KR100909238B1 - Anchor Body and Anchor Construction Method - Google Patents

Abstract

The present invention relates to an anchor body and an anchor construction method.

The anchor body according to the present invention includes an anchor body having one end coupled to a plurality of tension members disposed in one direction and embedded in a drilling hole. The anchor part is formed in a hollow shape and is coupled to surround the outer circumferential surface of the anchor body. A plurality of spaced apart from each other along the circumferential direction of the portion, each of which is an anchor extension having an extension extending along the longitudinal direction of the anchor body from the lower end of the case portion, and disposed below the anchor extension body, the height of the anchor body An insertion part having a diameter smaller than the diameter of the anchor extension body is formed to be coupled to be movable along the direction, and has a diameter smaller than the diameter of the anchor extension body, and is formed to be inclined outwardly from the insertion unit to have a diameter larger than the diameter of the anchor extension body. An expansion cap having a portion and a lower portion of the expansion cap, the expansion cap being inserted into the anchor extension body The lower end on anchor extension member extended portion to the inner peripheral surface extension part consolidation perforated hole by allowing going toward the inner peripheral surface of perforated holes is characterized in further comprising expansion means for expansion of the hole.

In addition, the anchor construction method according to the present invention comprises a drilling step, the anchor body insertion step, the expansion step to expand the anchor extension body by causing a thermite reaction to the alloy, a grouting material filling step and the tension fixing step It is characterized by

Description

Anchor and Method of installing the anchor}

1 is a schematic view for explaining a conventional anchor body.

Figure 2 is a schematic exploded perspective view of the anchor body according to a preferred embodiment of the present invention.

3 is a schematic perspective view of the anchor body shown in FIG.

4 is a schematic cross-sectional view taken along the line IV-IV of FIG. 3.

5 is a cross-sectional view of the expansion cap is raised in the state of FIG.

6 is a schematic diagram illustrating an energy delivery device employed in a preferred embodiment of the present invention.

7 is a schematic flowchart of an anchor construction method according to a preferred embodiment of the present invention.

8 is a view for explaining the anchor construction method shown in Figure 7, Figure 8a is a view for explaining the drilling step to the expansion step, Figure 8b is a view for explaining the filling step and the tension fixing step.

<Explanation of symbols for the main parts of the drawings>

100 ... anchor body 200 ... anchor construction method

10 ... anchor body 11 ... bearing body

30 ... anchor extension 31 ... case part

32 ... extension 33 ... slit

41 ... Power supply 42,43 ... Lead

50 ... Expansion cap 51 ... Insert

52 ... inclined extension 60 ... anchor head

h ... drilling hole m ... metal mixture

w ... tension material s ... slope

The present invention relates to an anchor construction method for constructing anchors and anchors for reinforcing slopes, which are embedded in the ground, and more specifically, an anchor body which is disposed at the tip of the anchor and coupled to a tension member and anchor construction using the anchor body. It is a way.

It is inevitable to develop slopes such as mountain areas for the construction of foundation roads or complexes, and slope reinforcement methods are widely used to prevent the slopes from collapsing or sliding. The slope reinforcement method is largely classified into an activity reduction method, a resistance enhancement method and a surface protection method according to the construction purpose, and among these, a representative of the resistance enhancement method includes rock bolts, anchors, soil nails, and step retaining walls.

The anchor method is widely used as a reinforcement for supporting structures such as buildings, bridges, as well as reinforcing the ground.

Anchors are divided into anchor bodies, tension members, and anchor heads. In the construction of the anchor, the ground is drilled to a predetermined depth and diameter, and the anchor body is inserted in a state in which the tensile material is coupled, and then the grouting material such as cement paste is filled. When the grouting material is cured, the tensioning material is tensioned with a predetermined load, and the anchor head is fixed to stabilize. The tension member usually uses PC strand (stranded wire) or steel bar. The structure for fixing the tension member uses a wedge method mainly using wedge cone in the case of a stranded wire, and a nut method mainly in the case of a steel bar.

In reinforcing the slope using the anchor configured as described above, in order to ensure excellent ground anchoring force, the tip portion of the drilling hole in which the anchor body is disposed should be formed with a wider diameter than other portions of the drilling hole. It is necessary to increase the fixing ability between and the ground.

