KR100864084B1 - Anchor device using spring - Google Patents

Abstract

An anchorage expansion pressure type anchor using compressive force of a spring is provided to prevent the breaking of the ground by installing an anchorage expanded by compressive force of a spring to the front end of an anchor and expanding a spring installed to the anchorage in an anchor hole, thereby increasing skin-friction force between the outside of an anchorage and an anchor hole and enabling to use by pulling a tension member simultaneously with expansion of an anchorage. An anchorage expansion pressure type anchor using compressive force of a spring includes an anchorage inserted to an anchor hole(A) and fixed by a steel wire for compression, and a spring installed to the inside of the anchorage to be compressed, wherein the anchorage is connected with other anchorages by using a connecting link and connected to an anchorage connection at one side, and the anchorage connection is inserted to an anchor head(10) and coupled by a tension member(30), and the steel wire for compression is inserted and fixed by a fixing link fixed to a steel wire for separation pulling at the outside of the anchor hole.

Description

Fixing part expansion pressurized anchor and construction method using spring compression force {Anchor device using spring}

The present invention is not made by the grout filling the anchor hole in the anchoring force, it is provided by the anchoring portion is expanded by the compression force of the spring at the tip of the anchor to increase the frictional force of the main surface of the anchoring irrespective of the state of the ground The present invention relates to a fixing part expansion pressurized anchor and a construction method using the compression force of the spring to be immediately tensioned with the grout after drilling to prevent the ground collapse.

In general, permanent anchors are used for earthquake construction to prevent the collapse of cut surfaces in rocks, ground cutouts, slope stability, landslide restraint, groundwater prevention of large structures such as buildings or dams, prevention of injury of underground structures, large buildings It is used to prevent the collapse of excavated walls in underground construction of underground construction, and to prevent the fall of buildings such as earthquakes, large steel towers, retaining walls, etc. Caison for immersion is installed to assist in indentation.

In the permanent anchor method described above, as shown in FIG. 1, the anchor hole A is drilled using a puncher, such as rock, ground, and the like, which are generally collapsed, and the grout hose 20 is passed through the anchor hole A. FIG. And a plurality of tension members 30 and tip fixing anchor heads 10 are provided as one unit, and then inserted into the grout, and then cured together with the tip fixing anchor heads 10 after a predetermined time. Install the pressure plate 40 on the other end of the tension member 30 is tensioned using a separate hydraulic equipment and the like.

This type of anchor supports the tensile force from the surface by the ground pressure of the grout or the frictional force with the ground, and it is not possible to tension the tension member during the curing period after the grout injection. There is a problem that cannot be done.

Therefore, even when the ground is expected to collapse, it cannot be used to support the tensile force at the same time as the anchor is installed, and it can be used after the grout is cured to have sufficient strength. There is a problem that cannot be shortened.

That is, the existing anchor is unable to tension the tension member until the grout is cured after the anchor hole is installed, and thus it is difficult to use the anchor hole urgently to prevent the collapse of the ground, and the grout is sufficiently hardened. It could be used only after the time elapsed, and it could not be used where the ground was unstable and required tension immediately after drilling.

The present invention is to be used safely where the ground is unstable and require tension immediately perforation, it is possible to shorten the air while preventing the ground from collapsing at the same time as the grout is possible immediately.

That is, the present invention is installed at the tip of the anchor by the expansion force of the spring by the expansion force to the expansion of the spring installed in the anchoring portion in the anchor hole to increase the frictional force between the outer surface and the anchor hole of the anchoring portion at the same time as the expansion of the fixing portion By being able to use the tensioning material, it is possible to prevent the ground from collapsing at the same time as the construction of the grout to be used auxiliary.

According to the present invention, the semi-cylindrical fixing parts face each other, and the springs installed between the fixing parts are fixed with compression steel wires while the springs are compressed. The compression steel wires are fitted into the fixing rings of the separation steel, and the fixing parts are anchored. The fixing ring is pulled out by the separate steel wire in the state of being fitted into the ball so that the compression steel wire is released so that the fixing part is pushed outward by the compressive force of the spring while the outer side of the fixing part is in close contact with the anchor hole to increase the frictional force.

According to the present invention, after the anchoring hole is installed in the anchor hole as the rear end of the tension member, the fixing ring of the separated steel wire is pulled out and the anchoring part is brought into close contact with the anchor hole by the compression force of the spring, thereby tensioning the tension member. Even though the tension is made by the anchoring part in the anchor hole, it can be used by tensioning immediately with the grout after construction.

The present invention relates to an anchor and a construction method thereof that can be used safely where the ground is unstable and requires tension immediately upon drilling, and installed in the anchor hole at the anchor hole by installing a fixing unit that is expanded by the compressive force of the spring. The expansion of the spring is made to increase the principal frictional force between the outside of the anchorage and the anchor hole to be used to tension the tension member at the same time as the expansion of the anchorage.

