KR102232854B1 - Anchor with multiple extension sleeve - Google Patents

Abstract

The present invention relates to an anchor including two or more extension sleeves, comprising: a screw unit (100) whose outer circumferential surface is formed in a shape of a screw thread; a nut (110) engaged with the screw unit (100) by a screw; a washer (120) placed on a lower side of the nut (110); a body unit (200) connected to the screw unit (100) and placed on a lower side of the screw unit (100); a fixing sleeve (130) in a hollow shape, which has holes (131) on both sides, and in which the inside of the hollow part is penetrated by a part of the screw unit (100) and the body unit (200); two or more fixing members (140) engaged with the outer side of the fixing sleeve (130); a first extension sleeve (150) in which one end is fixed by one of the fixing members (140), and which has one or more first extension sleeve slits (151); one or more extension members (160) engaged with the body unit (200) to protrude to the outside through the hole (131) of the fixing sleeve (130) and to unfold the first extension sleeve (150); a second extension sleeve (170) in which one end is fixed to another of the fixing members (140) and which has one or more second extension sleeve slits (171); and an extension head unit (300) connected to the body unit (200) and placed on a lower side of the body unit (200) to unfold the second extension sleeve (170). The unfolding time of the first extension sleeve (150) can be different from that of the second extension sleeve (170). The present invention aims to provide an anchor which is able to increase the frictional force and the hanging force with concrete.

Description

Anchor with multiple extension sleeves

The present invention relates to an anchor including a plurality of expansion sleeves, and more particularly, to an anchor that varies the deployment timing of the expansion sleeve.

There was an accident in which an operator who was climbing to the pier safety inspection workbench for repair work on a highway bridge collapsed the safety railing due to the destruction of the post-installed anchor.

The cause of the accident is the destruction of the anchor. There are various types of anchor breakage, such as pulling breakage, concrete breakage, fryout breakage, and lateral breakage breakage. Among them, the area in which the expansion sleeve contacts concrete is small, so that a large number of pull-out failures occur due to inability to exert sufficient strength, and in this case, it may lead to the aforementioned personal accident.

Pull-out failure is a failure in which the anchor is pulled out because the anchor does not sufficiently settle in the concrete when it is subjected to tensile force. The main part of the anchor slides out without seriously destroying the surrounding concrete.

As a method to prevent pull-out failure, increase the area in which the expansion sleeve contacts concrete, so that the anchor can exhibit sufficient proof strength, and the exact torque value is not applied, so that the expansion sleeve is not deployed. There are ways to reduce defective construction that is completed.

First, there has been an attempt to increase the area in which the expansion sleeve of the anchor contacts concrete. Korean Patent Laid-Open Publication No. 10-2006-0015411 relates to a set of multiple anchor bolts, and proposes an anchor bolt that is rigidly fixed by increasing a fixing force and a fixing point supporting the anchor bolt by providing a plurality of expansion sleeves. There is an advantage in that the area in contact with the concrete is increased, so that a solid fixation is possible. However, by varying the time point of deployment of the plurality of expansion sleeves, it is possible to immediately correct according to the site situation, so proper anchor construction is not made.

On the other hand, most of the torque wrenches used in the field are obsolete, and it is difficult to determine that the correct torque value has been applied to the anchor when installing the anchor with a torque wrench, so only an experienced contractor judges the expansion of the expansion sleeve to perform anchor construction. It is the actual situation.

(Patent Document 1) Korean Laid-Open Patent 10-2006-0015411

(Patent Document 2) Korean Patent Publication 10-2002-0005251

(Patent Document 3) Korean Patent Publication 10-2019-0092727

The present invention was devised to solve the above problems.

Specifically, by providing a plurality of expansion sleeves, by increasing the friction and locking force with the concrete, the adhesion is increased, it is intended to provide an anchor that is firmly coupled.

In addition, it is intended to provide an anchor that can be immediately modified according to the site situation by variously controlling the deployment timing of a number of expansion sleeves.

In addition, even if you are not a skilled person, it is intended to provide an anchor that expands the expansion sleeve by rotating the anchor with an accurate torque value.

