KR102125243B1 - Method for re-tentioning the installed anchor and the visual confirmation device installing - Google Patents

Abstract

According to the present invention, in regard to a method for maintaining a soft ground reinforcement apparatus, which includes: a plurality of strands buried in the ground to be installed; a pressing plate including a plurality of through holes penetrated by the strands, and located on the surface of the ground; a head provided in an upper part of the pressing plate and including a plurality of through holes penetrated by the strands; and a plurality of wedges provided at an end of the strands and inserted into the through holes of the head to be fixed, a method of constructing an apparatus for visibly confirming the re-tension and tension force of a preconstructed anchor includes the steps of: spacing the head from the pressing plate by lifting the head up; inserting a plurality of strand fixing units between the head and the pressing plate; holding the strands by using the strand fixing units; separating the head from the strands; installing an elastic body in an upper part of the strand fixing units; recombining the separated head with the strands in an upper part of the elastic body; and removing the strand fixing units. With such constitution, the elastic body can be easily applied to a pre-installed soft ground reinforcement apparatus to continuously maintain the tension force of a strand.

Description

Method for re-tentioning the installed anchor and the visual confirmation device installing}

The present invention relates to a method for constructing a re-tension and tensile force visual confirmation device of a previously constructed anchor, and more specifically, while restoring a reduced tension of a steel wire included in a soft ground reinforcement device, inserting an elastic body between the head and the pressure plate. The present invention relates to a method for constructing a visual confirmation device for retension and tensile force of a previously constructed anchor.

As a device for reinforcing the ground such as a slope, a soft ground reinforcing device called an anchor is widely used.

In the method of reinforcing the ground using an anchor, the steel wire is fixed to the ground by punching the ground with a starter, inserting a strand into the perforation, and injecting a grout material or the like. Thereafter, when the grout material is sufficiently hardened, the steel plate is stretched and fixed to the head provided on the ground surface, so that the pressure plate installed on the ground surface is configured to stably support the slope or the like. However, there is a problem in that the ground in which the strand is fixed is softened or the strand is stretched due to environmental changes in the ground after construction, and thus the ground pressure by the anchor is weakened and the anchor function is lost.

Therefore, even after the construction of the anchor, the anchor device must be continuously checked. However, it is very cumbersome to measure the tensile force by tensioning the strands of the anchor device individually, and the accuracy cannot be guaranteed. In view of this, an anchor device having an elastic body between a pressure plate and a head is used as a device for continuously applying tensile force to a strand.

However, it is possible to insert the elastic body between the head and the pressure plate only when the anchor device is first installed, and it is very difficult to insert the elastic body into the already installed anchor device. Even if the elastic body is installed between the head and the pressure plate, it is only possible to insert the elastic body by cutting or inserting a small elastic body in a separated form. In this case, the elastic force of the spring is lost and the elastic force does not reach the desired level, or the head and A problem arises in that it cannot effectively support between the pressure plates. In addition, even when the elastic body is installed in the anchor device during initial installation, there is a problem that maintenance such as replacing the installed elastic body is almost impossible.

Republic of Korea Patent No. 10-1835831

The present invention was made to solve the problems of the prior art described above, and is to provide a method for easily inserting and mounting an elastic body between a head and a pressure plate of a previously installed soft ground reinforcement device.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the method for constructing a re-tension and tensile force visual confirmation device of a previously constructed anchor according to the present invention includes a plurality of steel wires installed in a ground, a plurality of through holes through which the steel wires penetrate, and a ground surface A pressure plate located on, the head having a plurality of through-holes provided on the upper portion of the pressure plate and through which the strands pass, and a softness including a plurality of wedges provided at the ends of the strands and inserted and fixed into the through-holes of the head In the method of repairing the ground reinforcing device, lifting the head apart from the pressing plate, inserting a plurality of twisted pair fixtures between the head and the pressing plate, gripping the stranded wire using the twisted pair fixture, and the head And separating the steel wire from the steel wire, installing an elastic body to the upper portion of the stranded wire fixture, recombining the separated head with the steel wire from the elastic body, and removing the stranded wire fixture.