Therefore, the present invention can be immediately stretched at the same time grout and is usefully used where the tension is required immediately after drilling to prevent ground collapse, while tension is achieved regardless of the hardening time of the grout, thereby shortening the air. Since the length of the fixing unit can be reduced, construction cost reduction effect occurs.

The present invention is to enable the tension with the perforation of the ground is unstable, by using a compression force of the spring to increase the principal frictional force while pushing the semi-cylindrical fixing portion to the anchor hole by the force of the spring to enable immediate tension.

According to the present invention, after drilling the anchor hole, the fixing part is pushed into the anchor hole and the fixing wire is released by fixing the fixing parts in contact with each other. Due to the increased frictional force of the main surface of the fixing unit, even if the tension member is immediately tensioned, problems such as detachment of the fixing unit do not occur, thereby preventing the ground from collapsing.

According to the present invention, the semi-cylindrical fixing units face each other, but springs are installed between the fixing units to move in the direction in which the fixing units push each other by the compression force of the springs, and the fixing unit compresses the springs while pressing the springs to face each other. The steel wire for compression is fixed with a fixing ring fixed to the separation steel, so that the fixing part is inserted into the anchor hole and the fixing ring of the separation steel wire is removed.

At this time, the convex-concave portion is formed in the direction perpendicular to the anchor hole on the outside of the fixing unit to improve the principal surface frictional force, and the fixing unit can be used to connect enough to obtain the necessary tensile force by connecting several consecutively.

The present invention is to put the anchor immediately after drilling the anchor hole to tension the tension member with the grout in the state to open the fixing unit by the compressive force of the spring to be tensioned together with the drilling of the anchor hole where the ground is unstable quickly stabilized Effectively used

The present invention is a process of drilling the anchor hole, and fixing the semi-cylindrical fixing part to be fitted inside the anchor hole with a compression steel wire to the inner spring is compressed, but the compression steel wire is to be fitted to the fixing ring of the separation steel wire And a tension member coupled to the fixing unit connecting part to the anchor hole, and the tension member coupled to the fixing unit connecting part is exposed to the anchor hole together with the separating steel wire releasing the compression wire. By pulling the wire, the fixing unit is pushed outwardly by the spring, and is made by performing a process of tightly fixing the tension member together with the grout.

The present invention will be described in detail with reference to the accompanying drawings.

The present invention is provided with a fixing part 100 fitted in the anchor hole (A) and face each other and fixed with a compression steel wire 150, the spring 200 is installed to the inside of the fixing part 100 The fuser 100 may be connected to the fuser 100 by using a connection ring 250, and the fuser 100 may be connected to the fuser connector 300 to one side, and the fuser connector 300 may be a tension member 30. It is fitted by being coupled to the anchor head 10, the compression steel wire 150 is configured by being fitted with a fixing ring 161 fixed to the separation steel wire 160 pulling from the outside of the anchor hole (A).

The fixing unit 100 is to have a semi-cylindrical shape, the spring fixing protrusion 110 is formed at a predetermined interval on the inside, the ring hole 130 is formed on both sides is fitted with a connecting ring 250, The two fixing units 100 are coupled to each other so as to form a cylindrical shape.

The outer side of the fixing unit 100 to form an uneven protrusion 120 to increase the main surface friction force, and to form an insertion groove 121 so that the compression steel wire 150 is fitted, the fixing unit 100 When the spring fixing protrusion 110 of the spring 200 is fitted to the two fixing parts 100 to face each other and contact each other, the spring 200 is compressed, and the insertion groove 121 of the fixing part 100 at this time The fixing part 100 is prevented from being opened by the force of the spring 200 by using the compression steel wire 150 fitted in the spring.

Here, the compression steel wire 150 forms a ring 151 on both sides, and the compression steel wire 150 has a cylindrical shape in which the fixing part 100 does not open with each other along the insertion groove 121 of the fixing part 100. Compressed with each other to form an image, the both ends of the ring 151 of the compression steel wire 150 is overlapping each other in the state that the fixing ring 161 fixed to the separation steel wire 160 is fitted to the separation steel wire 160 The fixing unit 100 is not opened by the restoring force of the spring 200 unless the fixing ring 161 is pulled out of the ring 151 of the compression steel wire 150 by pulling the).

At this time, the ring 151 of the compression steel wire 150 is not overlapped with the fixing ring 161 in the state of overlapping, and after inserting the separation steel wire 160 to the ring 151 and pulling the separation steel wire 160 to compress The molten steel 150 may be released.

The ring hole 130 formed at both sides of the fixing unit 100 is fitted with a connecting ring 250 to allow another fixing unit 100 to be connected, or the fixing unit connecting unit 300 to be connected to the fixing unit 100. ) Allows several to be connected as needed.

