KR20160011927A - Bulbed cable bolt - Google Patents

Abstract

Disclosed is a bulb cable bolt to reinforce bedrock. The disclosed bulb cable bolt to reinforce the bedrock comprises: a bearing plate installed in an insertion hole drilled on the bedrock; an injection head installed in the bearing plate; a bulb cable inserted into the insertion hole by penetrating through the injection head; an injecting unit inserted into the insertion hole by penetrating through the injection head, and forming a passage through which a grouting material injected from one side of the injection head is injected to the insertion hole by penetrating through the injection head; and an air discharge unit inserted into the insertion hole by penetrating through the injection head, and forming a passage through which air inside the insertion hole is discharged to the outside of the insertion hole by passing through the injection head.

Description

{BULBED CABLE BOLT}

The present invention relates to a bulb cable bolt for reinforcing a rock, and more particularly, to a bulb cable bolt for reinforcing a rock bolt required for reinforcing a structure in civil engineering construction work such as tunnels, mines, dams, waterways, slopes, .

Generally, in civil engineering construction work, especially in tunnels, mines, dams, waterways, slopes, and ground reinforcement works, holes are formed in the ground including rocks in mountains. This hole expands a tunnel base hole while breaking a rock by breaking up a plurality of explosives such as a predetermined explosive, for example, dynamite. In order to prevent the collapse of the foundation tunnel after penetrating the foundation tunnel with a certain height and width, a large number of foundation bolts (rock bolts) are put on the inner side of the foundation tunnel, and a meshed mesh is installed. Finally, So that the reinforcing film is laid.

The process of constructing the reinforcement film will be briefly described. First, the rock bolt is drilled through the rock bolt or the crusher to insert the foundation bolt. Then, grouting materials such as cement mortar, resin, etc. are placed in the holes and the foundation bolts are inserted.

When the grouting material around the inserted foundation bolt is hardened, the foundation bolt is fixed in the rock. By providing a plurality of foundation bolts fixed at predetermined intervals as described above, it is possible to withstand the load of the concrete injected to the mesh body.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Patent Laid-Open Publication No. 2002-0007482 (published on Jan. 29, 2002, entitled " Rock bolt construction method using fastener).

It is an object of the present invention to provide a bulb cable bolt for reinforcing an underground rock having improved grouting properties and improved fixing and tensile strengths.

A bulb cable bolt for rock reinforcing according to the present invention comprises: a support plate installed on an insertion hole drilled in a rock; An injection head installed on the platen; A bulb cable inserted into the insertion hole through the injection head; An injecting portion penetrating the injection head to be inserted into the insertion hole and forming a passage through which the grouting material injected from one side of the injection head passes through the injection head and is injected into the insertion hole; And an air discharge portion inserted into the insertion hole passing through the injection head and forming a passage through which the air inside the insertion hole passes through the injection head and is discharged to the outside of the insertion hole, The head main body being exposed to one side of the pressure plate and having the other side inserted into the insertion hole from the other side of the pressure plate; A through hole into which the bulb cable is inserted so that one side and the other side of the head body are communicated with each other; An injection hole formed in the head main body to penetrate the bulb cable in a direction in which the bulb cable is inserted into the insertion hole and to insert the injection portion; And a discharge hole formed in the head main body so as to be spaced apart from the injection hole, the discharge hole being formed to penetrate in a direction in which the bulb cable is inserted into the insertion hole, thereby inserting the air discharge portion.

The head main body further includes an insertion portion that is inserted through the piercing plate to be inserted into the insertion hole from the other side of the pressure plate and has the through hole formed therein; A boss portion extending from the insertion portion to expose to one side of the pressure plate, the boss portion having the through hole extending from the inside of the insertion portion; And a flange portion provided between the insertion portion and the boss portion, the flange portion protruding in a flange shape from one side of the pressure roller.

It is preferable that at least one of the injection hole and the exhaust hole is formed so as to pass through the insertion portion and the flange portion so that one side is opened at the end of the insertion portion and the other side is opened at the end portion of the flange portion.

