KR101219449B1 - Rockbolt and connector for the same, timbering method using the same - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of civil engineering, and relates to a rock bolt and a connector thereof, and a support method using the same. In particular, the present invention is installed in the perforation (1) formed in the ground (2), the hollow body 110 is inflated by the expansion material 112 is injected into the hollow 112 is in close contact with the ground around the perforation (1) Body portion 100 comprising a; It is coupled to the main body 100 and detachable, the expansion material supply unit for supplying the expansion material 112 to the hollow 112 of the hollow body 110 and the grout material 200A to be injected into the perforation (1). A connector 50 to which a grout supply part for supplying the grout material 200A is connected to be connected to the grout material; The hollow body 110 is installed in the perforation 1 in a state in which a portion is pressed in a concave shape along its circumferential direction so that the pressed portion can be unfolded by the expander 112 and the main body portion ( Ring-shaped ring portion 162 in close contact with the front end surface of the 100, and protruding portion 164 protruding from the ring-shaped portion 162 to fit into the concave-shaped portion of the outer side of the hollow body 110 Sealing 160; The present invention provides a lock bolt and a connector thereof, and a support method using the same.

Description

ROCKBOLT AND CONNECTOR FOR THE SAME, TIMBERING METHOD USING THE SAME}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to the field of civil engineering, and relates to a rock bolt and a connector thereof, and a support method using the same.

Rock bolt is a support used for ground (2), such as rock, and supports the tunnel, and is used by inserting it into a hole drilled in the ground (2), such as rock.

There are several structures of rock bolts, one of which is an expandable structure.

As shown in FIG. 1, the expandable rock bolt 10 is installed in the perforated state with a portion of the circumference of the hollow body 12 pressed down (see 'R1' in FIG. 1), and then the hollow body 12 By supplying a high pressure water to the hollow 12A of the hollow) to expand the hollow body 12, the expanded hollow body 12 is to be adhered to the ground (2), such as a rock bed to settle (FIG. 1). See "R2").

Here, the tip cap 14 and the end cap 16 are fitted to the line and the end of the hollow body 12, respectively, and are fixed by welding.

However, this support method has been pointed out that the support force is limited only by the friction between the hollow body 12 and the ground 2, the main surface friction force and the pressure stress.

The present invention has been made to solve the above problems, and an object thereof is to provide a lock bolt and its connector, and a support method using the same, which can increase the support force.

In order to solve the above problems, the present invention is installed in the perforation (1) formed in the ground (2), the hollow is inflated by the expansion material 112 is injected into the hollow 112 is in close contact with the ground around the perforation (1) Body portion 100 including the body 110; It is coupled to the main body 100 and detachable, the expansion material supply unit for supplying the expansion material 112 to the hollow 112 of the hollow body 110 and the grout material 200A to be injected into the perforation (1). A connector 50 to which a grout supply part for supplying the grout material 200A is connected to be connected to the grout material; The hollow body 110 is installed in the perforation 1 in a state in which a portion is pressed in a concave shape along its circumferential direction so that the pressed portion can be unfolded by the expander 112 and the main body portion ( Ring-shaped ring portion 162 in close contact with the front end surface of the 100, and protruding portion 164 protruding from the ring-shaped portion 162 to fit into the concave-shaped portion of the outer side of the hollow body 110 It presents a lock bolt, characterized in that it comprises a sealing 160 to.

The connector 50 has a connector cap 60 is coupled to be detachably inserted in the front end portion of the perforation (1) of the main body portion 100; It may include; a connector connecting portion 70 is inserted between the connector cap 60 and the main body portion 100 is connected to the expansion material supply portion and the grout supply portion.

The connector cap 60 is formed to surround the front end portion of the main body portion 100 and the ring-shaped side portion 62 is coupled to the main body portion 100 so as to be detachable; The front end surface portion 64 is formed integrally with the side surface portion 62 to cover the front end surface side end of the main body portion 100 of the side surface portion 62, and the through-holes are formed to connect the expansion material supply portion and the grout supply portion. It can include;

The connector connecting portion 70 is inserted between the front end surface of the main body portion 100 and the connector cap 60, the expansion material 112, the hole 72A, the grout so that the expansion material supply portion, the grout supply portion can be connected, respectively It may include a plate 72 in which the hole 72B is formed.