In addition, prior to the step of removing the twisted pair fixture may further include the step of lifting the head coupled to the strand.

In addition, the plurality of twisted pair fasteners may be configured to grasp all of the strands by being combined from the side surfaces of the strands.

On the other hand, a plurality of through-holes of the head are formed, are spaced the same distance from the center of the head, and are configured to be spaced apart from each other. It may be a triangular shape consisting of two radii.

The method for constructing a visual confirmation device for retension and tensile force of a previously constructed anchor of the present invention for solving the above problems has the following effects.

First, it is possible to easily tension a steel wire in which the tensile strength of the previously installed soft ground reinforcing device is lost.

Second, by adding an elastic body to the previously installed soft ground reinforcement device, it is possible to impart tensile force to the strands of the conventional soft ground reinforcement device.

Third, it can be applied to any type of soft ground reinforcement device.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a cross-sectional view showing a conventional soft ground reinforcement device
Figure 2 is a cross-sectional view showing a conventional soft ground reinforcement device is provided with an elastic body
Figure 3 is a flow chart showing the repair steps of the soft ground reinforcement device according to the present invention
Figure 4 is a flow chart showing the repair steps of the soft ground reinforcement device according to the present invention
5 is a perspective view and a cross-sectional view showing a head separation device used for repair of the soft ground reinforcement device according to the present invention
Figure 6 is a partial perspective view showing a coupling method of a twisted pair fixture used for repair of a soft ground reinforcement device according to the present invention
7 is a cross-sectional view showing a configuration method of a twisted pair fixture according to the present invention
Figure 8 is a cross-sectional view showing the configuration of the stranded gripping of the stranded fixture according to the present invention

Hereinafter, preferred embodiments of the present invention, in which the object of the present invention can be specifically realized, will be described with reference to the accompanying drawings. In describing this embodiment, the same name and the same code are used for the same configuration, and additional description will be omitted.

In addition, in describing embodiments of the present invention, it is revealed in advance that components having the same function use the same name and the same reference numerals, and are not substantially identical to the conventional ones.

In addition, the terms used in the embodiments of the present invention are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise.

In addition, in the embodiments of the present invention, terms such as "include" or "have" are intended to indicate that there are features, numbers, steps, operations, components, parts, or a combination thereof described in the specification, but one Or other features or numbers, steps, actions, components, parts, or combinations thereof, should not be excluded in advance.

1 is a perspective view showing the configuration of a conventional soft ground reinforcement device.

The soft fat reinforcing device includes a strand 10 having one end fixed to the ground and the other end exposed outside the ground. A plurality of the strands 10 may be installed according to the shape and area of the pressure plate 20.

The pressure plate 20 is installed on the ground surface, and includes a through hole 21 through which the strand 10 passes, wherein the through hole 21 may be configured in the same manner as the number and location of the strand 10. .

The head 30 is provided on the upper portion of the pressure plate 20. The head 30 is formed with a plurality of through holes 31 through which the strand 10 passes. The through-hole 31 is configured to have the same position and number as the through-hole 21 formed in the pressure plate 20, but may have a tapered shape with an inner diameter decreasing toward the bottom. The wedge 40 is installed on the upper portion of the through-hole 31, a plurality of slits are formed at the lower end of the wedge 40, and the strand 10 is coupled to the inner circumferential surface. When the steel wire 10 is attached to the through hole 31 of the head 30 by mounting the wedge in a tensioned state, the steel wire 10 is pulled to the ground, and the wedge 40 is the through hole ( The steel wire 10 can be fixedly coupled to the head 30 because it moves to the ground along the tapered surface of 31) and presses the steel wire 10 radially.

2 shows a configuration in which the elastic body 50 is provided between the pressure plate 20 and the head 30 of the soft ground reinforcement device.

Preferably, the elastic body 50 may be configured in the form of a plate spring in which one central hole is formed in the center. The elastic body 50 has an elastic force in a direction in which one end is supported on the upper portion of the pressure plate 20 and the other end is supported on the lower portion of the head 30 to space the pressure plate 20 and the head 30 from each other. Gives

Since the strand 10 is supported by the head 30, the tension wire lifted upward with respect to the ground surface may be provided to the strand 10 by the elastic body 50.

