KR102149489B1 - Wedge block for restrain apparatus and constructing method using the same - Google Patents

Abstract

The present invention includes a first surface and a second surface located opposite to each other, and a side surface formed in a round shape along a circumference between the first surface and the second surface, and any one of the first surface and the second surface The outer part adjacent to the outermost rim and the inner part that is located inward compared to the outer part and has a concave step with respect to the outer part, so that the inner part that can accommodate the anchor head and the inner part that is located inside the inner part Block body having a concave stepped contact plate receiving portion; A plurality of tension line through-holes pierced in the thickness direction so as to penetrate the first and second surfaces of the block body to pass the tension line; A wedge pressing contact plate disposed in the contact plate receiving portion of the block body and capable of contacting the fixing wedge of the anchor head accommodated in the inner portion; And an elastic member that is fastened to the wedge compression contact plate and applies an elastic force to the wedge compression contact plate in a direction in which the fixed wedge is compressed.

Description

Wedge crimp block for tensioning device and construction method using it {WEDGE BLOCK FOR RESTRAIN APPARATUS AND CONSTRUCTING METHOD USING THE SAME}

The present invention relates to a wedge crimping block for a tensioning device and a construction method using the same, and more particularly, a wedge crimping for a tensioning device used in construction to strengthen tension by tensioning a ground anchor installed for reinforcement of ground, etc. It relates to a block and a construction method using the same.

The ground anchor is a reinforcing structure used for the purpose of preventing excessive displacement and collapse of the ground. Ground anchors are widely used for supporting and reinforcing various structures or retaining walls, as well as preventing and stabilizing the collapse of slopes.

In general, the ground anchor is fixed by a cement paste or the like injected by a grouting method in a state where a PC strand or the like is used as a tensile line and inserted into the ground to provide prestress.

As shown in Fig. 1, the ground anchor includes a tension member 3 inserted into the ground, and the outer end of the tension member 3 is an anchor installed on a predetermined pressure plate 2 exposed to the outside of the ground. It is connected to the anchor head (1). An anchor body 4, which is a portion of a resistance body that transmits tension to the ground by frictional resistance or pressure resistance with the ground, is provided in a section determined from the inner end of the tension member 3.

The ground anchor having the above configuration decreases the residual tension of the tension line due to changes in conditions such as relaxation of the tension line, drying shrinkage of concrete, and deformation of the ground over time after construction, so maintenance to re-tension it is required. .

In the re-tensioning construction to compensate the tension of the ground anchor, screw the re-tension device to the screw tap formed on the outer circumference of the anchor head, and use a force device such as a jack to fix the anchor head and tension line. It is performed by tensioning and inserting a fixing wedge into the gap formed between the anchor head and the pressure plate.

However, the conventional re-tensioning construction as described above is carried out after a long period of time, usually about 10 years, after the initial tension is given, so the screw tap of the anchor head is obsolete, making it impossible to combine with the re-tension device or during work. There is a problem that is released and causes a safety accident.

In addition, the tensile steel wire of a general ground anchor has a vulnerability that can be easily cut off due to being removed from the anchor head or corroded by aging as the usage time increases after installation. In addition, since the wedge (wedge) that fixes the tensile steel wire to the anchor head partially or completely falls out of the anchor head, or the anchor head itself is completely removed from the pressure plate, there is a problem that may cause a safety accident as the tensile steel wire is easily separated. Countermeasures are required.

The present invention was invented in consideration of the above problems, and a wedge crimping block for a tensioning device capable of preventing dropping or deformation of the fixed wedge by compressing a fixed wedge of an anchor head with elastic force during tensile construction, and a construction method using the same. It has a purpose to provide.

In order to achieve the above object, the present invention has a first surface and a second surface located opposite to each other, and a side surface formed in a round shape along a circumference between the first surface and the second surface, and the first surface And an outer portion adjacent to the outermost edge of the second surface and an inner portion that is located inward compared to the outer portion and has a concave step difference with respect to the outer portion, so that the inner portion and the inner portion capable of accommodating the anchor head. A block main body having a contact plate receiving portion located inside and having a stepped concave with respect to the inner portion; A plurality of tension line through-holes pierced in the thickness direction so as to penetrate the first and second surfaces of the block body to pass the tension line; A wedge pressing contact plate disposed in the contact plate receiving portion of the block body and capable of contacting the fixing wedge of the anchor head accommodated in the inner portion; And an elastic member that is fastened to the wedge pressing contact plate to apply an elastic force to the wedge pressing contact plate in a direction in which the fixed wedge is compressed.

