KR20080004069A - A fixing method of rock bolt unit for tunnel construction - Google Patents

Abstract

An installation method of a lock bolt unit for tunnel construction is provided to prevent a lock bolt from drawing out excessively from a tunnel after the installation of a rock bolt and to fix a lock bolt simultaneously, and to heighten the efficiency on post processing works such as a waterproof sheet attachment work, a shotcrete work and a lining reinforcement work. An installation method of a lock bolt unit for tunnel construction for fixing a lock bolt unit used as a support stiffener of a tunnel or an underground structure to a bedrock hole comprises the steps of inserting a fixture(70) including a pressurizer(60) installed to the front end of a lock bolt unit(100) to a bedrock hole perforated in a foundation tunnel, fastening a nut(50) to a second male thread(12) having a length of 30mm, the rear end of a lock bolt, to fix a backing washer(40) to be supported at the mouth of the bedrock hole from one end of a fixing pipe(30), rotating the lock bolt in a screw fastening direction while the nut is not fastened any more by a stepped projection formed on the end of the second male screw and moving the pressurizer fastened to a first male screw thread(11), the front end of the lock bolt backward, and expanding each wing piece(72) of the fixture and fixing closely to a hanging projection(71) of the wing piece of the fixture, thereby hanging and supporting the fixture in the bedrock hole, and supporting and fixing the rear end of the lock bolt to the mouth of the bedrock hole by the fixing pipe and the backing washer.

Description

A fixing method of rock bolt unit for tunnel construction

1 is a schematic diagram showing the inside of a typical tunnel,

Figure 2 is a perspective view showing the configuration of a conventional lock bolt unit,

3a to 3f is a process flowchart showing the fastening of the conventional lock bolt unit step by step,

Figure 4 is an exploded perspective view showing the configuration of the lock bolt unit of the present invention,

Figures 5a to 5f is a process flowchart showing the fastening of the lock bolt unit according to the invention step by step.

◎ Explanation of code for main part of drawing ◎

A: Foundation Tunnel 1: Rock Hole

10: lock bolt 20: fixed tube

30: fixed body 40: support washer

50: nut 60: pressure port

70: fixture 100: lock bolt unit

B: Waterproof sheet F1, F2: Concrete coating layer

The present invention relates to a lock bolt unit, and more particularly, to improve a construction method for fastening and fixing a lock bolt unit used as a support reinforcement material of a tunnel or underground structure from a drilled rock hole to lock it from the tunnel side after installation of the lock bolt. The present invention relates to a method of constructing a lock bolt for tunnel construction to prevent excessive drawing of bolts and to fix the same, thereby improving waterproof sheet, shotcrete, and lining reinforcement workability.

In general, the lock bolt is fastened to rock structures such as underground structures, tunnels, and the like by a predetermined depth at various angles, and lock bolts are inserted into the perforated holes (hereinafter referred to as rock holes). It is a fixing method. The point where the lock bolt is used is a kind of supporting method for civil construction work, especially in tunnel work, to insert the rock into the rock hole in the ground including the rock of the mountain to form bulbs from the inside to reinforce the rock and the inside of the tunnel. to be.

 In general tunnel construction, the rock holes around 36-40mm in diameter and 2m ~ 4m in depth are drilled into the rock around the tunnel, and the lock bolt is inserted in the rock hole to build the tunnel side. There are two methods of adhering the rock to the front end and the front side. On the basis of the bonding method, the two methods are commonly divided into mechanical (wedge), resin and mortar. At this time, the lock bolts are used in various types such as thickness and length depending on the condition of the rock.

As shown in FIG. 1, the lock bolt 10 installed in several rock holes 1 formed in the foundation nut A has a myriad of lock bolts on the inner surface of the foundation tunnel to prevent collapse of the foundation tunnel. Foundation bolt), mesh-shaped mesh body is installed, and as a supplementary reinforcement concrete construction, the reinforcement film of the tunnel is basically formed by the construction of the coating layer (F1, F2) and the waterproof sheet (B) to complete the tunnel. do.

