KR100684387B1 - Tension apparatus and method for earth anchor - Google Patents

Abstract

A tension apparatus for an earth anchor and a tension method for the same are provided to improve tensioning efficiency and stability of a retaining-wall structure. A tension apparatus for an earth anchor is detachably mounted to a fixture(10) of the earth anchor, to tension a plurality of tension members(1). The tension apparatus comprises a plurality of tensioners(100) for respective members, and an overall tensioner(200). The tensioner includes a penetration hole in the center and a tension member fixing unit(110). The overall tensioner comprises insertion holes formed in the center for the tensioners for the respective members, and a plurality of temporary tension member fixing units. A tension method for the tension apparatus, for tensioning a plurality of the tension members exposed to the outside of the fixture of the earth anchor, comprises a tensioning step for the respective members, an overall tensioning step, and a fixing step.

Description

Tension device and method for earth anchors {TENSION APPARATUS AND METHOD FOR EARTH ANCHOR}

1 to 5 show a conventional structure,

1 is a cross-sectional view of the earth anchor fixing unit.

2 is a perspective view of the fixing unit;

3 is a side view of the tensioning device.

4 is a cross-sectional view of the tensioning device.

5 is a perspective view of the wedge member.

7 to 12 show the configuration of the tension device for earth anchors according to the present invention,

7 is a cross-sectional view showing a tension step for each member.

8 is a cross-sectional view showing the entire tension step.

9 is a cross-sectional view of the tensioner for each member before applying the tensile force.

10 is a cross-sectional view of the tensioner for each member after applying the tensile force.

11 is a cross-sectional view of the anchorage after the tension release.

12 is a partial cross-sectional view of the entire tensioner.

** Description of the symbols for the main parts of the drawings **

1: tension member 10: anchorage

100: tensioner for each member 110: temporary fixing means for the tension member

111: tensioner support member for each member 112: tensioner wedge member for each member

120: tensioner cylinder for each member 121: tensioner pressure chamber for each member

122: tensioner hydraulic port for each member 123: connection flow path

130: tensioner piston for each member 200: total tensioner

210: a plurality of tension member temporary fixing means 211: the entire tensioner support member

212: total tensioner wedge member 220: total tensioner cylinder

221: total tensioner pressure chamber 222: total tensioner hydraulic port

230: full tensioner piston

TECHNICAL FIELD The present invention relates to an earth anchor, and more particularly, to an apparatus and a method for tensioning a tension member of an earth anchor.

1 to 5 are views for explaining the structure and installation process of a conventional earth anchor (earth anchor).

As shown, in order to prevent the collapse of the rear soil sand 20, earth wall structures 21 such as sheet piles are installed, and the like, such as steel wire in the drilled hole 22 drilled with a predetermined inclination in the rear soil sand 20. The tensioning member 1 is embedded by mortar, etc., and the upper end of the tensioning member 1 is fixed by the fixing unit 10 and the fixing plate 13 provided in the supporting member 23 such as a band.

Although various methods of fixing the upper end of the tension member 1 to the fixing unit 10, FIGS. 2 to 5 illustrate a wedge fixing method that is generally applied.

As shown in Figure 5, the wedge member 12 is a widely used structure configured to form a cone shape by a set of engraving members, which is by the tension device 30 as shown in Figures 3 and 4 After applying the tensile force to the tension member 1, as shown in Figure 2, by inserting and fixing the wedge member 12 with the tension member 1 in the wedge member insertion hole 11 of the fixing unit 10 In addition, the tension force applied to the tension member 1 serves to be transmitted to the entire earth wall structure 21 through the fixing unit 10.

The tensioning device 30 may take a variety of structures, which are generally used include a hydraulic tensioning device as shown in Figures 3 and 4, by applying a tensile force to the tensioning member (1) Is as follows.

The lower support plate 31 is installed on the upper surface of the fixing unit 10, and the tension member 1 penetrates the wedge member insertion hole 11 of the fixing unit 10 and the tension member through hole 31a of the lower support plate 31. To be exposed to the top.

