KR101112651B1 - Anchor assembly for retrieval and construction method for anchor using the same - Google Patents

Abstract

The present invention is a protective pipe 110 is installed so that the grout does not flow into the interior; Acupressure steel pipe 111 coupled to the lower end of the protective tube 110; A tension member 120 inserted into the protective tube 110 and the acupressure steel tube 111; By presenting a retractable anchor assembly 100 comprising a; retractable tension fixing device 200 installed on the lower end of the acupressure steel pipe 111 so as to support and release the lower end of the tension member 120, by removing the tension member This makes it easy to ensure sufficient strength.

Anchor, recovery, shiatsu

Description

Retractable anchor assembly and anchor method using same {ANCHOR ASSEMBLY FOR RETRIEVAL AND CONSTRUCTION METHOD FOR ANCHOR USING THE SAME}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of construction, and more particularly, to the structure of anchors used for fixing earth walls.

The recoverable anchor assembly is a kind of temporary material, which is installed once for fixing the earth wall and the like, and after completion of construction of the main structure, refers to a structure for removing and recovering tension members (steel bars, strands, rebars, etc.) constituting the anchor assembly.

Various means have been devised to easily separate the tension member from the anchor assembly.

1 is a cross-sectional view of a conventional retractable anchor assembly.

The lower end of the tension member 2, which penetrates the fixing tip portion 1 formed at the lower end of the anchor assembly, is embedded in the ground in the state of being fixed by the fixing nut (3, a kind of liner screw), and the anchor assembly is removed when the tension member is removed. By loosening the tightening nut 5 formed on the upper pressure plate 4 and rotating the tension member, the tension nut 2 is removed by separating the fixing nut 3 from the lower end of the tension member.

In order to protect the tension member 2 from the external grout, a protective tube 6 made of a resin material or the like is provided on the outer circumference of the tension member.

In the anchor assembly of this structure, the fixing tip 1 of the upper end is fixed by the grout inside the perforation hole, and the tension member 2 fixed to the fixing tip 1 of the lower end is tensioned and fixed to the pressure plate 4 of the upper part. By resisting the earth pressure.

This conventional structure had the following problems.

First, it is difficult to obtain sufficient anchor strength.

As described above, since the protective tube 6 made of a resin material or the like cannot exhibit any strength against earth pressure, only the fixing tip portion 1, to which the upper end of the tension member 2 is coupled, is embedded in the grout, and the grout solidified body is uniaxially formed. As a state of stress, it takes a method of resisting earth pressure, which has a problem that the anchor is broken only when the solid body reaches yield strength in a uniaxial stress state.

Second, it is difficult to remove the tension material.

Basically, the tension member has a configuration in which the lower end thereof is coupled to the lower end (tip) of the anchor assembly, and the lower end of the anchor assembly is embedded in the ground of high depth, so that the tension member is removed from the head of the anchor assembly to remove the tension member from the anchor assembly. By pivoting or striking the tension member, the bottom of the tension member should be released from engagement with the top of the anchor assembly.

By the way, anchor assembly fixed in the ground drilling hole can not be avoided to some extent by the earth pressure or other load during construction or after construction. The problem is that the removal is very difficult.

The present invention has been made to solve the above problems, it is easy to remove the tension material, but to provide a retractable anchor assembly that allows the grout solidified body to secure sufficient strength due to the triaxial stress state. The purpose.

The present invention, in order to achieve the object as described above, the protective tube 110 is installed so that the grout does not flow into the interior; Acupressure steel pipe 111 coupled to the lower end of the protective tube 110; A tension member 120 inserted into the protective tube 110 and the acupressure steel tube 111; Presenting a recoverable anchor assembly 100 comprising a; retractable tension fixing device 200 installed on the lower end of the acupressure steel pipe (111) to support and release the lower end of the tension member (120).

The acupressure steel pipe 111 is preferably installed to have a length corresponding to the anchorage area of the anchor.

It is preferable that the packer mounting portion 110a on which the pressure grouting packer P is mounted is formed in the upper region of the acupressure steel pipe 111.

The tension member fixing device 200 is wedge member 210 detachably coupled to the lower end of the tension member 120; In addition to being installed at the lower end of the acupressure steel pipe 111, the tension member through-hole 221 and the wedge member fixing hole 222 is formed in the core, the wedge member 210 to prevent the tension member 120 from being separated A fixing plate 220 to be fixed; It is preferable to include; the wedge member 210, the protective cap 230 is installed to protect the fixing plate 220 from the grout.

The lower region 112 of the protective tube 110 is preferably formed of a material having a stronger strength than the upper region 113.

The lower region 112 of the protective tube 110 is preferably formed of a synthetic resin material.