The connector connecting portion 70 is integrally connected to the expansion material 112 hole 72A of the plate 72, the grout hole 72B, the expansion material connector 74 is coupled to the expansion material supply portion, the grout supply portion, It may further comprise a grout connector 76.

The inflator connecting pipe 74 and the grout connecting pipe 76 may be made of hard, respectively, and may be combined with the soft hose 500 of the expander supply part and the soft hose 210 of the grout supply part.

The expander connecting pipe (74) is formed to protrude from the plate (72) toward the expanding material supply side; The grout connector 76 is integrally formed with the tip portion 76A protruding from the plate 72 toward the grout supply portion and the tip portion 76A, and is directed toward the main body portion 100 from the plate 72. It may include a protruding end 76B,

The connector cap 60 may be coupled to the main body 100 and detachable by screwing.

The expander 112 may be high pressure water or grout material.

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The hollow body 110 is installed in the perforation (1) in a state in which a portion is pressed in a concave shape along the circumferential direction so that the pressed portion can be unfolded by the expander (112); The grout material 200A, which is installed along the perforation 1 in a state of being fitted in the recessed form of the outer side of the hollow body 110, is supplied from the grout supply part connected to the connector 50, and the perforation ( It may further include a grout injection hose 210 to guide the injection to 1).

Along with the main body 100 may be installed in the perforation (1) may further include a perforated covering portion 300 of the elastic material for covering the inlet to the perforation (1).

The perforated cover 300 is a ring-shaped ring-shaped portion 302 to be fitted to the outside of the hollow body 110, and the ring-shaped portion to be inserted into a portion of the recessed shape of the hollow body 110 It is made of an elastic material so as to include a protrusion 304 protruding from the 302, the through-hole 300A through which the grout injection portion 200 is installed is formed in the protrusion 304 of the punched open portion 300. Can be.

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In addition, the present invention is a support method using the above-described lock bolt, after coupling the connector 50 to the main body portion 100, the ground body portion 100 is not filled with the expansion material 112 is grounded Rock bolt installation step for installing in the perforation (1) formed in (2); A grout injection step of injecting grout material (200A) into the perforation (1) from a grout supply portion connected to the connector (50); The inflator 112 is supplied to the hollow 112 of the hollow body 110 from the expander supply unit connected to the connector 50, so that the hollow body 110 is drilled into which the grout material 200A is injected. Presents a method using a rock bolt, characterized in that it comprises a; expand the rock bolt to expand in close contact with the ground (2).

After the expansion of the lock bolt, a finishing step of separating the connector 50 from the main body portion 100 may be further included.

The present invention expands the hollow body of the rock bolt, and in addition, by injecting grout material into the perforations to form a solid body, it is possible to increase the holding force. In particular, the expansion material supply portion and the grout supply portion can be easily coupled to and separated from the main body portion by the connector.

1 is an application example of a lock bolt according to the prior art.
2 or less relates to the rock bolt according to the present invention,
Figure 2a is a rock bolt installation step and grout injection step installation example.
FIG. 2B is a cross sectional view along line AA of FIG. 2A;
Figure 3a is a rock bolt expansion step installation example.
3B is a cross sectional view along line BB of FIG. 3A;
4 is a perspective view of a rock bolt.
5 is an exploded perspective view of Fig.
6 is a cross-sectional view taken along line CC of FIG. 4.
7 is a cross-sectional view taken along the line DD of FIG. 4.
8 is a cross-sectional view taken along line EE of FIG. 4.
9 is a cross-sectional view taken along line FF of FIG. 4.
10 is a cross-sectional view to which another embodiment of a cap for termination is applied.
11 is a cross-sectional view taken along the line GG of FIG. 10.
Figure 12 is a perspective view of another embodiment of the perforated cover.

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

As shown in Figures 2 and 3, in the support method using a lock bolt according to an embodiment of the present invention, the ground portion 2 of the main body portion 100 of the rock bolt in the state that the expansion material 112 is not filled (2) A rock bolt installation step (refer to FIGS. 2A and 2B) installed in the perforation 1 formed therein; A grout injection step of filling the grout material 200A in the perforation 1 through the grout injection portion 200 of the rock bolt installed in the perforation 1; By filling the expansion material 112 in the hollow 112 of the hollow body 110 of the rock bolt installed in the perforation (1), the hollow body 110 of the rock bolt is perforated (1) filled with the grout material (200A) And expands in a rock bolt expansion step (see FIGS. 3A and 3B) to be in close contact with the ground 2.

