KR102079719B1 - Anchor structure and construction method thereof - Google Patents

Abstract

The anchor structure A of the present invention inserted into the drilled hole 2 excavated in the ground 1 includes a fixing unit 110 located in the rear region of the drilled hole 2; A head part 120 installed at the inlet of the drilling hole 2; A tension member 130 in which rear and front ends are respectively fixed to the front and the head 120 of the fixing unit 110; The rear end 141 is fixed to the front region of the fixing unit 110, the front is a displacement measuring unit 140 through the head portion 120 to be exposed to the ground (1), including; ) Is filled with the grout 200, the tension member 130 between the fixing unit 110 and the head 120 is installed in a non-attached structure with the grout 200, the rear end of the displacement measuring unit 140 ( The entire region except for 141 is installed in a non-attached structure with the grout 200, and the tension member 130 is exposed to the exposed portion 142 of the displacement measuring unit 140 exposed through the head 120 and exposed to the ground 1. Identification unit 143 that can visually check the displacement caused by the loss of tension force (P) of the) is formed.
Identification unit 143 is preferably a scale (L) displayed on the outer peripheral surface along the axial direction of the displacement measuring unit 140.
In order to prevent corrosion of the exposed portion 142 and to clearly display the scale L, the identification part 143 is preferably alternately painted in different colors along the interval L.
In the present invention, as shown in Figure 1 is installed displacement measuring unit 140 that can determine the degree of loss of the tension member (130).
Existing anchor structure did not have a separate device that can determine the degree of loss of tension material. Therefore, even after the anchor structure installation, the degree of the tension material could not be confirmed.
However, the present invention can determine the degree of loss of the tension member 130 through the identification unit 143 of the displacement measuring unit 140.
As shown in FIG. 6, the identification unit 143 may be marked with a scale L, or may be easily formed by painting.

Description

Anchor structure and construction method {ANCHOR STRUCTURE AND CONSTRUCTION METHOD THEREOF}

The present invention relates to the construction field, and more particularly, to an anchor structure and its construction method.

Anchor structure is a structure that is installed to prevent the collapse of the cut surface or excavation surface of the ground, is installed for slope stability of the excavation, retaining wall, tunnel, cut slope.

Anchor structure is a technology that secures the fixing force by drilling the ground, installing the anchor body including the tension material, injecting grout and curing. However, after installation of the anchor structure, the tension of the tension member is lost or ground deformation occurs, the anchoring force of the anchor structure is lost.

Loss of anchoring capacity of anchor structures may cause accidents such as the cut surface collapse or a part of the excavated surface on which anchor structures are installed.

However, the existing anchor structure has a problem that can not determine the degree of loss of anchorage because there is no separate separation device that can determine the degree of loss of anchorage.

The present invention is derived to solve the above problems, and after the installation of the anchor structure, and proposes an anchor structure and construction method that can grasp the amount of deformation of the tension member and the deformation amount of the anchor structure.

In order to solve the above problems, the anchor structure (A) of the present invention inserted into the drilled hole (2) formed in the ground (1) is a fixing unit 110 which is located in the rear region of the drilled hole (2); A head part 120 installed at an inlet of the drilling hole 2; A tension member 130 in which rear and front ends are respectively fixed to the front of the fixing unit 110 and the head unit 120; The rear end 141 is fixed to the front region of the fixing unit 110, the front is a displacement measuring unit 140 through the head portion 120 to be exposed to the ground (1); The grout 200 is filled in the drilling hole 2, and the tension member 130 between the fixing unit 110 and the head 120 is installed in a non-attached structure with the grout 200, and the displacement The entire area excluding the rear end 141 of the measuring unit 140 is installed in a non-attached structure with the grout 200, and the displacement measurement exposed through the head part 120 to the ground 1 is measured. The exposed part 142 of the part 140 is provided with an identification part 143 that can visually check the displacement caused by the loss of the tension force (P) of the tension member 130.

The identification unit 143 is preferably a scale (L) displayed on the outer peripheral surface along the axial direction of the displacement measuring unit 140.

In order to prevent corrosion of the exposed portion 142 and to clearly display the scale L, the identification part 143 is preferably alternately painted in different colors along the interval L.

A fixing unit rear end portion 151 is fixed to a rear region of the fixing unit 110, and the front edge 152 penetrates the head portion 120 and is exposed to the ground 1. Further, the fuser displacement measuring unit 150 is a non-attached structure to the entire area of the fixing unit displacement measuring unit 150 except for the rear end 151 of the fixing unit displacement measuring unit 150 It is preferable to be installed as.