A conventional anchor for increasing the anchoring force of the anchor body and the ground is shown in FIG. 1 is a schematic view for explaining a conventional anchor body. The anchor shown in FIG. 1 is disclosed in Korean Patent Laid-Open Publication No. 10-2006-01223346. Referring to FIG. 1, the conventional anchor 9 is coupled to the anchor body 1 and the anchor body 1 embedded in the ground. A plurality of tension members 2 are provided. In addition, a plurality of blades 3 are installed in the anchor body 1 so as to be inserted into and protrude from the anchor body 1. When the blade (3) protrudes, it is configured to drill a hole (h) and settle on the ground. On the other hand, a spring (not shown) is interposed between the anchor body 1 and the blade 3 so that the blade 3 protrudes to elastically bias the blade 3 to the outside.

However, it is virtually impossible to push the blade 3 through the inner circumferential surface of the drilling hole h by the force of the spring in the anchor 9 as described above. There was a problem that the fixing force between the main body 1 and the ground cannot be guaranteed. In addition, the above configuration has a problem that the diameter of the drilled hole h on which the anchor body 1 is disposed cannot be secured widely, and the ground anchoring force by the anchor 9 can not be secured excellently.

The present invention has been made to solve the above problems, the purpose of which is to extend the diameter of the end of the drilled hole, to provide an anchor body with an improved structure to increase the fixing force between the anchor body and the ground .

In addition, another object of the present invention is to provide an anchor construction method having excellent ground anchoring force using an anchor body.

The anchor body according to the present invention for achieving the above object is provided with an anchor body coupled to one end is embedded in a plurality of tension members arranged in one direction elongated, embedded in a drilling hole, formed in a hollow shape to the outer peripheral surface of the anchor body An anchor extension body including a case part coupled to be wrapped and spaced apart from each other along a circumferential direction of the case part, each of which includes an extension part extending from a lower end of the case part along a longitudinal direction of the anchor body; It is disposed in the lower portion of the expansion, is inserted and coupled to move along the height direction of the anchor body, is formed in a hollow shape having an diameter smaller than the diameter of the anchor extension body, and inclined outward from the insertion portion Is provided with an inclined enlarged portion having a diameter extending than the diameter of the anchor extension body The expansion part is disposed under the long cap and the expansion cap, and inserts the expansion cap toward the anchor extension body so that the lower end of the anchor extension body widens toward the inner circumferential surface side of the drilling hole, thereby consolidating the inner circumferential surface of the drilling hole to drill the hole. It is characterized in that it further comprises an expansion means for expanding.

According to the present invention, the expansion means is disposed in the lower portion of the expansion cap consisting of a metal oxide and a metal powder to cause a thermite reaction, and induces a thermite reaction to the metal mixture by transferring energy to the metal mixture It is preferable to have an energy delivery device, the energy delivery device is disposed in the lower portion of the expansion cap consisting of a metal oxide and a metal powder to cause a thermite reaction, and the metal mixture by transferring energy to the metal mixture It is further desirable to have an energy transfer device that induces an etymite reaction.

Anchor construction method according to the present invention for achieving the above another object, the drilling step of drilling the ground to form a drilling hole, the insertion step of inserting an anchor body coupled to the tension member at one end into the drilling hole, and the drilling A filling step of filling a grouting material into a hole and a tension fixing step of tensioning and fixing the tension member to a predetermined load after the grouting material is cured, wherein the anchor body is formed in an anchor body and hollow to form the anchor. A plurality of case parts which surround the outer circumferential surface of the main body and are spaced apart from each other along a circumferential direction of the case part, each of which includes an extension part extending along a longitudinal direction of the anchor body from a lower end of the case part; Is disposed below the anchor expansion body, to be movable along the height direction of the anchor body An expansion cap having an inclined enlarged portion having a diameter larger than the diameter of the anchor portion and the insertion portion having a diameter smaller than the diameter of the anchor extension body and formed to be inclined outwardly from the insert portion to be warped and formed in a hollow shape. And a metal mixture disposed under the expansion cap and composed of a metal oxide and a metal powder to cause a thermite reaction, which is performed between the insertion step and the charging step, and transfers energy to the metal mixture to cause the thermite reaction. By inserting the expansion cap into the anchor expansion body by causing the lower end of the expansion portion of the anchor expansion body to open toward the inner circumferential surface side of the drilling hole, the expansion unit further comprises an expansion step of consolidating the inner circumferential surface of the drilling hole to expand the drilling hole There is a characteristic.