Since the strand 10 is under continuous tensile force by the elastic body 50, even when tension is generated in the strand 10 due to a change in the ground surface or the stretching of the strand 10 itself, the elastic body 50 may be used by the elastic body 50. The tension of the strand 10 can be maintained.

As described above, the soft ground reinforcing device including the elastic body shown in FIG. 2 reinforces the soft ground that does not include the elastic body shown in FIG. 1 in that it can maintain the ground reinforcing force by applying continuous tensile force to the strand 10 It has an excellent effect compared to the device.

However, most of the conventional soft ground reinforcement devices installed so far do not include an elastic body. As described above, in order to insert the elastic body between the head 30 and the pressure plate 20 of the conventional soft ground reinforcing device that does not include an elastic body, a plurality of cut-out elastic bodies are forcibly inserted between the head 30 and the pressure plate 20. An attempt was made to insert, but the divided elastic body is pushed out, or only the divided elastic body has a problem in that it does not exhibit sufficient elasticity to resist the compressive force of the strand 10.

Accordingly, the present invention provides a method of inserting an uncut, integral, elastic body into a soft ground reinforcement device.

Hereinafter, with reference to FIGS. 3 and 4, the repair method of the soft ground reinforcement device according to the present invention will be described.

3(a) and 3(b), the head 30 is lifted to the upper portion of the pressure plate 20 using a head separation device. Since the strand 30 is fixed to the head 30 by the wedge 40, the strand 10 is pulled together with the head 30.

Thereafter, as shown in FIG. 3(c), a twisted pair fastener 60 is inserted between the pressure plate 20 and the head 30.

Looking specifically at the method for lifting the head 30 in the 3 (a) and 3 (b), as shown in Figure 5 (a) and 5 (b), the head separation device is a hydraulic cylinder (110) , Consisting of a piston 120, a traction jack 130 and Ÿ‡ paper 140.

The hydraulic cylinder 110 is preferably formed of a hollow cylinder. In addition, the piston 120 is inserted into the inside of the hydraulic cylinder 110, the end protruding to the outside of the piston 120 is configured to contact the traction jack 130.

The towing jack 130 is a hollow cylindrical body 131 perpendicular to the ground, a support portion 132 that is bent in the direction of the piston 120 from the top of the body 131 to contact the piston 120 and the It is composed of a fixing part 133 having an inclined surface facing the side surface of the head 30 at the bottom of the body 131. At this time, the inclined surface of the fixing portion 133 is formed to move away from the side surface of the head 30 toward the top from the ground.

Preferably, the towing jack 130 may be configured to be divided into a plurality. As described above, when the towing jack 130 is divided into a plurality, the dividing portion of the towing jack 130 can be easily moved in the radial direction, so that the towing jack 130 is more easily located on the outer circumferential surface of the head 30. Can be fixed in close contact.

A Ÿ‡ paper 140 is inserted between the fixing part 133 and the side surface of the head 30. The Ÿ‡ paper 140 has a surface facing the side surface of the head 30 is formed in a shape corresponding to the side surface of the head 30, and the fixing part 133 of the Ÿ‡ paper 140 The facing surface is formed as an inclined surface having a shape corresponding to the inclined surface direction of the fixing part 133. That is, the inclined surface of the Ÿ‡ paper 140 is the same as the inclined surface direction of the fixing part 133.

Looking at the process of lifting the head 30, first, a hydraulic cylinder 110 equipped with a piston 120 is installed on the outer circumferential surface of the head 30. At this time, a support plate 70 is installed under the hydraulic cylinder 110.

The support plate 70 is configured to have the same shape as the lower cross section of the hydraulic cylinder 110, a plurality of grooves 71 may be formed on the surface in contact with the pressure plate 20. The groove 71 is for inserting and fastening the twisted pair fastener 60, and is formed through the outer circumferential surface of the support plate 70 to the inner circumferential surface, and it is preferable that the surface contacting the pressure plate 20 is open.