The front edge portion 152 exposed to the ground 1 is preferably formed with a confirmation unit 153 that can visually check the displacement of the fixing unit 110.

The check unit 153 is preferably a scale (L) displayed on the outer circumferential surface along the axial direction of the front edge portion 152.

In order to prevent corrosion of the front edge portion 152 and to clearly display the scale L, the front checker 153 is preferably alternately painted in different colors along the interval L. Do.

The head portion 120 is a support portion 121 is installed so as to have a larger area than the drilling hole (2) to transmit the tension force (P) applied to the tension member 130 to the ground (1); And a fixing head 122 installed at the front surface of the support part 121 to fix the tension member 130.

The fixing unit 110 is preferably formed in a lattice structure in order to improve the bonding force with the grout 200.

In order to install the displacement measuring unit 140, the fixing unit displacement measuring unit 150, and the tension member 130 in a non-attached structure with the grout 200, the displacement measuring unit 140 and the fixing unit displacement Measuring unit 150, the tension member 130 is preferably inserted into the inside of the pipe 300 is installed.

Anchor structure (A) construction method according to an embodiment of the present invention comprises a drilling step of drilling the drilling hole (2) in the ground (1); An anchor structure installation step of installing the anchor structure (A) including the fixing unit displacement measuring unit (150) in the drilling hole (2); Grout filling step of filling the grout 200 in the drilling hole (2); After hardening the grout 200, the tension member tension step of tensioning and fixing the tension member 130; A displacement checking step of checking a displacement level of the fixing unit 110 and the tension member 130 by checking the scale L of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150. do.

After the displacement checking step, re-tensioning step for re-tensioning the tension member 130 in accordance with the hand setting of the tension member 130; preferably further comprises.

Anchor structure (A) maintenance method according to an embodiment of the present invention after the installation of the anchor structure (A), the scale (L) of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150 A displacement checking step of checking the displacement of the fixing unit 110 and the tension member 130 by checking; And a maintenance step of re-tensioning the tension member 130 or reconstruction of the anchor structure (A).

In the displacement checking step, a displacement occurs in the displacement measuring unit 140, and no displacement occurs in the fixing unit displacement measuring unit 150.

The maintenance step is preferably to re-tension the tension member 130.

In the displacement checking step, a displacement occurs in the displacement measuring unit 140, and in the fixing unit displacement measuring unit 150, only an initial displacement occurs immediately after installation of the anchor structure A, and no additional displacement occurs.

The maintenance step is preferably to re-tension the tension member 130.

In the displacement checking step, a displacement occurs in the displacement measuring unit 140, and in the fixing unit displacement measuring unit 150 in addition to the initial displacement immediately after the installation of the anchor structure (A) occurs,

In the maintenance step, it is preferable to reinstall the anchor structure (A).

The anchor structure of the present invention can visually grasp the displacement of the tension member and the fixing portion, it is possible to easily determine the degree of loss of anchoring force of the anchor structure.

In addition, there is an advantage to improve the safety of the anchor structure by additionally introducing the anchoring force of the lost anchor structure.

1 is a view showing that the anchor structure is installed on the ground according to an embodiment of the present invention.
Figure 2 is a view showing that the anchor structure coupled to the fixing unit displacement measuring unit according to an embodiment of the present invention is installed on the ground.
3 is a front view of the head portion exposed to the strand, displacement measuring unit, the fixing unit displacement measuring unit according to an embodiment of the present invention.
4 is a view illustrating a strand wire, a displacement measuring unit, and a fixing unit displacement measuring unit are inserted into a pipe according to an embodiment of the present invention.
5 is a view showing that the identification unit of the displacement measuring unit and the confirmation unit of the displacement measurement unit according to an embodiment of the present invention is installed.
6 is a view showing that the scale is displayed in the identification unit according to an embodiment of the present invention.
7 is a view showing that the identification unit and the identification unit is painted according to an embodiment of the present invention.
8 is a drilling step process diagram according to an embodiment of the present invention.
9 is according to an embodiment of the present invention
10 is according to an embodiment of the present invention.
11 is according to an embodiment of the present invention.

An embodiment of the anchor structure and its construction method according to the present invention will be described in detail with reference to the accompanying drawings, in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and Duplicate explanations will be omitted.

In addition, terms such as first and second used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as the first and second components. no.

In addition, the coupling does not only mean a case where physical contact is directly between the components in the contact relationship between the components, but another component is interposed between the components, and the components are included in the other components. Use it as a comprehensive concept until each contact.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the anchor structure and its construction method.