An embodiment of the present invention for solving the above problems, as an anchor comprising two or more expansion sleeves, the outer circumferential surface is formed of a screw thread, the threaded portion (100); A nut 110 screwed to the threaded portion 100; A washer 120 positioned under the nut 110; A body portion 200 connected to the screw portion 100 and positioned under the screw portion 100; A fixed sleeve 130 having a hollow shape and having holes 131 formed on both sides thereof, and partially penetrating the threaded portion 100 and the body portion 200 through the hollow inner side; Two or more fixing members 140 coupled to the outside of the fixing sleeve 130; A first expansion sleeve 150 having one end fixed by any one of the fixing members 140 and having at least one first expansion sleeve slit 151 formed therein; At least one expansion member 160 coupled to the body part 200 and protruding outward through the hole 131 of the fixed sleeve 130 to expand the first expansion sleeve 150; A second expansion sleeve 170 having one end fixed to the other one of the fixing members 140 and having at least one second expansion sleeve slit 171 formed therein; And an extension head part 300 connected to the body part 200, located under the body part 200, and deploying the second extension sleeve 170, and the first extension sleeve (150) and the second expansion sleeve 170 to provide an anchor that can be deployed differently.

In addition, the fixing member 140 includes a first fixing member 141, a second fixing member 142, and a third fixing member 143, and the expansion member 160 includes a first expansion member ( 161, a second expansion member 162, and a third expansion member 163, and the fixing member 140 and the expansion member 160 preferably have different heights.

In addition, the distance traveled until the first expansion sleeve 150 is deployed is referred to as d1, the distance traveled until the second expansion sleeve 170 is deployed is referred to as d2, and the first fixing member ( When the distance at which the first expansion sleeve 150 can move when 141) and the second fixing member 142 are removed is d3, the first expansion sleeve 150 and the second expansion sleeve 170 It is preferable that the sum of d1 and d3 is equal to d2 so that d1 and d3 are combined.

In addition, so that the second expansion sleeve 170 is first deployed, and the first expansion sleeve 150 is later deployed by a difference between the sum of d1 and d3 and d2, the sum of d1 and d3 is greater than d2. It is desirable to have a large one.

In addition, the lower side of the nut 110 includes a protruding member 111, and the upper side of the washer 120 includes a coupling member 121, and when rotating at a preset torque value, the protruding member It is preferable that (111) is fastened to the coupling member (121).

In addition, the present invention in the construction method using the anchor described above, (a) in consideration of the deployment timing of the first expansion sleeve 150 and the second expansion sleeve 170, the fixing member 140 and the expansion Determining whether the member 160 is removed, and removing the member 160; (b) perforating a position to which the anchor is to be fastened so that the anchor can be inserted; (c) inserting the anchor into the perforated position in the (b) step; (d) rotating the threaded portion 100 of the anchor using a torque wrench; (e) the body part 200 and the expansion head part 300 connected to the screw part 100 rotate and rise, and the second expansion sleeve 170 is deployed by the expansion head part 300 ; (f) When the fixing member 140 and the expansion member 160 are not removed in step (a), at the same time as step (e), the first expansion sleeve 150 is A step developed by (161); (g) When at least one of the fixing members 140 and the expansion member 160 are removed in step (a), the first expansion sleeve 150 is reduced by a difference between the sum of d1 and d3 and d2. A step developed later; And (h) in the step (f) or (g), when rotating at a preset torque value, the protrusion member 111 is fastened to the coupling member 121.

According to an embodiment of the present invention, there are the following effects.

First, as the number of expansion sleeves increases, the friction force with the concrete and the support by the locking force increase, so that the adhesion increases, and there is an advantage of being more firmly coupled.

Second, the deployment timing of two or more expansion sleeves can be different, and the deployment timing of each expansion sleeve can be variously adjusted, so that appropriate anchor construction is possible by immediately correcting at the site according to the site situation.

Third, when the anchor is rotated with a preset torque value, the protruding member and the coupling member of the nut and washer are fastened, so that even if you are not skilled, you can rotate the anchor with the correct torque value to deploy the expansion sleeve, which is directly connected to safety. It can reduce defective construction. Since the sleeve is deployed in an invisible place, conventionally, the operator must hear the sound of the sleeve fastening to confirm whether it is deployed, but in the present invention, it is possible to make an accurate determination by visually checking the fastening of the protruding member and the coupling member.

1 is a perspective view of an anchor according to the present invention.
2 is a cross-sectional view illustrating a case in which the first expansion sleeve 150 and the second expansion sleeve 170 are simultaneously deployed as an embodiment of the anchor according to the present invention.
3 is a cross-sectional view illustrating a case in which the first expansion sleeve 150 is deployed later than the second expansion sleeve 170 in another embodiment of the anchor according to the present invention.
4 is a longitudinal sectional view of the anchor according to A-A' of FIG. 1.
5 is a perspective view of a fixed sleeve according to the present invention.
6 is an exploded perspective view of a nut and a washer according to the present invention.
7 is a longitudinal sectional view of a nut and a washer according to B-B' of FIG. 6.

