KR100647409B1 - Earth anchor - Google Patents

Abstract

An earth anchor is provided to prevent compression breakage of a grout part in a soft ground, and to improve structural stability of the earth anchor by restricting expansion of the grout part with a grout unit reinforcing unit. An earth anchor is inserted to a boring hole(12) in the rear soil of an earth retaining structure with grout to support the earth retaining structure by an upper anchorage unit. The earth anchor includes a lower anchorage unit(100) installed in the rear soil through the boring hole, a grout part(200) formed by injecting grout to the boring hole, a tendon(300) installed in the upper anchorage unit and the lower anchorage unit and laid in the grout part, and a grout reinforcing unit(210) reinforcing by restricting expansion of the grout part. The tendon is separated from the grout part by a tendon separation unit(210), and the lower anchorage unit is formed with a removing structure(110).

Description

Earth anchors {EARTH ANCHOR}

1 to 5 show a conventional earth anchor,

1 is a side cross-sectional view of a non-removable earth anchor.

Figure 2 is a side cross-sectional view showing a removable earth anchor of the U-turn type.

Figure 3 is a side cross-sectional view of a removable earth anchor of the CT-R type.

Figure 4 is a side view showing a coupling state of the lower fixing device and the tension member.

5 is a schematic diagram showing the compression failure of the earth anchor.

6 to 9 show an embodiment of the earth anchor according to the present invention,

6 is a full side cross-sectional view.

7 is a cross-sectional view taken along line A-A of FIG.

8 is a sectional view of an embodiment of a restraining member.

Figure 9 is a side view showing a coupling state of the restraining member and the guide member.

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

10: earth block structure 11: hinterland body

12: hole 20: grout

30: upper fixing unit 100: lower fixing unit

110: removable lower fixing device 200: grout portion

210: grout portion reinforcement means 211: restraining member

211a: spiral restraint member 220: guide member

221: bend portion 300: tension member

310: tension member separating means 311: covering part

The present invention relates to an earth anchor, and more particularly, to a structure for preventing destruction by expansion of the grout portion.

1 is a side cross-sectional view showing the configuration of a conventional general earth anchor.

As shown, the earth anchor is joined with the grout 20 in the perforated hole 12 drilled in the rearing soil body 11 of the retaining structure 10 to prevent the collapse of the retaining structure 10. Say.

The lower end of the tension member 300 is secured by entering the bottom with the grout 20 by the lower fixing device 100, the upper end of the tension member 300 by the upper fixing device 30 consisting of a pressure plate, a fixing material, etc. The configuration fixed to 10 is taken.

Here, the part which contributes to fixation by the grout 20 is called fixer length L2, and the other part is called free field L1.

On the other hand, such a structure has been eliminated after the construction is completed, the problem that it is impossible to remove the tension member 300 causes ground pollution. To solve this problem, a removable earth anchor capable of removing the tension member 300 after construction It appeared.

Figure 2 is a side cross-sectional view showing a removable earth anchor of the U-turn type.

Since the lower fixing device 100 is composed of a U-turn type 100a, the tension member 300 is installed in a U shape by the upper fixing device 30 and the lower fixing device 100, and the lower center of the center of the U shape. Is fixed to the lower fixing device 100a of the U-turn type, and a pair of upper and lower ends are fixed to the upper fixing device 30.

In addition, since the torso of the tension member 300 is mounted without being fixed to the grout part by a covering part or the like, the upper end of one pair of upper ends of the pair of tension members 300 that have been fixed to the upper fixing device 30 after completion of construction. By pulling out to the outside, the removal of the tension member 300 can be facilitated.

3 is a side cross-sectional view showing a removable earth anchor of type CT-R.

This is because the lower fixing device 300 is composed of a wedge fixed type (100b), and a separate dismantling steel wire 310 is provided in addition to the tension member 300, the lower fixing device 300 by the dismantling steel wire 310 after completion of construction ) To release the wedge, it is a configuration to dismantle the tension member (300).

However, conventional earth anchors having the above structure have been pointed out as problems in the following points.

Among the conventional earth anchors, the removable earth anchor is mounted on the removable bottom fixing device 110, as shown in Figure 4, the tension member 300, as described above, easy removal of the tension member 300 after construction is completed For the operation, a coating part 311 made of plastic or the like is formed on the outer circumference of the tension member 300 to take the structure of preventing the direct settlement of the tension member 300 and the grout portion.

As shown in FIG. 5, the earth anchor of this structure is inserted into the drilling hole 12 and embedded in the grout portion 200 by grouting operation, and the upper end of the tension member 300 is tensioned by the pressing device to fix the upper end. When the device 30 is fixed, the compressive stress is generated in the grout portion 200 between the upper fixing device 30 and the removable lower fixing device 110 in response to the tensile stress generated in the tension member 300.

Since the tensile force applied to the tension member 300 by the pressing device is very large, it can be said that the tensile stress of the tension member 300 and the compressive stress of the grout portion 200 corresponding thereto are also very large.