The anchor structure A of the present invention inserted into the drilled hole 2 excavated in the ground 1 includes a fixing unit 110 located in the rear region of the drilled hole 2; A head part 120 installed at the inlet of the drilling hole 2; A tension member 130 in which rear and front ends are respectively fixed to the front and the head 120 of the fixing unit 110; The rear end 141 is fixed to the front region of the fixing unit 110, the front is a displacement measuring unit 140 through the head portion 120 to be exposed to the ground (1), including; ) Is filled with the grout 200, the tension member 130 between the fixing unit 110 and the head 120 is installed in a non-attached structure with the grout 200, the rear end of the displacement measuring unit 140 ( The entire region except for 141 is installed in a non-attached structure with the grout 200, and the tension member 130 is exposed to the exposed portion 142 of the displacement measuring unit 140 exposed through the head 120 and exposed to the ground 1. Identification unit 143 that can visually check the displacement caused by the loss of tension force (P) of the) is formed.

Identification unit 143 is preferably a scale (L) displayed on the outer peripheral surface along the axial direction of the displacement measuring unit 140.

In order to prevent corrosion of the exposed portion 142 and to clearly display the scale L, the identification part 143 is preferably alternately painted in different colors along the interval L.

In the present invention, as shown in Figure 1 is installed displacement measuring unit 140 that can determine the degree of loss of the tension member (130).

Existing anchor structure did not have a separate device that can determine the degree of loss of tension material. Therefore, even after the anchor structure installation, the degree of the tension material could not be confirmed.

However, the present invention can determine the degree of loss of the tension member 130 through the identification unit 143 of the displacement measuring unit 140.

As shown in FIG. 6, the identification unit 143 may be marked with a scale L, or may be easily formed by painting.

A fixing unit rear end portion 151 is fixed to a rear region of the fixing unit 110, and the front edge 152 may include a fixing unit displacement measuring unit 150 exposed through the head unit 120 to the ground 1; In addition, the fusing unit displacement measuring unit 150 is preferably installed in the entire area of the grout 200 and the non-attachment structure, except for the fusing unit rear end 151 of the fusing unit displacement measuring unit 150.

The front edge portion 152 exposed to the ground 1 is preferably formed with a confirmation unit 153 that can visually check the displacement of the fixing unit 110.

It is preferable that the identification part 153 is the scale L displayed on the outer peripheral surface along the axial direction of the front edge part 152. FIG.

In order to prevent corrosion of the front edge 152 and to clearly display the scale L, the front checker 153 is preferably alternately painted in different colors along the interval L.

In the anchor structure A of the present invention, as shown in FIG. 4, a fixing unit displacement measuring unit 150 having a rear end fixed to the rear region of the fixing unit 110 is installed.

The displacement of the anchor structure (A) is caused by the loss of the tension member 130, or by the displacement of the fixing unit 110.

The displacement measuring unit 140 confirms the displacement of the tension member 130, and the fixing unit displacement measuring unit 150 confirms the displacement of the fixing unit 150.

The fixing unit displacement measuring unit 150 has a rear end fixed to the rear region of the fixing unit 110 as shown in FIG. 4, and the entire region except the rear end portion 151 of the fixing unit is not attached to the grout 200. Is installed.

Accordingly, the displacement amount of the tension member 130 and the displacement amount of the fixing unit 110 are determined by checking the displacement amount of the check unit 153 of the fixing unit displacement measuring unit 150 and the displacement amount of the identification unit 143 of the displacement measuring unit 140. do.

If the displacements of the identification unit 143 and the identification unit 153 are the same, only the tension member 130 of the anchor structure A is displaced, and the displacement of the identification unit 153 is greater than the displacement of the identification unit 143. If it is, the amount of displacement of the identification unit 153 that occurred more than the displacement of the identification unit 143 is generated in the fixing unit 110.

Head portion 120 is a support portion 121 is installed so as to have a larger area than the drilling hole (2) in order to transfer the tension force (P) applied to the tension member 130 to the ground (1); It is preferable to include; a fixing head 122 is installed on the front of the support portion 121 to fix the tension member 130.

The fixing unit 110 is preferably formed in a lattice structure in order to improve the bonding force with the grout 200.

In this case, the fixing unit 110 may be formed in a lattice structure as shown in FIG. 1 to improve the bonding force of the grout 200.

In order to install the displacement measuring unit 140, the fixing unit displacement measuring unit 150, the tension member 130 in a non-attached structure with the grout 200, the displacement measuring unit 140, the fixing unit displacement measuring unit 150, The tension member 130 is preferably inserted into the pipe 300 is installed.