And the boss portion is located on the inner side of at least one of the injection hole and the exhaust hole in the radial direction of the flange portion; And a seat support portion is formed on an outer wall of the boss portion adjacent to at least one of the injection hole and the exhaust hole, wherein the injection portion inserted into the injection hole or the air discharge portion inserted into the discharge hole is seated and supported.

It is preferable that the seat support portion is recessed in the outer wall of the boss portion and extends in the longitudinal direction of the injection head in a shape corresponding to the shape of the region where the injection hole or the exhaust hole overlaps the boss portion.

Further, on the outer peripheral surface of the inserting portion, the engaging groove is concave; The injection head may further include a protruding ring fitted to the coupling groove and protruding from the outer circumferential surface of the insertion portion.

It is preferable that the bulb cable is formed by twisting a plurality of cables.

Preferably, the bulb cable includes a bulb portion having a plurality of spaced apart cables so that a plurality of cables are twisted and a space portion is formed therein.

Further, the present invention is characterized in that the injection head is coupled to the other side of the injection head and inserted into the insertion hole, and an extension hole communicating with the through hole is formed therein to extend in the longitudinal direction of the insertion hole, It is preferable to further include a tube.

According to the bulb cable bolt for reinforcing a rock bolt of the present invention, since air remaining in the insertion hole can be discharged to the outside of the insertion hole by providing an air discharge part inside the insertion hole, the injectability is improved, So that the grouting material can be smoothly injected.

In addition, the present invention allows the injection unit and the air discharge unit to be installed on the injection head while being supported over a large area by the seat support unit, so that the injection unit and the air discharge unit are broken or damaged by external force .

Further, according to the present invention, the coupling force with the grouting material is formed and coupled with the grouting material inside the insertion hole using the bulb cable having improved supporting force and tensile force against the force applied in the longitudinal direction, Not only can an improved fixing force be provided but also it is possible to combine with the grouting material more tightly within the insertion hole while preventing the bulb portion from being tilted in the insertion hole.

1 is a perspective view illustrating a bulb cable bolt for reinforcing a rock in accordance with an embodiment of the present invention.
2 is an exploded perspective view of the rock bolt-reinforcing bulb cable bolt shown in Fig.
3 is a sectional view taken along the line "AA" in Fig.
Fig. 4 is a plan view showing the injection head shown in Fig. 1. Fig.
Fig. 5 is a view showing the installation state of the rock bolt-reinforcing bulb cable bolt shown in Fig. 1. Fig.

Hereinafter, an embodiment of a bulb cable bolt for reinforcing a rock according to the present invention will be described with reference to the accompanying drawings. For convenience of explanation, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a perspective view showing a bulb cable bolt for reinforcing a rock bolt according to an embodiment of the present invention, and FIG. 2 is an exploded perspective view of a bulb cable bolt for reinforcing a rock bolt shown in FIG. 3 is a cross-sectional view taken along the line "A-A" in FIG. 1, and FIG. 4 is a plan view showing the injection head shown in FIG.

1 to 3, a rock bolt-reinforcing bulb cable bolt 100 according to an embodiment of the present invention includes a compression plate 110, an injection head 120, a bulb cable 130, 140, an injecting unit 150, and an air discharging unit 160.

The pressure plate 110 is formed in the form of a plate having a predetermined thickness and rigidity and is installed on the rock 1 on which the bulb cable bolt 100 for rock reinforcement of this embodiment is to be installed. This support plate 110 is tightly fixed to the surface of the rock 1 and supported by an injection head 120 coupled to the bulb cable 130 and the bulb cable 130 to support the surface of the rock 1 .

The injection head 120 is coupled with the pressure plate 110 to support the pressure plate 110 in a direction in which the pressure plate 110 is in contact with the surface of the rock plate 1 from outside the rock plate 1. [ The injection head 120 includes a head body 121, a through hole 126, an injection hole 127, and an exhaust hole 128.

