KR20150097823A - Rockbolt with the plural deformation and construction method thereof - Google Patents

Abstract

The present invention relates to a rock bolt comprising multiple rupture parts and a method for constructing the same. According to the present invention, the rock bolt (100) comprising: a hollow body (110) formed to have hollowness (112) wherein a pressure fluid is injected through the front end, whose rear end is closed, and expanded by the pressure fluid supplied to the hollowness (112) while a concave inlet part (114) is formed as a part is concave in a peripheral direction; a cap (120) for the front end fitted to the outside of the front end of the hollow body (110) having a concave inlet part (114); a cap (130) for the rear end fitted to the outside of the rear end of the hollow body (110) having the concave inlet part (114); and multiple rupture parts (140) formed in different positions of the hollow body (110) to be ruptured by pressure due to the pressure fluid after the hollow body (110) is expanded. The present invention has effects of having a simple configuration as immediate stop of high-pressure fluid inflow is not required after a hollow body is expanded, uniformly performing grouting operation between an inner surface of a punched hole and a surface of a rock bolt by multiple rupture parts, and obtaining an excellent reinforcement effect even in an area with much water, a fracture zone, a soft ground floor, or the like.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rock bolt having a plurality of ruptures,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a civil engineering field, and more particularly, to a rock bolt having a plurality of rupturable parts and a construction method thereof.

A rock bolt is a support used for the ground such as rock, and it is used as a material to support a tunnel, and it is inserted into a hole pierced in the ground such as a rock.

There are various structures of the lock bolts, one of which is an expandable structure.

1, the expansion type rock bolt 10 is installed in a perforation hole in a state in which a part of the hollow body 12 is pushed in (see 'R1' in FIG. 1) Pressure water is supplied to the hollow 12A of the hollow body 12 to expand the hollow body 12 so that the expanded hollow body 12 can be fixedly attached to the ground such as a rock, R2 ')

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

However, such a conventional rock bolt has the following problems.

A structure for stopping high-pressure water after the expansion of the hollow body 12 is completed by supplying high-pressure water to the hollow 12A of the hollow body 12, a structure for preventing excessive water pressure from being applied And the like are separately required, and the configuration becomes complicated.

Second, it is difficult to grout the outer surface of the rock bolt and the inner surface of the hole.

Third, reinforcing effect is small in the case of watery areas, fracture zones, and soft layer.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems as described above, and it is an object of the present invention to provide an air cleaner which has a simple structure since it is not necessary to immediately stop the inflow of high-pressure fluid after inflating the hollow body, And it is an object of the present invention to provide a rock bolt and a method of constructing such a rock bolt which can achieve excellent reinforcement even in the case of a large amount of water, a fracture zone, and a soft ground layer.

In order to solve the above problem, the present invention is characterized in that, in the state where the hollow portion 112 into which the pressure fluid is injected through the front end is formed, the rear end thereof is closed, and a part is recessed along the circumferential direction, A hollow body 110 which is expanded by a pressure fluid supplied to the hollow 112; A front end cap 120 fitted to the outside of the front end of the hollow body 110 in which the recessed portion 114 is formed; A rear end cap 130 which is fitted to the outside of the rear end of the hollow body 110 in which the recessed portion 114 is formed; And a plurality of rupturing parts 140 formed at different positions of the hollow body 110 so as to be ruptured by the pressure of the pressure fluid after expansion of the hollow body 110. [ The lock bolt 100 is presented.

The rupturing part 140 may be formed in plural along the longitudinal direction of the hollow body 110.

The plurality of rupturing parts 140 may be formed along the circumferential direction of the hollow body 110.

The rupturing portion 140 includes a cut surface 141 formed by cutting a part of the outer surface along the longitudinal direction of the hollow body 110. The cut surface 141 and the hollow body 110 It is preferable that the thickness between the inner surfaces gradually widen toward the both sides from the center.

The rupturing part 140 may include a plurality of rupturing parts 140 formed with different cutting thicknesses d of the cutting surface 141.

The plurality of rupturing parts (140) include an edge rupture part (140a) formed at the edge of the hollow body (110); And a center rupturing part 140b formed at the center of the hollow body 110. The thickness of the hollow body 110 formed with the central rupturing part 140b is greater than the thickness of the edge rupturing part 140a It is preferable that the cutting thickness d2 of the center rupturing portion 140b is thicker than the cutting thickness d1 of the edge rupturing portion 140a as the thickness of the hollow body 110 is larger than the thickness of the hollow body 110. [

The plurality of rupturing parts 140 may include a concave part rupture part 140c formed in the concave part 114 of the hollow body 110. [

It is preferable that jaws 143 are formed at both sides of the cutting surface 141 so as to be recessed from the outer surface of the hollow body 110 to the cutting surface 141 side.