The upper region 113 of the protective tube 110 is preferably formed of a cloth material.

The present invention is an anchor method using the recoverable anchor assembly 100, the drilling step of forming a punching hole in the ground; Installing the pressure grouting packer (P) in the packer mounting portion (110a) of the retractable anchor assembly (100); Inserting the retractable anchor assembly (100) into the drilling hole; Inflating the pressure grouting packer (P); Applying pressure grouting to the anchorage region of the perforation hole; Tensioning the tension member 120 and fixing it to the head 10; And grouting the free field region of the perforation hole.

The present invention provides a retractable anchor assembly that allows easy removal of the tension member while ensuring sufficient strength.

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

As shown below in Figure 2, the retractable anchor assembly 100 according to the present invention, basically, the protective pipe 110 is installed so that the grout does not flow into the interior; Acupressure steel pipe 111 coupled to the lower end of the protective tube 110; A tension member 120 inserted into the protective tube 110 and the acupressure steel tube 111; It is configured to include; and to recover and support the lower end of the tension member 120, the retractable tension member 200 is installed on the lower end of the acupressure steel pipe (111).

(Hereinafter, the expressions of "top" and "bottom" are for ease of understanding with reference to the drawings, which mean "head side end of the anchor" and "tip side end of the anchor", respectively.)

When the anchor assembly 100 having such a structure is embedded in the ground by grouting, the following effects can be obtained.

First, the grout solidified body around the acupressure steel pipe 111 is placed in a three-axis stress state, it can exhibit a very large strength compared to the case where it is placed in a uniaxial stress state as in the prior art.

Even in the case of a structure made of the same material, when the structure is subjected to triaxial compression, the structure exhibits much greater strength due to external constraints (more effect).

Therefore, the grout solidified body around the acupressure steel pipe 111 receives not only the compressive force in the front-rear direction (the longitudinal direction of the tension member), but also the compressive force on the side of the punched hole. Compressive strength) can be much greater than the strength (Fig. 4, 5).

Secondly, the acupressure steel pipe 111 serves as a reinforcement itself embedded in the grout solidified body, it can contribute to the enhancement of the strength of the anchor.

In the conventional anchor structure, the protective tube 6 made of a resin material or the like installed on the outside of the tension member cannot exhibit any strength against earth pressure, whereas in the case of the anchor structure according to the present invention, due to the rigidity of the acupressure steel pipe 111. As it serves as a reinforcement itself, greater anchor strengths can be expected.

Third, the efficient use of materials can be achieved.

The anchor assembly 100 according to the present invention does not take the structure of the steel pipe over the entire area of the protective tube 110, but takes a structure in which the shiatsu steel pipe 111 is installed only in the lower portion of the anchor assembly 100, this portion is After all, it corresponds to the anchorage area of the anchor, it is possible to obtain sufficient strength only by this structure.

Therefore, while sufficient strength can be obtained, the overall cost of the material can be reduced, and the size of the structure buried in the ground after the removal of the tension material can be reduced, thereby minimizing the impact of the excavation work on the adjacent ground. The effect can be obtained.

Fourth, it is possible to facilitate the recovery of the tension material in the future.

Due to its rigidity, the acupressure steel pipe 111 is characterized in that deformation does not occur even when pressure grouting is applied to the outside, thereby stably securing the inner region.

Therefore, when the tension member 120 of the retractable anchor is installed therein, since the interference does not occur between the tension member 120 and the acupressure steel pipe 111 or the protection tube 110 that protects the tension member 120, The advantage is that the recovery operation can be facilitated.

In the anchor assembly 100 according to the present invention, the most important of the factors that determine the strength will be referred to as the length of the upper pressure steel pipe 111, the pressure steel pipe 111 is anchorage area (L1) of the anchor It is preferable to install so as to have a length corresponding to the length. As the softness of the ground increases, the length of the acupressure steel pipe 111 is increased, so that an anchor having an efficient structure as a whole can be obtained.

When a pressure grouting packer P is mounted on the packer mounting portion 110a of the upper region of the acupressure steel pipe 111 and pressurized grouting is carried out around the acupressure steel pipe 111, a more secure anchor structure can be obtained. There, the construction process is as follows (Fig. 2, 3).

A perforated hole is formed in the ground, and the pressure grouting packer P is installed in the packer mounting portion 110a of the retractable anchor assembly 100, and then the retractable anchor assembly 100 is inserted into the perforated hole.

Inflating the pressure grouting packer (P) is fixed to the inner wall of the adjacent drilling hole, for this purpose, grout, air and the like can be injected into the inside of the packer (P).