Below. An anchor according to the present invention will be described in detail with reference to the drawings.

1. Description of anchor configuration

An anchor according to an embodiment of the present invention will be described with reference to FIGS. 1 to 7.

1 and 2, the anchor according to the present invention includes a screw portion 100, a body portion 200, and an expansion head portion 300, a nut 110, a washer 120, a fixed It further includes a sleeve 130, a fixing member 140, a first expansion sleeve 150, an expansion member 160, and a second expansion sleeve 170.

The screw portion 100 has an outer circumferential surface formed of a screw thread, and may be connected to the body portion 200. A nut 110 and a washer 120 to be described later may be screwed to the threaded portion 100 by a thread of the threaded portion 100.

The body portion 200 is connected to the screw portion 100, is located at the lower side of the screw portion 100, the lower side of the body portion 200, an expansion head portion 300, which will be described later, is located.

The expansion head part 300 is connected to the body part 200 and is located under the body part 200. The expansion head part 300 expands a second expansion sleeve 170 to be described later.

The screw part 100, the body part 200 and the expansion head part 300 are integrally connected, and when the screw part 100 is raised by screwing the nut 110, the body part 200 connected to the screw part 100 And the expansion head 300 also rises.

On the other hand, the nut 110 is screwed to the screw portion 110, the washer 120 is located at the lower side. The lower side of the nut 110 includes a protruding member 111, and the protruding member 111 may be coupled to the coupling member 121 of the washer 120.

The washer 120 may have a ring shape and may be located under the nut 110. An upper surface of the washer 120 includes a coupling member 121, and a protrusion member 111 of the nut 110 may be coupled to the coupling member 121.

The fixing sleeve 130 has a hollow shape, and a part of the screw portion 100 and the body portion 200 penetrates the inside of the hollow of the fixing sleeve 130. Two or more fixing members 140 may be coupled to the outside of the fixing sleeve 130. Holes 131 are formed on both sides of the fixed sleeve 130, and at least one expansion member 160 to be described later may protrude between the holes 131 on both sides.

The fixing member 140 has a ring shape coupled to the fixing sleeve 130 and may include a first fixing member 141, a second fixing member 142, and a third fixing member 143. The fixing sleeve 130 may be fixed so that the first expansion sleeve 150 is pushed in the direction of the screw portion 100 so as not to move. It is preferable that the first fixing member 141 and the second fixing member 142 can be separated from the fixing sleeve 130 with a hammer, etc., but the third fixing member 143 and the fourth fixing member 144 are fixed sleeves ( It is preferred that it is not separated from 130). It is preferable that the height of the fixing member 140 is different from the height of the expansion member 160. The number of fixing members 140 is an example for explaining the present invention, and is not limited thereto.

The first expansion sleeve 150 is located outside the fixing sleeve 130 and is located below the fixing member 140. The first expansion sleeve 150 includes at least one first expansion sleeve slit 151 formed as a thin and long groove in the longitudinal direction of the first expansion sleeve 150. In the first expansion sleeve 150, the first expansion sleeve 150 is higher than the first, second and third fixing members 141, 142, 143 by any one of the first, second and third fixing members 141, 142, and 143. Can be fixed to prevent movement. When the first fixing member 141 or the first and second fixing members 141 and 142 are removed, the first expansion sleeve 150 may include the first fixing member 141 or the first and second fixing members ( 141,142). In addition, the first expansion sleeve 150 may be deployed by any one of the first, second, and third expansion members 161, 162, and 163.

The expansion member 160 may include a first expansion member 161, a second expansion member 162, and a third expansion member 163. The expansion member 160 is coupled to the body portion 200 and protrudes outward through the hole 131 of the fixing sleeve 130. Using a torque wrench, the screw part 100 rotates and rises, and at the same time, the body part 200 connected to the screw part 100 rotates and rises, and the expansion member 160 connected to the body part 200 rotates. It can rise. As the expansion member 160 rises, the first expansion sleeve slit 151 of the first expansion sleeve 150 may be opened and deployed. The first expansion member 161 and the second expansion member 162 are preferably detachable from the body portion 200 with a hammer, etc., but the third expansion member 163 is preferably not separated from the body portion 200 Do. It is preferable that the height of the expansion member 160 is different from the height of the fixing member 140. The number of expansion members 160 is an example for explaining the present invention, and is not limited thereto.