Hereinafter, with reference to the accompanying drawings, the anchor body and the anchor construction method according to a preferred embodiment of the present invention will be described in more detail.

Figure 2 is a schematic exploded perspective view of the anchor body according to a preferred embodiment of the present invention, Figure 3 is a schematic perspective view of the anchor body shown in Figure 2 is coupled, Figure 4 is a schematic cross-sectional view of the IV-IV line of FIG. 5 is a cross-sectional view of the expansion cap in the state of Figure 4, Figure 8 is a view for explaining the anchor construction method according to the invention, Figure 8a is a view for explaining the drilling step to the expansion step, 8B is a view for explaining the filling step and the tension settling step.

2 to 5 and 8, the anchor body 100 according to a preferred embodiment of the present invention includes an anchor body 10, an anchor extension body 30 and an expansion cap 50.

The anchor body 10 is inserted into the drilling hole (h) is embedded in the ground, it is a known member. The anchor body 10 is inserted into the drilling hole (h) in a state coupled to the plurality of tension members (w). According to the type of the anchor body 10, the tension member (w) can be removed after completion of the construction of the anchor. This tension member w generally consists of a plurality of PC strands or steel bars. The tension member w is wrapped by the sheath 12. The structure for fixing the tension member (w) is a wedge method using a wedge cone (not shown) mainly in the case of the strand, and a nut (not shown) method mainly in the case of the steel bar. On the other hand, the lower body 11 is coupled to the central portion of the anchor body (10).

The anchor extension body 30 is formed in a hollow shape and coupled to the anchor body 10, and includes a case part 31 and a plurality of extension parts 32. The case part 31 is fixed to the upper end of the lower body 11. A plurality of through holes 39 are formed in the upper surface of the case part 31, and the tension member w coupled to the anchor body 10 passes through the through holes 39. The plurality of expansion portions 32 extend downward from the case portion 31 along the longitudinal direction of the case portion 31. The extension part 32 has a slit 33 formed between the extension parts 32 so as to be spaced apart from each other. In the present embodiment, four expansion parts 32 are disposed along the circumferential direction of the case part 31. As described above, the extensions 32 may be spaced apart from each other, but may be connected to each other by a connecting portion (not shown). However, when there is a connection part (not shown), the connection part should be easily broken when the expansion cap 30 to be described later is inserted into the anchor extension body 30 by the thermite reaction of the metal mixture to be described later. In other words, the connection and extension must be very weakly coupled.

A plurality of protruding pieces 38 are formed on the outer surface of the expansion part 32. The protruding piece 38 protrudes in a direction intersecting with the longitudinal direction of the anchor extension body 30. In more detail, the protruding piece 38 includes a vertical portion 36 and an inclined portion 37, and the vertical portion 36 is disposed in a direction perpendicular to the longitudinal direction of the anchor extension body 30. The inclined portion 37 is formed by forming a predetermined angle from the end of the vertical portion 36. Accordingly, the predetermined angle between the inclined portion 37 and the vertical portion 36 is formed at an acute angle. In the present embodiment, two projections 38 are disposed in each of the extension portions 32 of the anchor extension body 30. On the other hand, the material of the anchor expansion body 30 is a metal material such as iron is used, it is manufactured by a casting method.

 The expansion cap 50 is disposed below the anchor extension body 30. The expansion cap 50 is formed in a hollow shape and is wrapped around the lower body 11 and the tension member (w) to be movable along the height direction of the anchor body (10). Expansion cap 50 is composed of the insertion portion 51 and the inclined extension portion 52. The insertion portion 51 forms an upper portion of the expansion cap 50, and the diameter thereof is smaller than the diameter of the anchor extension body 30. The inclined extension part 52 extends downward from the insertion part 51 and is inclined outward from the insertion part 51. As a result, the diameter of the inclined extension part 52 becomes larger toward the lower side, but the diameter thereof is formed larger than the diameter of the insertion part 51 except for the uppermost part of the inclined extension part 52. On the other hand, a plurality of through holes 59 are formed on the upper surface of the expansion cap 50. The tension member w passes through the through hole 59.

The anchor body 100 according to the present invention is provided with an expansion means for expanding the expansion portion 32 of the anchor expansion body 30 to the outside, that is, open to the inner peripheral surface side of the drilling hole (h).