A spring receiving portion located inside the contact plate receiving portion and having a concave stepped step with respect to the contact plate receiving portion is formed in the center of the block body, and the elastic member is fitted to the spring receiving portion and one end is the wedge. It is preferably a coil spring connected to a contact plate for pressing.

It is preferable that the surface of the contact plate for wedge compression is located on the same plane as the surface of the inner part in the state before compression of the elastic member.

In addition, a plurality of tension line insertion holes formed in the contact plate for wedge compression and communicated with the plurality of tension line through holes; may further include.

In addition, a guide bolt for guiding the movement of the contact plate for pressing the wedge by being fitted to the contact plate for pressing the wedge; may further include.

According to another aspect of the present invention, (a) preparing a crimping block in which a plurality of tensile line through-holes extending in the thickness direction are formed and a contact plate for wedge crimping supported by an elastic member is disposed on one side; (b) placing the crimping block on the anchor head while passing the tension line of the ground anchor through the tension line through hole to contact the wedge crimping contact plate with the anchor head; (c) passing the tension line above the tension base plate and arranging a tension top plate having a male thread around an outer circumferential surface, and inserting a fixing wedge between the tension top plate and the strand to connect the stretch line to the tension top plate ; (d) preparing a coupler having a screwable female screw portion formed on an inner circumferential surface and a fastening hole formed at the center of the external thread of the tension top plate, and a tension bar screwed and fixed to the fastening hole of the coupler; (e) screwing the coupler to the tension top plate while holding the tension bar to couple; (f) arranging a support container on the acupressure plate so as to be placed on the acupressure plate located under the anchor head; (g) installing a tension jack as a force device on the base; (h) screwing a nut member through the rear end of the tension bar and positioning it above the tension jack; (i) applying a tensile force to the nut member by pressing the nut member with hydraulic pressure by operating the tension jack; And (j) applying a tension force to the tension top plate, the tension bottom plate, and the anchor head by pulling the tension bar and the coupler with a tensile force applied to the nut member, wherein the anchor is in a state in which the tension line is pulled. The fixed wedges fastened to the head are pulled upward and are elastically pressed by the contact plate for wedge compression of the wedge pressing block, and the tensioning line is pulled by releasing the operation of the tensioning jack after the tensioning is completed. There is provided a construction method using a screw type tensioning device, characterized in that when the force is removed, the fixed wedges are pushed back by an elastic force applied from the contact plate for wedge compression.

A wedge crimping block for a tensioning device according to the present invention and a construction method using the same, a plurality of fixing wedges quickly return to the insertion position of the anchor head at a uniform speed by elastically pressing the fixing wedges of the anchor head using the wedge crimping block. So that it can be prevented from falling off or breakage.

The following drawings attached to the present specification illustrate preferred embodiments of the present invention, and serve to further understand the technical idea of the present invention together with the detailed description of the present invention to be described later. It is limited only to and should not be interpreted.
1 is a cross-sectional view schematically showing a construction example of a general ground anchor.
Figure 2 is a bottom perspective view showing the configuration of a wedge compression block for a tensioning device according to a preferred embodiment of the present invention.
3 is a cross-sectional view of FIG. 2.
4 is a perspective view showing the configuration of a tensioning device applied to a wedge crimping block for a tensioning device according to a preferred embodiment of the present invention.
5 to 10 are cross-sectional views showing step-by-step a tensile construction method using a wedge crimp block for a tensioning device according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Prior to this, terms or words used in the present specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventors appropriately explain the concept of terms in order to describe their own invention in the best way. Based on the principle that it can be defined, it should be interpreted as a meaning and concept consistent with the technical idea of the present invention. Accordingly, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiment of the present invention, and do not represent all the technical spirit of the present invention, and thus various alternatives that can be substituted for them at the time of application It should be understood that there may be equivalents and variations.

2 is a bottom perspective view showing the configuration of a wedge crimping block for a tensioning device according to a preferred embodiment of the present invention, and FIG. 3 is a cross-sectional view of FIG. 2.