The head body 121 forms a main body of the injection head 120 and has one side exposed to one side of the pressure plate 110 and the other side inserted into the insertion hole 2 from the other side of the pressure plate 110 Respectively. The head main body 121 includes an insertion portion 122, a boss portion 123, and a flange portion 124.

The insertion portion 122 is formed in a cylindrical shape and is installed to penetrate the pressure plate 110 to be inserted into the insertion hole 2 from the other side of the pressure plate 110. A through hole 126 is formed in the insertion portion 122.

In addition, a coupling groove 122a is formed concavely on the outer circumferential surface of the insertion portion 122. [ The engaging groove 122a is provided with a protruding ring 129.

The protruding ring 129 is fitted into the engaging groove 122a and is provided so as to protrude from the outer peripheral surface of the insertion portion 122. [ The protruding ring 129 restricts the insertion part 122 so that the insertion part 122 coupled to the pressure plate 110 is not separated from the pressure plate 110 and the grouting material injected into the insertion hole 2 is inserted into the insertion hole 122, (2) to the inlet side.

The boss 123 is formed to extend from the insertion part 122 to one side of the pressure plate 110. The boss 123 is formed in a cylindrical shape having a diameter smaller than that of the insertion portion 122. A through hole 126 extends from the inside of the insertion portion 122 in the boss 123.

The flange portion 124 is provided between the insertion portion 122 and the boss portion 123 and is formed to protrude in a flange shape from one side of the pressure plate 110. A through hole 126 is formed in the flange portion 124 to connect the inside of the insertion portion 122 and the inside of the boss 123.

According to the present embodiment, the through hole 126 is formed in the inserting portion 122, the boss portion 123 and the flange portion 124, that is, inside the head main body portion 121, And the other side is communicated with each other. The through hole 126 is a passage through which the bulb cable 130 is inserted.

The injection hole 127 is formed to penetrate through the head main body portion 121 in a direction d where the bulb cable 130 is inserted into the insertion hole 2, 127 form a passage through which the injection unit 150 is inserted into the head main body 121.

The discharge hole 128 is formed to penetrate in the insertion direction d so as to be spaced apart from the injection hole 127. The discharge hole 128 is formed such that the air discharge portion 160 is inserted into the head body portion 121 .

At least one of the injection hole 127 and the discharge hole 128 may be formed in the insertion part 122 and the discharge hole 128 such that one end thereof is opened at the end of the insertion part 122 and the other end thereof is opened at the end of the flange part 124 And is formed so as to pass through the flange portion (124). In this embodiment, it is exemplified that both the injection hole 127 and the discharge hole 128 are formed so as to penetrate through the insertion portion 122 and the flange portion 124.

On the other hand, the boss 123 is located on the inner side of at least one of the injection hole 127 and the discharge hole 128 in the radial direction of the flange portion 124. Hereinafter, the boss unit 123 is positioned inside the injection hole 127 and the discharge hole 128 will be described as an example.

According to the present embodiment, the seat support portion 125 is formed on the outer wall of the boss 123. The seating support portion 125 is formed on the outer wall of the boss portion 123 adjacent to the injection hole 127 and the discharge hole 128, respectively.

One of the seat support portions 125 is formed concave in the outer wall of the boss portion 123 in a shape corresponding to the shape of the region where the injection hole 127 overlaps with the boss portion 123, As shown in Fig.

The other one of the seat support portions 125 is formed concavely in the outer wall of the boss portion 123 in a shape corresponding to the shape of the region where the discharge hole 128 overlaps with the boss portion 123, 120 in the longitudinal direction.

The injection unit 150 inserted into the injection hole 127 and the air discharge unit 160 inserted into the discharge hole 128 are respectively seated in the respective seat support portions 125 formed in the boss unit 123, Respectively.

The bulb cable 130 is inserted into the insertion hole 2 through the injection head 120. That is, the bulb cable 130 is inserted into the insertion hole 2 from the outside of the rock block 1 through the through hole 126 and installed inside the rock block 1.

