KR20120068424A - A spacer for streand of the ground anchor and constructing structure of non remove type anchor using the same - Google Patents

Abstract

PURPOSE: A spacer for a ground anchor and an installation structure of a non-removal type anchor for a cable bolt using the same are provided to use a cable bolt used for ground reinforcement as a non-removal type anchor body. CONSTITUTION: A spacer(2) for a ground anchor comprises a center hole(4) and multiple isolation grooves(6). The center hole has an opening(8) connected to the outside. A tension member is inserted into the center hole through the opening. The isolation grooves are formed around the center hole at uniform intervals. Surrounding tension members and grouting hoses are inserted into the isolation grooves, and the isolation grooves support the inserted surrounding tension members and grouting hoses.

Description

Ground spacer body and non-removable cable bolt anchor installation structure using the spacer {A spacer for streand of the ground anchor and constructing structure of non remove type anchor using the same}

The present invention relates to a spacer for maintaining the spacing of the tension members constituting the ground anchor, and more particularly, installation errors such as missing or broken spacers that must be installed at uniform intervals in the tension member of the removable or non-removable anchor body. In case of occurrence, it is possible to insert the spacer in the missing position or replace only the damaged spacer easily without removing and reinstalling the entire spacer, and the spacer for the ground anchor body and the non-removable cable bolt anchor installation structure using the spacer It is about.

In general, the ground anchoring method is a method of supporting earth pressure by applying a tensile force after perforating the retaining wall instead of the brace to fix the civil engineering or building structure on the ground, filling it with a tensile material and grout, and supporting the earth pressure. It is applied to permanent anchor earth wall, transmission tower foundation, dam reinforcement buoyancy anchor of underground structure, slope reinforcement, etc.

The ground anchor body used in the ground anchoring method is a structure from the excessive stress, deformation, displacement, etc. occurring in the ground by fixing a high-strength tension member, such as PC strands, both on the construction and inside the ground at the civil engineering site and applying a prestress. Stabilize. The anchor body used in the ground anchoring method can be classified into a tension anchor, a compression anchor, and a load distribution anchor that distributes loads in the tension anchor and the compression anchor according to the support method of the anchoring ground. Each of the classified anchor bodies exerts a tensile force to secure the main surface friction of the grout by combining a plurality of single tension (strand).

The anchor body is provided with a spacer at regular intervals to maintain the spacing of the single tension members. In addition to maintaining the spacing of the tension member, the spacer allows the anchor body to be positioned in the center of the drilling hole, and the grout is evenly injected between the tension members so that the coating thickness of the grout is uniform to increase the compressive strength of the grout. Also do.

As shown in FIG. 1, the conventional spacer 100 includes a central hole 102 for sandwiching each tension member to maintain the center, and a tension member and a peripheral tension member fitted to the center hole while supporting the peripheral tension member and the grouting hose. It consists of a structure including a plurality of isolation grooves 104 formed at equal angles on the outer circumferential surface of the central hole in order to maintain a constant interval between them.

FIG. 2 is a cross-sectional view showing an example in which the spacer having the above-described structure is installed in the composite ground anchor, and FIG.

As shown in the drawing, the composite ground anchor body has a structure that secures a large anchoring force as compared to a tension anchor or a compression anchor constructed by arranging in a conventional single row and as a first to fourth tension member arranged in a stepped step ( The spacer 100 is provided in each of a, b, c, and d to maintain the anchor spacing. In this case, each of the first to fourth tension members a, b, c, and d passes through the central hole 102 of the spacer 100, and penetrates through the central hole 102 of the spacer 100. A tension member is inserted into an isolation groove of another spacer to maintain a gap between the first to fourth tension members.

3 is a cross-sectional view taken along line AA of FIG. 2, in which a tension member for maintaining the center is installed in the central hole 102 of the spacer 100, and a peripheral tension member and a peripheral tension member in the isolation groove 104 of the spacer 100. The grout hose 106 is shown fitted.

Reference numeral 108 denotes a grout and 110 denotes a drilled hole.