Pressurized grouting and curing is performed in the lower region of the inflated pressurized grout packer P, that is, the anchorage region of the drilled hole.

When the curing of the grout is completed, the tension member 120 is tensioned and fixed to the head 10, and grouting is performed in the free field region (upper region of the packer) of the drilling hole.

The area of the protective tube 110 installed in front of the acupressure steel pipe 111 is irrelevant to the strength of the anchor and only to protect the tension member 120 from the external grout, it is sufficient to use a general synthetic resin material.

However, since the lower portion of the protective tube 110 is more likely to be deformed by the pressure of the grout than the upper portion, the lower region 112 of the protective tube 110 may be formed at the upper region 113 so as to resist the pressure of the grout. It is preferable that it is formed of a material having a relatively strong strength.

That is, the lower region 112 of the protective tube 110 is formed of a relatively high strength synthetic resin material, such as PVC, and the upper region 113 of the protective tube 110 is formed of a material irrelevant to strength, such as cloth. This is desirable in terms of overall material efficiency.

The tension member fixing device 200 installed at the lower end of the acupressure steel pipe 111 may take any structure such as a wedge type, a bolt-nut type or the like.

2, 3 is wedge member 210 detachably coupled to the lower end of the tension member 120; In addition to being installed at the lower end of the acupressure steel pipe 111, the tension member through-hole 221 and the wedge member fixing hole 222 is formed in the core, the wedge member 210 is fixed to prevent the separation of the tension member 120 is fixed Plate 220; The wedge member 210 and the fixing plate 220 is a protective cap 230 installed to protect from the grout; shows an embodiment including.

As such, when the fixing plate 220 has a structure fixed to the lower end of the acupressure steel pipe 111, the tension force of the tension member 120 may be stably transmitted to the fixing plate 220 and the acupressure steel pipe 111. However, there is an advantage that the strength of the grout solidified body is significantly increased by triaxial compression.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

1 is a cross-sectional view of a conventional retractable anchor assembly.

Figure 2 below shows an embodiment of a retractable anchor assembly according to the present invention,

2 is a cross-sectional view of the first embodiment.

3 is a sectional view of a second embodiment;

4 is a sectional view of a third embodiment;

5 is an enlarged view of a main part of FIG. 4;

DESCRIPTION OF REFERENCE NUMERALS

100: retractable anchor assembly 110: protective tube

110a: packer mounting portion 111: acupressure steel pipe

120: tension member 200: tension member fixing device

210: wedge member 220: fixing plate

230: protective cap

Claims (8)

Protective tube 110 is installed so that the grout does not flow into the interior; Acupressure steel pipe 111 coupled to the lower end of the protective tube 110; A tension member 120 inserted into the protective tube 110 and the acupressure steel tube 111; Recoverable tension member fixing device 200 is installed on the lower end of the acupressure steel pipe 111 to support and release the lower end of the tension member 120; Retractable anchor assembly (100) comprising. The method of claim 1, The acupressure steel pipe (111) is a retractable anchor assembly, characterized in that installed to have a length corresponding to the anchorage area of the anchor. 3. The method of claim 2, Retractable anchor assembly (100), characterized in that the packer mounting portion (110a) is formed in the upper region of the acupressure steel pipe (111) is a pressure grouting packer (P) is mounted. The method of claim 1, The tension member fixing device 200 A wedge member 210 detachably coupled to the lower end of the tension member 120; In addition to being installed at the lower end of the acupressure steel pipe 111, the tension member through-hole 221 and the wedge member fixing hole 222 is formed in the core, the wedge member 210 to prevent the tension member 120 from being separated A fixing plate 220 to be fixed; A protective cap 230 installed to protect the wedge member 210 and the fixing plate 220 from the grout; Retractable anchor assembly (100) comprising. The method of claim 1, Retractable anchor assembly (100), characterized in that the lower region (112) of the protective tube (110) is formed by a material that is stronger than the upper region (113). The method of claim 5, Retractable anchor assembly 100, characterized in that the lower region 112 of the protective tube 110 is formed of a synthetic resin material. The method of claim 5, Retractable anchor assembly (100), characterized in that the upper region (113) of the protective tube (110) is formed by a cloth material. An anchor method using the recoverable anchor assembly 100 of claim 3, A drilling step of forming a drilling hole in the ground; Installing the pressure grouting packer (P) in the packer mounting portion (110a) of the retractable anchor assembly (100); Inserting the retractable anchor assembly (100) into the drilling hole; Inflating the pressure grouting packer (P); Applying pressure grouting to the anchorage region of the perforation hole; Tensioning the tension member 120 and fixing it to the head 10; Grouting the free field region of the drilling hole; Anchor construction to include.

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