KR101267095B1 - Construction method for block to anchor connecter rubbing paunch - Google Patents

Abstract

PURPOSE: A protective material construction method of a tension bar for connecting an anchor body is provided to prevent a retaining wall block from being overturned and to improve the self-supporting property of the retaining wall block by protecting a tension bar using a protective material. CONSTITUTION: A protective material construction method of a tension bar for connecting an anchor body comprises the following steps: installing foundation concrete according to the installation width of a retaining wall and building up retaining wall blocks(10) on the top of the foundation concrete; filling on-site useful soil in the back filling unit of the retaining wall block which contains crushed rock and compacting; connecting an anchor body(40) for supporting the retaining wall block to a tension bar(20); inserting a protective material(30) made of a stainless or copper pipe to the outside of the tension bar; and simultaneously bending the tension bar and protective material according to the curved part of the crushed rock and the size of the crushed rock for connecting the retaining wall block and the anchor body to the curved part.

Description

Construction Method for Block to Anchor Connecter Rubbing Paunch

 Tension rod 20 connecting concrete retaining wall block 10 and anchor body 40 to reinforce the concrete retaining wall, which is constructed so that the soil of the land or the cut surface is not collapsed or flowed due to earth pressure. When there is an arm block (not shown) having a diameter of 30 to 70 cm or more at the installation position of the tension bar 20, in order to form a curved portion in the state in which the protective material 30 is fitted to the outside of the tension bar 20. Since the protective material 30 and the tension bar 20 are formed at the same time as the curved portion of the arm block (not shown) based on the bending mechanism (not shown), the protective material 30 is installed on the tension bar 20. As a result, the tension bar is protected from a rock block (not shown) having a sharp surface, so that the field soil containing a large amount of rock blocks (not shown) is not carried out to the outside. As a filling soil,

In addition, it relates to the construction method of the protective material for protecting the tension rod connecting the anchor body 40, which improves the performance of the anchor body 40 by utilizing the resistance of the arm block (not shown) having a diameter of 30-70 cm or more.

        In the conventional retaining wall, the retaining wall formed on the ground surface or the cut surface consisting of rocks is installed in a state in which the retaining wall is arranged in the horizontal and vertical directions based on the reinforcing bars 25 to form the skeleton, and then wrapped in a formwork and then the concrete in the formwork. The wall was formed by pouring and curing, and the back surface of the wall was constructed by filling the backfill soil including soil, crushed stone and rubble.

       However, the concrete retaining wall in which the reinforcing bar 25 is embedded has a low installation cost, but has a disadvantage of harming the urban environment because it is not environmentally friendly.

       In addition, when the retaining wall is constructed, a plurality of retaining wall blocks are stacked in the longitudinal and transverse directions along the fill surface or the cut surface, and then the back retaining wall blocks are constructed by filling the back surface with rubble or sharp field surface soil. Construction technology has been proposed.

In order to improve the self-supporting force of the retaining wall block, it is reinforced with a mesh grid or a geogrid, but there is a problem that breaks easily when connected to a sharp surface of an arm block (not shown).

In addition, in order to compensate for this, the reinforcing bar 25 is replaced, but the sharp contact surface of the rock block (not shown) and the surface of the reinforcing bar 25 causes a lot of damage, in particular, the arm bar (not shown) (25), the tensile force is generated in the outer circle of the reinforcing bar 25, so that the cracks are generated on the surface of the reinforcing bar 25 due to the occurrence of fine cracks, rain water, moisture, etc. are penetrated to generate a large amount of rust 25) is damaged, so the bearing capacity is sharply lowered, causing the entire retaining wall block to collapse.

Recently, the use of sea sand prevents the penetration of salt, and the epoxy resin-coated rebar (25) manufacturing apparatus has been proposed and improved, but this tends to avoid its use due to the high construction cost.