As described above, when the anchor body is installed in the perforation hole in the field, the spacer is inserted at regular intervals for each tension member of the anchor body, and the spacer is missing in the portion to be installed in this process. do. In addition, even in the process of manufacturing a bundle of anchor body in the factory is often frequently shipped in the state of supporting only the isolation groove in the state in which the work to fit the tension member in the center hole 102 of the spacer 100 is missing.

Referring to the operation of fitting the spacer 100 is as follows.

First, the first tension member penetrates through the central hole 102 of the spacer 100, and all the spacers are positioned at a predetermined interval (typically 1 m apart), and then the center hole of the spacer 100 is also placed on the second tension member. While penetrating 102, the first tension member is inserted into the insulating groove 104 of the spacer. In the manner described above, the third and fourth tension members are inserted into the central hole 102 and the isolation groove 104 of the spacer, respectively.

Each of the first to fourth tension members are inserted into the central hole 102 of the spacer 100 at regular intervals, and the first to fourth tension members fitted to the central hole 102 are inserted into the isolation grooves of the other spacers. In the course of work, it is often the case that the tension member is inserted into the drilling hole in the state in which the tension member is inserted only in the isolation groove 104 with the missing work to fit each tension member in the center hole 102 of the spacer 100.

In addition, when the spacer is inserted in the form of the bundle is inserted in the form of the field, or in the process of inserting the anchor bundle into the drilling hole often occurs when the spacer is broken.

As such, if the spacer to be positioned at a predetermined interval is missing from the tension member of each anchor body or the spacer is damaged by an external impact, it is difficult to maintain a constant interval for each tension member, and there is no gap to be secured by each tension member. It is inserted into the drilling hole. This makes it difficult for the anchor body to be located in the center of the drilling hole. In addition, since the tension members are in close contact with each other, and the portion where the spacer is located is located close to each other, and the grout coating thickness is not kept constant without securing the spacing of the tension members during the grouting, the coating thickness of the grout is not kept constant so that the strength decreases. There is a problem that can be caused.

For the reason described above, in the case where the spacer to be installed at a predetermined interval is conventionally missing in each anchor body, the peripheral tension members installed in the isolation groove of the spacer are separated from the isolation groove and the spacer installed in the tension member is separated one by one from the missing position. After inserting the missing spacers after inserting the work, it is necessary to insert the removed spacers again, which is a lot of troublesome work, and it involves a problem that the work takes a long time to reinstall the spacers.

Accordingly, the present invention has been proposed to solve the above problems, by forming an opening in communication with the outside in the central hole of the spacer, even if the spacer is fitted at a predetermined interval to each tension member is missing or damaged, the existing spacer installed. It is an object of the present invention to provide a spacer for a ground anchor body in which a spacer can be installed in a missing position without being separated from the tension member, and the damaged spacer can be easily replaced.

In addition, the present invention is a non-removable cable bolt anchor installation structure using the spacer material that can be used as a non-removable anchor body using a non-removable anchor body in the structure that was difficult to apply the existing cable bolt to the anchor body. There is another purpose in providing it.

In order to achieve the above object, the present invention is formed between the center hole for inserting each tension member to maintain the center, between the tension member and the peripheral tension member formed on the outer peripheral surface of the center hole so as to sandwich the peripheral tension member and the grouting hose In the spacer including an isolation groove for maintaining a constant gap, the center hole is formed with an opening to communicate with the outside, the ground anchor body characterized in that the tension member is inserted from the outside to the central hole side through the opening. Provide spacers.

Here, the cross section of the opening communicating with the central hole is characterized in that formed in a U-shape. As another example, the opening part may be formed such that its inner circumferential surface is bent so that the tension member can be easily inserted into the center hole while sliding.

In addition, the present invention is formed between the center hole formed in the opening portion so as to communicate with the outside to the center to hold each tension member, and the tension member and peripheral tension member formed on the outer peripheral surface of the center hole so as to sandwich the peripheral tension member and the grouting hose Provides a non-removable cable bolt anchor installation structure using a spacer for the ground anchor body, characterized in that the spacer including the insulating groove for maintaining a constant gap for the spacing of the cable bolt applied as a non-removable anchoring anchor. .