The second expansion sleeve 170 is located outside the fixing sleeve 130 and is located below the fourth fixing member 144. The second expansion sleeve 170 includes at least one second expansion sleeve slit 171 formed as a thin and long groove in the length direction of the second expansion sleeve 170. The second expansion sleeve 170 is located on the upper end of the second expansion sleeve 170 by the fourth fixing member 144, so that the second expansion sleeve 170 does not move above the fourth fixing member 144. Can be fixed. The fourth fixing member 144 is fixed to the fixing sleeve 130 and may not be removable. In addition, the second expansion sleeve 170 may be deployed by the expansion head unit 300.

Referring to FIG. 2, a case where the first expansion sleeve 150 and the second expansion sleeve 170 are simultaneously deployed will be described.

The distance traveled until the first expansion sleeve 150 is deployed is referred to as d1, the distance traveled until the second expansion sleeve 170 is deployed is referred to as d2, and the first fixing member 141 or the first When the 1 fixing member 141 and the second fixing member 142 are removed, the distance at which the first expansion sleeve 150 can move is referred to as d3. At this time, if the fixing member 140 is not removed (d3 = 0) and the expansion member 160 is not removed, the first expansion sleeve 150 and the second expansion sleeve 170 may be simultaneously deployed. . This is the sum of the distance d1 moved until the first expansion sleeve 150 is deployed and the distance d3 that can be moved when the fixing member 140 is removed, the second expansion sleeve 170 is deployed. This is the case where the distance d2 moved until it is the same. At this time, since no fixing member 140 is removed, d3 becomes 0, and therefore, it is preferable that d1 and d2 are the same.

Referring to FIG. 3, a case in which the first expansion sleeve 150 is deployed later than the second expansion sleeve 170 will be described. In most cases, it is preferable that the second expansion sleeve 170 at the bottom is first deployed.

When the first fixing member 141 is removed from the fixing sleeve 130 by hitting the first fixing member 141 with a hammer, etc., and when the first expansion member 161 is removed from the body portion 200 by hitting the hammer or the like, the first expansion sleeve ( 150) moves toward the screw portion 100 by the height of the first fixing member 141. When the screw portion 100 is rotated using a torque wrench or the like, the first expansion sleeve 150 may be deployed later than the second expansion sleeve 170. This is the distance d1 moved until the first extension sleeve 150 is deployed and the distance d3 at which the first extension sleeve 150 can move toward the threaded portion 100 when the fixing member 140 is removed. This is the case where the sum of the distances is greater than the distance d2 moved until the second expansion sleeve 170 is deployed. The second expansion sleeve 170 may be deployed first, and the first expansion sleeve 150 may be deployed later by a difference between the sum of d1 and d3 and d2.

In addition, when only the first fixing member 141 is removed, when the first fixing member 141 and the second fixing member 142 are removed, the first fixing member 141 and the first expansion member 161 , When removing the second expansion member 162, when removing the first fixing member 141, the second fixing member 142 and the first expansion member 161, the first fixing member 141, the first 2 When removing the fixing member 142, the first expansion member 161, and the second expansion member 162, when only the first expansion member 161 is removed, the first expansion member 161 and the second expansion member The case of removing the member 162 may be further included. Since the heights of the fixing member 140 and the expansion member 160 are different from each other, a total of nine cases can be derived by combining the fixing member 140 and the expansion member 160.

In addition, the number of the fixing member 140 and the expansion member 160 is not limited. Thus, it is also possible to derive the number of more or less cases.

In addition, the number of expansion sleeves is not limited. The number of extension sleeves can be more than one.

In addition, when the sum of d1 and d3 is less than d2, the first expansion sleeve 150 may be deployed first, and the second expansion sleeve 170 may be deployed later.

Referring to FIG. 4, which is a longitudinal sectional view of the anchor according to A-A' of FIG. 1, the relationship between the fixing sleeve 130, the first expansion member 161, and the body portion 200 will be described in detail.

The first expansion member 161 is coupled to the body portion 200 and may be removed by a hammer or the like. The first expansion member 161 may protrude through the hole 131 of the fixing sleeve 130. The fixed sleeve 130 does not rise or fall due to rotation, but the first expansion member 161 coupled to the body portion 200 and the body portion 200 is formed by the rotation of the screw portion 100. 200) can also rotate and climb together.