This reinforcement film construction first uses a rock drill or crusher to drill rock holes into which rock bolts are to be inserted, and then places cement mortar and inserts lock bolts into the corresponding rock holes, or inserts rock bolts and then cement mortar. do. When the cement mortar hardens completely, the lock bolts are firmly fixed in the rock. Here, a plurality of lock bolts are installed at predetermined intervals to sufficiently construct the tunnel by sufficiently holding the concrete load sprayed onto the mesh and maintaining the fixed state.

Looking at the configuration of the conventional lock bolt unit, as shown in the accompanying Figure 2, having a predetermined length, the first male screw portion 11 is formed at the front end, the second male screw portion 12 is formed at the rear end A lock bolt 10; A fixing tube 20 inserted into the lock bolt 10 in a hollow shape and having a plurality of fixing protrusions protruding outward; Inserted and fixed from one end of the fixed tube 20, an annular locking portion 31 is formed on one side, while a mortar inlet 32 for injecting mortar into the fixed tube 20 from the locking portion 31 is A hollow fixed tube body 30 having a through hole 33 through which the rear end of the lock bolt 10 passes; A support washer 40 installed through the stationary tubular body 30 and provided with a mortar outlet 41 on one side to be installed in close contact with the tunnel inner wall surface of the rock hole 1 drilled from the rock; A nut 50 which is fastened to the second male screw part 12 of the lock bolt 10 to fix the fixed tubular body 30 including the support washer 40; A female screw 61 is formed at the center thereof so as to be fastened to the front end of the first male screw portion 11 of the lock bolt 10, and a pressure port 60 having a wide outer end and a rear end of a narrow pyramid shape; A blade piece 72 having a locking protrusion 71 formed on an outer side thereof is formed to cover an outer circumference of the pressing hole 60 so as to correspond to a blade from the rock hole 1 according to the rearward movement of the pressing hole 60. It comprises a fastener 70 for supporting the lock bolt as the fixing of the piece 72.

The first male screw portion 11 of the lock bolt 10 is a structure formed in a predetermined length for the purpose of connecting and connecting the pressing holes 60, the second male screw portion 12 is pressed against the fixture 70 According to the retraction movement of the sphere 60 to have a fastening range of the nut 50, the length is a structure formed to be approximately 100mm or more. That is, the nut 50 is fastened even in the length considering the backward of the lock bolt 10.

Lock bolt unit 100 that combines the lock tube 10, the fixed tube 20, the fixed tube body 30, the support washer 40, the nut 50, the pressurizing device 60, the fixing device 70 as described above ) Is installed in the state of FIG. 2.

For the installation method of the lock bolt of the prior art as described above, please refer to the process diagram shown step by step in the accompanying FIG.

First, in order to achieve the construction of the tunnel as the lock bolt 10 according to the formation of the foundation tunnel A, the front end side pressure opening 60 of the lock bolt 10 is inserted into the rock holes 1 which are perforated according to their positions. Entering the fixture 70, including the guide to the end point of the perforated rock hole (1).

When the lock bolt 10 is pulled backward with respect to the support washer 40 in the state entered as described above, the pressure port fixedly screwed to the front end side first threaded portion 11 of the lock bolt 10 is fixed ( 60 is retracted and at the same time as the movement of the tip side having a large area of the pressure opening 60 extends the wing piece 72 of the fastener 70, wherein the locking portion 71 of the wing piece 72 is a rock hole (1) It will be in a state of being caught and supported (step 2).

At the same time as the second step, the support washer 40 comes into close contact with the starting point of the rock hole 1 and at the same time, the second male screw part of the lock bolt 10 protruding to the rear of the fixed tubular body 30 ( 12 is fastened in the range of the second male threaded portion 12 using the nut 50 fastened to the fixed portion 40, and fixes the fixed tubular body 40 together with the support washer 40 from the entrance of the rock hole (3). step).