2 and 3, a wedge crimping block 40 for a tensioning device according to a preferred embodiment of the present invention includes a block body 41 having a contact plate receiving portion 47 and a block body 41 A plurality of tension line through-holes (45 in FIG. 4) formed to be exposed to the upper surface, and the contact plate 44 for wedge compression disposed in the contact plate receiving portion 47, and the contact plate 44 for wedge compression. It includes an elastic member 49 for applying an elastic force.

The block body 41 has first and second surfaces opposite to each other, and side surfaces formed in a round shape along the circumference between the first and second surfaces. During tensile construction, the lower surface (the first surface) in contact with the anchor head 1 has the outer part 42 adjacent to the outermost rim, and is located inside the outer part 42 and concave with respect to the outer part 42. An inner portion 43 capable of accommodating the anchor head due to a lower step, and a contact plate receiving portion 47 positioned inside the inner portion 43 and concavely stepped with respect to the inner portion 43 are provided.

In the block body 41, a plurality of tension line through holes 45, which are drilled in the thickness direction so as to penetrate the first and second surfaces, and pass the tension line 3 at equal intervals around the center of the block body 41. Is formed.

The contact plate 44 for wedge compression is installed in the contact plate receiving portion 47 of the block body 41 so as to reciprocate in the thickness direction of the block body 41. During tensile construction, while the wedge crimping block 40 is placed on the anchor head 1, the wedge crimping contact plate 44 contacts the fixed wedge 5 provided on the anchor head 1.

The contact plate 44 for wedge compression is formed with tension line insertion holes 46 communicating with the tension line through holes 45 drilled in the block body 41. The tension line insertion holes 46 are preferably formed at equal intervals around the center of the contact plate 44 for wedge compression.

The contact plate 44 for wedge compression is positioned on the same plane as the surface of the inner part 43 in the state before the elastic member 49 is compressed.

The elastic member 49 is fastened to the contact plate 44 for wedge compression inside the block body 41 to elastically support the contact plate 44 for wedge compression in the direction of compressing the fixed wedge 5. It is preferable that the elastic member 49 is a coil spring fitted in the spring receiving portion 51 and having one end connected to the wedge pressing contact plate 44.

The spring receiving portion 51 is provided inside the block body 41 to accommodate the elastic member 49. The spring receiving portion 51 is formed in the center of the block body 41 in a shape that is located inside the contact plate receiving portion 47 and has a concave stepped step with respect to the contact plate receiving portion 47.

The guide bolt 48 is inserted through the upper surface (second surface) of the block body 41 and is fastened to the screw hole 52 of the contact plate 44 for wedge compression. The guide bolt 48 guides the movement of the wedge pressing contact plate 44 by sliding in the vertical direction of the block body 41 integrally with the wedge pressing contact plate 44. In order to prevent the tension wires 3 penetrating the wedge crimping block 40 from interfering with the guide bolt 48, the screw hole 52 of the wedge crimping contact plate 44 is provided with the wedge crimping contact plate 44 It is preferably formed at equal intervals around the center of the tension line and arranged alternately with the insertion hole 46. Accordingly, the tension line insertion hole 46 and the screw hole 52 are arranged in a circle around the center of the contact plate 44 for wedge compression.

Wedge crimping block 40 for tensioning device having the above configuration is in contact for wedge crimping when the fixed wedges 5 fastened to the anchor head 1 are pulled upward as the tension line 3 is pulled during tensioning The plate 44 is pressed by the fixed wedges 5 and at the same time elastically presses the fixed wedges 5 to perform buffering and supporting functions. In addition, when the tensioning construction is completed and the force pulling the tension line 3 is removed, the plurality of fixed wedges 5 are pushed by the elastic force applied from the contact plate 44 for wedge compression, and the original position at a fast and uniform speed. And can be inserted into the anchor head (1). By the elastic action of the contact plate 44 for wedge compression, the problem of dropping out or deformation in the process of returning the fixed wedges 5 to their original positions can be solved.

4 shows the configuration of a tensioning device applied to a wedge crimping block for a tensioning device according to a preferred embodiment of the present invention.