Referring to FIG. 5, the fixed sleeve 130 will be described.

The fixed sleeve 130 has a hollow cylindrical shape, and a part of the screw portion 100 and the body portion 200 may pass through the hollow of the fixed sleeve 130. In addition, holes 131 are formed on both sides of the fixed sleeve 130, so that the expansion member 160 coupled to the body portion 200 may protrude through the hole 131. The hole 131 may provide a sufficient space for the expansion member 160 to be positioned when the first expansion sleeve 150 is deployed as the expansion member 160 rotates and rises.

6 and 7, the nut 110 and the washer 120 will be described.

The lower side of the nut 110 includes a protruding member 111, and the upper side of the washer 120 may include a coupling member 121. The protruding member 111 is protruded by the elastic member 112, and when it is located at a different position of the washer 120, not the coupling member 121, the elastic member 112 is formed by the washer 120. Can be compressed. When the protruding member 111 is positioned on the coupling member 121 by rotation by rotating at a preset torque value, the elastic member 112 pressed and compressed by the washer 120 is elastic to return to its original shape. Due to the nature of the member 112, the protruding member 111 may be fastened to the coupling member 121. The elastic member 112 may be implemented with an elastic material such as a spring. In the case of rotation more than the preset torque value, the protrusion member 111 is already fastened to the coupling member 121 to prevent rotation in excess of the preset value. Through this, when a value greater than or equal to a preset torque value is given, a situation in which the nut 110 is worn can be prevented.

Meanwhile, a scale may be formed on the upper or side surfaces of the washer 120. Depending on the removal of the fixing member 140 and the expansion member 160, the portion marked on the upper or side of the nut 110 is placed on a specific scale of the washer 120, and then the anchor is fixed using a torque wrench, etc. I can make it. At this time, depending on whether the fixing member 140 and the expansion member 160 are removed, the torque value may vary, and according to the varying torque value, the positions of the protruding member 111 and the coupling member 121 are changed, Rotation exceeding the set torque value can be prevented.

2. Explanation of anchor construction method

1 to 3, a construction method using an anchor according to the present invention will be described.

In the construction method using the anchor, in consideration of the deployment timing of the first expansion sleeve 150 and the second expansion sleeve 170, it is determined whether or not the fixing member 140 and the expansion member 160 are removed. When the first expansion sleeve 150 and the second expansion sleeve 170 are simultaneously deployed, the sum of d1 and d3 is equal to d2, and the second expansion sleeve 170 is deployed first, and then the first expansion sleeve is expanded. When the sleeve 150 is to be deployed later, the fixing member 140 and the expansion member 160 are removed so that the sum of d1 and d3 is greater than d2 as much as it is desired to delay the deployment timing of the first expansion sleeve 150. .

Next, the position to which the anchor is to be fastened is drilled using a drill or the like. The perforation diameter is a size into which the anchor according to the present invention can be inserted, and it is preferable to perforate so as not to be too wide.

Next, insert the anchor in the perforated position. After insertion, according to the removal of the fixing member 140 and the expansion member 160, the marked one side of the nut 110 is located at the marked position on the upper side of the washer 120.

Next, using a torque wrench, the screw portion 100 of the anchor is rotated with a preset torque value. The screw portion 100 is connected to the body portion 200, the expansion head portion 300, and the expansion member 160 that has not been removed, and rotates and rises together. When the expansion head 300 is raised, the second expansion sleeve slit 171 is opened, so that the second expansion sleeve 170 may be deployed. The torque value may vary depending on whether the fixing member 140 and the expansion member 160 are removed.

When the sum of d1 and d3 is equal to d2, the second expansion sleeve 170 is deployed and the expansion member 160 rises, so that the first expansion sleeve slit 151 is opened, and the first expansion sleeve 170 is expanded. 150 can be deployed.

When the sum of d1 and d3 is greater than d2, the second extension sleeve 170 is expanded by d2, and the threaded portion 100 is further rotated by the difference between d2 and d1 and d3. The member 160 may deploy the first expansion sleeve 150.

When the rotation is completed with a preset torque value, the protruding member 111 is positioned on the coupling member 121, and the protruding member 111 is connected to the protruding member 111 by the elastic member 112 connected to the protruding member 111. 121), it is possible to prevent the nut 110 from being worn by exceeding a preset torque value.