In this case, as shown in FIGS. 1 and 4, the displacement measuring unit 140, the fixing unit displacement measuring unit 150, and the tension member 130 are inserted into the pipe 300 and are not attached to the grout 200.

Anchor structure (A) construction method according to an embodiment of the present invention comprises a drilling step of drilling a hole (2) in the ground (1); An anchor structure installation step of installing the anchor structure A including the fixing unit displacement measuring unit 150 in the drilling hole 2; Grout filling step of filling the grout 200 in the drilling hole (2); After hardening the grout 200, the tension member tension step of tensioning and fixing the tension member 130; And a displacement checking step of checking the displacement L of the fixing unit 110 and the tension member 130 by checking the scale L of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150.

After the displacement check step, according to the hand setting degree of the tension member 130, re-tension step for re-tensioning the tension member 130; It is preferable to further include.

After the grout 200 is cured, the tension member 130 is tensioned to complete the installation of the anchor structure A.

Thereafter, the displacement L of the anchor structure A may be confirmed by checking the scale L of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150.

Immediately after tensioning the tension member 130, the anchor structure generates an immediate loss of the tension member, and a long-term loss occurs over time.

If the amount of losses is higher than the design value, some or all of the ground may be collapsed without preventing the ground collapse.

However, the present invention has the advantage that can continuously observe the initial deformation and long-term deformation of the anchor structure (A) by using the displacement measuring unit 140 and the fixing unit displacement measuring unit 150.

Anchor structure (A) maintenance method according to an embodiment of the present invention after fixing the anchor structure (A), check the scale (L) of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150 fixing unit Displacement check step of checking the displacement degree of the 110 and the tension member 130; It includes; the maintenance step to re-tension the tension member 130 or reconstruct the anchor structure (A).

When the tension member 130 is lost due to the loss of the tension member 130, the tension member 130 should be restrained.

At this time, the correct amount of loss can be confirmed to determine the retension load.

Using the scale (L) of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150 of the present invention can accurately determine the loss amount, there is an advantage that can be introduced to the appropriate tension force (P) when re-tension.

In the displacement checking step, the displacement occurs in the displacement measuring unit 140, and the displacement does not occur in the displacement measurement unit 150. Maintenance step is preferably to retension the tension member (130).

In this case, the displacement does not occur in the fixing unit 110, and the displacement occurs only in the tension member 130. The tension member 130 may be re-tensioned to secure the safety of the anchor structure A. FIG.

In the displacement checking step, the displacement occurs in the displacement measuring unit 140, the anchorage displacement measuring unit 150 only generates the initial displacement immediately after the installation of the anchor structure (A), if no additional displacement occurs, the maintenance step is It is desirable to retension the tension member 130.

In this case, although the initial displacement occurs in the tension member 130, but the continuous displacement does not occur additionally, the tension member 130 may be re-tensioned to secure the safety of the anchor structure (A).

In the displacement checking step, when the displacement occurs in the displacement measuring unit 140, and in the fixing unit displacement measuring unit 150 in addition to the initial displacement immediately after the installation of the anchor structure (A), the maintenance step is the anchor structure ( It is recommended to reinstall A).

In this case, the displacement of the fixing unit 110 is continuously generated, and the coupling failure of the fixing unit 110 and the grout 200 occurs.

Therefore, it is possible to improve the safety of the anchor structure (A) by reinstalling the anchor structure (A).

In addition, the anchor structure (A) of the present invention can be continuously maintained using the displacement measuring unit 140 and the fixing unit displacement measuring unit 150 after the construction job.

Therefore, there is an effect that can prevent safety accidents by checking the abnormality of the anchor structure (A) that occurs during construction.

A: Anchor Structure L: Scale
P: Tension 1: Ground
2: drilling hole 110: fixing unit
120: head portion 121: support portion
122: fixing head 130: tension material
140: displacement measuring unit 141: rear end
142: exposed portion 143: identification portion
150: fusing unit displacement measuring unit 151: fusing unit rear end
152: front edge portion 153: confirmation portion
200: grout

Claims (16)