That is, as the hollow body 110 is inflated by the expander 112 and closely adhered to the ground 2, the holding force may be formed by the main surface friction force and the acupressure stress caused by the hollow body 110. In addition, the grout material 200A is injected into the perforation 1 and penetrates into the ground 2 around the perforation 1 to form a solid body. The perforated body 1 is formed by the solidified body by the grout material 200A. Not only the surrounding ground 2 may be reinforced, but the binding force between the hollow body 110 and the ground 2 may be increased.

Therefore, by the support method using the lock bolt according to the present invention can be secured significantly excellent support, accordingly, the support method using the lock bolt in the soft ground (2) can be easily carried out.

In particular, since the ground bolt 2 can be expanded after the ground 2 around the perforation 1 is reinforced by the grout material 200A, the following effects can be further obtained.

First, even in soft ground (2) there is no fear of collapse in the expansion pressure of the rock bolt.

Second, since the rock bolt can expand and pressurize the grout material 200A injected into the punch 1 toward the ground 2 around the punch 1, the grout material 200A around the punch 1 Not only can the solidified solid body be formed, but the pressure stress between the rock bolt and the ground 2 can be further increased.

Third, the grout material 200A injected into the perforation 1 is interposed evenly and sufficiently evenly between the ground 2 around the perforation 1 and the rock bolts, thereby achieving a uniform and solid solidified body.

In the support method using the rock bolt according to the present invention, the perforation 1 is directed downward or horizontally to prevent the grout material 200A injected into the perforation 1 from falling freely by gravity and flowing out. It may be desirable to be formed by excavation.

Of course, if a method for preventing the outflow of the grout material 200A injected into the perforation 1 as described below, for example, when the perforated opening 300 is provided, the formation of the perforation 1 is not limited as described above. You don't have to.

Meanwhile, the rock bolt expansion step may be started after completion of the grout injection step or may be started in the middle of the grout injection step.

Hereinafter, the configuration of the rock bolt according to the present invention will be described in detail.

2 to 9 are views of the lock bolt 100 according to an embodiment of the present invention.

Rock bolt according to an embodiment of the present invention is installed in the perforation (1) formed in the ground (2), is expanded by the expansion material 112 is injected into the hollow 112 is in close contact with the ground around the perforation (1) A main body part 100 including a hollow body 110; The grout is coupled to the main body 100 and detachably, and the grout to inject the grout material 200A into the expansion material supply unit and the perforation 1 for supplying the expansion material 112 to the hollow 112 of the hollow body 110. It may include; connector 50 is connected to the grout supply for supplying the ash (200A).

First, the body portion 100 may be made as follows.

The hollow body 110 may be pressed in various shapes, for example, it may be pressed to have a substantially 'C-shaped' cross-sectional structure as shown. The hollow body 110 is formed by bending a flat plate to form a tube or pipe, and then one side of its outer circumferential surface inside by a folding process or a rolling process. It can be produced by pressing.

Such a hollow body 110 may be formed of a variety of materials, in particular, the rigidity for support, but may be made of a steel pipe so as to be expandable by the expander 112 as described above.

The expansion material 112 of the hollow body 110 may be used in a variety of media such as high pressure water, in particular, the grout material 200A is used to prevent corrosion of the hollow body 110 by the moisture and grout material (200A) The effect of increasing the holding force according to the acupressure stress improvement of the hollow body 110 can be further created. Here, the grout material as the expander 112 may be the same as or different from the grout material 200A injected into the perforation 1 through the grout injection portion 200.

On the other hand, the main body 100 according to the present invention, the front end of the hollow body 110 in the pressed state, respectively fitted to the outer end, the front end of the hollow body 110 even after the inflating material 112 is injected, The end cap 120 and the end cap 130 for maintaining the end in the pressed state may be further included.

The tip cap 120 may be formed in a hollow structure having a hollow 122 so that the expansion material 112 may be injected into the hollow 112 of the hollow body 110. In this case, as the inflator 112 is injected along the hollow 112 of the hollow body 110, not along the side of the hollow body 110, that is, along the longitudinal direction (arrow F1), the hollow body ( 110, the hollow body 110 may be inflated by the expander 112 in a short time.

In addition, when the main body portion 100 of the present invention is installed to be inclined upward on the ground 2 and the inflating material 112 is water of high pressure, after the expansion of the hollow body 110 through the tip of the hollow body 110. Since it can be naturally drained to the outside, it is completely drained, thereby preventing corrosion by moisture.