The bulb cable 130 is fixed to the inside of the rock mass 1 by the grouting material filled in the insertion hole 2 inside the rock mass 1 while the portion inserted into the through hole 126 is fixed to the ground 140 to the injection head 120.

In the present embodiment, the bulb cable 130 is exemplified as a plurality of cables 131 formed by twisting. The bulb cable 130 is formed by twisting a plurality of rod-shaped cables 131 formed to have a predetermined rigidity.

According to the present embodiment, since the bulb cable 130 is formed in a shape in which a plurality of rod-shaped cables 131 are twisted, the joint area with the grouting material is expanded, The engaging force with the grouting material filled in the grooves can be improved.

The bulb cable 130 formed in the above-described shape has a rugged coupling surface contacting with the grouting material, so that the coupling force with the grouting material filling the bulb cable 130 inside the insertion hole 2 Can be further improved.

Meanwhile, the bulb cable 130 formed as described above includes a bulb portion 135 formed by forming a space between a plurality of cables 131 so that a plurality of cables 131 are twisted and a space portion is formed therein.

The bulb portion 135 may be formed in a part of the bulb cable 130 extending in a linear shape so as to have a convexly protruding shape so as to have a bulbous spiral shape, It is possible to enhance the bonding force with the grouting material capable of supporting the force.

The bulb portion 135 is formed by a space portion in which the grouting material can be filled in the bulb cable 130 so that the grouting material is coupled to the bulb cable 130 from outside and inside the bulb cable 130, 130 and the grouting material can be further strengthened.

The paper 140 surrounds the bulb cable 130 and is inserted into the through hole 126 to be coupled to the injection head 120.

The ground 140 is inserted into the through hole 126 in a direction d (hereinafter referred to as "insertion direction") in which the bulb cable 130 is inserted into the insertion hole 2 with the bulb cable 130 wrapped around The state is changed so as to tighten the bulb cable 130 which is enclosed while being forced into the injection head 120 and being forced into the injection head 120.

The inner surface of the sheet 140 is coupled to the bulb cable 130 by inserting the bulb cable 130 as the outer surface is pressed against the injection head 120 and is coupled with the injection head 120, (130) to the injection head (120).

In the present embodiment, the paper 140 is illustrated as being of a form including a plurality of paper follower members 141 and a restraining member 145 for engaging a plurality of paper follower members 141.

According to this, the ground 140 is formed as a plurality of ground members 141 are laterally coupled to each other. Each of the carrier materials 141 is formed in the same shape as each other, and a plurality of carrier materials 141 are laterally coupled to each other to form a cylindrical paper material 140.

The outer circumferential surface of the paper 140 formed by combining the plurality of paper stock members 141 is formed as a tapered surface and the coupling hole 142 into which the bulb cable 130 is inserted is formed inside the paper 140 .

Concave grooves (not shown) are formed in each of the support members 141 and the concave grooves formed in the respective support members 141 are formed in the grooves 141 To form an annular shape on the outer circumferential surface.

The restricting member 145 is fitted to the concave groove formed in this way. The plurality of paper follower members 141 are pressed in the direction in which they are engaged with each other to couple the plurality of paper follower members 141 together.

In this embodiment, the restricting member 145 is exemplified as being provided in the form of a ring having elasticity. The restraint member 145 elastically supports the plurality of the leg members 141 such that the gap between the plurality of leg members 141 coupled to each other is adjusted.

The gap between the grip members 141 coupled by the restricting member 145 is changed along the shortest path of the engaging hole 142 that is changed along the short path of the bulb cable 130 inserted therein do.

In other words, as shown in FIG. 7, a bulb cable (not shown) formed so as to have a longer path than an engaging hole 142 formed when a plurality of ground members 141 are engaged with each other, The bulb cable 130 is inserted in a state where the plurality of the leg members 141 are spaced apart from each other.

