KR102639738B1 - Construction method of permanent anchors with improved enlargement bearing type - Google Patents

Abstract

The present invention includes a drilling step (110) of drilling an excavation hole (1) in the ground; An anchor fixing head 10, a protective cap 11 that is open toward one side and has one or more grease inlets or exhaust ports and is coupled to the front side of the anchor fixing head 10, and a hollow portion open on both sides is formed therein. An acupressure-type external anchor body (20) that has a cylindrical structure and is coupled to the rear side of the anchor fixing head (10) so that it can be opened and is spread by its own weight and driven into the ground, and an outer surface of the acupressure-type external anchor body (20), External anchor body fixing bands (21) each ring-fixed to the rear side, and external anchor body fixing bands (21) that are pinned to prevent the outer anchor body fixing bands (21) from loosening due to their own weight of the acupressure-type external anchor body (20). The pin (22) and the other side end are pulled out to the rear side, and one end is fixed to the rear side of the external anchor body fixing pin (22), so that when the rear side is pulled externally, it is separated from the external anchor body fixing band (21) and is used as an acupressure type. A wire (30) that guides the external anchor body (20) to spread by its own weight and be driven into the ground, and a pipe body installed at a certain distance behind the acupressure-type external anchor body (20) with grout filled inside. The PE corrugated pipe 40 seals the excavation hole 1 through the PE corrugated pipe 40 and the acupressure-type external anchor body 20, and the front end is fixed to the anchor fixing head 10 and the rear end is on the ground. One or more tension members 50 are connected to the tensioner on the side and pull out the anchor fixing head 10 through the tensioner, and are installed at the entrance of the underground excavation hole 1, and the tension member 50 penetrates and is supported by the tensioner. An acupressure plate 60, which is a circular plate, a re-tensioning fixing head 61 that is supported on the acupressure plate 60 and the free end of the tension member 50 is fixed, and a tip penetrating through the PE corrugated pipe 40 and the acupressure plate 60. It is disposed at the rear of the type external anchor body 20 and includes an injection pipe 13 of a double pipe structure for injecting the first grout (G1), and when the wire 30 is drawn, the acupressure type external anchor body 20 ) A permanent anchor insertion step (120) of inserting the acupressure-type permanent anchor (100), which is opened and driven into the ground, into the drilling hole (1) drilled through the drilling step (110); After the permanent anchor insertion step 120, the wire 30 of the acupressure-type permanent anchor 100 is pulled out so that the acupressure-type external anchor body 20 of the acupressure-type permanent anchor 100 is expanded and embedded in the ground. Permanent anchor underground expansion fixing step (130); The first grout (G1) is injected through the injection pipe 13 of the acupressure-type permanent anchor 100 into the excavation hole 1 including the expanded internal space of the PE corrugated pipe 40 and the acupressure-type external anchor body 20. ) A permanent anchor front side fixing step (140) of filling and settling in; And an improved double anchoring step (150) for sealing the excavation hole (1) by filling the second grout (G2) behind the PE corrugated pipe (40) of the acupressure-type permanent anchor (100). This relates to the construction method of an expandable acupressure type permanent anchor.
In this invention, an external anchor body fixing band is formed in which the acupressure-type external anchor body is expanded and fixed with an external anchor body fixing pin, and the externally exposed wire is drawn to remove the external anchor body fixing pin from the external anchor body fixing band. By expanding the type external anchor body in the ground, the structure is relatively simple, the construction period is shortened, and the construction method is simpler, greatly improving construction work efficiency. In addition, by providing PE corrugated pipe and grouting is injected, multiple tension members can be used. Double protection significantly improves durability and groundwater inflow prevention performance. After internal grouting, inserting spacers with the same arrangement spacing as the arrangement of tension members of the fixing head for re-tensioning before grout curing prevents damage to multiple tension members when introducing tension member anchor force. It fundamentally prevents damage to the waterproof layer and grout, and is equipped with a fixing head for re-tensioning, so that when a defect occurs, such as loss of remaining design anchor force, the lost design anchor force can be conveniently re-tensioned precisely and quickly, making it excellent in terms of management. , By providing an acupressure plate, which is a circular plate, it is possible to fundamentally prevent the occurrence of linear cracks due to stress concentration by enlarging and dispersing the stress concentration area, and by providing a wedge pressing plate to prevent the separation of the wedge due to ground vibration, thereby improving earthquake resistance. There is an effect that can be achieved.