In the form as in the third step, the mortar is injected through the mortar inlet 32 formed in the fixed tube 30 in the state in which each lock bolt 10 is installed at the corresponding point. Here, the injection of mortar is introduced into the end point of the rock hole (1) through the inside of the fixed tube 20, it is returned to the rock hole (including the outer circumference of the fixed tube 30 along the outside of the fixed tube 20) 1) to fill, and when the mortar flows through the mortar outlet 41 of the support washer 40 stops the injection of mortar, from this time to have a mortar curing time (step 4).

In the state where the mortar is hardened as described above, the concrete coating layer F1 is formed by the shotcrete (concrete spraying) at the same time as the reinforcement of the mesh in the tunnel, and when the shotcrete work is completed and cured, the waterproof sheet ( Attachment of B) takes place (step 5).

For reference, in the shotcrete operation, shotcrete is a liquid type fastener having rapid adhesion and initial coagulation, and is a product that is essentially used in a surface or tunnel method.

After completion of the waterproof sheet work as described above to finish the construction inside the tunnel by performing a lining in the tunnel to finish the concrete coating layer (F2) using the concrete water (step 6).

In the installation step of the lock bolt 10 is constructed as described above, in the step 3, the lock bolt is retracted to extend the wing piece 72 of the fixture 70 to the reverse of the pressure port 60, lock bolt ( In fixing the lock bolt by fastening the nut 50 at the second male thread part 12 of 10), the lock bolt 10 has a rear end of the lock bolt at least 100 mm or more from the end of the fixed tubular body 30. Unnecessarily protruding, the protruding length is a problem that the lifting sheet of the waterproof sheet is remarkably generated on the shotcrete surface because the protruding range of the lock bolt is considerable in attaching the waterproof sheet which is performed in a post-process. There was this.

In view of the above, the cutting of the length of the lock bolt that protrudes excessively after the construction of the lock bolt is further illegally established. Therefore, the waterproof sheet work, which is a post-process as described above, becomes difficult and requires a lot of time. In construction, there was a problem that the air is delayed.

The present invention has been invented for various problems as described above, by improving the method of fastening and fixing the lock bolt used as a support reinforcement of the tunnel or underground structure from the perforated rock hole to prevent excessive withdrawal of the lock bolt The purpose is to be able to improve the reinforcement work such as waterproof sheet, shotcrete, lining, etc. to be carried out in the post-process.

According to the present invention for achieving the above object, a lock bolt having a predetermined length, the first male screw portion is formed at the front end, the second male screw portion is formed at the rear end; A fixing tube inserted into the lock bolt in a hollow shape and having a plurality of fixing protrusions protruding outward; It is inserted and fixed from one end of the fixed tube, an annular locking portion is formed on one side, while a mortar inlet for injecting mortar into the fixed tube is provided from the locking portion, and the through hole through which the rear end of the lock bolt is formed. Fixed tube; A support washer installed through the fixed tube body and provided with a mortar outlet on one side so as to be in close contact with the tunnel inner wall surface of the rock hole drilled from the rock; A nut fastened to the second male threaded portion of the lock bolt to fix the fixed tube including a support washer; A female screw formed at a center thereof so as to be coupled to the front end of the first male threaded portion of the lock bolt, and a pressure port having a wide outer end and a rear end having a narrow pyramid shape; By using a lock bolt unit that includes a fastener for supporting the lock bolt from the rock hole to the fixing of the wing piece according to the rearward movement of the pressing hole is provided to correspond to the wing piece is formed on the outer surface in the form of surrounding the outer periphery of the pressing hole. After embedding into rock holes drilled in the foundation tunnel, mortar is injected and hardened into the rock holes through the mortar inlet of the fixed tube, and the concrete coating layer is formed by the shotcrete work together with the mesh work in the tunnel. In the method of building a tunnel by attaching a waterproof sheet on the surface of the concrete coating layer, and lining to have a curved surface in the secondary concrete coating layer tunnel after the waterproof sheet is completed,