Referring to FIG. 4, the tensioning device includes a tension top plate 10 having a male screw portion 12 formed around an outer circumferential surface thereof, and a female screw portion capable of being screwed to the male screw portion 12 of the tension top plate 10 (21 in FIG. 8). ) Is formed on the inner circumferential surface of the coupler (20), the tension bar (24) coupled to the fastening hole (23) formed in the center of the coupler (20), and a wedge crimping block arranged to overlap on the anchor head (1) of the ground anchor It includes a spring-shaped elastic support (30) interposed between the (40) and the tensile upper plate (10).

The tensile upper plate 10 includes a male threaded portion 12 formed by extending a thread along an outer circumferential surface. It is preferable that the male thread part 12 transmits a high tensile force without damage to the thread by substantially forming a square thread by cutting the end of the thread. A plurality of tension line fastening holes 3 into which the tension line 3 of the ground anchor can be inserted are formed in the tension top plate 10 at equal intervals based on the center. The tension line fastening holes 11 are formed to gradually increase in diameter from the lower surface to the upper surface based on the installation of the tension upper plate 10.

The fixing wedges 13 are inserted into a plurality of tension wire fastening holes 11 formed in the tension upper plate 10 to fix the tension wire 3 to the tension upper plate 10. The fixing wedges 13 are fitted into the tension line fastening hole 11 in the state where the tension line 3 is fitted in the tension line fastening hole 11. Each of the fixed wedges 13 is made of 2 to 3 divided pieces tapered to gradually narrow in width as it goes downward.

The coupler 20 is a cup-shaped member whose one side is open, and a female threaded portion 21 that can be screwed to the male threaded portion 12 of the tension top plate 10 is formed on the inner circumferential surface, and a fastening hole 23 is formed at the center of the rear end. Is formed. The thread of the female thread part 21 is formed by extending the thread along the circumference of the inner circumferential surface of the coupler 20.

Inside the coupler 20, there is an extra length receiving part (22 in FIG. 8) formed by stepping so that the inner circumferential surface between the female screw part 21 and the fastening hole 23 has a smaller inner diameter than the female screw part 21. It is provided, it is preferable to prevent the end portion of the tension line 3 and the coupler 20 from interfering with each other within the coupler 20.

The tension bar 24 is provided with a tensile force from the tension jack 60 and moves the coupler 20 to the rear. The tension bar 24 is substantially integrated by being screwed into the fastening hole of the coupler 20. A screw portion 25 is formed at the rear portion of the tension bar 24 so that the nut member 26 is screwed through the rear end. The nut member 26 transmits the tensile force applied from the tension jack 60 to the tension bar 24.

As described above, the wedge crimping block 40 is disposed to be overlapped on the anchor head 1 of the ground anchor, and a plurality of tension line through holes 45 through which the tension line 3 can pass are formed at predetermined intervals. . The lower surface of the wedge pressing block 40 is formed with a concave step that can be fitted with the anchor head 1.

The elastic support 30 is a spring formed in the form of a spring, and the upper end thereof is welded to the lower end of the tensile upper plate 10 to be connected, and the lower end thereof is disposed to contact the upper surface of the wedge pressing block 40. When the tension upper plate 10 is pressed downward, the elastic support 30 is compressed to closely contact the wedge pressing block 40 downward and at the same time apply an elastic force in the direction in which the tension upper plate 10 is pushed up. The elastic support 30 is disposed to surround the tension line 3.

When the assembly of the tension upper plate 10 and the elastic support 30 is placed on the wedge pressing block 40, the end of the tension line 3 passes through the tension upper plate 10 to the top of the tension upper plate 10. It is desirable for the convenience of installation work to be exposed. To this end, the assembly height of the tension top plate 10 and the elastic support 30 is designed to be lower than the length of the tension line 3 exposed to the outside of the wedge pressing block 40.

The tension jack (60 in FIG. 9) is disposed on a support tube (50 in FIG. 9) placed on the acupressure plate 2 while surrounding the coupler 20 to lift the anchor head 1 from the acupressure plate 2 Provides.

When the tension jack 60 operates and the plunger 61 advances by hydraulic pressure, the nut member 26 is pushed to apply a tensile force to the tension bar 24 and the coupler 20, and accordingly, the coupler 20 It works to pull the tension wire (3) integrally with 10).

Then, a wedge crimping block for a tensioning device and a construction method using the same according to a preferred embodiment of the present invention will be described with reference to FIGS. 5 to 10.