At this time, the plurality of paper stock members 141 are elastically supported by the restricting member 145 and are engaged with the bulb cable 130 while being in contact with the outer circumferential surface of the bulb cable 130.

The injection unit 150 is inserted into the insertion hole 2 through the injection head 120. The injection unit 150 forms a passage through which the grouting material injected from one side of the injection head 120 is injected into the insertion hole 2 through the injection head.

According to the present embodiment, the injection unit 150 is formed in the shape of a tube having a hollow therein and inserted into the injection hole 127 of the injection head 120 to penetrate the injection head 120.

One side of the injection unit 150 is exposed to one side of the injection head 120 and the other side of the injection unit 150 extending through the injection head 120 to the other side of the injection head 120 is inserted into the insertion hole 2 So that the grouting material is injected into the insertion hole 2.

In the injection unit 150 installed to penetrate the injection head 120 as described above, the peripheral portion of the portion to be inserted into the injection hole 127 is supported by the seat support unit 125.

That is, the seating support part 125 guides the insertion path of the injection hole 127 of the injection part 150 and supports the injection part 150 inserted in the injection hole 127 over a wide area, The injection unit 150 can be protected from being broken or damaged by an external force in the process of being inserted into the injection hole 127.

The air discharge unit 160 is inserted into the insertion hole 120 through the injection head 120 in the same manner as the injection unit 150. The air discharge unit 160 forms a passage through which air in the insertion hole 2 passes through the injection head 120 and is discharged to the outside of the insertion hole 2.

According to the present embodiment, the air discharge unit 160 is formed in the shape of a tube having a hollow inside and is inserted into the discharge hole 128 of the injection head 120 to penetrate the injection head 120.

One side of the air discharge unit 160 is exposed to one side of the injection head 120 and an air discharge port 163 (see FIG. 5) is formed at the end of the air discharge unit 160 to open the air inside the air discharge unit 160 . The other side of the air discharge portion 160 extending through the injection head 120 and extending to the other side of the injection head 120 is inserted into the insertion hole 2 and the air inside the insertion hole 2 is inserted into the insertion hole 2 An air inlet 161 (see FIG. 5) opened to be introduced into the air discharge unit 160 is formed.

It is preferable that the air outlet 161 formed at the other end of the air discharge unit 160 is installed at a position deeper than the injection unit 150 in the insertion hole 2. This is to prevent the air inlet 161 from being clogged by the grouting material discharged from the injection unit 150.

The peripheral portion of the portion to be inserted into the injection hole 127 is supported by the seat support portion 125. The air vent 160 is formed to pass through the injection head 120 as described above.

The seat support part 125 guides the insertion path of the discharge hole 128 of the air discharge part 160 and supports the air discharge part 160 inserted into the discharge hole 128 over a large area, The air discharge unit 160 can be protected from being bent or damaged by external force during the process of inserting the discharge unit 160 into the discharge hole 128.

The bulb cable bolt 100 for rock reinforcing according to the present embodiment may further include an extension tube 170.

The extension tube 170 is coupled to the other side of the injection head 120 and inserted into the insertion hole 2. The extension tube 170 is extended from the other side of the injection head 120 in the longitudinal direction of the insertion hole 2 and an extension hole 171 communicating with the through hole 126 is formed in the extension tube 170 And the extension hole 171 is opened toward the insertion hole 2 side.

The bulb cable 130, the injection unit 150, and the air discharge unit 160 are inserted into the extension hole 171 formed in the extension tube 170 as described above. The bulb cable 130 and the air discharge unit 160 are inserted into the insertion hole 2 through the extension tube 171 and the injection unit 150 is inserted into the extension tube 170 170).

The extension tube 170 is formed in the shape of a pipe having a shape and a short path corresponding to the insertion hole 2 so as to be in close contact with the inner wall of the insertion hole 2 at the entrance side of the insertion hole 2 And serves to guide the horizontal position of the bulb cable 130 inserted into the insertion hole 2.