According to the characteristics of the present invention as described above, by forming an opening portion in communication with the outside in the central hole of the spacer member, even if the spacer member fitted to the tension member of each of the plurality of anchor bodies at regular intervals is partially missing or damaged, The spacer can be installed in the missing position without removing the installed spacer from the tension member, and the damaged spacer can be replaced, thereby improving the efficiency of installation of the spacer.

In addition, the present invention, since the opening is formed in the central hole of the spacer, it is possible to utilize the cable bolt used for the ground reinforcement as a non-removable anchor body, in this case there is an effect that can increase the adhesion strength in the anchorage.

1 is a perspective view showing the configuration of a spacer according to the prior art,
2 is a cross-sectional view showing an example in which the spacer of the above structure is installed in the composite ground anchor;
3 is a cross-sectional view taken along line AA of FIG.
Figure 4 is a perspective view showing an embodiment configuration of the spacer for the ground anchor body according to the present invention,
5 is a cross-sectional view of the construction of the anchor body to which the spacer of the present invention is applied;
Figure 6 is a modified example of the spacer for the ground anchor body according to the present invention,
Figure 7 is a construction sectional view of the anchor body to which the spacer of Figure 6 is applied,
8 is an exemplary view showing a type of a general cable bolt,
Figure 9 is a schematic diagram for use as a non-removable anchor body by applying the spacer of the present invention to the cable bolt.

The above-mentioned objects, features and advantages will become more apparent from the following detailed description in conjunction with the accompanying drawings. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The ground anchor body spacer according to the present invention and the non-removable cable bolt anchor installation structure using the spacer member are implemented to be easily supplemented or replaced even when the spacers fitted into the tension members of the anchor body are partially missing or damaged.

Figure 4 is a perspective view showing an embodiment configuration of the spacer for the ground anchor body according to the present invention, Figure 5 is a construction cross-sectional view of the anchor body to which the spacer of the present invention is applied.

As shown in the figure, the spacer 2 of the present invention is formed with a central hole (4) for sandwiching the tension member 20 of the anchor body in the center portion to maintain the center, the outer peripheral surface of the central hole (4) There is a plurality of isolating grooves 6 are formed at an isometric to maintain a constant distance between the tension member 20 and the peripheral tension member 20 'fitted in the central hole (4).

The central hole 4 is formed with an open portion 8 so as to communicate with the outside, the tension member 20 can be inserted into the central hole 4 from the outside through the open portion (8). The cross section of the opening 8 communicating with the central hole 4 is substantially U-shaped.

Therefore, when the spacer 2 is continuously installed at regular intervals in the tension member 20, even if some spacers are missing, the spacers may be removed from the outside through the opening 8 of the central hole 4 from the outside. 2) can be embedded.

Between the isolation grooves 6, a slit 7 is formed to impart elasticity of the isolation groove 6 so that the tension member 20 is easily inserted into the isolation groove 6.

In FIG. 5, reference numeral 22 denotes a grout hose, 24 grout, and 26 a drill hole.

Figure 6 is a modification of the ground anchor body spacer according to the present invention, Figure 7 is a construction cross-sectional view of the anchor body to which the spacer of Figure 6 is applied. In the present modified example, the same reference numerals are given to the same components as those shown in FIG.

As shown in the drawing, when the inner peripheral surface of the front end of the opening portion 8 of the central hole 4 forms a curved curved portion 10, the tension member 20 is opened when the spacer 2 is inserted into the tension member. It is to be accommodated easily while sliding toward the central hole (4) side.

As described above, the spacer of the present invention can easily fit a new spacer without detaching the spacer installed in the tension member 20 even if some spacers are missing when continuously inserted into each of the tension members of the anchor body at a predetermined interval. It can be.

In addition, when the anchor body bundle is inserted into the drilling hole in the process of transporting the anchor body bundle into which the spacer is inserted, even if the spacer is damaged by external force, only the damaged spacer can be easily replaced.