The hollow 122 of the tip cap 120 may have any shape, but may be easily fitted into the hollow body 110 in a pressed state and to facilitate the manufacture of the tip cap 120, a circular cross-sectional structure It can be formed as.

The tip cap 120 has a hollow cross-sectional size of the tip cap 120 may be constant throughout the longitudinal direction of the tip cap 120, but as shown in the hollow of the tip cap 120 It may be more preferable that the cross-sectional size of the end portion of the 122 is formed to gradually expand as it moves away from the tip surface of the tip cap 120. That is, in the latter case, the tip cap 120 includes a main body portion 124 having a constant cross-sectional size of the hollow 122 of the tip cap 120 having a predetermined diameter, and the hollow 122 of the tip cap 120. The cross-sectional size of the expansion portion 126 may be made. As such, the hollow body 110 which is integrally bound to the grout injection part 120 may be easily fitted into the hollow 122 of the tip cap 120. In addition, when the hollow body 110 is inflated by the expander 112, the cross section of the hollow body 110 at the boundary between the front end cap 120 coupling portion of the hollow body 110 and the remaining portion Damage to the hollow body 110 may be prevented by changing gradually rather than rapidly.

The tip cap 120 as described above may be made of various materials, but the hollow body 110 may be sufficiently secured with the hollow body 110 and welded with the hollow body 110 (W). ) Can be made of steel pipe.

Termination cap 130 is fitted to the outside of the end of the hollow body 110 in the pressed state, various shapes such as a cone (conlet) or a bullet (bullet) or dome (dome) having a reduced cross-sectional appearance It may be formed to be, and may be made of a steel material together with the hollow body 110 to enable welding (W) and the like with the hollow body (110).

Termination cap 130 may be formed to cover the hollow 112 of the hollow body (110). Or, as shown in Figure 10, the hollow cap is the tip and the end when the end of the hollow 112 of the hollow body 110 is covered by a stopper type elastic member 150 as described below It may be formed into a hollow having a hollow 132 so that each can be opened.

In addition, the main body portion 100 according to the present invention is connected to the grout supply portion through the connector 50, the grout injection hose for guiding the grout material 200A supplied from the grout supply portion to be injected into the perforation 1 ( 210 may be further included.

The grout injection hose 210 may be more preferably made of soft, such as rubber.

That is, since the hollow body 110 is made of hard steel or the like as described above, the deformation of the hollow body 110 such as opening the concave portion 114 is quite difficult, and the grout injection hose 210 is soft. The grout injection hose 210 may be easily fitted into the concave portion 114 of the hollow body 110. In addition, the grout injection hose 210 is fitted between the hollow body 110 and the ground 2 when the hollow body 110 is expanded, the hollow body (rather than being recovered after the injection of the grout material 200A). Buried in the ground (2) together with 110 may be easier than construction. Therefore, when the grout injection hose 210 is made soft, the grout injection hose 210 is flattened between the hollow body 110 and the ground 2 by the expansion pressure when the hollow body 110 is inflated. The hollow body 110 may be compressed so that the hollow body 110 may be fully unfolded in response to the perforation 1 without being interfered by the body binding portion 214 of the grout injection hose 210. Can

The grout injection hose 210 is long along the perforation 1 so that the grout material 200A can be injected and filled into the perforation 1 from the inner end of the perforation 1 toward the inlet of the perforation 1. The injection port 210A may be formed so that the grout material 200A may be injected into the perforation 1 at its end portion. Therefore, the grout material 200A can be tightly filled from the center of the perforation 1 step by step.

In addition, the grout injection hose 210 as described above is coupled to the hollow body 110 to be fitted to a part of the concave shape of the outer side of the hollow body 110, that is, the concave portion 114, the hollow body ( 110 may be installed together with the perforation 1.

In this case, the grout injection hose 210 can be integrally bound to the hollow body 110 by simply fitting the grout injection hose 210 to the concave inlet 114 of the hollow body 110. Bonding of the grout injection hose 210 and the hollow body 110 can be easily made.

In addition, since the rigid hollow body 110 can guide the pipe of the grout injection hose 210, the soft grout injection hose 210 can be easily installed in a state in which the soft grout injection hose 210 is unfolded. Accordingly, the grout material 200A may be easily sprayed into the perforation 1 through the grout injection hose 210 without being blocked or blocked by the grout injection hose 210.