Description

Construction method of permanent anchors with improved enlargement bearing type}

The present invention relates to a construction method of an improved expandable acupressure type permanent anchor. More specifically, the acupressure type external anchor body is formed with an external anchor body fixing band fixed with an external anchor body fixing pin, and the wire exposed to the outside is drawn. By removing the external anchor body fixing pin from the external anchor body fixing band and expanding the acupressure-type external anchor body underground, the structure is relatively simple, the construction period is shortened, and the construction method is simpler, greatly improving construction work efficiency. This relates to a construction method for an improved expandable acupressure type permanent anchor.

In general, permanent anchors are used to prevent collapse of cut surfaces and stabilize slopes at cut sites, prevent injury caused by groundwater in large underground structures such as underpasses and sewage treatment facilities in buildings or dams, and prevent collapse of excavation walls during civil engineering work in the basement of large buildings. It is used to prevent movement or distortion of structures during the construction of buildings or large steel towers, such as during earthquakes.

The general anchoring method involves drilling an excavation hole using a drill in the ground at risk of collapse, inserting a grout hose and a plurality of tension members and an internal body as a unit into this hole, and then inserting the grout hose into the ground. Grout is injected through the strand, and when the injected grout is cured together with the internal body, a fixture is fastened to the other end of the tension member, and then the tension member within the strand is tensioned using hydraulic equipment, etc. to stabilize the target structure. Accordingly, the anchor supports the tensile force from the surface due to the friction between the grout and the ground.

In this anchoring method, the components of the anchor are divided into an anchor part that exerts the required friction force, a free part that transmits the friction force exerted by the anchor part, and a fixture that applies the required friction force to the structure. Among these components, the anchorage part is determined by the frictional resistance of the ground, cement grout, and cement grout and tension member. For example, the free part used in the anchoring method may be made of a tension member mainly coated with a wire rope in which a plurality of steel wires are twisted.

However, these conventional anchors provide support rigidity against pulling through friction between the grout and the ground, but a number of joints exist around the excavation hole into which the anchor is inserted depending on the condition of the ground. Therefore, since grout is filled by injection pressure, when it is injected into the excavation hole, the grout leaks from the excavation hole through the joint, lowering the filling rate inside the excavation hole, and thus failing to substantially reinforce the ground. At this time, even if the joint is formed only in part, since the entire area inside the excavation hole is one space, voids are generated inside the grout filled in the entire area of the excavation hole, so reinforcement is not achieved. Here, because there is no way to measure the strength inside the excavation hole, construction is carried out without recognizing the presence of a void, which may eventually lead to a major accident due to ground collapse.

In addition, since the outer peripheral surface of the anchor is usually a flat surface, separation occurs between the grout and the anchor, so there is a problem that the anchor is pulled out of the excavation hole when the tension member is tensioned, resulting in the ground collapsing. In addition, there was a problem in that it was structurally unstable due to the intensive load being received at the tip anchor portion, so the length of the anchor portion was lengthened. However, as the fixing part became longer, there were problems such as unit cost and construction difficulties.

In order to solve this problem, a technology has been proposed in which a wedge is driven into the ground to provide anchor support. Since the conventional wedge-type anchor has only one inclined portion and the wedge operates, when the tension member is tensioned, the wedge expands as a whole. Instead, it opens in a way that the rear rotates. Therefore, since only the rear end of the wedge is driven into the ground, the supporting force is very weak, and although it is said that grouting is not used, in reality, grouting is inevitable, and even if the supporting force of the wedge is greatly secured, the supporting force cannot be achieved with the wedge alone. Because it could not be provided, there was also a problem with the anchor falling out of the excavation hole.

In addition, in the conventional wedge anchor, a space is formed between the wedge and the inner body inside the wedge, so the support base of the wedge is very weak. As a result, the ground pressure cannot be distributed, so the ground pressure is applied to the contact area (line contact) between the wedge and the inner body. As this concentration increased, there was also a problem with the wedge being damaged. In addition, because the acupressure plate is installed to be in surface contact with the ground, there is a problem that it easily leaves the excavation hole due to external force. In addition, there was a problem in that slip occurred between the tensioner and the tension head during tensioning of the tension member, preventing the tension member from being tensioned normally.