On the other hand, the spacer of the present invention can be applied to the cable bolt as a ground reinforcing member having a function similar to the tension member forming each anchor body, through which the cable bolt can be used as an anchor body.

The cable bolt is a stranded strand stranded by twisting a few strands of steel wire, and is a reinforcement of grout grouted into a borehole using a common strand of seven strands. Can be installed up to ~ 40m.

The cable bolts are installed at regular intervals for reinforcement or support of walls, ceilings, etc. in underground space structures or slopes, and in recent years, there are no obstacles to adjacent ground such as ground or cut slopes. Research is also underway to use as a non-removable anchor body to support the earth pressure.

As shown in FIG. 8, the cable bolt is proposed in various forms, such as a birdcaged strand, a bulbous strand, a furruled strand, and a nutcised strand. It is. The cable bolts can be installed in a narrow space in the long length of the cable bolts, as a bundle of a plurality of cable bolts are implemented in the borehole to achieve the effect of obtaining a variety of tensile strength required by the tunnel and underground space Used in a variety of ways.

However, since the conventional cable bolt has a structure in which twisted steel wire portions are expanded at certain positions of the steel wire, it is difficult to use the non-removable anchor body because it cannot fit the conventional spacer shown in FIG. This followed. In other words, in the case of the non-removable anchor body, it is important to increase the adhesive strength with the grout in the anchorage. When the cable bolt is inserted into the drilled hole in the form of a bundle, the non-removable anchor body is not applied to the actual non-removable anchor body because it is not maintained. I wasn't.

On the other hand, since the spacer of the present invention has an opening formed in the central hole, as shown in Figures 9a to 9c it can be manufactured in the form of a bundle by inserting the cable bolt 12 can be utilized as a non-removable anchor body, In this case, the adhesion strength at the anchorage can be significantly increased compared to the existing non-removable anchor body. At this time, when applying the spacer of the present invention to the non-removable anchor body using a cable bolt, it is possible to give the optimum adhesion strength for the ground properties by varying the length of the anchorage.

The structure shown in Figs. 9A to 9C shows a non-removable load-distributing friction tensile anchor structure in which the bulb-type cable bolt 12 is applied to the anchoring anchor 14.

Referring to each of the drawings in more detail, Figure 9a is a construction example of the same length of the anchor anchor 14 in the anchorage, Figure 9b and 9c is a construction example of a stepped arrangement of the anchor anchor 14 9B shows a structure in which the fixing anchors 14 have the same length, and FIG. 9C shows a structure in which the fixing anchors 14 have different lengths.

Reference numeral 16 denotes a heat shrink tube.

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

2: spacer 4: central hole
6: containment groove 8: opening
10: bend 12: cable bolt
14: anchoring anchor

Claims (5)

A central hole for inserting each tension member to maintain the center, and an isolation groove formed on an outer circumferential surface of the center hole so as to sandwich the peripheral tension member and the grouting hose, and to maintain a constant gap between the tension member inserted in the center hole and the peripheral tension members. In the spacer to say,
The center hole has an opening portion formed to communicate with the outside, the ground anchor body spacer, characterized in that the tension member is inserted from the outside to the central hole side through the opening portion.
The method of claim 1,
The isolation groove is characterized in that the spacer is formed with a plurality of equiangular centered around the central hole.
The method according to claim 1 or 2,
The opening has a gap member, characterized in that the inner circumferential surface thereof is formed to be bent so that it can be inserted into the central hole side while sliding the tension member in the central hole.
The method according to claim 1 or 2,
Spacer, characterized in that the cross section of the opening portion communicating with the central hole is formed in a U-shape.
To maintain a constant distance between the tension member and the peripheral tension member is formed on the outer peripheral surface of the center hole formed in the center hole formed to open the communication portion to communicate with the outside to the center holding each tension member, the peripheral tension member and the grouting hose A non-removable cable bolt anchor installation structure using a spacer for a ground anchor body, characterized in that a cable bolt can be used for a non-removable anchoring anchor by using a spacer including an isolation groove for maintaining a gap of a cable bolt.

Images