In the state of guiding the fixing tool including the locking end of the lock bolt to the end point of the rock hole to each perforated rock hole inside the basic tunnel as a nut through the second male screw portion of the lock bolt, the second male screw portion At the same time, the lock bolt is simultaneously rotated in the screwing direction in a range in which the nut is no longer fastened by forming a stepped jaw from the point where the thread of the second male threaded portion is completed. The presser fastened from the first male screw portion is retracted from the fastener so that the fastener can be held in the rock hole as an extension of the wing piece of the fastener, and at the same time, the rear end of the lock bolt is fixed to the fixed tube body and the support washer by tightening the nut. It is characterized in that the support is fixed at the beginning of the rock hole through.

Hereinafter, the present invention will be described with reference to FIGS. 1 to 4 and 5.

4 is an exploded perspective view showing the configuration of the lock bolt unit of the present invention, and FIGS. 5A to 5F are process flowcharts showing the fastening of the lock bolt unit according to the present invention step by step.

The present invention provides a lock bolt (10) having a predetermined length, having a first male screw portion (11) formed at a tip, and a second male screw portion (12) formed at a rear end thereof; A fixing tube 20 inserted into the lock bolt 10 in a hollow shape and having a plurality of fixing protrusions protruding outward; Inserted and fixed from one end of the fixed tube 20, an annular locking portion 31 is formed on one side, while a mortar inlet 32 for injecting mortar into the fixed tube 20 from the locking portion 31 is A hollow fixed tube body 30 having a through hole 33 through which the rear end of the lock bolt 10 passes; A support washer 40 installed through the stationary tubular body 30 and provided with a mortar outlet 41 on one side to be installed in close contact with the tunnel inner wall surface of the rock hole 1 drilled from the rock; A nut (50) fastened to the second male threaded portion (12) of the lock bolt (10) to fix the fixed tube body (30) including a support washer (40); A female screw 61 is formed at the center thereof so as to be fastened to the front end of the first male screw portion 11 of the lock bolt 10, and a pressure port 60 having a wide outer end and a rear end of a narrow pyramid shape; A blade piece 72 having a locking protrusion 71 formed on an outer side thereof is formed to cover an outer circumference of the pressing hole 60 so as to correspond to a blade from the rock hole 1 according to the rearward movement of the pressing hole 60. The locking bolt unit 100 including the fastener 70 supporting the lock bolt by fixing the piece 72 is embedded in the rock hole 1 drilled in the basic tunnel A, and then fixed body. (30) through the mortar inlet 32 to form the concrete coating layer (F1) by shotcrete work with the mesh work in the tunnel in the state of the mortar injection and hardening in the rock hole, and then on the surface of the concrete coating layer In the method of building a tunnel by attaching a waterproof sheet (B), lining to have a curved surface in the secondary concrete coating layer (F2) tunnel after completion of the waterproof sheet (B) attached,

In the state of guiding the fastener 70 including the front end side pressing hole 60 of the lock bolt 10 to each end of the rock hole (1) perforated inside the basic tunnel (A) to the end point of the rock hole (1) The second male threaded portion 12 of the lock bolt 10 is fastened as a nut 50, wherein the second male threaded portion 12 has a length of at least 30 mm, while the thread of the second male threaded portion 12 is The first step side of the lock bolt 10 is formed by simultaneously rotating the lock bolt 10 in the screwing direction in a range in which the nut 50 is no longer fastened by forming the stepped jaw 13 from the completion point. While pressing the fastener (60) fastened from the threaded portion 11 to the back of the fastener 70 to extend the wing piece 72 of the fastener 70 to hang the fastener 70 in the rock hole (1) and at the same time , The rear end of the lock bolt 10 is supported at the beginning of the rock hole (1) through the fixed tubular body 30, the support washer 40 by the fastening of the nut 50 Is a method to be fixed.