Accordingly, in order to solve this conventional problem, the present applicant includes "a first step of drilling an excavation hole (1) in the ground; a fixed head (10); and one or more grease injection holes (11a) and an exhaust port that are open toward one side. A fixing cap 11 provided with (11b) and coupled to the front of the fixing head; an inner lower body 20 having a cylindrical structure with a hollow portion open on both sides and fixed to the rear side of the fixing head; A pair of wedges (30) that are coupled to the circumference of the inner body to be able to open and are opened and driven into the ground when the inner body is pulled out; are installed at a certain distance behind the inner body and are attached to the inner wall of the underground excavation hole A packer support ring (40) for deep foot occlusion that is supported and restrains the inner body from moving backwards beyond a certain distance and seals the excavation hole; a packer support ring (40) for deep foot occlusion that is opened on both sides and the opening on one side is wound inward A packer for deep occlusion (50) installed at the rear of the support ring and expanding through milk (M) filled inside to seal the excavation hole; the packer for deep occlusion, the packer support ring for deep occlusion, and the inner body One or more tension members (60) whose front end is fixed to the fixed head while penetrating and whose rear end is connected to a tensioner on the ground side and pulls the fixed head and the inner body through the tensioner; installed at the entrance of an underground excavation hole, the tension member An acupressure plate 70 on which the penetrating and tensioner is supported; a tension head 61 supported on the acupressure plate and on which the free end of the tension member is fixed; and a tip portion penetrating the packer for deep foot occlusion and the packer support ring for deep foot occlusion. It is disposed at the rear of the inner body and includes an injection pipe 13 of a double pipe structure for injecting the first grout (G1), and the inner body has a downward slanted inner body on the outer peripheral surface from the fixed head side to reduce the cross-sectional area. A first inclined portion 21, a second inclined portion 22 inclined at the same angle as the first inclined portion from the end of the first inclined portion, and a pair of inclined portions protruding from both sides of the outer peripheral surface so that the cross-sectional area decreases toward the rear. It includes a guide portion 23 of a triangular cross-section that supports the wedge, and each of the pair of wedges has a curved arc-shaped cross-section, the width increases from one side to the other, and the first and second slopes of the inner lower body are formed on the inner peripheral surface. Third and fourth inclined parts 31 and 32 are provided at the same angle as the inner body, and both sides are supported by the guide part of the inner lower body, and the rear end is supported by the packer support ring for deep occlusion, so that when the inner lower body is pulled out, the rear end is supported by the inner lower body. A second step of inserting a double expansion type acupressure-type permanent anchor, in which all parts are equally spread and driven into the ground through the first to fourth slopes, into the excavation hole drilled through the first step; A third step of sealing the excavation hole by filling the inside of the packer (50) for deep occlusion of the double-expandable acupressure type permanent anchor installed through the second step with milk (M); After the third step, the tension member 60 of the double-expandable acupressure-type permanent anchor is pulled so that the fixing head 10 and the inner body 20 of the double-expandable acupressure-type permanent anchor are pulled together toward the ground side, so that the inner body ( A fourth step of expanding the wedge 30 through the first and second slopes 21 and 22 of 20) and the third and fourth slopes 31 and 32 of the wedge 30 to be embedded in the ground; Filling the first grout (G1) into the space between the inner body (20) and the wedge (30) and the excavation hole (1) in front of the fixing head (10) through the injection pipe of the double expansion type acupressure permanent anchor. The fifth step of settling down; And, a double expansion type acupressure type permanent anchor comprising a sixth step of filling the second grout (G) behind the deep occlusion packer 50 of the double expansion type acupressure type permanent anchor to seal the excavation hole. “Construction method.” was initiated through the proposal of Patent Registration No. 10-0950593 (announced on April 1, 2010).

However, in this conventional double expansion type acupressure permanent anchor construction method, grout is injected into the deep occlusion packer (50) to expand it, the anchor body is temporarily tensioned, and the anchor body (20) is dismantled by the expansion force to form a wedge (30). ) is a method of fixing a double-expandable acupressure-type permanent anchor in the ground by expanding it. However, there were construction problems in that the structure of the double-expansion type acupressure-type permanent anchor was complex, which took a long time to construct, and complicated the construction method.

In addition, there was a structural problem in that the packer 50 for deep foot occlusion of the double expansion type acupressure type permanent anchor failed to protect the multiple tension members 60, resulting in decreased durability and correspondingly decreased groundwater inflow prevention performance.

In addition, the arrangement of the plurality of tension members 60 fixed internally with grout does not match the arrangement of the fixation head 10, so the fixation head 10 cannot adhere to the acupressure plate 70, and when the anchor force of the tension member 60 is introduced, the tension member 60 There were structural problems such as bending of (60) and damage to the inside of the sleeve, waterproof layer, and grout, resulting in groundwater inflow and damage to the tensile member (60).

In addition, since the acupressure plate 70 is made of a square shape, there is a problem in that a linear crack occurs due to stress concentration at the square edge of the acupressure plate 70.

In addition, there was a structural problem in that the wedge was gradually separated from the fixed head 10 due to surrounding vibration and the tensile force of the tension member 60 was greatly reduced, resulting in a rapid decrease in earthquake resistance.