The wedge member insertion hole 11 of the fixing unit 10 is disposed by the wedge member 12 by the engraving member, and is prevented from being separated by the lower support plate 31, the wedge member at the lower side of the lower support plate 31 Since the free space portion 31b is formed to prevent excessive pressure on the 12, the wedge member 12 is pressed and the tension member 1 is fixed, thereby preventing the tensioning work from becoming difficult. Can be.

While installing the tension device 30 on the upper surface of the lower support plate 31, the upper end of the exposed tension member (1) through the tension member through hole (30a) of the core of the tension device 30 to be exposed to the top. do.

The upper support plate 32 is installed on the upper portion of the piston 34 of the tension device 30, while the upper end of the exposed tension member 1 passes through the wedge member insertion hole 32a of the upper support plate 32. The upper portion of the tension member 1 is fixed to the upper support plate 32 by being exposed to the upper portion and inserting the wedge member 35 into the wedge member insertion hole 32a.

Then, when the hydraulic pressure applied by the hydraulic hose 230 is applied to the cylinder 36 to apply a force to push the piston 34 upward, the tension device 30 main body is in surface contact with the lower support plate 31 The fixing unit 10 is pressed downward, and the piston 34 of the tensioning device 30 pushes the tension member 1 fixed to the upper support plate 32 upward, so that the tension force is applied to the tension member 1. Will be added.

When the tensile force is released after the tensile force is applied to the target value, the tension member 1 again causes the contraction to the earth wall structure 21 side. At this time, the wedge member 12 on the fixing unit 10 side starts the wedge action, and the tension is applied. The member 1 is fixed to the fixing unit 10 to prevent shrinkage thereof, and the tensile force applied to the tension member 1 is transmitted to the entire earth wall structure 21 through the fixing unit 10.

As shown in Figure 6, looking at the overall fixing structure of the tension member 1, the lower end of the tension member 1 is embedded with the mortar or the like in the rear soil (20) to form a fixed end (a), The free end (b) corresponding to the upper end of the fixed end (a) is tensioned by the tensioning operation, the upper end of the tension member 1 corresponding to the upper end of the free end (b) is fixed to the fixing unit 10 It can be seen that the structure is taken.

In addition, since the length and the material properties of the free end are different for each tension member 1, even if the same tensile force is applied, the amount of extension cannot be constant.

On the other hand, in order to ensure the stability of the earth wall structure 21, a plurality of (usually four or six) tension member 1 is embedded in one drilling hole 22 is fixed by one anchoring device (10) It is common to be.

By the way, in the conventional tensioning device, as described above, a plurality of tensioning members 1 having different amounts of extension are tensioned by the same tensile force and fixedly fixed to one anchoring device 10. Not only is it bad, it has been pointed out as a problem in that the stability of the earth wall structure 21 can be impaired.

The present invention has been made in order to solve the above problems, while taking a structure for fixing a plurality of tension members in one anchorage, the tension device for earth anchors to increase the tensile efficiency and stability of the earth wall structure and Its purpose is to present a method.

In order to achieve the object as described above, the present invention, in the tensioning device for the earth anchor is installed detachably to the anchorage of the earth anchor, the tensioning device for tensioning a plurality of tension members, the tension member through hole is formed in the core, A plurality of member tensioners provided with tension member temporary fixing means; An insertion hole of the plurality of member tensioners in the core portion, and an overall tensioner having a plurality of tension member temporary fixing means; It presents a tension device for earth anchors comprising.

The member tensioner has a member tensioner pressurizing chamber formed in a space between an inner wall portion, an outer wall portion, and a bottom portion, and a member tensioner hydraulic port for supplying hydraulic pressure to the tensioner pressurization chamber for each member is formed. Star tensioner cylinder; A member tensioner piston inserted into the tensioner pressure chamber for each member and mounted to press the tension member temporary fixing means when the hydraulic pressure is supplied through the member tensioner hydraulic port; It can take the structure containing.

It is preferable that a connection flow path is formed between the plurality of member tensioner cylinders so that the same hydraulic pressure is applied to the member tensioner cylinders of the plurality of member tensioners.

The tension member temporary fixing means is mounted to the upper end of the tensioner for each member, and the tension member support member for each member is formed with a tension member insertion hole in the core; A member-specific tensioner wedge member inserted into the tension member insertion hole together with the tension member to press the tension member when tensioning the tension member; It can take the structure containing.