In addition, when the reinforcing bar 25 is bent in a curved shape, since the cracks generated in the cross-sectional direction are generated in the outer circle where the epoxy resin-coated reinforcing bar 25 is bent, the rainwater or the moisture permeates the cracks. The problem of shortening the life of the epoxy resin coated rebar 25 remains.

In addition, when the state of the curved portion of the reinforcing bar 25 is observed, the compressive stress acts on the inner curved portion, and the outer curved portion generates fine cracks in the cross-sectional direction on the outer curved portion while the tensile stress occurs, so that rainwater or moisture rides on the crack. There is a problem that rust occurs and oxidization is intensified and rust occurs in the rebar (25).

KR-B1-0138196

When constructing a general concrete retaining wall, the retaining wall block is constructed in a predetermined height and width in a zigzag manner on the concrete foundation, and the tension bar 20 is used even in a harsh environment that is filled with a dark block (not shown) generated in the retaining wall installation unit. The intact protective material 30 is a safe tension rod 20 installed outside the tension rod, and is connected to the anchor body 40 installed at a predetermined distance apart from the retaining wall block 10, thereby preventing the fall of the retaining wall block. It is done.

In addition, if the retaining wall block 20 that connects the retaining wall block 10 and the anchor body 40 is damaged, the retaining wall block cannot be supported, and thus, a tension bar reinforced with a stainless steel pipe or a copper pipe in order to prevent the retaining wall block. (20) It is intended to protect the tension bar 20 by installing the protective material 30 of the tension bar 20 on the surface of the tension bar 20.

In addition, when the tension bar 20 is bent to form the same curved portion as that of the female to hang an arm block (not shown) having a diameter of 30 to 70 cm or more, the outer circle of the curved part prevents fine cracks from occurring due to tensile stress. In order to reinforce, the protective material 30 is installed on the outside of the tension bar 20 to form a curved portion based on the tension rod 20 bending mechanism (not shown), and wound similarly to the curved portion of the arm block (not shown). The tension bar 20 is installed, the arm block (not shown) having a diameter of 30-70 cm or more for the purpose of reinforcing the function of the anchor body 40 by the generation of a resistance force.

In addition, since the curved portion of the tension rod 20 connecting the concrete retaining wall and the anchor body 40 is reinforced to protect the tension rod 20 from the sharp surface of the arm buckler (not shown), The purpose is to smoothly utilize the large amount of field utility soil contained.

The present invention is a construction method of the protective material for protecting the tension bar connecting the anchor body,

In order to protect the tension bar 20 from the concrete retaining wall block 10 and the tension bar 20 and the sharp surface of the arm block (not shown) according to the construction of the retaining wall, a protective material 30 made of stainless steel pipe or copper pipe is used. A first step of preparing;

 A second step of installing foundation concrete (not shown) according to the width of the overall retaining wall installation on the left and right sides;

A third step of assembling the retaining wall block 10 on the base concrete (not shown);

A fourth step of filling the back fill portion of the rear wall of the retaining wall block 10 with the back fill portion based on the site-use soil containing a large amount of arm blocks (not shown), and compacting according to the compaction machine (not shown);

A fifth step of connecting the anchor body 40 supporting the retaining wall block 10 based on the tension bar 20 while repeating the third and fourth steps;

In the process of connecting the tension bar 20, when there is an arm block (not shown) having a diameter of 30-70 cm or more at the installation position of the tension bar 20, a protective material made of stainless steel pipe or copper pipe ( A sixth step of fitting 30) to the outside of the tension bar (20);

According to the size of the arm block (not shown) in accordance with the curved portion of the arm block (not shown) the tension bar 20 and the protective material 30 at the same time, the tension bar 20 by bending the banding mechanism (not shown) The seventh step of connecting the anchor body 40 to the tension rod 20 in accordance with the curved portion of the block (not shown);

When constructing a general concrete retaining wall, the retaining wall block is constructed in a predetermined height and width in a zigzag manner on the concrete foundation, and the tension bar 20 is used even in a harsh environment that is filled with a dark block (not shown) generated in the retaining wall installation unit. The intact protective material 30 is a safe tension rod 20 installed outside the tension rod, and is connected to the anchor body 40 spaced apart from the retaining wall block 10 so that the effect of preventing the fall of the retaining wall block is provided. have.