(KR) Republic of Korea Patent Registration No. 10-0950593 (announced on April 1, 2010)

The present invention is intended to solve the above problems, and an external anchor body fixing band is formed in which the acupressure-type external anchor body is extended and fixed with an external anchor body fixing pin, and the wire exposed to the outside is pulled out from the external anchor body fixing band. By removing the external anchor body fixing pin and expanding the pressure-type external anchor body underground, the structure is relatively simple, the construction period is shortened, and the construction method is simpler, greatly improving construction work efficiency. Equipped with PE corrugated pipe, As grout is injected, multiple tension members are double protected, greatly improving durability and groundwater inflow prevention performance. After internal grouting, tension members are inserted with the same arrangement spacing as the tension member arrangement of the fixation head for re-tensioning before grout curing. When introducing anchor force, it fundamentally prevents damage to multiple tension members or damage to the waterproof layer and grout, and is equipped with a fixing head for re-tensioning, so that in the event of a defect such as loss of remaining design anchor force, the lost design anchor force can be conveniently and accurately recognized. It is excellent in terms of management as it can be installed in a circular shape, and by providing an acupressure plate, which is a circular plate, it can fundamentally prevent the occurrence of tension cracks due to stress concentration by enlarging and dispersing the stress concentration area. It also provides a wedge pressing plate to prevent wedges caused by ground vibration. The purpose is to provide an improved construction method of an expanded acupressure-type permanent anchor that can improve earthquake resistance by preventing separation of the anchor.

The problem to be solved by the present invention is not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the description below.

In order to achieve this object, the present invention includes a drilling step (110) of drilling an excavation hole (1) in the ground;

An anchor fixing head 10, a protective cap 11 that is open toward one side and has one or more grease inlets or exhaust ports and is coupled to the front side of the anchor fixing head 10, and a hollow portion open on both sides is formed therein. An acupressure-type external anchor body (20) that has a cylindrical structure and is coupled to the rear side of the anchor fixing head (10) so that it can be opened and is spread by its own weight and driven into the ground, and an outer surface of the acupressure-type external anchor body (20), External anchor body fixing bands (21) each ring-fixed to the rear side, and external anchor body fixing bands (21) that are pinned to prevent the outer anchor body fixing bands (21) from loosening due to their own weight of the acupressure-type external anchor body (20). The pin (22) and the other side end are pulled out to the rear side, and one end is fixed to the rear side of the external anchor body fixing pin (22), so that when the rear side is pulled externally, it is separated from the external anchor body fixing band (21) and is used as an acupressure type. A wire (30) that guides the external anchor body (20) to spread by its own weight and be driven into the ground, and a pipe body installed at a certain distance behind the acupressure-type external anchor body (20) with grout filled inside. The PE corrugated pipe 40 seals the excavation hole 1 through the PE corrugated pipe 40 and the acupressure-type external anchor body 20, and the front end is fixed to the anchor fixing head 10 and the rear end is on the ground. One or more tension members 50 are connected to the tensioner on the side and pull out the anchor fixing head 10 through the tensioner, and are installed at the entrance of the underground excavation hole 1, and the tension member 50 penetrates and is supported by the tensioner. An acupressure plate 60, which is a circular plate, a re-tensioning fixing head 61 that is supported on the acupressure plate 60 and the free end of the tension member 50 is fixed, and a tip penetrating through the PE corrugated pipe 40 and the acupressure plate 60. It is disposed at the rear of the type external anchor body 20 and includes an injection pipe 13 of a double pipe structure for injecting the first grout (G1), and when the wire 30 is drawn, the acupressure type external anchor body 20 ) A permanent anchor insertion step (120) of inserting the acupressure-type permanent anchor (100), which is opened and driven into the ground, into the drilling hole (1) drilled through the drilling step (110);

After the permanent anchor insertion step 120, the wire 30 of the acupressure-type permanent anchor 100 is pulled out so that the acupressure-type external anchor body 20 of the acupressure-type permanent anchor 100 is expanded and embedded in the ground. Permanent anchor underground expansion fixing step (130);

The first grout (G1) is injected through the injection pipe 13 of the acupressure-type permanent anchor 100 into the excavation hole 1 including the expanded internal space of the PE corrugated pipe 40 and the acupressure-type external anchor body 20. ) A permanent anchor front side fixing step (140) of filling and settling in; and

It is characterized by including a permanent anchor rear fixing step (150) of filling the second grout (G2) behind the PE corrugated pipe (40) of the acupressure type permanent anchor (100) to seal the excavation hole (1).

After the permanent anchor front fixing step (140), the arrangement spacer is a circular plate material having a plurality of space maintaining holes (71) with the same spacing as the arrangement spacing of the plurality of tension members (50) inside the excavation hole (1). It is characterized by further including a tension member arrangement spacer installation step (142) of continuously maintaining the arrangement spacing of the plurality of tension members (50) by inserting (70).