As shown in Fig. 5, on the pressure plate 2, the anchor head 1 installed during the construction of the ground anchor is previously disposed. The anchor head (1) is a anchorage that supports the end of the tension line (3) inserted into the ground. The anchor head 1 is already installed during the construction of the ground anchor and is subject to tension construction using a tensioning device. The anchor head 1 is composed of a rigid block having a circular outer circumferential surface to substantially form a disk. A plurality of tension line fastening holes 1a through which the tension line 3 can pass are formed in the anchor head 1 at predetermined intervals. The tension line fastening holes 1a are formed in a tapered shape to gradually increase their diameter from the lower surface to the upper surface. A fixed wedge consisting of 2 to 3 divided pieces tapered to gradually narrow the width while going downward in the tension line fastening hole (1a) with the tension line (3) inserted into the tension line fastening hole (1a) (5) are inserted.

The tension line 3 passes through the tension line fastening hole 1a of the anchor head 1 to expose a predetermined length to the outside. A fixing wedge 5 is inserted into the gap between the tension line 3 and the tension line fastening hole 1a of the anchor head 1 while the tension line 3 has passed, so that the tension line 3 is attached to the anchor head ( 1).

As shown in Fig. 6, the wedge pressing block 40 is disposed to be overlapped on the anchor head 1. At this time, the tension line 3 passes through the tension line through-hole 45 formed in the wedge crimping block 40 to expose the margin to the upper portion of the wedge crimping block 40.

Thereafter, as shown in FIG. 7, the assembly of the tension top plate 10 and the elastic support 30 is disposed on the wedge pressing block 40. At this time, the elastic support 30 is arranged to surround the tension lines 3 and the tension line 3 penetrates through the tension line fastening hole formed in the tension upper plate 10 to expose a predetermined length. Since the tension top plate 10 is supported by the elastic support 30, it can be easily connected to the tension line 3 having a margin of tens to tens of centimeters.

The tension line 3 passes through the tension line fastening hole formed in the tension top plate 10, and a fixing wedge 13 is provided in the gap between the tension line 3 and the tension line fastening hole 3 of the tension top plate 10. Insert and fasten the tension wire (3) with the tension upper plate (10). When the fixing wedge 13 is installed, the fixing wedge 13 is placed in the gap between the tension top plate 10 and the tension line 3 in a state where the elastic support 30 under the tension top plate 10 is pressed and the elastic support 30 is compressed. It is preferable to insert the tension wire 3 to the tension upper plate 10 so that the tension upper plate 10 is tightly coupled to the tension wire 3 by elasticity.

In a state in which the elastic support 30 is compressed by pressing the tension upper plate 10, the wedge pressing block 40 may be pressed by the elasticity of the elastic support 30 to closely adhere to the anchor head 1.

As shown in FIG. 8, in a state in which the tension bar 24 is assembled at the center of the rear end of the coupler 20, the tension bar 24 is held and the coupler 20 is screwed to the tension top plate 10 to be integrated.

Thereafter, as shown in Fig. 9, the support tube 50 and the tension jack 60 are sequentially installed on the acupressure plate 2 to surround the coupler 20, and the tension bar 24 as shown in Fig. 10 Fasten the nut member 26 through the rear end of.

As described above, when the tension jack 60 is operated, the plunger 61 advances by hydraulic pressure and the nut member 26 is pushed to the tension bar 24, the coupler 20, and the tension top plate ( 10), the tension line 3 and the anchor head 1 are collectively pulled rearward. At this time, the coupler 20 is connected by being screwed to the tensile upper plate 10. The coupler 20 and the tension top plate 10 are integrally formed, and act to stably pull the tension line 3 under tension (or re-tension) construction conditions in which tens of tons of tension is applied.

As the tension line 3 is pulled, the fixing wedges 5 fastened to the anchor head 1 are pulled upward and are lifted.

When the pulling force of the tension line 3 is removed by releasing the operation of the tension jack 60, the fixing wedges 5 are returned to their original positions, and the tension of the tension line 3 is fixed. At this time, the fixed wedges 5 are pushed by the elastic force applied from the contact plate 44 for wedge compression, so that they can be quickly returned to their original positions at a uniform speed.

As described above, the present invention prevents dropping or damage in the process of returning the plurality of fixed wedges 5 by elastically pressing the fixed wedges 5 of the anchor head 1 using the wedge pressing block 40. There is a remarkable effect that can be prevented.