In the present embodiment, the expansion means is for causing a so-called thermite reaction, and includes a metal mixture m and a power supply 41. The metal mixture (m) is disposed under the expansion cap 50, in this embodiment is mounted on both sides of the lower body 11 of the anchor body (10). The metal mixture m is put in the anchor body 10 in powder form, for example, in a bag of a textile material.

The metal mixture (m) consists of a metal oxide and a metal powder. Metal oxidants include cuprous oxide (CuO), cupric oxide (Cu ₂ O), iron oxide (FeO), ferric trioxide (Fe ₂ O ₃ ), triiron tetraoxide (Fe ₃ O ₄ ), and manganese dioxide (MnO ₂ ) , Potassium dichromate (K ₂ Cr ₂ O ₇ ) and the like can be used. In addition, as the metal powder, various kinds of metals such as alkali metal, alkaline earth metal, aluminum (Al), iron (Fe), magnesium (Mg) and copper (Cu) may be used. In this embodiment, as the metal powder, aluminum (Al), which is relatively excellent in heat of reaction per unit mass, is employed, and relatively economical cuprous oxide (CuO) is used as the metal oxide. The mixing ratio is mixed with 4 g to 5 g of cuprous oxide per 1 g of aluminum. In addition, other functional materials may be added in addition to the metal mixture (m). For example, in order to increase the reaction rate of the thermite reaction and induce a complete reaction, the calorific value of low specific gravity and ultra light microparticles such as silicon dioxide (SiO 2), aluminum trioxide (Al 2 O 3), ferric trioxide (Fe 2 O 3), calcium oxide, etc. A kinetics enhancer in which this high aluminum powder is mixed can be added. In addition, an electrolytic fluid substance in which sodium chloride is dissolved in water, such as halides, oxyacid salts, and the like of alkali metals or alkaline earth metals may be added in order to prevent the explosion phenomenon due to the flame generated during noise reduction and incomplete reaction and to suppress the co-expression.

The total amount mounted on the anchor body 10 may vary depending on the diameter of the drilling hole (h) and the material and thickness of the anchor extension body 30, and may be about 10 g to 70 g, but may be less than 10 g and more than 70 g. You may.

Thermite reaction generated by the metal mixture (m) as described above refers to a reaction in which a metal oxide is deprived of oxygen by a metal powder such as aluminum, and is commonly used as a mixture of a metal oxide and an aluminum powder. . When energy is applied, for example, by igniting a metal mixture (m) made from a metal oxide and a metal powder, aluminum is a very strong chemical action, in which aluminum reduces and liberates cuprous oxide and becomes alumina. In this process, in a very short time (several tens of microseconds), high heat of reaction and metal vapor pressure of about 3000 ° C are generated and energy of 1207kJ is generated. Thermite reaction formula is as follows.

2Al + 3CuO + ΔE → Al ₂ O ₃ + 1207kJ

ΔE is an energy for inducing a thermite reaction, and about 10 kJ per 1 g of aluminum is required. Energy for inducing the above thermite reaction may be electrically provided by the power supply 41 to be described later, or may be given by a non-electric method such as gunpowder. Once the energy of ΔE is applied, the metal mixture (m) performs a thermite reaction in series through a so-called self sustain reaction.

When the thermite reaction occurs, the expansion force is generated, and the expansion cap 50 which is installed to be movable is lifted along the anchor body 10 and inserted into the anchor extension body 30. The insertion portion 51 of the expansion cap 50 has a smaller diameter than the expansion portion 32, but the inclined extension portion of the expansion cap 50 is larger than the expansion portion 32 of the anchor extension body 30. When the 50 is inserted into the anchor extension body 30, the extension part 32 of the anchor extension body 30 is bent outwardly to be opened. The expansion part 32 which spreads outwards consolidates the inner peripheral surface of the drilling hole h, and the drilling hole h is expanded.

As described above, in order to generate the thermite reaction, the energy of ΔE must be transferred to the metal mixture (m), and thus, the expansion means of the anchor body 100 according to the present invention includes the energy delivery device 40. As the energy transmission device, the electric method and the non-electric method may be adopted as described above, and the electric method is adopted in the present embodiment.