The extension tube 170 forms a passage extending from the injection part 150 to the inside of the insertion hole 2 so that the discharge of the grouting material through the bulb cable bolt 100 for reinforcing the rock is inserted into the insertion hole 2, In the inserting direction (d) so that the flow of the grouting material is made at a specified depth of the inserting hole (2).

That is, the extension tube 170 is formed so that the discharge of the grouting material through the rock bolt-reinforcing bulb cable bolt 100 is performed at a position spaced apart from the entrance of the insertion hole 2 by a specified depth at the entrance of the insertion hole 2 Thereby guiding the injection flow of the grouting material so that the grouting material injected into the insertion hole 2 can be smoothly injected into the insertion hole 2 without flowing out of the insertion hole 2.

Also, according to the present embodiment, a packing tube 180 may be further provided on the outside of the extension tube 170. The packing tube 180 is formed of a porous material having a rough surface such as a sponge and is provided to surround the outer circumferential surface of the extension tube 170.

This packing tube 180 protects the extension tube 170 from external impact while grouting material discharged to the outside of the extension tube 170 inside the insertion hole 2 flows toward the inlet side of the insertion hole 2 It acts to stop the flow down.

Fig. 5 is a view showing the installation state of the rock bolt-reinforcing bulb cable bolt shown in Fig. 1. Fig.

Hereinafter, the operation and effects of the rock bolt-reinforcing bulb cable bolt 100 according to the present embodiment will be described.

10, the rock bolt-reinforcing bulb cable bolt 100 according to the present embodiment is installed in the rock 1 through the insertion hole 2 drilled in the rock 1. The installation of the rock bolt-reinforcing bulb cable bolt 100 according to the present embodiment is performed through the following procedure.

First, the bulb cable 130 is inserted into the insertion hole 2 formed in the rock block 1 along the longitudinal direction of the insertion hole 2. At this time, the bulb cable 130 is inserted into the insertion hole 2 while being inserted into the extension tube 170, and the extension tube 170 is installed on the entrance side inside the insertion hole 2.

At the same time, the injection unit 150 and the air discharge unit 160 are inserted into the insertion hole 2. The air discharge portion 160 is inserted into the bulb cable 130 together with the bulb cable 130.

The injection unit 150 may be inserted into the bulb cable 130 together with the bulb cable 130 or may be installed after the injection head 120 is installed on the pressure plate 110 .

The air outlet 161 formed at the other end of the air outlet 160 is inserted into the insertion hole 2 so that the air inlet 161 is not clogged by the grouting material discharged from the inlet 150. [ The injection unit 150 may be disposed at a position deeper than the injection unit 150.

When the bulb cable 130 and the air discharging portion 160 are inserted into the insertion hole 2 at a sufficient depth, a portion of the bulb cable 130, the injecting portion 150, The pressure plate 110 is installed on the rock plate 1 so as to be exposed to the outside of the rock plate 1.

The installed pressure plate 110 is fixedly attached to the surface of the rock 1 and is supported by the bulb cable 130 and the injection head 120 coupled with the bulb cable 130, .

When the pressure plate 110 is installed as described above, the injection head 120 is coupled to the pressure plate 110 so that the bulb cable 130 is exposed to the outside of the injection head 120.

The injection unit 150 and the air discharge unit 160 are inserted into the injection hole 127 and the discharge hole 128 and installed on the injection head 120, respectively. At this time, the peripheral portion of the injection unit 150 and the air discharge unit 160 inserted into the injection hole 127 or the discharge hole 128 is supported by the seat support unit 125.

The seating support part 125 guides the insertion path of the injection part 150 and the air discharge part 160 and supports the injection part 150 and the air discharge part 160 over a wide area, The injection unit 150 and the air discharge unit 160, which are respectively supported by the seat support unit 125, can be protected from being bent or broken by an external force during insertion.