In addition, since the soft grout injection hose 210 may be protected by the rigid hollow body 110, damage and breakage of the grout injection hose 210 may be prevented.

In addition, even if the hollow body 110 is installed in the perforation 1 together with the grout injection hose 210, the circumference of the rock bolt is installed only in the perforation 1 without the grout injection hose 210. As may be the case, the body portion 100 can be easily installed in the perforations 1 without interference around the perforations 1.

The grout injection hose 210 may be fitted to the hollow 122 of the cap 120 for the tip together with the tip of the hollow body 110 in a state where the tip of the grout injection hose 210 is pressed.

In this case, the distal end of the grout injection hose 210 may be integrally bound to the distal end of the hollow body 110 by the distal end cap 120. That is, the tip cap 120 may serve as a binding member for integrally binding the grout injection portion 200 and the hollow body 110. Therefore, it is possible to take advantage of the fact that it is not necessary to add a separate binding member, the binding of the grout injection hose 210 and the hollow body can be easily made.

Next, the connector 50 may be made as follows.

The connector 50 may be more preferably made to be detachable from the main body 100 after the main body 100 is expanded in the perforation 1 and separated from the main body 100 to be recovered.

The connector 50 as described above is possible in a variety of configurations, in particular it may be more preferably made as follows.

That is, the connector 50 includes a connector cap 60 which is inserted to be detachable by inserting the front end portion of the perforation 1 of the main body portion 100; It may include a connector connecting portion 70 is inserted between the connector cap 60 and the main body portion 100 is connected to the expansion material supply for supplying the expansion material and the grout supply for supplying the grout material.

That is, even though the connector cap 60 and the connector connecting portion 70 are not structurally coupled to each other, the connector connecting portion 70 may be coupled to the main body portion 100 together with the connector cap 60. First, the connector connecting portion 70 ) Is positioned so that the coupling position with the main body 100 can be aligned, the connector cap 60 may be coupled with the main body 100.

Therefore, regardless of how the connector cap 60 and the main body 100 are coupled, it is possible to select and maintain a coupling position with the main body 100 of the connector connecting portion 70, and cover the cover with the connector cap 60. Since the coupling position alignment of the connector connecting portion 70 and the main body portion 100 can be made while visually confirming directly in the open state, the coupling of the connector 50 and the main body portion 100 can be easily performed. .

In addition, the connector cap 60 and the main body 100 may be coupled to each other in various ways without affecting the alignment position between the connector connecting portion 70 and the main body portion 100.

For example, the connector cap 60 corresponds to the thread 120A formed on the outer surface of the main body 100, that is, the tip cap 120, so that the connector cap 60 can be detachably coupled with the main body 100 by screwing. Thread 62A can be formed. Here, the connector cap 60 is detached to the body portion 100 while being rotated for the screwing, the connector cap 60 is freely rotatable with respect to the connector connecting portion 60, so that the connector cap 60 When detached, the connector connection part 60 does not rotate with respect to the main body part 100 together with the connector cap 60.

In addition, the connector cap 60 and the main body 100 can be detachably coupled in a one-touch manner using the restoring force of the spring. Here, since the winter method using the spring is a technology well known in various technical fields such as pipe joints, more detailed description will be omitted in order not to obscure the subject matter of the present invention.

The connector cap 60 is formed so as to surround the front end of the main body portion 100 and the ring-shaped side portion 62 is coupled to the main body portion 100 to be detachable; A front end surface portion 64 formed integrally with the side surface portion 62 so as to cover the front end surface side end of the main body portion 100 of the side surface portion 62, and having a through hole 64A formed therein so as to be connected to the expansion material supply portion and the grout supply portion; It may include.

In addition, the connector connecting portion 70 is inserted between the front end surface of the main body portion 100 and the connector cap 60, the expander hole 72A, the grout hole 72B is formed so that the expansion material supply portion, the grout supply portion can be connected Plate 72 may be included.

Plate 72 may be configured in a state that is not structurally integrally coupled with the connector cap 60, as shown, is integrally coupled with the connector cap 60, if necessary, with respect to the connector cap 60 Can be combined to be freely rotatable.

Plate 72 as described above may be made of a variety of materials, it may be made of steel for durability.

In addition, the connector connection portion 70 is integrally connected to the expander hole 72A and the grout hole 72B of the plate 72, so that the expander supply portion (that is, the hose 500 of the expander supply portion, the grout supply portion (ie, the grout supply portion) It may further include an expansion material connector 74, the grout connector 76 is coupled to the hose 510 of the.