The upper surface of the fixing head 61 for re-tensioning has a tension member through-hole 81 through which a plurality of circular plate-shaped tension members 50 penetrate, and a plurality of tension members 50 are fastened and fixed to the upper surface of the fixing head 61 for re-tensioning by a fixing bolt 83. The wedge press plate has two bolt holes (82) and the inner surface is in close contact with the upper surface of the wedge (61a), thereby preventing external separation of the wedge (61a) due to ground vibration and continuously maintaining the tensile force of the plurality of tension members (50). It has the additional feature of (80).

After the permanent anchor rear side fixing step (150), a coupler (62) screwed to the outer periphery of the re-tensioning fixing head (61) is installed, and a re-tensioning device (63) is installed on the upper surface of the acupressure plate (60), A tension cylinder 64 is installed in the re-tension machine 63, the re-tension head 61 is tensioned to the designed anchor force by the tension cylinder 64, and in that state, the coupler 62 is fixed for re-tensioning. After rotating the head 61 around the outer periphery and bringing it into close contact with the acupressure plate 60, the tension cylinder 64 and the re-tensioner 63 are sequentially removed, and a protective cap 65 is installed on the upper surface of the coupler 62. It has the feature of further including a permanent anchor re-tensioning step (160).

In this way, in the present invention, an external anchor body fixing band is formed in which the acupressure-type external anchor body is extended and fixed with an external anchor body fixing pin, and the externally exposed wire is pulled to remove the external anchor body fixing pin from the external anchor body fixing band. By expanding the pressure-type external anchor body in the ground, the structure is relatively simple, the construction period is shortened, and the construction method is simpler, greatly improving construction work efficiency. Equipped with PE corrugated pipes, multiple grouts are injected. The durability and groundwater inflow prevention performance are greatly improved by double protection of the tension members, and by inserting spacers with the same arrangement spacing as the arrangement of the tension members of the fixation head for re-tensioning before grout curing after internal grouting, multiple tension members can be used when introducing tension material anchor force. It fundamentally prevents damage to the waterproof layer and grout, and is equipped with a fixing head for re-tensioning, so that in the event of a defect such as loss of remaining design anchor force, the lost design anchor force can be conveniently re-tensioned precisely and quickly. It is excellent and provides an acupressure plate, which is a circular plate, to expand and disperse the stress concentration area to fundamentally prevent the occurrence of linear cracks due to stress concentration. A wedge press plate is provided to prevent the wedge from breaking away due to ground vibration, improving earthquake resistance. There is an effect that can be further improved.

The present invention is not limited to the specific preferred embodiments described above, and various modifications can be made by anyone skilled in the art without departing from the gist of the invention as claimed in the claims. Of course, such changes are within the scope of the claims.

1 is a flowchart of the construction method of an improved expandable acupressure type permanent anchor according to an embodiment of the present invention;
Figure 2 is a cross-sectional view in use showing the drilling step of the construction method of the improved expandable acupressure type permanent anchor, which is an embodiment of the present invention;
Figure 3 is a cross-sectional view showing the permanent anchor insertion step in the construction method of the improved expandable acupressure type permanent anchor, which is an embodiment of the present invention;
Figure 4 is a cross-sectional view showing the underground expansion and fixing step of the permanent anchor in the construction method of the improved expansion-type acupressure-type permanent anchor, which is an embodiment of the present invention.
Figure 5 is a cross-sectional view showing the front side anchoring stage of the permanent anchor in the construction method of the improved expandable acupressure type permanent anchor, which is an embodiment of the present invention;
Figure 6 is a cross-sectional view showing the installation stage of the tension member arrangement spacer in the construction method of the improved expandable acupressure type permanent anchor, which is an embodiment of the present invention;
Figure 7 is a cross-sectional view showing the rear fixing stage of the permanent anchor in the construction method of the improved expandable acupressure type permanent anchor, which is an embodiment of the present invention;
Figure 8 is a cross-sectional view showing the permanent anchor retensioning step in the construction method of the improved expandable acupressure type permanent anchor, which is an embodiment of the present invention;
Figure 9 is an enlarged cross-sectional view showing the construction of the wedge press plate of the improved expansion type acupressure type permanent anchor construction method according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with the accompanying drawings.

Hereinafter, with reference to the attached drawings, embodiments of the present invention will be described in detail so that those skilled in the art can easily implement the present invention. The present invention may be implemented in many different forms and is not limited to the embodiments described herein.