In addition, if the retaining wall block 20 that connects the retaining wall block 10 and the anchor body 40 is damaged, the retaining wall block cannot be supported, and thus, a tension bar reinforced with a stainless steel pipe or a copper pipe in order to prevent the retaining wall block. 20, the protective material 30 of the tension bar 20 is installed on the surface of the tension bar 20 has the effect of protecting the tension bar (20).

In addition, when the tension bar 20 is bent to form the same curved portion as that of the female to hang an arm block (not shown) having a diameter of 30 to 70 cm or more, the outer circle of the curved part prevents fine cracks from occurring due to tensile stress. In order to reinforce, the protective material 30 is installed on the outside of the tension bar 20 to form a curved portion based on the tension rod 20 bending mechanism (not shown), and wound similarly to the curved portion of the arm block (not shown). The tension bar 20 is installed, the arm block (not shown) having a diameter of 30-70 cm or more has the effect of reinforcing the function of the anchor body 40 by the generation of a resistance force.

In addition, since the curved portion of the tension rod 20 connecting the concrete retaining wall and the anchor body 40 is reinforced to protect the tension rod 20 from the sharp surface of the arm buckler (not shown), It has the effect of smoothly utilizing the large amount of field utility soil contained.

1 is a perspective view of a tension rod connecting the anchor body and the retaining wall block of the prior art.
Figure 2 is a perspective view of a tension bar provided with a protective material in the curved portion according to the present invention

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It must be interpreted in terms of meaning and concept.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

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

1 is a prior art, the outer curved portion 27 of the reinforcing bar 25 is a tensile stress is generated so that the crack occurs in the cross-sectional direction, the moisture contained in the rainwater or fill portion along the fine crack, this part Oxidation occurs rapidly in the outer curved portion 27 and finally the bearing capacity of the reinforcing bar 25 is lowered to play the role of the reinforcing bar 25, and the entire retaining wall block 10 tends to fall. Occurs.

In addition, when the retaining wall is constructed, a plurality of retaining wall blocks are stacked in the longitudinal and transverse directions along the fill surface or the cut surface, and then the back surface is filled with rubble or field utility soil, and the surface is sharp. Workplaces that use on-site soil containing a large amount of amber lumps (not shown) cannot be taken out to the outside, and they are often used as backfill soil of the cut portion. In the case where the surface of the reinforcing bar 25 connecting the retaining wall block and the anchor body is compacted with a vibration roller of 4 to 8 tons in contact with a sharp arm block (not shown), the surface of the reinforcing bar 25 may be damaged or cracked. This occurs, and the water remaining in the fill portion is absorbed along the damaged portion, so that the oxidizing action is severely generated in the reinforcing steel 25 and the rust is formed so that the damaged portion is further developed, thereby supporting the reinforcing steel 25. This is reduced, there is a tendency that the retaining wall block 10 is conducted.

Therefore, in the present application, since the retaining wall block is not capable of exhibiting a self-supporting function by itself, the tension bar 20 is protected by a protection material 30 that protects the tension bar 20 in order to reinforce the self-supporting performance. It is to improve the independence of the retaining wall block 10 by connecting the rear portion of the 10 and the anchor body 40 with the tension bar 20,

Thus, as shown in Figure 2 will be described the construction method of the protective material 30 for protecting the tension rod 20 connecting the rear portion and the anchor body 40 of the retaining wall block according to the present application.