Thereafter, a towing jack 130 is installed. The support part 132 of the towing jack 130 is located on the top of the hydraulic cylinder 110, and the fixing part 133 of the towing jack 130 is the head 30 ) To be positioned at a predetermined distance from the side surface. At this time, the center of the cylindrical body 131 of the towing jack 130 is positioned the same as the center of the head 30 and the fixing part 133 is in contact with the pressure plate 20.

Next, Ÿ‡ paper 140 is inserted between the fixing part 133 and the side of the head 30. The Ÿ‡ paper 140 is preferably combined by pressing as much as possible from the top.

Thereafter, hydraulic pressure is applied to the hydraulic cylinder 110 to raise the piston 120 inside the hydraulic cylinder 110. The hydraulic cylinder 110 may be a fluid such as oil or air.

The piston 120 rises and lifts the support portion 132 of the traction jack 130, and accordingly the fixing portion 133 of the traction jack 130 also rises.

When the fixing part 133 is raised, the inclined surface of the fixing part 133 rises on the inclined surface of the Ÿ‡ paper 140 and presses the Ÿ‡ paper 140 to the side of the head 30 do.

When the fixing part 133 is further raised, the fixing part 133 further presses the paper 140 to the side of the head 30, and the head 30 is pulled by the pressing force. It is engaged with the fixing portion 133 of the jack 130 to rise together.

Since the support portion 132 of the traction jack 130 is movable on the piston 120, even when the center of the body 131 and the center of the head 30 of the traction jack 130 do not coincide, the Ÿ‡ The body 131 and the head 30 may be in close contact with each other in the process of inserting and fastening the paper 140 and the towing jack 130 rising and riding on the inclined surface of the paper 140.

On the other hand, since the strand 10 is fixed to the head 30, the strand 10 is also pulled up with the head 30. When the head 30 is spaced apart from the pressure plate 20, a twisted pair fastener 60 is inserted between the head 30 and the pressure plate 20. The twisted pair fastener 60 is inserted from the outer peripheral surface of the support plate 70 through the groove 71 of the support plate 70.

As shown in FIG. 6, the stranded fasteners 60 composed of a plurality are coupled, and the stranded wire 10 is gripped at a contact surface where the stranded fasteners 60 are mutually coupled.

At this time, the configuration of the twisted pair fastener 60 will vary depending on the arrangement of the stranded wire. Fig through 7. Looking at a method of forming a stranded wire fastener 60, the first strand through the sphere center point formed in the center point (C) with the head 30 of the head 30 is circular (P _1, P _2, P _3, P ₄ ) to form a plurality of radius passing through, forming a plurality of triangles connecting the ends of two adjacent radii among the plurality of radii, a plurality of twisted pair fixtures so that each triangle becomes the end of the twisted pair fixture 60 To form.

At this time, a semi-circular or fan-shaped groove is formed at a position of the strand 10 among the triangular slopes of the twisted pair fixture 60, and a wedge having a shape corresponding to the groove may be installed in the groove.

The stranded fastener 60 formed as described above can be gripped by all the strands 10 by being inserted and coupled from the outer circumferential surface of the head 30.

7 shows the configuration of the twisted pair fastener 60 when four stranded wires 10 are provided. In general, since the strand 10 is formed symmetrically with respect to the center of the head 30, the twisted pair fixture 60 is also provided symmetrically with respect to the center of the head 30.

In consideration of the arrangement of the twisted pair fixture 60 formed as described above, the groove 71 of the support plate 70 may be formed.

Then, as shown in FIG. 3(c), the twisted pair fastener 60 is inserted between the pressure plate 20 and the head 30 after the head 30 is lifted, and adjacent twisted pair fasteners 60 are coupled. As a result, the steel wire 10 is gripped.

On the other hand, as shown in Figure 8 (a) and (b), so that the twisted pair fastener 60 can hold the strand 10 strongly, a ring-shaped clamp on the outside of the plurality of twisted pair fixture 60 It can be provided.

