KR19990033055A - Anchor with improved pullout resistance and construction method - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

Anchor and anchor construction method with improved pull resistance.

2. The technical problem to be solved by the invention

By improving the anchoring part (anchor body) of the anchor to maximize the shear resistance of the ground, it is intended to strengthen the pullout resistance of the anchor.

3. Summary of Solution to Invention

In the anchor including a pressure plate, a fixing part (anchor body) and a tension member (steel wire) in order to improve the pull-out resistance of the anchor in the ground excavation work, the fixing part is formed to be larger than the hole diameter at the time of drilling, A protrusion is formed and includes a steel pipe inserted into the front end of the expanded anchoring portion.

4. Important uses of the invention

Used to excavate the ground.

Description

Anchor with improved pullout resistance and construction method

The present invention relates to an anchor and a construction method for improving the pull-out resistance during the excavation of the ground, and more particularly to an anchor and a construction method for improving the pull-out resistance of the anchor by improving the anchoring portion (also called anchor body) of the anchor will be.

1 is a cross-sectional view for explaining the conventional anchor construction method when drilling the ground, in the drawing 11 is a pile (soldier pile), 12 is the anchoring portion of the anchor, 13 is a steel wire (tensile material), 14 is an anchor plate (anchor plate) Respectively.

Conventionally, a frictional resistance anchor is mainly used as shown in FIG. The construction of such anchors drills the ground to a predetermined depth, inserts the steel wire 13 into the drilled holes, and injects mortar to harden it. Therefore, the anchor body 12 which is a fixing part is formed. Then, the steel wire (tensile material) 13 is tensioned and fixed to the pressure plate 14.

In such a structure, the earth pressure generated when the ground is excavated is transmitted to the pressure plate 14 through the thumb pile 11 that is the earth structure, the pressure plate 14 is to tension the steel wire 13 of the anchor. The tensile force of the steel wire 13 is transmitted to the anchor body 12 which is a fixing part. The anchor body 12 resists the pulling force generated by the earth pressure by the frictional force or adhesive force with the surrounding ground. Through this, the anchor supports the earth structure.

In such an anchor, the anchoring portion 12 of the anchor has an elongated shape, and the main component of the pulling resistance is frictional resistance. Therefore, fracture occurs from the surface where the frictional force of the ground and the fixing part is weak at the time of tensioning of the anchor. In addition, in the conventional construction method, when the grouting pressure generated during the injection of mortar is relatively large (10-20 kg / cm 2), the bearing capacity (pressure resistance, passive resistance) of the tip generated as the fixing unit 12 is expanded is ignored. have. However, the frictional resistance, which is the main component of the pulling force, is different from the value calculated by the arching effect and the apparent adhesion of the ground, and the frictional resistance is reduced by the relaxation of the surrounding ground by the expanded fixing unit 12. Therefore, such a conventional anchor and construction method may cause problems in supporting the ground by reducing the frictional resistance.

Therefore, the present invention devised in order to solve the problems of the prior art as described above expands the anchoring unit during drilling, and inserts a steel pipe formed with projections to significantly increase the pullout resistance of the anchor by using the shear resistance as well as the frictional resistance of the anchor fixing unit. An object of the present invention is to provide an improved anchor and a construction method thereof.

1 is a cross-sectional view for explaining the anchor construction method of the conventional ground excavation.

Figure 2 is a cross-sectional view for explaining the anchor construction method when the ground excavation according to the present invention.

3 is an enlarged cross-sectional view of part A of FIG. 2;

<Description of Symbols for Main Parts of Drawings>

11, 21: pile pile (soldier pile) 12, 22, 31: anchoring portion (anchor)

23, 32: steel pipe 14, 24: anchor plate

34, 13: steel wire

In the anchor of the present invention for achieving the above object, in the anchor comprising a pressure plate, a fixing part (anchor body) and a tension member (steel wire) in order to improve the pull-out resistance of the anchor during the ground excavation, the fixing part is a hole at the time of drilling It is characterized in that formed in a form larger than the diameter.

In addition, the anchor of the present invention is characterized in that it further comprises a steel pipe is formed in the outer projection, and inserted into the front end of the expanded anchoring portion.

In addition, the anchor construction method of the present invention, in the anchor construction method for improving the pull-out resistance of the anchor during the excavation of the ground, after drilling a hole having a predetermined diameter, the end portion of the hole is enlarged larger than the predetermined diameter step; Inserting a steel wire into the perforated hole and injecting mortar into the expanded portion to create anchoring portions of the anchors; Inserting a steel pipe having protrusions on the outer edge of the fixing unit; And tensioning the steel wire to fix the steel plate to the pressure plate.

Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 2 and 3.

Figure 2 is a cross-sectional view for explaining the construction method of the anchor when ground excavation according to the present invention, 21 is a thumb pile, 22 is a fixing part of the anchor, 23 is a steel pipe, 24 is a pressure plate.

In the anchor construction method of the present invention, first, at the time of the ground drilling, the hole is drilled to a predetermined diameter, and then the hole is enlarged to a desired size at the end of the drilled hole. Since the technique of expanding the end of the hole when drilling is common, the description thereof will be omitted.

Then, a steel wire that is a tensile material is inserted into the expanded portion, and then mortar is injected to cure. By doing so, the anchor fixing portion 22 of the present invention is made. Then, in order to enlarge the passive destruction area of the ground due to the expansion of the fixing unit 22, a steel pipe 23 having protrusions on the outer side is inserted to the fixing unit 22 of the anchor. After that, the steel wire is tensioned as in the prior art and then fixed to the pressure plate 24.

FIG. 3 is an enlarged cross-sectional view of part A of FIG. 2 in order to more easily explain the configuration of the present invention, in which 31 is an anchor anchor, 32 is a steel pipe, 33 is a protrusion, and 34 is a steel wire, respectively. .

As described in FIG. 2, the anchoring unit 31 of the anchor is formed, and the steel pipe 32 having the protrusion 33 is inserted to further strengthen the shear resistance. Here, the protrusion 33 formed on the outside of the steel pipe 32 is fixed obliquely at a predetermined angle to improve the pull resistance. Here, the protrusion may be fixed to the steel pipe by welding, or may be formed in such a shape during manufacturing.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and various substitutions, modifications, and alterations are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have knowledge of

In the present invention as described above, by expanding the anchoring portion of the anchor to larger than the diameter at the time of drilling, by inserting a steel pipe formed with a projection at the front end of the expansion portion in order to enlarge the passive destruction area of the ground by the expansion of the fixing portion, The shear resistance is generated as the steel pipe is transferred to the front of the ground, and the pullout resistance of the anchor is improved.

Claims (4)

An anchor comprising a pressure plate, a fixing part (anchor body) and a tension member (steel wire) in order to improve the pullout resistance when the ground is excavated, wherein the fixing part is formed to have a shape larger than the hole diameter during drilling. The anchor of claim 1, further comprising a steel pipe which is formed at an outer edge thereof and inserted into a front end of the fixing unit. The anchor of claim 2, wherein the protrusion is fixed to an outer side of the steel pipe at an angle at a predetermined angle. An anchor construction method for improving the pullout resistance during ground excavation, comprising: drilling a hole having a predetermined diameter, and then expanding the end of the hole larger than the predetermined diameter; Inserting a steel wire into the perforated hole and injecting mortar into the expanded portion to create anchoring portions of the anchors; Inserting a steel pipe having protrusions on the outer edge of the fixing unit; And tensioning the steel wire to fix the steel plate to the pressure plate.