Accordingly, the connector 50 can be easily coupled with the expander supply part and the grout supply part, and the main body part 100.

On the other hand, the expansion material connector 74 may be formed to protrude from the plate 72 toward the expansion material supply side. At this time, since the cross section of the hollow 112 of the hollow body 110 is considerably wider than the cross section of the expander connector 74, the expander connector 74 is the edge of the hollow 112 of the used body 110. It can be easily installed on the plate 72 so as to be located on the inner side, so that the expansion material 112 leaks even if the expansion material connecting tube 74 does not protrude so as to be inserted into the hollow 112 of the hollow body 110. It may not be supplied to the hollow 110 of the hollow body 110. Only one such expander connecting pipe 74 may be provided, or two or more may be provided for rapid supply of the expanding material 112.

The grout connector 76 is formed of a tip portion 76A protruding from the plate 72 toward the grout supply portion, and a terminal portion 76B protruding from the plate 72 toward the main body portion 100 and integrally formed with the tip portion 76A. ) May be included. That is, the end portion 76B of the grout connector 76 protrudes toward the main body 100 so that the grout injection hose 210 can be easily coupled to the grout injection hose 210. Accordingly, the grout material 200A is sprayed without leakage. May be supplied to the hose 210.

The expander connector 74, the grout connector 76 as described above may be made of a hard, such as steel, each so as to have excellent durability. In this case, the hose of the expansion material supply unit and the hose of the grout supply unit may each be made of soft material such as rubber.

On the other hand, the lock bolt according to the present invention, when the expansion material 112 (particularly, when the expansion material 112 is a high-pressure water) is supplied to the hollow body 110, the front end cap 120 and the hollow body ( It may further include a sealing (sealing) (160) to prevent the occurrence of water pressure leak in the gap between the 110.

Sealing 160 is in particular a ring-shaped ring-shaped portion 162 and in close contact with the tip surface of the tip cap 120 to seal the gap 160 between the tip cap 120 and the hollow body 110, and the ring, It may include a protrusion 164 protruding from the mold 162 and inserted into the recessed portion of the hollow body 110, that is, the recessed portion 114.

Therefore, the following effects can be obtained.

First, the gap between the tip cap 120 and the hollow body 110 is sealed by the ring-shaped portion 162 of the sealing 160, through the hollow 162A of the ring-shaped portion 162 of the sealing 160 The expandable material 112 may be supplied to the hollow 112 of the hollow body 110.

Second, as the protrusion 164 of the sealing 160 is fitted into the concave portion 114 of the hollow body 110, the gap between the tip cap 120 and the hollow body 110 is completely filled. As a result, more confidentiality can be maintained.

Third, the sealing portion 160 may be fixed by tightly fitting the protrusion 164 of the sealing 160 between the tip cap 120 and the hollow body 110.

Fourth, as the gap between the tip cap 120 and the hollow body 110 is filled by the protrusion 164 of the sealing 160, the tip portion of the hollow body 110 is press-fit into the tip cap 120. Since it may be, the coupling force of the tip cap 120 and the hollow body 110 can be formed sufficiently, the tip cap 120 and the hollow body 110 may be more hermetically coupled.

In addition, a through hole 164A may be formed in the protrusion 164 of the sealing 160 to allow the grout injection hose 210 and the grout supply pipe 76 of the connector 50 to pass therethrough. Therefore, the protrusion 164 of the sealing 160 may be fitted to the recess 114 of the hollow body 110 without interfering with the grout injection hose 210. On the other hand, the through hole 164A of the sealing 160 may be formed such that the grout supply pipe 76 can be easily fitted, in particular, as shown in Figure 7, the front end side end is gradually extended toward the front end.

The lock bolt according to the present invention may further include a perforated covering part 300 installed at the perforation 1 together with the main body part 100 to cover the perforation 1.

Therefore, since the grout material 200A is injected into the perforation 1 through the grout injection part 200 in the state in which the inlet of the perforation 1 is covered by the perforation opening part 300, the excavation of the perforation 1 is performed. Regardless of the direction, outflow of the grout material 200A can be prevented.

The perforated covering part 300 may be formed of various materials, but in particular, it may be preferable to be made of an elastic material such as rubber.