An anchor structure (A) is inserted into the drilled hole (2) excavated in the ground (1),
A fixing unit (110) positioned in the rear region of the drilling hole (2);
A head part 120 installed at an inlet of the drilling hole 2;
A tension member 130 in which rear and front ends are respectively fixed to the front of the fixing unit 110 and the head unit 120;
A rear end portion 141 is fixed to the front region of the fixing unit 110, the front is a displacement measuring unit 140 exposed through the head portion 120 to the ground (1);
The grout 200 is filled in the drilling hole 2,
The tension member 130 between the fixing unit 110 and the head unit 120 is installed in a non-attached structure with the grout 200,
The entire area except the rear end 141 of the displacement measuring unit 140 is installed in a non-attached structure with the grout 200,
The exposed portion 142 of the displacement measuring unit 140 exposed through the head unit 120 and exposed to the ground 1 visually checks the displacement caused by the loss of tension force P of the tension member 130. The identification unit 143 is formed,
The identification unit 143 is displayed a scale (L) on the outer peripheral surface along the axial direction of the displacement measuring unit 140, to prevent corrosion of the exposed portion 142, to clearly display the scale (L) For the sake of clarity, the identification unit 143 is alternately painted in different colors along the interval L.
A fixing unit rear end portion 151 is fixed to a rear region of the fixing unit 110, and the front edge 152 penetrates the head portion 120 and is exposed to the ground 1. 150);
The fixing unit displacement measuring unit 150
The entire area of the fixing unit displacement measuring unit 150 except for the fixing unit rear end 151 is installed in a non-attached structure with the grout 200.
The front edge portion 152 exposed to the ground 1 is formed with a confirmation unit 153 that can visually check the displacement of the fixing unit 110,
The check unit 153 is displayed on the outer peripheral surface along the axial direction of the front edge portion 152, the scale (L),
In order to prevent corrosion of the front edge 152 and to clearly display the scale (L),
The front confirmation unit 153 is an anchor structure, characterized in that the alternating colors are painted in different colors along the interval (L).
delete delete delete delete delete delete The method of claim 1,
The head part 120 is
A support part 121 installed to have a larger area than the perforation hole 2 so as to transmit the tension force P applied to the tension member 130 to the ground 1;
An anchor structure, comprising: a fixing head (122) installed on the front of the support (121) to fix the tension member (130).
The method of claim 8,
The fixing unit 110
Anchor structure, characterized in that formed in a lattice structure to improve the bonding force with the grout (200).
The method of claim 9,
In order to install the displacement measuring unit 140, the fixing unit displacement measuring unit 150, the tension member 130 in a non-attached structure with the grout 200,
The displacement measuring unit 140, the fixing unit displacement measuring unit 150, the tension member 130 is an anchor structure, characterized in that is installed is inserted into the inside of the pipe (300).
A method of constructing the anchor structure (A) according to any one of claims 1 and 8,
A drilling step of drilling the drilling hole (2) in the ground (1);
An anchor structure installation step of installing the anchor structure (A) including the fixing unit displacement measuring unit (150) in the drilling hole (2);
Grout filling step of filling the grout 200 in the drilling hole (2);
After hardening the grout 200, the tension member tension step of tensioning and fixing the tension member 130;
A displacement checking step of checking a displacement level of the fixing unit 110 and the tension member 130 by checking the scale L of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150. Anchor structure construction method characterized in that.
The method of claim 11,
After the displacement checking step,
A method of constructing an anchor structure, characterized in that it further comprises; re-tensioning step to re-tension the tension member 130 according to the hand setting of the tension member 130.
A method for maintaining the anchor structure (A) according to any one of claims 1 and 8 to 10,
After installation of the anchor structure (A),
A displacement checking step of checking the scale L of the displacement measuring unit 140 and the fixing unit displacement measuring unit 150 to determine the degree of displacement of the fixing unit 110 and the tension member 130;
A method of maintaining the anchor structure, including; the tension material 130 to re-tension or to maintain the reconstruction of the anchor structure (A).
The method of claim 13,
In the displacement checking step, a displacement occurs in the displacement measuring unit 140, and no displacement occurs in the fixing unit displacement measuring unit 150.
The maintenance step is
Anchor structure maintenance method, characterized in that to re-tension the tension member (130).
The method of claim 13,
In the displacement checking step, a displacement occurs in the displacement measuring unit 140, and in the fixing unit displacement measuring unit 150, only an initial displacement occurs immediately after installation of the anchor structure A, and no additional displacement occurs.
The maintenance step is
Anchor structure maintenance method, characterized in that to re-tension the tension member (130).
The method of claim 13,
In the displacement checking step, a displacement occurs in the displacement measuring unit 140, and in the fixing unit displacement measuring unit 150 in addition to the initial displacement immediately after the installation of the anchor structure (A) occurs,
The maintenance step is
Anchor structure maintenance method, characterized in that to reinstall the anchor structure (A).

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