In order to clearly explain the present invention in the drawings, parts not related to the description are omitted, and identical or similar components are given the same reference numerals throughout the specification. The scope of rights of the present invention should not be construed as being limited by the embodiments described in the text, and since the embodiments can be modified in various ways and have various forms, the scope of rights of the present invention should not be construed as limited by the embodiments described in the text. It should be understood to include equivalents.

Throughout the specification of the present invention, when a part is said to be “connected” to another part, this includes not only the case where it is “directly connected” but also the case where it is “indirectly connected” through another member. Additionally, when a part "includes" a certain component, this means that it may further include other components, rather than excluding other components, unless specifically stated to the contrary.

The terms used in the present invention are terms defined in consideration of the functions in the present invention, and may vary depending on the intention or custom of the user or operator, so the definitions of these terms are defined in accordance with the technical details of the present invention. It should be interpreted as a concept.

Additionally, optional terms in the examples below are used to distinguish one component from another component, and the components are not limited by the terms. Hereinafter, in describing the present invention, detailed descriptions of related known technologies that may unnecessarily obscure the gist of the present invention will be omitted.

The improved construction method of the expanded acupressure-type permanent anchor of the present invention includes a drilling step (110), a permanent anchor insertion step (120), a permanent anchor underground expansion fixing step (130), and a permanent anchor front anchoring step (140). ), a permanent anchor rear fixing step (150), and a permanent anchor re-tensioning step (160).

The drilling step 110 is a step of drilling an excavation hole 1 in the ground.

The permanent anchor insertion step 120 includes an anchor fixing head 10, a protective cap 11 that is open toward one side, has one or more grease inlets or exhaust ports, and is coupled to the front side of the anchor fixing head 10. , an acupressure-type external anchor body (20), which has a cylindrical structure with a hollow portion open on both sides inside, is coupled to the rear side of the anchor fixing head (10) so that it can be opened, and is opened by its own weight and driven into the ground, and the acupressure-type external anchor body (20) The external anchor body fixing band 21 is ring-fixed to the front and rear sides of the external anchor body 20, respectively, and the external anchor body fixing band 21 is held by the self-weight of the acupressure-type external anchor body 20. The external anchor body fixing pin (22) is fixed to prevent it from loosening, and the other end is pulled out to the rear side, and one end is fixed to the rear side of the external anchor body fixing pin (22), so that when the rear side is pulled externally, the external anchor body is fixed to the rear side. A wire 30 is separated from the fixing band 21 and guides the acupressure-type external anchor body 20 to spread by its own weight and be driven into the ground, and a wire 30 is placed at a certain distance behind the acupressure-type external anchor body 20. A PE corrugated pipe (40) that seals the excavation hole (1) through grout filled inside the installed pipe body, and a tip portion that penetrates the PE corrugated pipe (40) and the acupressure-type external anchor body (20) to secure the anchor. It is fixed to the head 10, and the rear end is connected to a tensioner on the ground, and is installed at the entrance of the underground excavation hole 1, and one or more tension members 50 that pull out the anchor fixing head 10 through the tensioner. An acupressure plate 60, which is a circular plate through which the tension member 50 penetrates and the tensioner is supported, a fixation head 61 for re-tensioning which is supported on the acupressure plate 60 and the free end of the tension member 50 is fixed, and the PE corrugated pipe. Penetrating (40), the distal end is disposed at the rear of the acupressure-type external anchor body (20) and includes an injection pipe (13) of a double pipe structure for injecting the first grout (G1), and the wire (30) This is the step of inserting the acupressure-type permanent anchor (100), which opens and sinks into the ground when the acupressure-type external anchor body (20) is pulled out, into the drilling hole (1) drilled through the drilling step (110).

The upper surface of the fixing head 61 for re-tensioning has a tension member through-hole 81 through which a plurality of circular plate-shaped tension members 50 penetrate, and a plurality of tension members 50 are fastened and fixed to the upper surface of the fixing head 61 for re-tensioning by a fixing bolt 83. The wedge press plate has two bolt holes (82) and the inner surface is in close contact with the upper surface of the wedge (61a), thereby preventing external separation of the wedge (61a) due to ground vibration and continuously maintaining the tensile force of the plurality of tension members (50). It is desirable to further provide (80).

The permanent anchor underground expansion and fixing step 130 is performed by pulling out the wire 30 of the acupressure-type permanent anchor 100 after the permanent anchor insertion step 120 to form an acupressure-type external anchor of the acupressure-type permanent anchor 100. This is the step in which the sieve 20 is expanded and embedded in the ground.

In the permanent anchor front fixing step 140, the first grout (G1) is connected to the PE corrugated pipe 40 and the acupressure-type external anchor body 20 through the injection pipe 13 of the acupressure-type permanent anchor 100. This is the step of filling and settling the excavation hole (1) containing the expanded internal space of.