2) is inserted in the insertion direction (d) after inserting the paper 140 inserted in the bulb cable 130 to enclose the bulb cable 130 into the injection head 120. Thereafter, do.

The coupling between the injection head 120 and the bulb cable 130 is completed by tightly inserting the paper 140 into the injection head 120 while tightening the valve cable 130. As a result, Is supported by an injection head (120) coupled to the surface (130) to support the surface of the rock mass (1).

When the assembling process of the rock bolt-reinforcing bulb cable bolt 100 is completed, the grouting material is injected into the insertion hole 2 through the injection part 150. In the present embodiment, the grouting material is exemplified by a mortar, resin, or the like.

The grouting material injected through the injection section 150 is guided by an extension tube 170 which forms a passage extending from the injection head 120 into the interior of the insertion hole 2. [

As a result, the discharge of the grouting material inside the insertion hole 2 is made at a position spaced apart from the entrance of the insertion hole 2 by a specified depth at the entrance of the insertion hole 2, The grouting material can be smoothly injected into the insertion hole 2 without flowing out of the insertion hole 2.

A packing tube 180 is provided on the outer side of the extension tube 170 to protect the extension tube 170 from external impact while being discharged to the outside of the extension tube 170 inside the insertion hole 2 The flow of the grouting material flowing down to the inlet side of the insertion hole 2 is prevented so that the grouting material can be effectively injected.

In the process of injecting the grouting material as described above, the air existing in the insertion hole 2 is discharged through the air discharge part 160.

The air existing in the insertion hole 2 is prevented from interfering with the injection of the grouting material in the process of injecting the grouting material into the insertion hole 2 or by interfering the grouting material injected into the insertion hole 2 to the outside of the insertion hole 2 As shown in FIG.

In other words, if the air remains in the insertion hole 2 and occupies a space inside the insertion hole 2 while the grouting material is continuously injected into the insertion hole 2, the injection of the grouting material into the space occupied by the air becomes difficult, The grouting material already injected into the insertion hole 2 is backwardly flowed to the outside of the insertion hole 2.

According to the present embodiment, the air discharge portion 160 is provided in the space occupied by the air, so that the air remaining in the insertion hole 2 can be discharged to the outside of the insertion hole 2, 2) so that the grouting material can be injected smoothly.

When the grouting material injected into the insertion hole 2 is cured inside the insertion hole 2 as described above, the bulb cable 130 inserted into the insertion hole 2 is inserted into the insertion hole 2 by the hardened grouting material Whereby the installation of the rock bolt-reinforcing bulb cable bolt 100 is completed.

The bulb cable 130 inserted into the insertion hole 2 is formed into a shape in which a plurality of rod-shaped cables 131 are twisted to expand the coupling area with the grouting material, 130 and the grouting material filling around the grouting material.

The bulb cable 130 is formed in a shape including a bulb portion 135 (see FIG. 2), which is a convexly protruding shape in a part of the bulb cable 130 formed to extend in a straight line. Not only the support force against the force applied in the longitudinal direction can be improved but also the inner and outer portions of the bulb cable 130 are coupled with the grouting material to further improve the coupling force with the grouting material, It can be fixed with a more firmly engaging force.

The bulb cable bolt 100 for rock reinforcing according to this embodiment has the air discharge portion 160 provided inside the insertion hole 2 so that the air remaining inside the insertion hole 2 is inserted into the insertion hole 2, So that the injectability can be improved and the grouting material can be injected into the insertion hole 2 smoothly.

The bulb cable bolt 100 for reinforcing the rock bolt of the present embodiment is formed such that the injection unit 150 and the air discharge unit 160 are installed on the injection head 120 while being supported over a large area by the seat support unit 125 The injection unit 150 and the air discharge unit 160 can be prevented from being bent or broken by the external force in the process of being installed in the injection head 120.