The cutting surface 141 preferably has a narrower width than the length.

The rupturing part 140 may be formed in a part of the hollow body 110 adjacent to the rear end of the hollow body 110.

According to the present invention, there is provided a method of constructing the rock bolt, comprising the steps of: fitting the rock bolt (100) into a perforation hole; Inflating the hollow body (110) by injecting the grout (G) as the pressure fluid through the front end of the lock bolt (100); And filling a space between the rock bolt (100) and the perforation hole by the grout (G) flowing out by one or a plurality of ruptures of the plurality of rupturing parts (140) The method of construction of the rock bolt is also presented.

According to the present invention, there is provided a method of constructing the rock bolt, comprising the steps of: fitting the rock bolt (100) into a perforation hole; Injecting water as the pressure fluid through the front end of the lock bolt 100 to expand the hollow body 110; The grout G is injected through the front end of the rock bolt 100 and the rock bolt 100 is poured by the grout G flowing out by one or a plurality of ruptures of the plurality of ruptures 140, And filling a space between the through hole and the perforation hole.

The present invention is simple in construction since it is not necessary to immediately stop the inflow of high-pressure fluid after expansion of the hollow body, and the grouting work is uniformly performed between the surface of the rock bolt and the inner surface of the perforation hole by a plurality of ruptures, Rock bolt and its construction method are proposed to obtain excellent reinforcement effect even in the case of area, fracture zone, and soft layer.

1 is an example of application of a lock bolt according to the prior art.
2 to 9 show an embodiment of the lock bolt according to the present invention,
2 is a first use state diagram.
3 is a second use state diagram.
4 is a perspective view showing a state in which the rupture section is formed;
5 is a cross-sectional view;
6 is a sectional view showing a state in which the rupture section is formed;
7 is an enlarged sectional view of a main part.
8 is an enlarged side view of the main part.
FIG. 9 is a process chart of one embodiment of a method of applying a rock bolt according to the present invention. FIG.

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

2, the lock bolt 100 proposed in the present invention is basically formed so as to have a hollow 112 through which a pressure fluid is injected through a front end thereof, a rear end thereof is closed, A hollow body 110 which is inflated by the pressure fluid supplied to the hollow 112 in a state where the recessed portion 114 is formed; A front end cap 120 which is fitted on the outside of the front end of the hollow body 110 in which the concave portion 114 is formed; A rear end cap 130 which is fitted to the outside of the rear end of the hollow body 110 in which the concave portion 114 is formed; And a plurality of rupturing parts 140 formed at different positions of the hollow body 110 so as to be ruptured by the pressure of the pressure fluid after expansion of the hollow body 110.

The rock bolt 100 having such a structure can be constructed as follows.

The lock bolt 100 is inserted into the perforation hole and the hollow body 110 is expanded by injecting the grout G as pressure fluid through the front end of the lock bolt 100. [

Thereafter, the space between the rock bolt 100 and the perforation hole is filled with the grout G flowing out by one or a plurality of ruptures of the plurality of rupturing parts 140.

Alternatively, water may be injected as a pressurized fluid to expand the hollow body 110 to rupture the rupturing part 140, and then the grout G may be injected to fill the grout G flowing through the ruptured part 140, It is possible to fill the space between the lock bolt 100 and the perforation hole.

Here, the injection of water is performed at a high pressure, and the injection of grout is sufficient even at a low pressure.

That is, a plurality of rupturing parts 140 are separately formed in the hollow body 110 of the lock bolt and the rupture parts 140 are ruptured by the pressure after expansion of the hollow body 110, so that excessive pressure is applied to the hollow body 110 And the space between the rock bolt 100 and the perforation hole is naturally filled by the grout flowing from the hollow body 110 due to the rupture.

Therefore, it is necessary to immediately stop the inflow of the high-pressure fluid after the expansion of the hollow body, so that it is not necessary to provide a complicated apparatus and the grouting operation between the outer surface of the lock bolt 100 and the inner surface of the hole is easy, Area, fracture zone, and soft ground layer.