The total tensioner includes a total tensioner cylinder having a total tensioner pressure chamber formed in a space between an inner wall portion, an outer wall portion, and a bottom portion, and a total tensioner hydraulic port for supplying hydraulic pressure to the total tensioner pressure chamber; ; A total tensioner piston inserted into the total tensioner pressurizing chamber and mounted to press the plurality of tension member temporary fixing means when the hydraulic pressure is supplied through the total tensioner hydraulic port; It can take the structure containing.

The plurality of tension member temporary fixing means is mounted on the upper end of the entire tensioner, and a total tensioner support member having a plurality of tension member insertion holes formed in the core; A plurality of total tensioner wedge members respectively inserted into the plurality of tension member insertion holes together with the tension member to press the tension member when tensioning the tension member; It can take the structure containing.

On the other hand, the present invention is another means for achieving the above object, that is, in the tensioning method for earth anchors for tensioning a plurality of tension members exposed to the outside of the anchorage of the earth anchors, each of the tension members to temporarily fix the tension member A tension step for each member; A total tensioning step of temporarily tensioning the plurality of tensioned members, respectively, and temporarily fixing the tensioned members; A fixing step of fixing the plurality of tension members to the fixing unit; It presents a tensioning method for earth anchors comprising.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 7, the tensioning method for earth anchors according to the present invention relates to a tensioning method for earth anchors for tensioning a plurality of tension members 1 exposed to the anchorage 10 of the earth anchors. A tensioning step for each member to temporarily tension the tension members 1; A total tensioning step of temporarily tensioning the plurality of tensioned members (1) as a whole; A fixing step of fixing the plurality of tension members (1) generally tensioned to the fixing unit (10); It is configured to include.

Conventionally, the problems described above have been pointed out by uniformly tensioning and fixing a plurality of tension members 1 which have mutually different amounts, but in the case of the tensioning method according to the present invention, each tension member 1 is once After tensioning each other to make the mutual extension constant (tension step for each member), the tensioning process is performed by two steps of the process of tensioning them as a whole (total tension step), so that not only the tensile efficiency is improved, The effect of increasing the stability of the entire earth wall structure 21 can be obtained.

In addition, in the case of adopting a structure in which a plurality of tension members 1 are fixed to one fixing device 10, even if the distance between the tension members 1 is narrow, even if a hydraulic method or any other saddle method is employed, To apply a lot of force for the tension of each tension member (1) is a bunch of work.

However, when the tensioning method according to the present invention is taken, in the tensioning step for each member, only enough force is applied to the extent that the tension between each tensioning member 1 can be constant, so that sufficient work is possible even in a narrow space. It is possible to apply a large amount of tensile force corresponding to the design load only in the entire tensioning step, thereby enabling efficient tensioning.

Hereinafter, an embodiment of a specific tensioning device in which the tensioning method for earth anchors is implemented will be described.

As shown in Fig. 7 and 8, the earth anchor tension device according to the present invention is basically detachably installed in the anchorage 10 of the earth anchor, the earth anchor to tension the plurality of tension members (1) It relates to a tension device for, a plurality of member tensioner 100 is provided with a tension member through-hole 101, the tension member temporary fixing means 110 and; An insertion hole 201 of the plurality of member tensioners 100 is formed at the core portion, and a total tensioner 200 having a plurality of tension member temporary fixing means 210 is provided; It is configured to include.

That is, the tensioning apparatus according to the present invention is largely constituted by the tensioner 100 for each member and the total tensioner 200, the tensioner 100 for each member is a constant amount of each stretching member (1) stretched mutually It is tensioned to the extent that it will be temporarily fixed by the tension member temporary fixing means 110, the entire tensioner 200 is the tension member (1) tensioned primarily by the tensioner 100 for each member It is responsible for pulling the revenge secondary by greater force.

As described above, in consideration of the constraint that the work space is narrow for the tensioning work for each member as the plurality of tension members 1 are fixed to one fixing unit 10, the tensioner 100 for each member is each Compared to a small apparatus capable of applying a force of a constant amount of tension between the tension members 1, the entire tensioner 200 does not have such a restriction, and thus a large apparatus is applied.