In the above, the present specification has been described with reference to the embodiments shown in the drawings so that those skilled in the art can easily understand and reproduce the present invention, but these are only exemplary, and those skilled in the art can use various modifications and equivalents from the embodiments of the present invention. It will be appreciated that examples are possible. Therefore, the scope of protection of the present invention should be determined by the claims.

100: threaded portion
110: nut
111: protruding member
112: elastic member
120: washer
121: coupling member
130: fixed sleeve
131: Hall
140: fixing member
141: first fixing member
142: second fixing member
143: third fixing member
144: fourth fixing member
150: first extension sleeve
151: first expansion sleeve slit
160: expansion member
161: first expansion member
162: second expansion member
163: third expansion member
170: second expansion sleeve
171: second expansion sleeve slit
200: body
300: expansion head

Claims (6)

An anchor comprising two or more expansion sleeves,
The outer circumferential surface is formed of a screw thread, the threaded portion 100;
A nut 110 screwed to the threaded portion 100;
A washer 120 positioned under the nut 110;
A body portion 200 connected to the screw portion 100 and positioned under the screw portion 100;
A fixed sleeve 130 having a hollow shape and having holes 131 formed on both sides thereof, and partially penetrating the threaded portion 100 and the body portion 200 through the hollow inner side;
Two or more fixing members 140 coupled to the outside of the fixing sleeve 130;
A first expansion sleeve 150 having one end fixed by any one of the fixing members 140 and having at least one first expansion sleeve slit 151 formed therein;
At least one expansion member 160 coupled to the body part 200 and protruding outward through the hole 131 of the fixed sleeve 130 to expand the first expansion sleeve 150;
A second expansion sleeve 170 having one end fixed to the other of the fixing members 140 and having at least one second expansion sleeve slit 171 formed therein; And
An expansion head part (which is integrally connected to the body part 200 ), located under the body part 200, and unfolds the second expansion sleeve 170 and does not form a screw thread so that a nut is not inserted. 300),
It is possible to adjust the deployment timing of the first expansion sleeve 150 and the second expansion sleeve 170,
The fixing member 140,
Including a first fixing member 141, a second fixing member 142 and a third fixing member 143,
The expansion member 160,
Including a first expansion member 161, a second expansion member 162 and a third expansion member 163,
Each of the fixing member 140 and the expansion member 160 can be removed to have different heights,
The distance moved until the first expansion sleeve 150 is deployed is referred to as d1,
The distance moved until the second expansion sleeve 170 is deployed is referred to as d2,
When any one or more of the first fixing member 141, the second fixing member 142, and the third fixing member 143 is removed, the fixing sleeve 130 is more If the distance that can be moved is d3,
When the first expansion sleeve 150 and the second expansion sleeve 170 are to be deployed at the same time, the sum of d1 and d3 is set to be d2,
When the second expansion sleeve 170 is first deployed and then the first expansion sleeve 150 is to be deployed, the sum of d1 and d3 is set to be greater than d2,
d1 is adjustable by removing one or more of the first expansion member 161, the second expansion member 162, and the third expansion member 163, and d3 is the first fixing member 141, Adjustable by removing any one or more of the second fixing member 142 and the third fixing member 143,
anchor.
delete delete delete The method of claim 1,
The lower side of the nut 110 includes a protruding member 111,
On the upper side of the washer 120, including a coupling member 121,
When rotating to a preset torque value, the protruding member 111 is fastened to the coupling member 121,
anchor.
In the construction method using the anchor according to claim 5,
(a) determining whether the fixing member 140 and the expansion member 160 are removed in consideration of the deployment timing of the first expansion sleeve 150 and the second expansion sleeve 170, and removing it;
(b) perforating a position to which the anchor is to be fastened so that the anchor can be inserted;
(c) inserting the anchor into the perforated position in the (b) step;
(d) rotating the threaded portion 100 of the anchor using a torque wrench;
(e) the body part 200 and the expansion head part 300 connected to the screw part 100 rotate and rise, and the second expansion sleeve 170 is deployed by the expansion head part 300 ;
(f) When the fixing member 140 and the expansion member 160 are not removed in step (a), at the same time as step (e), the first expansion sleeve 150 is A step developed by (161);
(g) When at least one of the fixing members 140 and the expansion member 160 are removed in step (a), the first expansion sleeve 150 is reduced by a difference between the sum of d1 and d3 and d2. A step developed later; And
(h) in the step (f) or (g), including the step of fastening the protruding member 111 to the coupling member 121 when it is rotated to a preset torque value,
Anchor construction method.

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