Particularly, in the rock bolt 100 proposed in the present invention, a plurality of the rupturing parts 140 are formed at different positions from each other.

This structure has the following advantages.

First, the structure in which the plurality of rupturing parts 140 are formed is ruptured by any pressure due to the expansion of the hollow body 110.

That is, in the case of a structure in which one rupturing portion 140 is formed, the operation of filling the space between the rock bolt and the perforation hole with the grout is not performed unless rupture of the rupturing portion 140 occurs.

However, in the case of the structure in which the plurality of rupturable parts 140 are formed, any one of the plurality of rupturable parts 140 is ruptured, thereby preventing the possibility that no rupture occurs.

Therefore, it is possible to more reliably fill the space between the rock bolt 100 and the perforation hole with the grout due to the rupture of the rupturing portion 140.

In addition, since the plurality of rupturing parts 140 are formed at different positions, the grout flowing out from the hollow body 110 due to rupture can be uniformly charged in the space between the rock bolt 100 and the perforation hole .

In order to maximize the above advantages, a plurality of rupturing parts 140 may be formed along the longitudinal direction of the hollow body 110, or a plurality of ruptures may be formed along the circumferential direction of the hollow body 110.

The rupturing portion 140 can be processed by a cutting method, a heat treatment method, a laser processing, a cutting by corrosion, or the like.

Specifically, the rupturing unit 140 needs to satisfy two conditions in order to exert the above function.

First, stress concentration on a specific site must occur to rupture at a specific pressure.

Second, the structure should be able to withstand the pressure reliably without rupture up to the above specific pressure.

In the case of a structure in which cutting grooves are formed along the longitudinal direction on the outer surface of the hollow body 110, the above first condition is satisfied, but it is difficult to satisfy the second condition.

The rupturing portion 140 of the lock bolt according to the present invention includes a cutting surface 141 cutting a part of the outer surface along the longitudinal direction of the hollow body 110 and the cutting surface 141 and the hollow body 110 has a thickness gradually widened toward both sides from the center.

This structure satisfies the first condition because the stress concentration occurs at the center (the thinnest portion) between the cutting surface 141 and the inner surface 142 of the hollow body 110.

Since the thickness of both sides does not increase rapidly but gradually widenes, gradual deformation occurs instead of radical deformation as the pressure increases, so that it is possible to stably hold until the rupture due to stress concentration occurs, The conditions are also satisfied.

The configuration in which the thickness between the upper "cutting surface 141 and the inner surface 142 of the hollow body 110 gradually widens from the center toward both sides" means that the cutting surface 141 is flat and the hollow body 110 can be stably realized by the curved structure.

It is preferable to form a chin 143 having a structure that is recessed from the outer surface of the hollow body 110 toward the cutting surface 141 on both sides of the cutting surface 141 in order to reliably specify the rupturing portion 140 Do.

Since the lock bolt 100 has a narrower width than the length, it is preferable for the cutting face 141 to have a narrow width as compared with the length for stable endurance and breakage.

It is preferable that the rupturing portion 140 is formed in a partial region adjacent to the rear end of the hollow body 110 in order to cause the rupture to occur after a sufficient pressure fluid (grout) is filled in the hollow body 110 Do.

As described above, the lock bolt 100 of the present invention is characterized in that a plurality of rupturing parts 140 are formed at different positions.

The plurality of rupturing parts 140 are formed such that the cutting thicknesses d of the cutting surface 141 are different from each other.

In other words, the plurality of rupturing parts 140 include an edge rupture part 140a formed at the edge of the hollow body 110; And a central rupture part 140b formed at the center of the hollow body 110. [

The thickness of the hollow body 110 having the central rupturing portion 140b is greater than the thickness of the hollow body 110 having the rupturing portion 140a.

Therefore, it is preferable that the cutting thickness d2 of the central rupturing portion 140b is greater than the cutting thickness d1 of the rim rupturing portion 140a.

The plurality of rupturing parts 140 include a concave part rupture part 140c formed in the concave part 114 of the hollow body 110. [

The thickness of the hollow body 110 having the concave portion rupture portion 140c is also thinner than the thickness of the hollow body 110 having the center rupture portion 140b so that the cutting thickness of the concave portion rupture portion 140c is It is desirable that the cutting thickness d2 of the central rupturing portion 140b should be smaller than the cutting thickness d2.

The method of constructing the lock bolt of the present invention comprises the following steps.

First, the lock bolt 100 is inserted into the perforation hole.