If the structure that can implement such a principle, the tensioner (100,200) may take any way, hereinafter will be described with respect to the embodiment implemented by a hydraulic tensioning device which is a commonly used method.

9 to 11 illustrate an embodiment in which the tensioner 100 for each member is implemented by hydraulic pressure.

As shown in the drawing, the tensioner 100 for each member is provided with a tensioner pressure chamber 121 for each member in a space between the inner wall portion 121a, the outer wall portion 121b, and the bottom portion 121c. A member tensioner cylinder 120 having a member tensioner hydraulic port 122 for supplying hydraulic pressure to the tensioner pressure chamber 121 for each member; The member tensioner piston inserted into the member tensioner pressure chamber 121 and mounted to press the tension member temporary fixing means 110 when the hydraulic pressure is supplied through the member tensioner hydraulic port 122. 130; It can be implemented to include.

When the hydraulic pressure is supplied to the pressure chamber 121 through the hydraulic port 122, as shown in FIG. 10, the piston 130 presses the tension member temporary fixing means 110 upwards, and the tension member temporary fixing. The tension member 1 is tensioned by the upward driving of the means 110.

When the tensile force is released after the tensile force is applied to the target value, the tension member 1 again causes the contraction to the earth wall structure 21 side, as shown in FIG. 11, at this time, the wedge member 12 on the fixing unit 10 side. While the wedge action starts, the tension member 1 is fixed to the anchorage 10 to prevent its shrinkage, and the tension applied to the tension member 1 is applied to the entire earth wall structure 21 through the anchorage 10. To be delivered.

Each member tensioner 100 for tensioning each of the plurality of tension members 1 fixed to one anchorage 10 may take a manner in which hydraulic pressure is applied separately, and all the same hydraulic pressure is applied. If the latter method is used, the tension member 1, which is relatively easy to apply tensile force (high amount of elongation), will automatically show a large amount of deformation (extension amount), so that a plurality of pressures are not required. It has the advantage that the tensile stress acting on the tension member 1 can be made constant.

That is, as shown in FIG. 7 and FIG. 8, the plurality of member tensioner cylinders 120 may be provided so that the same hydraulic pressure is applied to the member tensioner cylinders 120 of the plurality of member tensioners 100. It is preferable to take the structure in which the connection flow path 123 is formed.

The tension member temporary fixing means 110 may be any structure as long as the tension member 1 is temporarily fixed to the tensioner 100 for each member so as to transfer the upward driving of the tensioner 100 for each member to the tension member 1. 9 and 10 show an embodiment to which a wedge type structure which is generally used in the related art is applied.

That is, the tension member temporary fixing means 110 is mounted on the upper end of the tensioner 100 for each member, the tension member support member for each member formed with a tension member insertion hole (111a) in the core; A member-specific tensioner wedge member 112 inserted into the tension member insertion hole 111a together with the tension member 1 so as to press the tension member 1 when the tension member 1 is tensioned; It can be configured to include.

In the case of the entire tensioner 200, as in the case of the tensioner 100 for each member, if the structure capable of totally tensioning the tensioning member 1 primarily tensioned by the tensioner 100 for each member, Any other structure may be used, and FIG. 12 shows an embodiment implemented by hydraulic pressure.

As shown, the total tensioner 200, the total tensioner pressurizing chamber 221 is formed in the space between the inner wall portion 221a, outer wall portion 221b and the bottom portion 221c, and the total tension A total tensioner cylinder 220 having a total tensioner hydraulic pressure port 222 for supplying hydraulic pressure to the pressurization chamber 221; The total tensioner piston inserted into the total tensioner pressurizing chamber 221 and mounted to press the plurality of tension member temporary fixing means 210 when the hydraulic pressure is supplied through the total tensioner hydraulic port 222 ( 230); It can be configured to include.

The effect of the structure of the entire tensioner 200 is, except that the tension of the plurality of tension members 1 by the plurality of tension member temporary fixing means 210 at the same time of the tensioner 100 for each member It is almost the same as it.

