KR101501454B1 - Anchor structure and reinforcing-method using the same - Google Patents

Abstract

The present invention relates to an anchor internal structure comprising: an anchor main body having a head portion which is fixed in a tensile member and a tip of the tensile member; one or more pipe expanding members fixed in the anchor main body, and capable of shrinking and expanding; and a pipe expanding control portion controlling the pipe expanding members to be expanded after the anchor main body is inserted into a punching groove. The anchor internal structure has an effect of improving the adhesive force between the anchor internal structure and the ground by enabling grout inserted between the anchor internal structure and the ground to be equally filled by adjusting the position to the center of a punching groove.

Description

Technical Field [0001] The present invention relates to an anchor load-carrying structure, and a slope and a retaining wall reinforcing method using the same.

More particularly, the present invention relates to an anchor underlining structure having an anchor load-lowering structure in a perforation hole, the anchor load-lowering structure being disposed at a center of a perforation hole without being deflected toward one side, and advantageous in grouting and tensioning.

Generally, an anchor is used for prevention of collapse of a cut surface at a cutout or the like, stabilization of a slope, prevention of injury due to groundwater of a large structure such as a building or a dam, prevention of collapse of an excavation wall during underground construction work of a large building, And to prevent the movement or distortion of the structure during the construction of large steel towers.

In the anchor method, a perforation hole is drilled through a perforator in the ground where collapse is likely to occur, and a grout hose, a plurality of tensile materials and an inner bottom body are provided as a unit in the hole, and then the grout hose The grout is injected. When the grout is cured together with the inner bottom body, the fixture is fastened to the other end of the tensile material, and then the tensile material in the strand is tensioned by using hydraulic equipment or the like to stabilize the target structure.

Such anchors support the tensile force from the surface by the ground pressure of the grouting or the friction force with the ground. In such an anchor construction, the anchor components are classified into a fixation unit that exerts a required stress, a free portion that transfers stress exerted in the fixation field, and a fixture that allows the required stress to act on the structure. Among these components, the fixing part is determined by the adhesion resistance between the ground and the cement grout, the cement grout and the tensile material. The free portion used in the anchor method may be made of a tensile material, for example, a wire rope coated with a plurality of twisted steel wires.

However, the anchor according to the prior art has the following problems.

For example, Korean Patent Registration No. 0598024 discloses a technique for strengthening the anchoring force in the perforation hole. However, when the anchor is inserted into the perforation hole, the anchor may be pushed to one side of the perforation hole. It is completely grounded on one side of the perforation hole and grout is injected in this state, so that the grouting adhesion force between the anchor and the ground can not be expected, which is a cause of the failure.

Korean Patent Registration No. 0598024

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide an anchor structure and an anchor structure, Which is capable of improving the grouting adhesion force of the anchor.

According to an aspect of the present invention, there is provided an anchorage receiving structure comprising: an anchor main body composed of a tensile material and a head portion fixed to a front end of a tensile material; At least one expanding member fixed to the anchor body and capable of contracting and expanding; And an expansion control unit for controlling the expansion member to expand after the anchor main body is inserted into the perforation hole.

At this time, the expanding member is an enlarged body fixed at one point or more of the head portion or the tension member. And one or more extension plates extending from a rear end of the expanding body and having a property of expanding toward the outside of the expanding body.

In addition, the area of the space between the expansion plates is larger than the area occupied by the expansion plate in the expanded state.

In addition, the expansion control unit may include a clip member configured to surround the expansion plate and having both ends detachable from each other; A detachable pin that binds the clip member in a state in which the extension plate is pushed toward the center of the expanding body; And an extension line having one end connected to the detachment pin and the other end connected to the ground.

On the other hand, the clip member is a circular clip member partially opened; A pair of first hooks extending in one direction at one end of the clip body; And a second hook formed at the other end of the clip body and configured to be disposed between the pair of first hooks when the clip body is retracted, And is inserted into both of the second hooks to fasten the clip body.

At this time, the expansion plate is provided with a coupling groove, and the clip member is fastened on the coupling groove.

As an example. And the grouting reinforcement is provided between each of the expanding members.

The slope and retaining wall reinforcing method using the anchor bearing structure of the present invention includes a drilling step of excavating a ground to form a perforation hole; Anchor inserting step of inserting the anchor underlining structure of any one of claims 1 to 7 into the perforation hole; Anchor position correcting step of positioning the anchor bearing structure at the center of the hole; A grouting step of injecting grout into the perforation hole; A tensioning step of tensioning the anchor load bearing structure; And a finishing step of finishing the tofu exposed to the ground.