In the above, although the present invention has been described by a limited embodiment and drawings, the present invention is not limited thereto, and the technical idea of the present invention and the following will be described by those of ordinary skill in the art to which the present invention pertains. It goes without saying that various modifications and variations are possible within the equal scope of the claims.

1: anchor head 2: acupressure plate
3: tension line 5,13: fixed wedge
10: tensile upper plate 12: male thread
20: coupler 21: female thread
24: tension bar 26: nut member
30: elastic support 40: wedge pressing block
41: block body 42: outer part
43: inner part 44: contact plate for wedge crimping
45: tension line through hole 46: tension line insertion hole
47: contact plate receiving portion 48: guide bolt
49: elastic member 50: support tube
51: spring receiving portion 60: tension jack

Claims (7)

A first surface and a second surface located opposite each other, and a side surface formed in a round shape along a circumference between the first surface and the second surface, and an outermost border on any one of the first surface and the second surface The inner part which is located inward compared to the outer part adjacent to the end and the outer part is concavely stepped with respect to the outer part, so that the inner part that can accommodate the anchor head and the inner part that is located inside the inner part and concavely with respect to the inner part A block body having a contact plate accommodating portion;
A plurality of tension line through-holes pierced in the thickness direction so as to penetrate the first and second surfaces of the block body to pass the tension line;
A wedge pressing contact plate disposed in the contact plate receiving portion of the block body and capable of contacting the fixing wedge of the anchor head accommodated in the inner portion; And
Including; an elastic member fastened to the wedge compression contact plate to apply an elastic force to the wedge compression contact plate in a direction in which the fixed wedge is compressed,
A spring receiving portion located inside the contact plate receiving portion and having a stepped concavely with respect to the contact plate receiving portion is formed in the center of the block body,
The elastic member is a coil spring fitted with the spring receiving portion and one end connected to the wedge compression contact plate,
The wedge compression contact plate is located on the same plane as the inner surface of the elastic member before compression,
Further comprising; a plurality of tension line insertion holes formed in the contact plate for wedge compression and communicated with the plurality of tension line through holes,
A wedge crimping block for a tensioning device further comprising a guide bolt fitted to the wedge crimping contact plate to guide the movement of the wedge crimping contact plate. delete delete delete delete (a) preparing a wedge crimping block in which a plurality of tension line through-holes extending in the thickness direction are formed and a contact plate for wedge crimping supported by an elastic member is disposed on one side;
(b) placing the wedge crimping block on the anchor head while passing the tension line of the ground anchor through the tension line through hole to contact the wedge crimping contact plate with the anchor head;
(c) passing the tension line above the tension base plate and disposing a tension top plate having a male threaded portion around an outer circumferential surface thereof, and inserting a fixing wedge between the tension top plate and the strand to connect the stretch line to the tension top plate;
(d) preparing a coupler having a screwable female screw portion formed on an inner circumferential surface and a fastening hole formed at the center of the external thread of the tension top plate, and a tension bar screwed and fixed to the fastening hole of the coupler;
(e) screwing the coupler to the tension top plate while holding the tension bar to couple;
(f) arranging a support container on the acupressure plate so as to be placed on the acupressure plate located under the anchor head;
(g) installing a tension jack as a force device on the base;
(h) screwing a nut member through the rear end of the tension bar and positioning it above the tension jack;
(i) applying a tensile force to the nut member by pressing the nut member with hydraulic pressure by operating the tension jack; And
(j) pulling the tension bar and the coupler with a tension applied to the nut member to apply a tension force to the tension top plate, the tension bottom plate, and the anchor head; Including,
While the tension line is pulled, the fixing wedges fastened to the anchor head are pulled upward and lifted, and are elastically pressed by the wedge pressing contact plate of the wedge pressing block,
Using a screw-type tensioning device, characterized in that the fixed wedges are pushed back by the elastic force applied from the contact plate for wedge compression when the tensioning jack is released and the force pulling the tension line is removed. Construction method. The method of claim 6, wherein the step (b),
An elastic support in the form of a spring is connected to the lower end of the tensile upper plate and disposed between the tensile upper plate and the tensile lower plate,
Construction method using a screw-type tensioning device, characterized in that in a state in which the elastic support is compressed by pressing the tension upper plate, a fixing wedge is inserted between the tension upper plate and the tension line to fix the tension line to the tension upper plate.

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