Grout G or water, which is a pressure fluid, is injected through the front end of the lock bolt 100 to inflate the hollow body 110.

When water is injected through the pressure fluid, the grout G is injected through the front end of the lock bolt 100.

The space between the rock bolt 100 and the perforation hole is filled with the grout G flowing out by one or a plurality of ruptures of the plurality of rupturing parts 140.

As described above, the method of constructing the rock bolt of the present invention is characterized in that the rock bolt 100 having a plurality of rupturing parts 140 is used in order to prevent the rupturing part 140 from being ruptured. Since at least one of the plurality of rupturing parts 140 is ruptured, it is possible to ensure that the grout G flows out.

In addition, there is an advantage that a space between the lock bolt 100 and the perforation hole can be uniformly filled through a plurality of rupturing parts 140 formed at different positions.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

100: Lock bolt 110: Hollow body
112: hollow 114:
120: shear cap 130: rear end cap
140: rupturing portion 141: cutting face
140: rupturing portion 143: jaw portion

Claims (12)

The pressure fluid is supplied to the hollow 112 in a state where the hollow 112 is filled with the pressure fluid through the front end and the rear end is closed and a part is recessed along the circumferential direction, A hollow body 110 which is expanded by the hollow body 110;
A front end cap 120 fitted to the outside of the front end of the hollow body 110 in which the recessed portion 114 is formed;
A rear end cap 130 which is fitted to the outside of the rear end of the hollow body 110 in which the recessed portion 114 is formed;
A plurality of rupturing parts 140 formed at different positions of the hollow body 110 so as to be ruptured by the pressure of the pressure fluid after expansion of the hollow body 110;
(100). ≪ / RTI > The method according to claim 1,
The rupturing part 140
Wherein a plurality of the locking bolts (100) are formed along the longitudinal direction of the hollow body (110). The method according to claim 1,
The rupturing part 140
And a plurality of hollow bolts (100) are formed along the circumferential direction of the hollow body (110). The method according to claim 1,
The rupturing part 140
A cut surface 141 formed by cutting a part of the outer surface along the longitudinal direction of the hollow body 110;
, And the thickness between the cutting surface (141) and the inner surface of the hollow body (110) gradually widen toward both sides from the center. 5. The method of claim 4,
The rupturing part 140
And a plurality of rupturing parts (140) formed with different cutting thicknesses (d) of the cutting surface (141). 6. The method of claim 5,
The plurality of rupturing parts (140)
An edge rupture part 140a formed at an edge of the hollow body 110;
A central rupture part 140b formed at the center of the hollow body 110;
≪ / RTI &
The thickness of the hollow body 110 having the central rupture part 140b is greater than the thickness of the hollow body 110 having the rupture part 140a,
Wherein a cutting thickness d2 of the center rupturing portion 140b is thicker than a cutting thickness d1 of the rim rupture portion 140a. 6. The method of claim 5,
The plurality of rupturing parts (140)
A concave portion rupture portion 140c formed in the concave portion 114 of the hollow body 110;
(100). ≪ / RTI > 5. The method of claim 4,
And a jaw portion (143) having a structure recessed from the outer surface of the hollow body (110) toward the cutting surface (141) is formed on both sides of the cutting surface (141). 5. The method of claim 4,
The cutting surface 141
And the width of the lock bolt (100) is narrower than the width of the lock bolt (100). The method according to claim 1,
Wherein the rupturing part (140) is formed in a part of the hollow part adjacent to the rear end of the hollow body (110). A method of constructing a rock bolt as set forth in any one of claims 1 to 10,
Closing the lock bolt (100) in a perforation hole;
Inflating the hollow body (110) by injecting the grout (G) as the pressure fluid through the front end of the lock bolt (100);
Filling a space between the rock bolt (100) and the perforation hole by the grout (G) flowing out by one or a plurality of ruptures of the plurality of rupturing parts (140);
Wherein the locking bolt is formed of a metal. A method of constructing a rock bolt as set forth in any one of claims 1 to 10,
Closing the lock bolt (100) in a perforation hole;
Injecting water as the pressure fluid through the front end of the lock bolt 100 to expand the hollow body 110;
The grout G is injected through the front end of the rock bolt 100 and the rock bolt 100 is poured by the grout G flowing out by one or a plurality of ruptures of the plurality of ruptures 140, And filling the space between the perforation holes
Wherein the locking bolt is formed of a metal.

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