The forming section of the first male screw portion 11 of the lock bolt 10 is a screw section is formed with a length of at least 100mm or more, so that the fastening port is fastened at an appropriate position.

At least two wing pieces 72 of the fastener 70 are formed to form a coupling protrusion 73 on a surface in contact with the tip of the pressing tool 60, and the coupling protrusion at the tip of the pressing tool 60. A guide groove 62 is formed to accommodate the 73 and the engaging projection 73 is separated from the guide groove 62 when the pressure port 60 is fastened from the first male threaded portion 11 of the lock bolt 10. It was made possible.

Referring to the operation and effects of the construction of the lock bolt for tunnel construction of the present invention configured as described above are as follows.

5A to 5F, the fastener 70 includes a pressing part 60 installed at the distal end of the lock bolt unit 100 in the rock hole 1 that is perforated in position in the basic tunnel A. FIG. Insert

Following insertion of the front end side of the lock bolt 10 as described above, the operator turns the nut 50 which is fastened to the second male threaded portion 12, which is the rear end of the lock bolt, in the tightening direction to support it from one end of the fixed tubular body 30. The washer 40 is fastened and fixed in a range supported from the beginning of the rock hole 1.

The fastening of the nut 50 is fastened from the second male threaded part 12 having a thread of 30 mm length, wherein the fastening range of the nut 50 is limited to a degree of fixing the support washer 40, and then continuous When rotated in the normal fastening direction, the nut 50 is no longer fastened from the stepped jaw 13 formed at the end of the second male threaded portion 12, and includes a fixed tube 20, including a fixed tube ( 30), the lock bolt 10 is rotated at the same time.

Including the fixed tube 20 including the lock bolt 10, the pressure port 60 is fastened to the distal end of the fixed tube body 30 is installed against the self-rotation of the lock bolt (10) The guide groove 62 on the pressure port 60 side is released from the coupling protrusion 73 formed from the 70, and then in the state of being engaged with the first male screw portion 11 of the lock bolt 10. It is gradually tightened to the rear and transported backward.

That is, since the tip side of the pressurization port 60 to be conveyed is wide, as the retreat, each wing piece 72 of the fixture 70 is made to expand, while at the same time the wing piece 72 inside the rock hole (1) Since the locking protrusion 71 which is an outer side surface of the outer surface is in a form of being supported in a wedge manner, the front end portion of the lock bolt 10 is fixed at the inside thereof.

The hooking portion 71 continuously formed on one side of the wing piece 72 is fixed in a wedge manner in the form of pressing the inside of the rock hole 1, and the nut 50 at this time is a wing piece of the fixture 70. (72) The retraction is no longer made by the expansion, and the lateral support washer 40 is kept in a state of being closely supported at the entrance of the rock hole 1.

That is, the nut 50 is fastened to the rear end side of the lock bolt 10 from the second male threaded part 12 having a length of 30 mm, and the pressure port 60 is the first male threaded part 11 formed to be 100 mm or more. By tightening while being retracted in the range), the front end and the rear end of the lock bolt 10 can be stably fixed from the rock hole (1).

As described above, the protruding length of the second male threaded portion 12 except for the nut 50 fastened and fixed to the rear end side of the lock bolt 10 is only about 12 to 15 mm protruding length is maintained, the mesh body leading to the subsequent process, After completion of the concrete coating layer (F1) by the quenching of the sprayed concrete (shotcrete), it is possible to prevent the lifting when attaching the waterproof sheet, which is carried out for waterproofing purposes, and to finish the lining work performed to form the inner wall in the tunnel as a finishing work. Construction of the concrete coating layer F2 can be advantageously achieved.

Therefore, the rear end of the lock bolt, which has been excessively protruded in the conventional lock bolt unit, is maintained at a minimum length (12 to 15 mm) in the present invention, and is firmly fixed by screwing the pressure port against the lock bolt. There is an advantage that the post-process is convenient.