The fixing part connecting part 300 is provided with a ring hole 311 into which the connecting ring 250 is fitted to one side, and has a female connecting part 310 formed with a screw part 312 therein, while the female connecting part 310 of the female connecting part 310 is formed. A screw portion 321 is formed to be screwed to the screw portion 312, and a male connection portion 320 having an insertion hole 322 into which the tension member 30 is fitted is formed at one side.

Here, the threaded portion 321 of the male connector 320 is screwed to the threaded portion 312 of the female connector 310, the connecting ring 250 is fitted into the ring hole 311 of the female connector 310, tension The ash 30 is fitted into the insertion hole 322 of the male connector 320.

The tension member 30 is fitted into the insertion hole 322 of the male connector 320 is fixed to the cone 323, the cone 323 is O-ring is fitted to the outside, the tension member 30 is the cone 323 The structure fitted to the insertion hole 322 is a general structure in the art.

The tension member 30 is protruded to the outside of the anchor hole (A) to be fitted into the cone 12 described above in the insertion hole 11 of the anchor head 10, the anchor head 10 is acupressure plate 40 To be supported on, the outside of the anchor head 10 to cover the protective cap (15).

Here, the separation steel wire 160 that pulls the fixing ring 161 fitted to the ring 151 of the compression steel wire 150 to prevent the fixing unit 100 from being opened protrudes to the outside of the anchor hole A and is anchored. To be pulled from the outside of the ball (A), the separation steel wire 160 is pulled so that the fixing part 161 is released from the ring 151 of the compression steel wire 150, the fixing unit 100 is a spring 200 By the restoring force of the ()) to the outside of the anchor hole (A) uneven portion 120 is to support the inner wall of the anchor hole (A).

This invention will be described according to the working order.

First, drill the anchor hole (A) of the required depth using a drilling machine where the ground reinforcement is needed.

Then, the spring 200 is inserted into the spring fixing protrusion 110 of the fixing unit 100 and then the spring 200 is compressed and the fixing unit 100 is brought into contact with each other. In this state, the compression steel wire 150 is pressed. The ring 151 is inserted into the insertion groove 121 to overlap each other, and the ring 151 is compressed by pulling the separating steel wire 160 by inserting a fixing ring 161 fixed to the separating steel wire 160. Unless the fixing ring 161 is pulled out of the ring 151 of the steel wire 150, the fixing unit 100 is not opened.

At this time, the outer diameter formed by the fixing unit 100 is in contact with each other is smaller than the inner diameter of the anchor hole (A) can be fitted into the anchor hole (A) of the fixing unit 100 compressed by the compression steel wire 150. Make sure

The fixing unit 100 may be inserted into a plurality of anchor holes (A), each fixing unit 100 can be connected to each other by a connecting ring 250, each fixing unit 100 is In the state of being fitted to the anchor hole (A) to expose a plurality of separation steel wire 160 to the outside of the anchor hole (A) to pull a plurality of fixing rings (161), or use a single separation steel wire 160 By pulling a plurality of fixing rings 161 may be made to open the compression steel wire 150.

That is, one fixing steel wire 160 may be exposed to each fixing unit 100 outside the anchor hole A, or several fixing wires 100 may be inserted, but one separating steel wire 160 may be exposed. As it is, a plurality of separation steel wire 160 is to open each fixing unit 100, one separation steel wire 160 is to be able to open a plurality of fixing unit 100 at a time .

Meanwhile, the fuser 100 is fitted to the anchor hole A at the end thereof, so that the fuser connector 300 is coupled to the fuser 100 using the connecting ring 250. The female connector 310 of the fuser connector 300 is connected. The fixing unit 100 is connected to the male connector 320, the male connector 310 is coupled to the screw coupling method, and the tension member 30 is connected to the male connector 310 using the cone 12. It is to be connected, the tension member 30 is exposed to the outside of the anchor hole (A).

When pulling the separation steel wire 160 exposed to the outside of the anchor hole (A) in this state, the compression steel wire 150 is maintained in a fixed state by the fixing ring 161 of the separation steel wire 160 This is released, and at the same time by pushing the fixing unit 100 to the outside by the compression force of the spring 200 is to be in close contact with the inner wall of the anchor hole (A).

That is, when the fixed state of the compression steel wire 150 is released by pulling the separation steel wire 160, the fixing unit 100 is pushed outward by the restoring force of the spring 200, the unevenness of the fixing unit 100 Part 120 is to be in close contact with the inside of the anchor hole (A), due to the uneven portion 120 is to increase the main surface friction force.

In this state in which the fixing unit 100 opens outward and closely adheres to the anchor hole A, the fixing unit 100 is maintained in a fixed state even when the tension member 30 is tensioned. To tension the tension member 30 in a state that does not fall into the anchor hole (A).