After the permanent anchor front fixing step 140, the arrangement spacing is a circular plate material having a plurality of spacing maintaining holes 71 having the same spacing as the array spacing of the plurality of tension members 50 inside the excavation hole 1. It is preferable to further include a tension member arrangement spacer installation step 142 of continuously maintaining the arrangement spacing between the plurality of tension members 50 by inserting material 70.

The permanent anchor rear fixing step (150) is a step of sealing the excavation hole (1) by filling the second grout (G2) behind the PE corrugated pipe (40) of the acupressure type permanent anchor (100).

In the permanent anchor re-tensioning step 160, after the permanent anchor rear side fixing step 150, a coupler 62 screwed to the outer periphery of the re-tensioning fixing head 61 is installed, and the acupressure plate 60 is installed. A re-tensioning machine (63) is installed on the upper surface, a tension cylinder (64) is installed on the re-tensioning machine (63), and the re-tensioning head (61) is tensioned to the designed anchor force by the tension cylinder (64). The coupler 62 is rotated around the outer periphery of the re-tensioning fixing head 61 to come into close contact with the acupressure plate 60, and then the tension cylinder 64 and the re-tensioner 63 are sequentially removed, and the coupler 62 ) This is the step of protecting by installing a protection cap (65) on the upper surface.

In this invention, the external anchor body fixing band 21 is formed by expanding and fixing the acupressure-type external anchor body 20 with the external anchor body fixing pin 22, and pulls the wire 30 exposed to the outside to form an external anchor body 20. By removing the external anchor body fixing pin (22) from the anchor body fixing band (21) and expanding the acupressure-type external anchor body (20) in the ground, the structure is relatively simple, the construction period is shortened, and the construction method is simpler. Work efficiency during construction is greatly improved, and as grouting is injected with the PE corrugated pipe (40), the durability and groundwater inflow prevention performance are greatly improved by doubly protecting multiple tension members (50), and after internal grouting and before grout curing. When the anchor force of the tension member 50 is introduced by inserting the array spacer 70 having the spacer 71 with the same array spacing as the array spacing of the tension members 50 of the fixing head 61 for re-tensioning, multiple tension members 50 are formed. It fundamentally prevents damage to the waterproof layer and grout, and is equipped with a fixing head (61) for re-tensioning in case of defects such as loss of remaining design anchor force through the coupler (62), re-tensioning machine (63), and tension cylinder (64). It is excellent in terms of management as it can conveniently re-tension the lost design anchor force precisely and quickly, and provides an acupressure plate (60), which is a circular plate, to expand and disperse the stress concentration area to prevent the occurrence of tension cracks due to stress concentration. This can be fundamentally prevented, and by providing the wedge pressing plate 80, which is a circular plate, the separation of the wedge 62a due to ground vibration can be prevented, thereby further improving earthquake resistance.

This embodiment and the drawings attached to this specification only clearly show a part of the technical idea included in the present invention, and those skilled in the art can easily infer within the scope of the technical idea included in the specification and drawings of the present invention. It is obvious that all possible modifications and specific embodiments are included within the scope of the technical idea of the present invention.

The scope of the present invention is indicated by the claims described later rather than the detailed description, and all changes or modified forms derived from the meaning and scope of the claims and the equivalent concept should be construed as being included in the scope of the present invention.

1: digging hole
10: anchor fixing head 11: protective cap
13 ; injection tube
20: Acupressure type external anchor body 21: External anchor body fixing band
22 ; External anchor body fixing pin
30: wire
40: PE corrugated pipe
50 ; Tension member
60: Acupressure plate 61: Fixing head for re-sealing
61a: wedge 62: coupler
63: Re-tensioning machine 64: Tensile cylinder
65: protective cap
70: arrangement spacer 71: gap maintenance hole
80: wedge press plate 81; Tension member through hole
82: Bolt hole 83: Fixing bolt
100: Acupressure type permanent anchor
110: Perforation step
120: Permanent anchor insertion step
130: Permanent anchor underground expansion fixing stage
140: Permanent anchor front fixing step
142: Tension member arrangement spacer installation step
150: Permanent anchor rear fixation step
160: Permanent anchor re-tensioning step

Claims (4)