As described above, the present invention is a construction method for fastening and fixing a lock bolt unit used as a support reinforcing material of a tunnel or underground structure from a drilled rock hole, and the front end side of the lock bolt from the rock hole is an expansion of the fastener by fastening a pressing hole. In addition, the second male thread formed at the rear end by fastening the end of the log bolt is shortly formed with a length of about 30 mm and has a stepped jaw so that the fastening of the nut is easy without the backward movement of the lock bolt. By making it effective, it is possible to effectively attach the waterproof sheet leading to the post-process, and to make the shotcrete and lining reinforcement work more useful, and to shorten the air.

Claims (2)

A lock bolt 10 having a predetermined length, and having a first male screw portion 11 formed at a front end thereof and a second male screw portion 12 formed at a rear end thereof; A fixing tube 20 inserted into the lock bolt 10 in a hollow shape and having a plurality of fixing protrusions protruding outward; Inserted and fixed from one end of the fixed tube 20, an annular locking portion 31 is formed on one side, while a mortar inlet 32 for injecting mortar into the fixed tube 20 from the locking portion 31 is A hollow fixed tube body 30 having a through hole 33 through which the rear end of the lock bolt 10 passes; A support washer 40 installed through the stationary tubular body 30 and provided with a mortar outlet 41 on one side to be installed in close contact with the tunnel inner wall surface of the rock hole 1 drilled from the rock; A nut (50) fastened to the second male threaded portion (12) of the lock bolt (10) to fix the fixed tube body (30) including a support washer (40); A female screw 61 is formed at the center thereof so as to be fastened to the front end of the first male screw portion 11 of the lock bolt 10, and a pressure port 60 having a wide outer end and a rear end of a narrow pyramid shape; A blade piece 72 having a locking protrusion 71 formed on an outer side thereof is formed to cover an outer circumference of the pressing hole 60 so as to correspond to a blade from the rock hole 1 according to the rearward movement of the pressing hole 60. The locking bolt unit 100 including the fastener 70 supporting the lock bolt by fixing the piece 72 is embedded in the rock hole 1 drilled in the basic tunnel A, and then fixed body. Through the mortar inlet 32 of 30, mortar is injected and hardened in the rock cavity, the concrete coating layer F1 is formed by shotcrete with the mesh work in the tunnel, and then on the surface of the concrete coating layer. In the method of building a tunnel by attaching a waterproof sheet (B), lining to have a curved surface in the secondary concrete coating layer (F2) tunnel after completion of the waterproof sheet (B) attached, In the state of guiding the fastener 70 including the front end side pressing hole 60 of the lock bolt 10 to each end of the rock hole (1) perforated inside the basic tunnel (A) to the end point of the rock hole (1) The second male threaded portion 12 of the lock bolt 10 is fastened as a nut 50, wherein the second male threaded portion 12 has a length of at least 30 mm, while the thread of the second male threaded portion 12 is From the point of completion, the stepped jaw 13 is formed to simultaneously rotate the lock bolt 10 in the screwing direction in a range in which the nut 50 is no longer fastened, so that the first side of the lock bolt 10 is first. And the fastener 70 fastened from the male screw portion 11 to be retracted from the fastener 70 so as to support the fastener 70 in the rock hole 1 as an extension of the wing piece 72 of the fastener 70. At the same time, the rear end of the lock bolt 10 is at the beginning of the rock hole 1 through the fixed tubular body 30 and the support washer 40 by the fastening of the nut 50. The construction method of tunnel construction unit for the rock bolt, characterized in that the support to be fixed. The method of claim 1, wherein at least two wing pieces 72 of the fastener 70, the engaging projection 73 is formed on the surface in contact with the front end of the pressing device 60, the pressing device 60 Guide grooves 62 for receiving the coupling protrusions 73 are formed at the tip of the coupling protrusions when the pressure holes 60 are fastened from the first male threaded portion 11 of the lock bolt 10. A construction method of a lock bolt unit for tunnel construction, characterized in that 72 is separated.

Images