That is, after removing the separation steel wire 160 as described above, the anchor plate 10 is fixed and then the anchor head 10 is fixed to the tension member 30 using the cone 12, and the tension member 30 is Fixing is made in a state where the tension is made, the reason for the tension of the tension member 30 is made because the fixing unit 100 is fixed by the main surface frictional force.

When the tension of the tension member 30 is completed to cover the anchor head protective cap 15 to complete the work, the present invention is able to protect the ground in a short time by being able to tension at the same time with the drilling.

In other words, in the past, the grout is hardened after elapsed time, and thus, it was not possible to use it in a place requiring rapid ground stability, but the present invention simply penetrated the anchor hole A and inserted the fixing unit 100. By fixing the fixing unit 100 to tension the tension member 30, it is effectively used where the ground stability in a short time.

1 is a cross-sectional view of the existing installation state

2 is a cross-sectional view of the installation state of the present invention

3 is a perspective view of the present invention

Figure 4 is a perspective view of the anchor head portion of the present invention

5 is an exploded perspective view of the fixing unit connecting portion of the present invention

6 is a cross-sectional view of the fixing unit connecting portion of the present invention

Figure 7 is a perspective view of a state in which the fixing unit of the present invention attached to each other

8 is an exploded perspective view of a compression steel wire for fixing the fixing unit of the present invention;

9 is a cross-sectional view using the fixing unit of the present invention

Figure 10 is a side cross-sectional view of the fixing unit tightening state of the present invention

Figure 11 is a side cross-sectional view of the fixing unit separated state of the present invention

[Description of Symbols for Main Parts of Drawing]

100: fixing unit 110: spring fixing protrusion

120: uneven portion 150: compression steel wire

160: separation steel wire 200: spring

250: connection ring 300: fixing unit connection

310: female connection part 320: male connection part

Claims (5)

In a state in which the semi-cylindrical fixing parts 100 face each other, the compressive force is received in the direction of the spring 200, The outer side of the fixing unit 100 is inserted into the compression steel wire 150 so that the fixing unit 100 does not open, but overlaps the ring 151 formed at the tip of the compression steel wire 150, the separation steel wire ( Insert the fixed ring 161 fixed to 160, The fixing unit 100 is coupled to the anchor member (A) by using the fixing unit connecting portion 300 to be fitted into the anchor hole (A), but the separation steel wire 160 is exposed to the outside of the anchor hole (A) , The fixing unit 100 is brought into close contact with the inner wall of the anchor hole (A) while being pulled apart by the compressive force of the spring 200 when pulling the separation steel wire 160 to release the compression steel wire 150, The tension member (30) connected in the fixing unit connection part 300 is anchorage expansion pressure anchor using the compression force of the spring, characterized in that the tension to support the anchor head (10). According to claim 1, wherein the fixing unit 100 is formed of a ring hole 130 on both sides of the spring, characterized in that the fixing unit 100 and the fixing unit connecting portion 300 is connected to the connecting ring 250 Anchor expansion pressurized anchor using compression force. According to claim 1, wherein the fixing unit 100 is configured to face the two semi-cylindrical fixing unit 100 facing each other, but forming the uneven portion 120 on the outside of the fixing unit 100 while compression steel wire After forming the insertion groove 121 is inserted 150, the spring fixing projection 110 to the inner side of the fixing portion 100 to form a spring 200 to the spring fixing projection 110. And, the ring 151 is installed on both ends of the compression steel wire 150 so as not to overlap each other so as not to open the fixing unit 100, the ring 151 has a fixing ring 161 of the separation steel wire 160 Fixing unit expansion pressure anchor using the compression force of the spring, characterized in that the fitting. According to claim 1, wherein the fixing unit connecting portion 300 is provided with a ring hole 311 in which the connecting ring 250 is fitted to one side and has a female connecting portion 310 formed with a screw portion 312 inwardly while the arm The spring portion, characterized in that it is provided with a screw portion 321 is screwed to the threaded portion 312 of the connecting portion 310 and the male connector 320 formed with an insertion hole 322 into which the tension member 30 is fitted. Anchor expansion pressurized anchor using compression force. The process of drilling anchors in the ground, Fixing the semi-cylindrical fixing part inserted into the anchor hole with a compression steel wire so that the inner spring is compressed, and the compression steel wire is fitted with a separation steel wire; The anchoring portion is coupled to the anchoring unit by fitting to the anchoring portion, but the tension member coupled to the anchoring unit connecting portion is exposed to the anchor hole with the separation steel wire for releasing the compression steel wire; Pulling the separation steel wire and the fixing unit is pushed outward by the spring while being in close contact with the anchor hole, Fixing unit expansion pressure anchor construction method using the compression force of the spring, characterized in that to perform the process of tensioning and fixing the tension member.

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