6 shows an energy delivery device employed in a preferred embodiment of the present invention. Referring to FIG. 6, the energy delivery device 40 according to the present embodiment includes a power supply device 41 and two conductive wires 42 and 43. The power supply device 41 is disposed outside the drilling hole h, and has a positive terminal and a negative terminal. The two conductive wires 42 and 43 are electrically connected to the positive terminal and the negative terminal of the power supply 41, respectively, and are covered with a sheath. However, the lower ends of the conductive wires 42 and 43 are formed with the coating removed. Lower ends of the conductive wires 42 and 43 are spaced apart from each other at predetermined intervals. The conductive wires 42 and 43 are inserted into the boring hole h, and the metal mixture m is formed through the through hole 39 of the anchor extension body 30 and the through hole 59 of the expansion cap 50. Adjacently placed. When power is applied to the power supply device 41, an arc is generated at the lower ends of the wires. This arc acts as an energy ΔE to induce a thermite reaction, resulting in a thermite reaction in the metal mixture (m).

However, energy may be transferred using a heat generating resistor without generating an arc. That is, when the lower ends of the conductive wires 42 and 43 are interconnected with a high heat resistance resistor (not shown) such as tungsten wire or nichrome wire, high heat is generated by the resistance of the wire when power is supplied. This heat acts as the energy that causes the thermite reaction.

Hereinafter, another anchor construction method 200 according to a preferred embodiment of the present invention will be described in more detail. 7 is a schematic flowchart of an anchor construction method according to a preferred embodiment of the present invention.

7 and 8, the anchor construction method 200 according to the preferred embodiment of the present invention includes a drilling step.

In the drilling step, the drilling hole (h) is formed by drilling the ground downward using a small diameter auger screw (auger screw) and the like. The perforation depth should be set beyond the slope s.

After the drilling step, an insertion step is performed. In the inserting step, the anchor body 100 having the above configuration is coupled to the tension member w and inserted into the lower portion of the drilling hole h. At this time, the conductors electrically connected to the power supply are also inserted. These leads are placed adjacent to the metal mixture m through the through holes 39 of the anchor extension body 30.

When the insertion into the anchor body 100 is completed, the expansion step is performed. The expansion step causes a thermite reaction on the metal mixture (m). That is, power is applied to the power supply to generate an arc at the ends of the conductors arranged adjacent to the metal mixture m. The energy from the arc is transferred to the metal mixture (m), and the metal mixture (m) starts the thermite reaction and once the thermite reaction starts, the thermite reaction is maintained in a chain. When the thermite reaction occurs, the expansion cap 50 is raised by the expansion force is generated is inserted into the anchor extension body 30. Since the diameter of the inclined extension portion 52 of the expansion cap 50 is larger than that of the anchor extension body 30, when the inclined extension portion 52 is inserted into the anchor extension body 30, The expansion part 32 opens to the outside and consolidates the inner circumferential surface of the drilling hole h. As a result, the hole h has an enlarged diameter. In this process, the protruding piece 38 formed at an acute angle in the anchor extension body 32 is inserted through the inner circumferential surface of the drilling hole h.

As described above, when the boring hole h is expanded, a filling step of filling the grouting material g such as cement paste into the boring hole is performed, and when the grouting material is hardened, the tension member w is tensioned with a predetermined load. The tension fixing step of fixing to the anchor head 60 is completed. Thereafter, the tension member w may be separated.

When the anchor body 100 is constructed by the above-described method, since the portion in which the anchor body 100 is disposed in the drilling hole h is formed in a larger volume than other portions, the grouting material is cured to form bulbs. . In addition, as the anchor extension body 30 penetrates into the ground, the anchoring force between the anchor body 30 and the ground also increases. Accordingly, when the anchor is constructed using the anchor body 100 according to the present invention, there is an advantage that the slope is supported very stably and prevents sliding or collapse as compared with the conventional anchor method. Unexplained symbol b is the retaining wall.

Although the present invention has been described with reference to one embodiment shown in the accompanying drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Could be. Accordingly, the true scope of protection of the invention should be defined only by the appended claims.

As described above, the anchor body and the anchor construction method using the anchor body according to the present invention not only increases the anchoring force between the anchor body and the ground but also forms a bulb having a large diameter at the lower end of the drilled hole so that the slope is very stable. There is an advantage that can be reinforced.

