposed to one side and an elongating step (S4) is performed to form a mold;
And a concrete pouring and curing step (S5) in which concrete is placed and cured between the formwork and the praecast structure so that the lower portions of the plurality of precast structures are integrally connected to each other. Retaining wall construction method.

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