In general, a retaining wall block 10 made of a concrete structure to form a retaining wall, and one side of the tension rod 20 connected to the rear portion of the retaining wall block 10 is a tension rod coupled to the rear portion of the retaining wall block 10. (20), when there is an arm block (not shown) having a diameter of 30-70 cm or more at the installation position of the tension bar 20, the tension bar 20 is bent in the same way as the curved portion of the arm block (not shown), In order to reinforce the curved portion of the tension bar 20, the protection member 30 formed of copper pipe or stainless steel pipe, the protective member 30 in the state sandwiched outside the tension bar 20, The tension rod 20 and the protective material 30 are bent using a tension rod 20 bending mechanism (not shown) so that the tension rod 20 and the protective material 30 are simultaneously bent along the curved portion of the arm block (not shown). The outer curved portion 31 and the inner curved portion 32 are formed in the 20 and the protective material 30, The other end portion of jangbong 20 and coupled to the anchor body (40),

In addition, it is possible to install a tension bar 20 in a straight state with a diameter of 10 cm or less in a field utility soil containing a large amount of dark blocks (not shown), so that it can be used as a backfill soil of a retaining wall block. In this case, when the straight portion of the tension rod 20 is installed in the area where the arm block (not shown) is embedded, the tension bar based on the arm block (not shown) having a sharp surface due to the characteristics of the arm block (not shown) Since the outer surface of the 20 can be damaged, when the straight portion of the tension rod 20 is installed in the area where the arm block (not shown) is embedded,

In the state in which the tension bar 20 is sharply connected with a rocker (not shown), the surface of the tension bar 20 is damaged by the rocker (not shown) based on the compaction action of the compaction machine (not shown). In order to protect the thing, the protective material 30 is installed outside the tension bar 20.

In addition, since the tension bar 20 is wound around and installed on the arm block (not shown) having a diameter of 30 to 70 cm or more, the anchor body (not shown) based on the resistance of the arm block (not shown). 40) to improve the function.

Also, if you look at its construction method,

In order to protect the tension bar 20 from the concrete retaining wall block 10 according to the construction of the retaining wall, the tension bar 20 supporting the retaining wall block 10 and the sharp surface of the arm block (not shown). A first step of preparing a protective material (30) made of stainless steel pipes or copper pipes fitted thereto;

 A second step of installing a foundation concrete (not shown) to form a foundation for installing the retaining wall block according to the width of the overall retaining wall installation on the left and right sides;

A third step of assembling the retaining wall block 10 on the upper and lower installation heights and widths of the retaining wall in a zigzag manner on an upper portion of the basic concrete;

The rear back fill portion of the retaining wall block 10 is filled in the back fill portion based on the field useful soil containing a large amount of arm blocks (not shown), and compacted by a compaction machine (not shown) to maintain a predetermined compaction density. A fourth step;

Repeating the third step and the fourth step, the fifth step of improving the self-supporting force of the retaining wall block 10 by connecting the anchor body 40 supporting the retaining wall block 10 based on the tension bar 20; ;

When there is an arm block (not shown) having a diameter of 30-70 cm or more at the installation position of the tension bar 20 in the process of connecting the tension bar 20, the tension bar according to the size of the arm bar (not shown) A sixth step of inserting the protective material 30 made of stainless steel or copper pipe on the outside of the tension rod 20 along the expected curve of the tension rod 20 prior to bending the curve 20;

The tension bar 20 and the protection material 30 simultaneously with the curved portion of the arm block (not shown) according to the size of the arm block (not shown) together with the protective material 30 fitted to the outside of the tension bar 20. Since the tension bar 20 is bent based on a bending mechanism (not shown), the outer curved portion 31 and the inner curved portion 32 of the protective material 30 are formed to cover the curved portion of the tension rod 20 with a darkened state (not shown). The seventh step of connecting the retaining wall block 10 and the anchor body 40 supporting the same by walking on the curved portion of the); consisting of, the construction method of the protective material for protecting the tension bar connecting the anchor body.