Therefore, when the surrounding ground of the grout portion 200 is a solid rock, there will be no problem. However, when the surrounding ground has a fragile structure such as weathered soil or sedimentary layer, the outer circumference of the grout portion 200 is expanded as shown by the dotted line. It can easily lead to destruction.

When such a grout part 200 is broken, even if the frictional resistance between the removable lower fixing unit 110 and the surrounding ground is sufficient, it will be pointed out as a problem that the function as an anchor is lost.

In the above, the case of the removable earth anchor has been described as an example of the related art, but even in the case of the non-removable earth anchor, when the surrounding ground has a weak structure, the problem caused by the compression destruction of the grout part is naturally raised. All.

The present invention has been made to solve the above problems, the object of the present invention is to propose a ground anchor of a more stable structure by preventing the compression fracture of the grout portion.

In accordance with an aspect of the present invention, in order to achieve the object described above, the earth anchor is joined together with a grout in a perforated hole in the rearing soil of the earthen structure, and in the earth anchor supporting the earthen structure by an upper fixing device, A lower fixing device which is fixed to the rearing soil through; A grout portion formed by injecting grout into the drilling hole; A tension member fixed to the upper and lower ends of the upper fixing device and the lower fixing device and embedded in the grout portion; Grout portion reinforcing means for reinforcing by restricting expansion of the grout portion; Present an earth anchor that includes.

The tension member is mounted as a structure that is easily separated from the grout portion by the tension member separation means, and the utility of the present invention is further highlighted when the lower fixing device is a removable structure.

The tension member separation means may be implemented by a coating portion formed on the outer circumference of the tension member.

The grout portion reinforcing means may be configured to include a reinforcement member embedded in the grout portion.

The grout portion reinforcing means

It may be configured to include a restraining member mounted between the upper fixing device and the lower fixing device to restrain the outer periphery of the grout portion.

Preferably, the restraining member has a spiral structure.

The inner diameter of the helical restraint member may be larger than the outer diameter of the lower fixer, and the inner circumference of the lower end of the helical restraint member may be coupled to the outer circumference of the lower fixer.

It is preferable to take a structure in which the guide member is installed in the longitudinal direction on the outer circumference of the restraining member.

The restraining member has a spiral structure, the inner diameter of the spiral restraining member is formed larger than the outer diameter of the lower fixing device, the inner circumference of the lower end of the spiral restraining member is coupled to the outer circumference of the lower fixing device, the lower end of the guide member It is more preferable to take the structure that is formed longer than the lower end of the spiral restraint member, the bent portion is bent inwardly.

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

As shown in Figure 6 to 9, the present invention is entered with the grout (20) in the drilling hole 12 perforated in the rear soil body 11 of the earth block structure (10), the upper fixing device (30) Regarding the earth anchor for supporting the earth block structure 10 by, the lower fixing device 100 is fixed to the rearing soil body 11 through a drilling hole 12; A grout portion 200 formed by injecting grout 20 into the hole 12; The upper and lower ends are fixed to the upper fixing device 30 and the lower fixing device 100, and the tension member 300 embedded in the grout portion 200; Grout portion reinforcing means 210 for reinforcing by restraining the expansion of the grout portion 200; It is configured to include.

That is, the earth anchor according to the present invention constrains the expansion of the grout portion 200 by the grout portion reinforcing means 210, thereby preventing the compressive breakdown of the grout portion 200 as described above even in the case of the soft ground. Since it can be prevented, the effect of increasing the structural stability of the earth anchor structure as a whole can be obtained.

Such a structure may be applied to all the earth anchor structures that are expected to be decompressed by the grout portion 200 as the surrounding ground takes a soft structure, but when applied to the removable earth anchors as described above, the utility is greater. Can be.

That is, the tension member 300 is mounted as a structure that is easily separated from the grout portion 200 by the tension member separation means 310, and the lower fixing device 100 of the removable earth anchor that takes the removable structure 110. In this case, as the tension member 300 does not restrain the grout portion 200, the possibility of compressive fracture of the grout portion 200 is higher, so that the effect of increasing structural stability by providing the grout reinforcing means 210 is further increased. It can be said to be high.

Here, the tension member separating means 310 refers to a structure for facilitating the removal of the tension member 300 from the grout portion 200 after completion of the construction, the coating portion 311 formed on the outer periphery of the tension member 300, The grout portion 200 around the tension member 300 may be implemented by a blade portion (not shown) to be separated while locally crushing.

In addition, the bottom fixing device 110 of the removable structure is a concept including both the above-described U-turn type, CT-R type, the structure according to the present invention can be applied to both of these forms.

Hereinafter, an embodiment of the grout portion reinforcing means 210 will be described.

First, the grout portion 200 may be implemented by a structure in which the reinforcement member (not shown) is embedded together.

This is provided with a reinforcement member such as geogrid, wire mesh, wire, etc. together with the tension member 300 in the drilling hole 12, to form the grout portion 200 by grouting, thereby making the grout portion 200 reinforced by the reinforcement member To get it.

Even if the compressive stress occurs in the grout portion 200, the reinforcement member serves to suppress the expansion of the grout portion 200, thereby reducing the possibility of compression failure.