First, even when the shape of the hollow body 110 is not complicated or the ground 2 around the perforation 1 is not smooth, the perforated cover portion 300 of the elastic material is the ground body 2 around the hollow body 110 and the perforation 1. ) Can always be kept tight and tight.

Second, since the perforated cover portion 300 of the elastic material can be elastically deformed, it can be easily inserted into the perforation 1, which is advantageous in terms of ease of construction, and tightly adheres to the ground 2 around the perforation 1. It can be advantageous in terms of airtightness, openness.

Third, since the perforated covering part 300 may be elastically deformed by the inflation pressure thereof when the hollow body 110 is inflated, it may be installed in the expanded portion of the hollow body 110 by the expandable material 112. Therefore, the design of the installation position of the punching opening 300 may be easily performed without interfering with the tip cap 120 or the connector 50.

Fourth, the perforated covering portion 300 of the elastic material is elastically deformed and absorbed by the expansion pressure during expansion of the hollow body 110, so there is no fear of breakage or separation. That is, if the punching covering part 300 is made of a material such as plastic or metal, the punching covering part 300 may be easily broken by the high pressure expansion force of the hollow body 110.

Fifth, since the perforated covering portion 300 is in close contact with the surrounding ground (2) of the perforation (1) in a state of being integrally bound with the hollow body, gravity, grout injection and hollow injection by the grout injection portion 200 As the mold body 110 expands, the resistance of the lock bolt to external force generated toward the inlet of the perforation 1 may be increased.

The perforated opening 300 as described above may take a variety of structures, in particular in the ring-shaped ring-shaped portion 302 to be fitted to the outside of the hollow body 110, and the concave portion 114 of the hollow body 110. It may include a protrusion 304 protruding from the ring-shaped portion 302 to be fitted.

Therefore, the puncturing covering part 300 may be maintained in close contact with the entire circumference of the hollow body 110 at all times regardless of whether the hollow body 110 is expanded or not. In addition, only the projection 304 of the drilling covering 300 is fitted into the recess 114 of the hollow body 110, the drilling covering 300 is integrally bound to the hollow body 110 sufficiently. Can be.

In addition, the through hole 300 may be formed with a through hole 300A to allow the grout injection hose 210 to pass therethrough.

Of course, one or more through holes of the drill hole 300 are formed corresponding to the number of grout injection hoses 210.

The through-hole 300A of the puncture covering part 300 is a puncture covering part when the grout injection hose 210 is coupled to the hollow body 110 so that the grout injection hose 210 is fitted into the recessed part 114 of the hollow body 110. It may be formed on the protrusion 304 of the 300, or as shown in Figure 12 when the grout injection hose 210 is installed in the periphery of the hollow body 110, without being fitted to the concave portion 114 The ramen can be formed in the ring-shaped portion 302 of the perforated covering 300.

On the other hand, the perforated covering portion 300 is to be fixed to a specific position along the longitudinal direction of the hollow body 110, the outer surface of the hollow body 110 to the front end surface and the longitudinal section of the perforated covering portion 300 Each stopper part 118 such as a protrusion that can be locked may protrude.

At this time, the stopper portion 118 of the hollow body 110 may be integrally formed during the manufacture of the hollow body 110, integrally formed by welding, etc. after the manufacture of the body portion that plays a main role of the hollow body (110). Can be combined.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

One; Perforation 2; Ground
50; Connector 60; Connector cap
70; Connector connection 72; plate
74; Inflator connector 76; Grout connector
100; Rockbolt 110; Hollow body
114; Indentation 120; Tip cap
130; Termination cap 200; Grout sprayer
210; Grout spray hose 300; Puncture

Claims (18)