Claims (10)

In one anchor is coupled to a plurality of tension member formed in one direction elongated, embedded in the drilling hole, An anchor extension body including a case part into which the plurality of tension members are inserted and an extension part spaced apart from each other in a circumferential direction of the case part, each of which extends from the case along a length direction of the tension member; An expansion cap disposed below the anchor extension body so as to be movable along a length direction of the tension member, and having an upper end diameter smaller than that of the anchor extension body and formed to be inclined to gradually increase in diameter toward the lower end portion; And And expansion means for inserting the expansion cap toward the anchor extension body so that the inner circumferential surface of the drilling hole is consolidated by the extension part of the anchor extension body so that the extension portion of the anchor extension body opens toward the inner circumferential surface side of the drilling hole. The expansion means, And a metal mixture disposed below the expansion cap, the metal mixture consisting of a metal oxide and a metal powder to cause a thermite reaction, and an energy transmission device for inducing a thermite reaction to the metal mixture by transferring energy to the metal mixture. Anchor body. The method of claim 1, Further comprising: an anchor body to which the plurality of tension members are coupled; The case part is formed in a hollow shape is coupled surrounding the outer peripheral surface of the anchor body, The expansion cap is formed in a hollow shape having an insertion portion having a diameter smaller than the diameter of the anchor extension body, and is formed to be inclined outwardly extending from the insertion portion having a diameter larger than the diameter of the anchor extension body , During the thermite reaction, as the expansion cap is inserted toward the anchor extension body, an end portion of the anchor extension body expansion part opens toward the inner circumferential surface side of the drilling hole, and the expansion unit consolidates the inner circumferential surface of the drilling hole to expand the drilling hole. Anchor body characterized in that. delete The method of claim 1, The energy transfer device, A power supply and two conductors electrically connected to the anode and the cathode of the power supply, respectively, the lower ends of which are disposed adjacent to the metal mixture with a predetermined distance therebetween; When power is applied to the power supply device, the energy due to the arc generated between the lower ends of the two conductors are transferred to the metal mixture to thermite reaction, characterized in that causing a thermite reaction. The method of claim 1, The energy transfer device, A power supply device, two wires electrically connected to a positive electrode and a negative electrode of the power supply device, respectively, the lower wires being adjacent to the metal mixture with a predetermined distance therebetween, and connecting the lower ends of the two wires. Equipped with a heating resistor, When power is applied to the power supply device, the heat energy generated by the heat generating resistor is transferred to the metal mixture to thermite reaction, characterized in that the thermal reaction. The method of claim 1, Wherein said metal powder is aluminum and said metal oxide is copper oxide. The method according to claim 1 or 2, The extension portion of the anchor extension body to penetrate the inner circumferential surface of the drilling hole and inserted into the ground, the anchor extension body is characterized in that the projecting piece protruding along the direction intersecting the longitudinal direction of the anchor extension body is formed Anchor body. The method of claim 7, wherein The protruding piece is an anchor body, characterized in that it comprises a vertical portion formed in a direction perpendicular to the longitudinal direction of the anchor extension body, and an inclined portion inclined to form an acute angle with the vertical portion. The method of claim 1, The anchor extension body is disposed between each extension further comprises a connection for connecting the adjacent extensions to each other, When the expansion cap is inserted into the anchor extension body due to the thermite reaction by the metal mixture, the connection portion is broken and each expansion portion of the anchor extension body is separated from each other. A drilling step of drilling the ground to form a drilling hole, an insertion step of inserting an anchor body coupled to a tension member at one end into the drilling hole, a filling step of filling the grouting material into the drilling hole, and the grouting material is cured. In the anchor construction method comprising a tension fixing step of fixing the tension member by a predetermined load, The anchor body is formed in a plurality of anchor body, the case portion is formed in a hollow shape surrounding the outer circumferential surface of the anchor body and are spaced apart from each other along the circumferential direction of the case portion, each of the anchor body from the lower end of the case portion Anchor extension body having an extension extending along the longitudinal direction of the, is disposed on the lower portion of the anchor extension body, is coupled to be movable along the height direction of the anchor body and formed in a hollow form of the anchor extension body An expansion cap having an insertion portion having a diameter smaller than a diameter and an inclined enlargement portion formed to be inclined outwardly from the insertion portion and having a diameter larger than the diameter of the anchor extension body, and disposed under the expansion cap and having a metal oxide; It is composed of a metal powder having a metal mixture that causes the thermite reaction, As it is performed between the inserting step and the filling step, energy is transferred to the metal mixture to cause a thermite reaction so that the expansion cap is inserted into the anchor extension body so that the lower end of the anchor extension body expansion part opens toward the inner circumferential surface side of the drilling hole. The expansion unit further comprises an expansion step of expanding the drilling hole by consolidating the inner circumferential surface of the drilling hole.

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