The coupling force with the grouting material is formed and coupled with the grouting material in the insertion hole 2 by using the bulb cable 130 having improved supporting force against the force applied in the longitudinal direction, It is possible to provide an improved fixing force that can be fixed and also to be combined with the grouting material within the insertion hole 2 with a stronger binding force while preventing the bulge portion 135 from being tilted inside the insertion hole 2 have.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. I will understand. Accordingly, the true scope of protection of the present invention should be defined by the following claims.

100: Bulb cable bolt for rock reinforcement
110: pressure plate 120: injection head
121: head main body part 122:
122a: coupling groove 123: boss portion
124: flange portion 125: seat support portion
126: Through hole 127: Injection hole
128: exhaust hole 129: protruding ring
130: bulb cable 131: cable
135: bulb 140:
141:? Paper support member 142: coupling ball
145: restraint member 150:
160: air outlet 161: air inlet
163: Air outlet 170: Extension tube
171: Extension hole 180: Packing tube

Claims (9)

A pressure plate installed on the insertion hole drilled in the rock;
An injection head installed on the platen;
A bulb cable inserted into the insertion hole through the injection head;
An injecting portion penetrating the injection head to be inserted into the insertion hole and forming a passage through which the grouting material injected from one side of the injection head passes through the injection head and is injected into the insertion hole; And
And an air discharge portion inserted into the insertion hole passing through the injection head and forming a passage through which air in the insertion hole passes through the injection head and discharged to the outside of the insertion hole,
A head main body installed on the support plate such that one side is exposed to one side of the support plate and the other side is inserted into the insertion hole from the other side of the support plate;
A through hole into which the bulb cable is inserted so that one side and the other side of the head body are communicated with each other;
An injection hole formed in the head main body to penetrate the bulb cable in a direction in which the bulb cable is inserted into the insertion hole and to insert the injection portion; And
And a discharge hole formed in the head main body so as to be spaced apart from the injection hole so as to penetrate the bulb cable in a direction in which the bulb cable is inserted into the insertion hole, thereby inserting the air discharge portion.
The ink cartridge according to claim 1,
An insertion portion that is inserted through the piercing plate to be inserted into the insertion hole from the other side of the pressure plate and has the through hole formed therein;
A boss portion extending from the insertion portion to expose to one side of the pressure plate, the boss portion having the through hole extending from the inside of the insertion portion; And
And a flange portion provided between the insertion portion and the boss portion and formed to protrude in a flange shape from one side of the support plate.
3. The method of claim 2,
Wherein at least one of the injection hole and the exhaust hole is formed so as to penetrate through the insertion portion and the flange portion so that one end thereof is opened at an end portion of the insertion portion and the other end thereof is opened at an end portion of the flange portion. volt.
The method of claim 3,
Wherein the boss portion is located inside the at least one of the injection hole and the exhaust hole in the radial direction of the flange portion;
Wherein an injection support portion inserted into the injection hole or an air discharge portion inserted into the discharge hole is formed in an outer wall of the boss portion adjacent to at least one of the injection hole and the exhaust hole, Bulb cable bolts for rock reinforcement.
5. The method of claim 4,
Characterized in that the seating support portion is recessed in the outer wall of the boss portion in a shape corresponding to the shape of the region where the injection hole or the exhaust hole overlaps with the boss portion and extends in the longitudinal direction of the injection head Bulb cable bolts.
3. The method of claim 2,
On the outer peripheral surface of the insertion portion, a coupling groove is formed concavely;
Wherein the injection head further comprises a protruding ring fitted to the coupling groove and protruding from an outer circumferential surface of the insertion portion.
The method according to claim 1,
Wherein the bulb cable is formed by twisting a plurality of cables.
8. The method of claim 7,
Wherein the bulb cable includes a bulb portion having a gap formed between the plurality of cables so that a space portion is formed inside a plurality of the twisted cables.
The method according to claim 1,
Further comprising an extension tube coupled to the other end of the injection head and inserted into the insertion hole and formed with an extension hole communicating with the through hole to extend in the longitudinal direction of the insertion hole and into which the injection section is inserted And a bolt for reinforcing the rock bolt.

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