A drilling step (110) of drilling an excavation hole (1) in the ground;
A step of inserting an acupressure-type permanent anchor (100) into the excavation hole (1) drilled through the drilling step (110). The acupressure-type permanent anchor (100) includes an anchor fixing head (10) and an anchor head (10) directed toward one side. A protective cap 11 is open and has one or more grease inlets or exhaust ports and is coupled to the front side of the anchor fixing head 10, and has a cylindrical structure with a hollow portion open on both sides inside, and is attached to the rear of the anchor fixing head 10. An acupressure-type external anchor body (20) coupled to the side so that it can be opened and spread by its own weight and driven into the ground, and an external anchor body ring-fixed to the front and rear sides of the outer surface of the acupressure-type external anchor body (20), respectively. A band (21) and an external anchor body fixing pin (22) for fixing the external anchor body fixing band (21) so that it is not loosened by the own weight of the acupressure-type external anchor body (20), and the other end is at the rear side. It is drawn out and one end is fixed to the rear side of the external anchor body fixing pin (22), so that when the rear side is pulled externally, it is separated from the external anchor body fixing band (21) and the acupressure-type external anchor body (20) is held by its own weight. A wire (30) that is opened and guided to be driven into the ground, a PE corrugated pipe (40), which is a pipe, and the tip of the wire penetrates the PE corrugated pipe (40) and the acupressure-type external anchor body (20) to the anchor fixing head (10). One or more tension members 50 are fixed and the rear end is connected to a tensioner on the ground and pulls the anchor fixing head 10 through the tensioner, and is installed at the entrance of the underground excavation hole 1 and the tension member 50 An acupressure plate 60, which is a plate on which a penetration and tensioner is supported, a fixing head 61 for re-tensioning supported on the acupressure plate 60, and a tip penetrating the PE corrugated pipe 40 and the acupressure-type external anchor body 20 ) is disposed at the rear and includes an injection pipe 13 of a double pipe structure for injecting the first grout (G1), and when the wire 30 is pulled, the acupressure-type external anchor body 20 opens and becomes embedded in the ground. Permanent anchor insertion step (120);
After the permanent anchor insertion step 120, the wire 30 of the acupressure-type permanent anchor 100 is pulled so that the acupressure-type external anchor body 20 of the acupressure-type permanent anchor 100 is expanded and embedded in the ground. A permanent anchor underground expansion fixing step (130);
After the permanent anchor underground expansion and fixing step (130), the front side of the permanent anchor is settled by filling the first grout (G1) into the excavation hole (1) through the injection pipe (13) of the acupressure type permanent anchor (100). Step 140;
After the permanent anchor front fixing step 140, a permanent anchor rear fixing step 150 for sealing the excavation hole 1 of the acupressure type permanent anchor 100; and
After the permanent anchor rear side fixing step (150), a disk-shaped coupler (62) screwed to the outer periphery of the re-tensioning fixing head (61) is installed, and a re-tensioning device (63) is installed on the upper surface of the acupressure plate (60). Installing the tension cylinder 64 in the re-tensioner 63, tensioning the re-tensioning head 61 to the designed anchor force by the tension cylinder 64, and in that state, the coupler 62 as described above. The fixing head for re-tensioning (61) is rotated around the outer periphery and brought into close contact with the acupressure plate (60), then the tensioning cylinder (64) and the re-tensioning machine (63) are sequentially removed, and a protective cap (65) is placed on the upper surface of the coupler (62). In the construction method of an improved expandable acupressure type permanent anchor consisting of a permanent anchor retensioning step (160) for installing,
The PE corrugated pipe 40 in the permanent anchor insertion step 120 is a pipe body installed at a certain distance behind the acupressure-type external anchor body 20, and is inserted into the excavation hole 1 through the grout filled inside. ) is sealed;
The acupressure plate 60 in the permanent anchor insertion step 120 is made of a circular plate body;
The fixing head 61 for re-tensioning in the permanent anchor insertion step 120 is fixed through a free end of the tension member 50, and has a threaded portion formed on the outer periphery;
The permanent anchor front fixing step (140) is performed by filling the first grout (G1) into the excavation hole (1) including the expanded internal space of the PE corrugated pipe (40) and the acupressure-type external anchor body (20). settle down;
The permanent anchor rear fixing step (150) is the construction of an improved expandable acupressure type permanent anchor, characterized in that the excavation hole (1) is sealed by filling the second grout (G2) behind the PE corrugated pipe (40). method. delete According to claim 1,
The upper surface of the fixing head 61 for re-tensioning has a tension member through-hole 81 through which a plurality of circular plate-shaped tension members 50 penetrate, and a plurality of tension members 50 are fastened and fixed to the upper surface of the fixing head 61 for re-tensioning by a fixing bolt 83. The wedge press plate has two bolt holes (82) and the inner surface is in close contact with the upper surface of the wedge (61a), thereby preventing external separation of the wedge (61a) due to ground vibration and continuously maintaining the tensile force of the plurality of tension members (50). A construction method of an improved expandable acupressure type permanent anchor further comprising (80). delete