At this time, in the position correcting step, the position of the anchor underlayment structure is corrected to the center of the perforation hole by controlling the expanding control unit of the anchor underlayment structure to expand the expanding member.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in view of the above problems, and it is therefore an object of the present invention to provide an anchor underlay structure, an anchor underlay structure, And the grouting reinforcements connected to the tensile material can improve the adhesion of the anchor underlining structure and the ground.

1 is a perspective view showing an anchor bearing structure according to the present invention;
2 is an exploded view of Fig.
Fig. 3 is a view showing an expanding member and an expansion control unit, which constitute an embodiment of the present invention; Fig.
4 is an operational state diagram of Fig.
5 is an operational view of an anchor underlayment structure according to the present invention.
6 is a view showing that a grouting reinforcement is further formed in the anchor load-bearing structure according to the present invention.
7 is a block diagram showing a slope and a method for reinforcing a retaining wall using the anchor bearing structure according to the present invention.

In describing the present invention, terms and words used in the present specification and claims are to be construed in accordance with the principles of the present invention, on the basis that the inventor can properly define the concept of a term in order to best explain his invention It should be construed as meaning and concept consistent with the technical idea of.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view showing an anchor bearing structure according to the present invention, FIG. 2 is an exploded view of FIG. 1, and FIG. 3 is a view showing an expanding member and an expansion control unit, which are one embodiment of the present invention. FIG. 4 is an operational state view of FIG. 3, FIG. 5 is an operational state view of the anchor bearing structure according to the present invention, and FIG. 6 is a view showing that a grouting reinforcement hole is further formed in the anchor bearing structure according to the present invention. And FIG. 7 is a block diagram illustrating a slope and a method for reinforcing a retaining wall using the anchor bearing structure according to the present invention.

1 and 2, the anchor load carrying structure 1 according to the present invention is constructed to reinforce a slope or a retaining wall and includes an anchor body 100, an expanding member 200, and an expansion control unit 300 ).

Generally, when the anchor underlayment structure 1 is inserted into the perforation hole H formed by excavating the ground, the anchor underlayment structure 1 tends to be tilted toward one side of the perforation hole H, particularly in the direction of gravity. The anchor load carrying structure 1 can be disposed at the center of the perforation hole H due to the organic action of the anchor main body 100, the expanding member 200 and the expansion control unit 300, (1), thereby improving the workability and tensile strength.

The anchor main body 100 includes a tensile member 110 and a head 120 which are inserted into the perforation hole H formed by excavating the ground and fixed to the tip of the tensile member 110. At this time, a stranded wire can be applied to the tensile material 110, but it is natural that a stranded wire can be applied to serve as a support material when the earth pressure of the slope greatly acts.

The outer tube 112 surrounding the tensile material 110 may further include an outer tube 112 and a tensile material 110 to form a mutual clearance therebetween so as to apply a tensile force to the tensile material 110 after the grouting is injected and fixed. The tensile force can be easily applied to the tensile material 110. For example, the outer tube 112 can be a sheath tube.

The expanding member 200 is configured to be contractible and expandable and one or more of which is fixed to the anchor main body 100 and is in a contracted state until the anchorage internal structure 1 is completely inserted into the perforation hole H And the expansion control unit 300 controls and expands the shrunk expansion member 200 in a state where the anchor main body 100 is inserted into the hole H so that the expansion member 200 is inserted into the hole H The anchor main body 100 can be positioned at the center of the perforation hole H by the principle of being spread on the inner periphery of the perforation hole H.

Hereinafter, specific embodiments of the expanding member 200 and the expansion control unit 300 will be described with reference to FIGS. 3 to 4. FIG.

The expanding member 200 includes an expanding body 210 and an expansion plate 220 as shown in the figure and is fixed to a rear end of the head 120 or at least one point of the tensile material 110 .

The expansion member 200 may be fixed to the rear end of the head part 120 and one point of the tensile material 110, respectively.

In this specification, the term "front end" refers to the direction toward the head part 120, and the term "rear end" refers to the opposite direction.

The expanding body 210 may have a hollow 212 formed therein so as to be guided by the tensile material 110. The expanding plate 220 may extend from the rear end of the expanding body 210 and extend through the expanding body 210, As shown in Fig.