Here, the plurality of tension member temporary fixing means 210 may temporarily secure the tension member 1 to the entire tensioner 200 to transfer the upward driving of the entire tensioner 200 to the plurality of tension members 1. Any structure may be used, and FIG. 12 illustrates an embodiment to which a wedge type structure, which is generally used in the related art, is applied.

That is, the plurality of tension member temporary fixing means 210, the total tensioner support member 211 is mounted on the upper end of the entire tensioner 200, the plurality of tension member insertion hole (211a) formed in the core; A plurality of total tensioner wedge members 212 respectively inserted into the plurality of tension member insertion holes 211a together with the tension member 1 so as to press the tension member 1 when tensioning the tension member 1. To; It can be configured to include.

Since the above has been described only with respect to some of the preferred embodiments that can be implemented by the present invention, the scope of the present invention, as is well known, should not be construed as limited to the above embodiments, the present invention described above It will be said that both the technical idea and the technical idea which together with the base are included in the scope of the present invention.

The present invention takes a structure in which a plurality of tension members are fixed to one anchorage, while increasing the tensile efficiency and stability of the earth wall structure.

Claims (7)

In the anchoring device for earth anchor which is detachably installed in the anchorage opening 10 of the earth anchor and tensions the plurality of tension members 1, A plurality of member tensioners (100) having a tension member through-hole (101) formed in the core and provided with a tension member temporary fixing means (110); An insertion hole 201 of the plurality of member tensioners 100 is formed at the core portion, and a total tensioner 200 having a plurality of tension member temporary fixing means 210 is provided; Tension device for earth anchors comprising. The method of claim 1, The tensioner 100 for each member A member tensioner pressurizing chamber 121 is formed in a space between the inner wall portion 121a, the outer wall portion 121b, and the bottom portion 121c, and the hydraulic pressure is supplied to the tensioner pressing chamber 121 for each member. A member tensioner cylinder 120 having member tensioner ports 122 for each member; The member tensioner piston inserted into the member tensioner pressure chamber 121 and mounted to press the tension member temporary fixing means 110 when the hydraulic pressure is supplied through the member tensioner hydraulic port 122. 130; Earth anchors tension device comprising a. The method of claim 2, A connection flow path 123 is formed between the plurality of member tensioner cylinders 120 so that the same hydraulic pressure is applied to the member tensioner cylinders 120 of the plurality of member tensioners 100. Tension device for earth anchors. The method of claim 1, The tension member temporary fixing means 110 A member tensioner support member 111 mounted to an upper end of the tensioner 100 for each member and having a tension member insertion hole 111a formed in a core portion thereof; A tensioner wedge member for each member inserted into the tension member insertion hole (111a) together with the tension member (1) so as to press the tension member (1) when tensioning the tension member (1); Earth anchors tension device comprising a. The method of claim 1, The full tensioner 200 is The entire tensioner pressurizing chamber 221 is formed in the space between the inner wall part 221a, the outer wall part 221b, and the bottom part 221c, and the whole for supplying hydraulic pressure to the whole tensioner pressurizing chamber 221 is provided. A total tensioner cylinder 220 in which the tensioner hydraulic port 222 is formed; The total tensioner piston is inserted into the total tensioner pressurizing chamber 221 and mounted to press the plurality of tension member temporary fixing means 210 when the hydraulic pressure is supplied through the total tensioner hydraulic port 222. 230; Earth anchors tension device comprising a. The method of claim 1, The plurality of tension member temporary fixing means 210 A total tensioner support member 211 mounted at an upper end of the total tensioner 200 and having a plurality of tension member insertion holes 211a formed at a core portion thereof; A plurality of total tensioner wedge members 212 respectively inserted into the plurality of tension member insertion holes 211a together with the tension member 1 so as to press the tension member 1 when the tension member 1 is tensioned. ); Earth anchors tension device comprising a. In the tensioning method for earth anchors for tensioning a plurality of tension members 1 exposed to the anchorage 10 of the earth anchors, A tensioning step for each member for temporarily tensioning the tension members 1; A total tensioning step of temporarily tensioning the plurality of tensioned members (1) as a whole; A fixing step of fixing the plurality of tension members (1) generally tensioned to the fixing unit (10); Tensile method for earth anchors comprising.

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