The main body is installed in the perforation (1) formed in the ground (2), the body portion including a hollow body 110 is inflated by the expansion material 112 is injected into the hollow 112 and in close contact with the ground around the perforation (1) 100;
It is coupled to the main body 100 and detachable, the expansion material supply unit for supplying the expansion material 112 to the hollow 112 of the hollow body 110 and the grout material 200A to be injected into the perforation (1). A connector 50 to which a grout supply part for supplying the grout material 200A is connected to be connected to the grout material;
The hollow body 110 is installed in the perforation 1 in a state in which a portion is pressed in a concave shape along its circumferential direction so that the pressed portion can be unfolded by the expander 112 and the main body portion ( Ring-shaped ring portion 162 in close contact with the front end surface of the 100, and protruding portion 164 protruding from the ring-shaped portion 162 to fit into the concave-shaped portion of the outer side of the hollow body 110 Sealing 160;
Rock bolt, characterized in that it comprises a. The method according to claim 1,
The connector 50 is
A connector cap (60) coupled to the inlet end of the perforation (1) of the main body portion (100) to be inserted and detached therefrom;
A connector connection part 70 inserted between the connector cap 60 and the main body part 100 and connected to the expansion material supply part and the grout supply part;
Rock bolt, characterized in that it comprises a. The method according to claim 2,
The connector cap 60 is formed to surround the front end portion of the main body portion 100 and the ring-shaped side portion 62 is coupled to the main body portion 100 so as to be detachable;
The front end surface portion 64 is formed integrally with the side surface portion 62 to cover the front end surface side end of the main body portion 100 of the side surface portion 62, and the through-holes are formed to connect the expansion material supply portion and the grout supply portion. ;
Rock bolt, characterized in that it comprises a. The method according to claim 2,
The connector connecting portion 70 is inserted between the front end surface of the main body portion 100 and the connector cap 60, the expansion material 112, the hole 72A, the grout so that the expansion material supply portion, the grout supply portion can be connected, respectively Rock bolt, characterized in that it comprises a plate (72) formed with a hole (72B). The method of claim 4,
The connector connecting portion 70 is integrally connected to the expansion material 112 hole 72A of the plate 72, the grout hole 72B, the expansion material connector 74 is coupled to the expansion material supply portion, the grout supply portion, Rock bolt further comprises a grout connector (76). The method according to claim 5,
The expander connecting pipe (74), the grout connecting pipe (76) is made of a hard, respectively, characterized in that coupled to the soft hose of the expansion material supply portion and the soft hose of the grout supply portion. The method according to claim 5,
The expander connecting pipe (74) is formed to protrude from the plate (72) toward the expanding material supply side;
The grout connector 76 is integrally formed with the tip portion 76A protruding from the plate 72 toward the grout supply portion and the tip portion 76A, and is directed toward the main body portion 100 from the plate 72. Rock bolt, characterized in that it comprises a protruding end portion (76B). The method according to any one of claims 1 to 7,
The connector cap (60) is a lock bolt, characterized in that it is made to be coupled to be detachable by screwing the main body portion (100). The method according to any one of claims 1 to 7,
The expansion material 112 is a rock bolt, characterized in that the high pressure water or grout material. delete The method according to any one of claims 1 to 7,
The hollow body 110 is installed in the perforation (1) in a state in which a portion is pressed in a concave shape along the circumferential direction so that the pressed portion can be unfolded by the expander (112);
The grout material 200A, which is installed along the perforation 1 in a state of being fitted in the recessed form of the outer side of the hollow body 110, is supplied from the grout supply part connected to the connector 50, and the perforation ( Rock bolt, characterized in that it further comprises a grout injection hose for guiding to be injected into 1). The method according to any one of claims 1 to 7,
Rock bolt, characterized in that it further comprises a perforated covering portion 300 of the elastic material is installed in the perforation (1) with the body portion 100 to cover the perforation (1) inlet. The method of claim 12,
The perforated cover 300 is a ring-shaped ring-shaped portion 302 to be fitted to the outside of the hollow body 110, and the ring-shaped portion to be inserted into a portion of the recessed shape of the hollow body 110 It is made of an elastic material to include a protrusion 304 protruding from the 302,
Rock bolt, characterized in that the through-holes 300A through which the grout injection portion 200 is installed is formed in the protruding portion 304 of the punching opening portion 300. delete delete delete As a support method using a lock bolt of any one of claims 1 to 7,
After coupling the connector 50 to the main body portion 100, the lock bolt is installed in the perforations (1) formed in the ground (2) the main body portion 100 is not filled with the expansion material 112 Installation step;
A grout injection step of injecting grout material (200A) into the perforation (1) from a grout supply portion connected to the connector (50);
The inflator 112 is supplied to the hollow 112 of the hollow body 110 from the expander supply unit connected to the connector 50, so that the hollow body 110 is drilled into which the grout material 200A is injected. A rock bolt expansion step to expand in 1) to be in close contact with the ground (2);
Supporting method using a rock bolt, characterized in that it comprises a. 18. The method of claim 17,
After the rock bolt expansion step, the support method using a lock bolt, characterized in that it further comprises a finishing step of separating the connector 50 from the body portion (100).

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