Second, as shown in FIG. 6, the restraining member 211 is mounted between the upper fixing device 30 and the lower fixing device 100 so as to directly restrain the outer circumference of the grout part 200. Can be implemented.

Basically, the compression fracture of the grout part 200 is caused by the expansion of the outer periphery of the grout part 200 due to the fragile structure of the surrounding ground, so that the outer periphery of the grout part 200 is directly controlled by a separate restraining member 211. By constraining to, the effect is similar to the case where the surrounding ground has a solid structure.

Here, the restraining member 211 may be any structure that can restrain the outer periphery of the grout portion 200, but when the helical structure 211a as shown in Figs. Since the earth anchor structure takes a flexible structure as a whole due to the (spring) action, the effect of further increasing resistance to plastic breakdown can be additionally obtained.

The helical restraining member 211a and the lower fixing device 100 may take a structure coupled to each other or may take a separate structure, but it is preferable to take the former structure in terms of structural stability of the earth anchor and convenience of construction. .

Since the helical restraining member 211a is a structure that restrains the outer circumference of the grout portion 200, and the lower fixing device 100 is embedded in the grout portion 200, as shown in FIG. 6, the helical restraining member ( Since the inner diameter of 211a is larger than the outer diameter of the lower fixing device 100, it is preferable that the inner circumference of the lower end of the spiral restraining member 211a is coupled to the outer circumference of the lower fixing device 100.

The coupling between them may take a variety of structures, but unlike the tension member 300, since the spiral restraining member 211a is buried in the ground together with the lower fixing device 100, it is possible to take a welded coupling structure in terms of structural stability. desirable.

As described above, since the restraining member 211 that restrains the outer circumference of the grout portion 200 has the largest outer diameter among all members constituting the earth anchor, the inner wall of the drilling hole 12 and the inner wall of the drilling hole 12 during the insertion work into the drilling hole 12 It may cause a collision.

Thus, as shown in Figs. 6, 7 and 9, by inserting the guide member 220 in the longitudinal direction on the outer circumference of the restraining member 211, insertion of the restraining member 211 to the drilling hole 12. It is desirable to make the work easier.

The guide member 220 may be any structure as long as the structure can achieve the above object, and FIGS. 6, 7 and 9 illustrate embodiments in which a plurality of linear bars are provided at predetermined intervals.

Furthermore, in order to make the insertion of the lower fixing device 100 and the restraining member 211 into the drilling hole 12 more convenient, as shown in FIG. 6, the lower end of the guide member 220 is helical. It is preferably formed to be longer than the lower end of the restraining member 211a, and the long-formed portion is bent inward to form the bent portion 221.

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 Technical idea and the technical idea together with the basic will all be included in the scope of the present invention.

The present invention provides a ground anchor of a more stable structure by preventing the compression fracture of the grout portion.

Claims (9)

In the earth anchor which is joined together with the grout 20 in the drilling hole 12 drilled in the backing soil 11 of the earth block structure 10, and supports the earth block structure 10 by the upper fixing device 30. , A lower fixing device 100 fixed to the rearing soil body 11 through the drilling hole 12; A grout portion 200 formed by injecting grout 20 into the hole 12; A tension member 300 which is fixed to the upper and lower ends of the upper fixing device 30 and the lower fixing device 100 and embedded in the grout part 200; Grout portion reinforcing means 210 for reinforcing by restraining the expansion of the grout portion 200; Earth anchors included. The method of claim 1, The tension member 300 is mounted as a structure that is easily separated from the grout portion 200 by the tension member separation means 310, the lower fixing device 100 is characterized in that the removable structure 110 anchor. The method of claim 2, The tension member separation means 310 is an earth anchor, characterized in that the coating portion 311 formed on the outer periphery of the tension member (300). The method of claim 1, The grout portion reinforcement means 210 An earth anchor, characterized in that it comprises a reinforcement member embedded in the grout portion (200). The method of claim 1, The grout portion reinforcement means 210 An earth anchor, comprising: a restraining member (211) mounted between the upper fixing device (30) and the lower fixing device (100) to constrain the outer periphery of the grout portion (200). The method of claim 5, The restraining member 211 is Earth anchor, characterized in that the spiral structure (211a). The method of claim 6, The inner diameter of the spiral restraining member 211a is formed larger than the outer diameter of the lower fixing device 100, and the inner circumference of the lower end of the spiral restraining member 211a is coupled to the outer circumference of the lower fixing device 100. Earth anchor. The method of claim 5, Earth anchor, characterized in that the guide member 220 is installed in the longitudinal direction on the outer circumference of the restraining member (211). The method of claim 8, The restraining member 211 is a spiral structure 211a, The inner diameter of the spiral restraint member 211a is formed larger than the outer diameter of the lower fixing device 100, The inner circumference of the lower end of the spiral restraining member 211a is coupled to the outer circumference of the lower fixing device 100, An earth anchor, characterized in that the lower end of the guide member 220 is formed longer than the lower end of the helical restraint member (211a), the bent portion 221 is bent inwardly.

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