The extension plate 220 is a leaf spring that tends to widen toward the outside and can be arranged radially with respect to the center of the expanding body 210. When the through hole H of the anchor main body 100 is inserted, And is expanded by the operation of the following expansion control unit 300 after inserting the perforation hole H of the anchor main body 100. [

In addition, the plurality of expansion plates 220 are filled in the perforation hole H through the grout injected through the gap between the expansion plates 220 in the expanded state, and the area of the expanded plate 220 in the expanded state It is preferable that the area of the space between the expansion plates 220 is larger.

The expansion control unit 300 includes a clip member 310, an attachment pin 320, and an extension line 330 as a means for controlling contraction and expansion of the extension plate 220.

Both ends of the clip member 310 are mutually attachable and detachable so that both ends of the clip member 310 can be coupled while the extension plate 220 is contracted so that the extension plate 220 can be maintained in a contracted state, 310 are released, the expanding plate 220 can be expanded and the expanding member 200 can be expanded.

More specifically, the clip member 310 includes a clip body 311, a first hook 312, and a second hook 314, and the clip body 311 is circular and one side is opened.

The first hook 312 and the second hook 314 are formed at both ends of the clip body 311 in a corresponding structure. The first hooks 312 extend in a pair at one end of the clip body 311 and are arranged in a pair and the second hooks 314 are formed at the other end of the clip body 311 When the circular clip body 311 is retracted toward the center, the detachable pin 320 is positioned between the pair of first hooks 312 so that the first hook 312 and the second hook 314 are engaged with each other, So that the first hook 312 and the second hook 314 are engaged with each other.

This is because the clip member 310 binds the rim of the extension plate 220 in a state in which the extension plate 220 is widened to the outside so that the detachable pin 320 is engaged with the first hook 312 and the second hook 314, the binding can be maintained.

In this case, the first hooks 312 are arranged side by side because the first hooks 312 are formed when the first hooks 312 are not one pair, as in the second hooks 314, A force is applied to both ends of the clip body 311, so that the detachable pin 320 can not maintain a vertical direction with respect to the clip body 311, thereby automatically releasing the engagement.

The extension line 330 is connected to the detachable pin 320 and the extension line 330 extends to the outside of the perforation hole H. The operator removes the detachment pin 320 when the extension line 330 is pulled, The expanding member 200 can be expanded.

4A and 4B are views showing the operating states of the expanding member 200 and the expansion control unit 300. FIG. 4A shows that the expanding member 200 is engaged with the clip member 310 in the closed state The anchoring member 200 is held in a contracted state by the clip member 310 before the anchor main body 100 is inserted into the perforation hole H and then the anchor main body 100 is inserted into the perforation hole H ).

4B shows a state in which the expanding member 200 is extended by releasing the engagement of the clip member 310 by the expansion control unit 300. When the anchor main body 100 is inserted into the perforation hole H After the clip member 310 is completely inserted, the clip member 310 is released so that the expanding member 200 expands and the anchor main body 100 is positioned at the center of the perforation hole H.

3, the extension plate 220 may be provided with a coupling groove 222. When the clip member 310 is coupled with the extension plate 220 in a contracted state, And is prevented from flowing upward and downward because it is fixed to the coupling groove 222. This prevents malfunction such as disengagement of the extension plate 220 automatically while the clip member 310 moves up and down .

Hereinafter, the overall operating state of the anchor bearing structure 1 according to the present invention will be described with reference to FIG.

5A is a view showing a state in which the anchor load carrying structure 1 is inserted into the hole H and FIG. 5B is a view showing the state in which the expanding member 200 is expanded after the anchor underlaying structure 1 is inserted into the hole H, 5C is a view showing that the grout G is injected after correcting the position of the anchor underlayment structure 1. FIG. 5C is a view showing that the anchor load carrying structure 1 is corrected to the center of the perforation hole H in FIG.

First, as shown in Fig. 5A, the anchor load carrying structure 1 is inserted into the perforation hole H in a state in which the expanding member 200 is contracted. At this time, due to the clearance between the perforation hole (H) and the anchor bearing structure (1), the anchor bearing structure (1) comes into contact with one inner peripheral surface of the perforation hole (H) in the gravity direction.

5B, when the operator pulls the extension line 330 of the expansion control unit 300 from the ground in a state where the anchor loader structure 1 is fully inserted into the hole H, the removal pin 320 is removed The clip body 311 surrounding the extension plate 220 is released and the extension plate 220 is extended so that the anchor underlayment structure 1 is positioned at the center of the hole H.

5C, when the grout is injected through the perforation hole H, the grout G is evenly filled between the anchor underlayment structure 1 and the perforation hole H through the space between the extension plates 220 .