10; Retaining wall block 20; Tension bar
30; Protective material 40; Anchor

Claims (3)

In order to protect the tension bar 20 from the concrete retaining wall block 10 according to the construction of the retaining wall, the tension bar 20 supporting the retaining wall block 10 and the sharp surface of the arm block (not shown). A first step of preparing a protective material (30) made of stainless steel pipes or copper pipes fitted thereto;
A second step of installing a foundation concrete (not shown) to form a foundation for installing the retaining wall block according to the width of the overall retaining wall installation on the left and right sides;
A third step of assembling the retaining wall block 10 on the upper and lower installation heights and widths of the retaining wall in a zigzag manner on an upper portion of the basic concrete;
The rear back fill portion of the retaining wall block 10 is filled in the back fill portion based on the field useful soil containing a large amount of arm blocks (not shown), and compacted by a compaction machine (not shown) to maintain a predetermined compaction density. A fourth step;
Repeating the third step and the fourth step, the fifth step of improving the self-supporting force of the retaining wall block 10 by connecting the anchor body 40 supporting the retaining wall block 10 based on the tension bar 20; ;
When there is an arm block (not shown) having a diameter of 30-70 cm or more at the installation position of the tension bar 20 in the process of connecting the tension bar 20, the tension bar according to the size of the arm bar (not shown) A sixth step of inserting the protective material 30 made of stainless steel or copper pipe on the outside of the tension rod 20 along the expected curve of the tension rod 20 prior to bending the curve 20;
The tension bar 20 and the protection material 30 simultaneously with the curved portion of the arm block (not shown) according to the size of the arm block (not shown) together with the protective material 30 fitted to the outside of the tension bar 20. Since the tension bar 20 is bent based on a bending mechanism (not shown), the outer curved portion 31 and the inner curved portion 32 of the protective material 30 are formed to cover the curved portion of the tension rod 20 with a darkened state (not shown). The seventh step of connecting the retaining wall block 10 and the anchor body 40 supporting the same by walking on the curved portion of the case; Construction method of the protective material for protecting the tension bar connecting the anchor body, characterized in that consisting of.
The method of claim 1,
Retaining wall block 10 made of a concrete structure to form a retaining wall, and one side of the tension rod 20 connected to the rear portion of the retaining wall block 10 is a tension rod 20 coupled to the rear portion of the retaining wall block 10. ), When there is an arm block (not shown) having a diameter of 30 to 70 cm or more at an installation position of the tension bar 20, a tension bar 20 which is bent in the same manner as a curved portion of the arm block (not shown), the tension Protective material 30 formed of copper pipe or stainless steel pipe to reinforce the curved portion of the rod 20,
In the state in which the protective material 30 is fitted to the outside of the tension bar 20, according to the size of the arm block (not shown), the tension bar 20 and the protective material 30 at the same time, the bending mechanism of the tension bar 20 ( (Not shown), the outer rod 31 and the inner curve 32 are formed in the tension bar 20 and the protective material 30, the other end of the tension bar 20, the anchor body ( 40),
Since the diameter of the arm block (not shown) is 10 cm or less, it is possible to install the tension bar 20 in a straight state, and is used as the backfilling soil of the retaining wall block, and the straight part of the tension bar 20 has a sharp surface. When (not shown) is installed in a landfill area,
In the state in which the tension bar 20 is sharply connected with a rocker (not shown), the surface of the tension bar 20 is damaged by the rocker (not shown) based on the compaction action of the compaction machine (not shown). In order to protect the thing, the construction of the protective material for protecting the tension bar connecting the anchor body, characterized in that the protective member 30 is installed on the outside of the tension bar (20).

3. The method according to claim 1 or 2,
Since the tension bar 20 is wound around and installed on the arm block (not shown) having a diameter of 30 to 70 cm or more, the arm body (not shown) may be mounted on the anchor body 40 based on the resistance of the arm block (not shown). The construction method of the protection material which protects the tension rod which connects an anchor body characterized by improving a function.

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