The clamp 200 may be a clamp having a diameter-reducing shape, or may be formed in a circular ring and press the end portion of each twisted pair fixture 60 through a bolt.

In addition, as shown in Figure 8 (c), it may be configured to press the end of the twisted pair fixing tool 60 toward the strand 10 using the hydraulic cylinder (300).

When the stranded wire 10 is gripped by the twisted pair fastener 60 as described above, as shown in FIGS. 3(d) and 3(e), the hydraulic pressure of the hydraulic cylinder 110 is released, and the wedge 40 and Remove the paper 140.

Thereafter, as shown in FIG. 3(f), the head 30 is separated from the strand 10. Since the strand 10 is held by the strand retainer 60, the strand 10 above the strand anchor 60 is in a state in which the tensile force is released, and thus the strand 10 and the head 30 Can be easily separated.

Next, as shown in Figure 4 (g), the center hole is formed by inserting the elastic body 50 is installed from the top.

Next, as shown in Figure 4 (h), the head 30 is reinstalled to the top of the elastic body (50). Thereafter, the wedge 40 is reinstalled between the through hole of the head 30 and the strand 10.

Thereafter, as shown in FIG. 4(i), the head 30 is lifted again using the hydraulic cylinder 110. The method of lifting the head 30 is the same as that of FIGS. 3(a) to 3(c).

Next, as shown in FIG. 4(j), the twisted pair fastener 60 is disassembled while the head 30 is lifted.

Finally, as shown in FIGS. 4(k) and 4(l), the hydraulic pressure of the hydraulic cylinder 110 is released and the Ÿ‡ paper 140 is removed.

A phenomenon in which the strand 10 is loosened by inserting the elastic body 50 between the head 30 and the pressure plate 20 in the pulled state, as well as being able to pull the strand 10 that has been made slower by the above method again. Can be prevented.

As described above, the preferred embodiments according to the present invention have been examined, and the fact that the present invention can be embodied in other specific forms without departing from the spirit or scope of the embodiments described above has ordinary knowledge in the art. It is obvious to them. Therefore, the above-described embodiments are to be regarded as illustrative rather than restrictive, and accordingly, the present invention is not limited to the above description and may be modified within the scope of the appended claims and their equivalents.

10: Steel Wire
110: hydraulic cylinder
120: piston
130: towing jack
131: body
132: support
133: fixing part
140: Ÿ‡G
20: platen
21: through hole
30: Head
31: through hole
40: wedge
50: elastic body
60: Yeonsunjeonggu
70: support plate
71: Home

Claims (4)

A plurality of steel wires embedded and installed in the ground;
A pressure plate having a plurality of through holes through which the steel wire passes and positioned on the ground surface;
A head provided on an upper portion of the pressure plate and having a plurality of through holes through which the steel wire passes; And
In the repair method of the soft ground reinforcement device comprising; a plurality of wedges provided at the end of the strand, fixed to be inserted into the through hole of the head,
Lifting the head apart from the platen;
Inserting a plurality of twisted pair fixtures between the head and the pressure plate;
Gripping and fixing the steel wire so that the steel wire does not move by using the stranded wire fastener;
Separating the head from the strand;
Installing an elastic body to the upper portion of the twisted pair fixture;
Recombining the separated head with the strand on the elastic body; And
Removing the twisted pair fastener; Re-tension and tensile force visual inspection device construction method of the constructed anchor comprising a. According to claim 1,
A method for visually confirming the retension and tensile force of a previously constructed anchor, further comprising the step of lifting the head combined with the steel wire prior to the step of removing the stranded fastener. According to claim 2,
The plurality of twisted pair fasteners are coupled from the side of the strand, the re-tension and tensile force visual confirmation device construction method of a constructed anchor configured to grip all of the strands. According to claim 3,
A plurality of through holes of the head are formed,
It is spaced at the same distance from the center of the head, and is configured to be spaced from each other,
The coupling end of the twisted pair fixture comprises a radius formed from the center of the head past the center of the through hole, and a radius formed from the center of the head past the center of another through hole adjacent to the through hole. Re-tension and tensile force visual inspection device construction method of the anchor.

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