6, a grouting reinforcement 400 may be further provided between the expanding members 200, which are formed in a plurality of the anchor main body 100, to surround the tensile material 110. In this case, The reinforcing member 400 serves as a reinforcing member, for example, reinforcing steel of reinforcing concrete. Both ends are fixed to the tensile member 110, respectively. If grouting is applied by grouting, the grouting adhesion force between the tensile material and the ground is strengthened so that the pulling resistance of the tensile material can be doubled.

The grouting reinforcement 400 may have various structures to fill the grout between the grouting reinforcements 400. In this embodiment, a grouting reinforcement 400 having a spring structure is shown, Both ends of which are fixed to the tensile material 110 so that the inner diameters of the both ends correspond to the outer diameter of the tensile material 110 and the center of the tensile material 110 is relatively centered, The diameter of the inner side is made large, so that the adhesion with the grout can be enhanced.

Hereinafter, a slope and a retaining wall reinforcing method using the anchor underlayment structure 1 will be described with reference to FIG.

The slope and the retaining wall reinforcing method using the anchor load bearing structure 1 according to the present invention can be performed by a piercing step S10, an anchor inserting step S20, an anchor position correcting step S30, a grouting step S40, (S60).

The perforating step S10 is a step of excavating the ground to form the perforation hole H for inserting an anchor as a reinforcing material for each construction when constructing a slope or a retaining wall

In the anchor insertion step S20, the anchor underlayment structure 1 according to the present invention as described above is inserted into the perforation hole H. At this time, the expanding member 200 of the anchor underlayment structure 1 is inserted into the expansion control unit 300 in a contracted state.

In the anchor position correcting step S30, the expansion control unit 300 of the anchor underlining structure 1 is controlled to extend the expanding member 200 so that the center of the perforation hole H is positioned at the center of the anchor underlayment structure 1. [ The position is corrected.

Then, in the grouting step (S40), the anchor load carrying structure (1) is cured by injecting grout into the perforation hole (H) after correcting its position in the perforation hole (H).

Then, after the grout is fixed, the construction proceeds in the order of a tensile step of pulling the anchor underlayment structure 1, and a finishing step (S60) of finishing the head exposed to the ground.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

1: Anchor load-carrying structure 100: Anchor body
110: tensile material 120: head part
200: expanding member 210: expanding body
220: Extension 300: Extended control fisher
310: clip member 320: detachable pin
330: extension line 400: grouting reinforcement hole

Claims (9)

An anchor body composed of a tensile material and a head portion fixed to the tip of the tensile material; At least one expanding member fixed to the anchor body and capable of contracting and expanding; And an expansion control unit for controlling the expansion member to expand after the anchor main body is inserted into the perforation hole, wherein the anchor main body is embedded in the perforation hole,
Wherein the expanding member comprises an expanding body fixed at one point or more of the head portion or the tensile member; And at least one extension plate extending from a rear end of the expanding body and having a property of being widened to the outside of the expanding body,
Wherein the expansion control unit includes a clip member configured to enclose the expansion plate and having both ends detachable from each other; A detachable pin that binds the clip member in a state in which the extension plate is pushed toward the center of the expanding body; And an extension line having one end connected to the detachment pin and the other end connected to the ground,
The clip member
A circular clip body partially opened;
A pair of first hooks extending in one direction at one end of the clip body;
And a second hook formed at the other end of the clip body and configured to be disposed between the pair of first hooks when the clip body is retracted,
When the clip body is inserted into both the first hook and the second hook by the disengagement pin being pinched by the clip body, the extension plate in the closed state is restrained,
When the detachable pin is removed, the clipped body is restored to a circular shape having a basic shape so that the constraining force of the extended plate is completely removed by the extended clip body,
Wherein the extension plate is provided with a coupling groove and the clip member is fastened on the coupling groove.
delete delete delete delete delete The method according to claim 1,
Wherein a pair of the expanding members are provided, and a grouting reinforcement is disposed between the expanding members.
Drilling the ground to form a perforation hole;
Anchor inserting step of inserting the anchor underlining structure of claim 1 or 7 into the perforation hole;
Anchor position correcting step of positioning the anchor bearing structure at the center of the hole;
A grouting step of injecting grout into the perforation hole;
A tensioning step of tensioning the anchor load bearing structure;
Finishing step to finish tofu exposed to the ground
And a method of reinforcing a slope and a retaining wall using the anchor load-bearing structure.
9. The method of claim 8,
In the position correction step
Wherein the position of the anchor underlayment structure is corrected to the center of the perforation hole by controlling the expansion control unit of the anchor underlayment structure to expand the expanding member.

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