KR101690003B1 - Open rock bolt construction method - Google Patents

Abstract

The present invention relates to a method of constructing an exposed rock bolt, and more particularly, to a rock bolt construction method capable of easily identifying a rock bolt using a rock bolt cap, And a bolt construction method.
According to an aspect of the present invention, there is provided an exposed rock bolt construction method for constructing a tunnel according to the formation of a base tunnel, the tunnel bolt construction method comprising the steps of: (a) installing a first shotcrete on a rock surface of a foundation tunnel; A shotcrete forming step; (b) a perforating step of perforating a rocking bolt to be inserted into the rock bolts as many as the designed number of rock bolts by using a punching device; (c) a locking bolt inserting step of inserting the locking bolt into the perforated arm anticlock by guiding the distal end side of the locking bolt to the end point of the arm anticlocking so that the rear end side of the locking bolt protrudes; (d) a lock bolt fixing step in which an acupressure plate is installed at the beginning of arm anti-hole while the lock bolt is inserted, and the nut is fastened and fixed; (e) a second shotcrete forming step of forming a coating layer by a second shotcrete pouring and exposing a rear end of the rock bolt to an upper portion of the coating layer; And (f) a locking bolt cap fastening step of fastening the locking bolt cap to the rear end of the locking bolt.

Description

Open rock bolt construction method.

The present invention relates to a method of constructing an exposed rock bolt, and more particularly, to a rock bolt installation method capable of easily identifying a rock bolt installation position, To a method of constructing an exposed rock bolt.

Generally, after excavation of a rock during tunnel construction, deformation such as cracks and joints of rocks occurs. Therefore, it is necessary to stabilize the rock by connecting rocks with mechanical discontinuities to a kind of sealing structure and suppressing deformation early. In order to maintain the stability of the tunnel, rock bolts are installed on the rocks of the tunnels.

In addition, there is always a risk of collapse before and after construction, such as construction site or tunnel excavation site. Therefore, it is necessary to construct rock bolts (or rock anchors) in order to prevent collapse of construction cut surfaces and tunnel excavation surfaces.

Korean Patent Registration No. 10-1383277 (Registration date 2014.04.02) entitled " Lock bolt installation device and method of installing a lock bolt using the same, " Korean Patent Registration No. 10-1196889 ), The name of the invention 'Rock bolt and its construction method', and the like.

By the way, according to the Citizen Daily report on Thursday, October 9, 2014, it is as follows.

"During the construction of the highway tunnel under the Korea Highway Corporation, even the construction of a rock bolt, which is a core part that prevents the collapse of rocks and earth slags, was carried out, but a lot of construction site engineers who were charged with the construction charge were found.

The Seoul Central District Prosecutor's Office, special division 3 (head supervisor Moon Hong-sung), is suspected of fraudulently charging the price of rock bolt construction (a fraud in the specific economic crime punishment law), construction worker, subcontractor (55), who was arrested on suspicion of arresting three colleagues at the site, and the director of the Kyeryong Construction Industrial Site.

In addition, Kim Moo (48), director of the Dongbu construction site, and Park Moo (50), the head of Daewoo construction site, including the allegation of submitting a false transaction statement and tax bill to the road construction during rock bolt construction, Seven of them were indicted without charge.

According to the prosecutors, they were divided into two groups: Yeongdong-Okcheon 1, Jungjin-Sokcho 5, Damyang-Seongsan 6, Donghocheon-Yangyang 6, Donghocheon-Yangyang 11, Donghocheon-Yangyang 14, Sangju-Young-duk 5, etc. The construction of the rock bolt is under construction.

In particular, in Yeongdong-Okcheon 1, waste of more than 4 billion won was wasted due to the construction of rock bolts.

As a result of the prosecution investigation, Shin, a director of the Sunsan Construction Site, Lee Shin-hyun, the head of the Calculation & Construction Industry Division, said that from July 2011 to February 2012, 4046 out of 17,710 rock bolts were designed. He is accused of taking unfair advantage of 59.35 million won.

Yang Moo (47, arresting prosecutor), the head of the Kusan construction site, did not install 12,420 out of 18,350 rock bolts designed for Jumunjin-Sokcho 5, but from October 2009 to January 2011, He is accused of falsely claiming a monetary contribution of 10,000 won.

Dongbu Engineering & Construction Co., Ltd. has overpaid 583.88 million won for the construction of the Dongcheng-Yangyang 11 section. Chung Moo, 49, a prosecutor at the site, said that he did not construct 8390 out of the 29,909 rock bolts to be used in the design phase from February last year until March of last year.

Kim Mo (48, detention charge) and Ko Moo (43, detention charge) in the same section falsified the documents related to the transaction because of the fact that they charged the excessive use of rock bolts.

The quality control team of Samsung C & T's quality management team delegated false information to the main material inspections and wage forms at Damyang-Seongsan 6, Daegu Construction & Engineering Co., The prosecutor's investigation revealed that Park Moo (50, non-detention indictment), the head of the Hongcheon-Yangyang 6th Division, also made materials for the main material inspections.

The prosecution believes that the overpayment of the overcharged tools amounted to 18.7 billion won, which means that the average rate of non-locking bolts reached 27%.

The prosecution notified the Korea Highway Corporation of the necessity of enhancing the precise safety diagnosis of the tunnel and the future supervision of the tunnel by sending the excess amount of the overcharge for the rock bolt construction of the tunnel construction and the unfinished construction of the rock bolt.

In addition, it plans to cooperate with Korea Highway Corporation in return for a total of 18.7 billion won of overcharge for construction of rock bolts.

On the other hand, it pointed out that the construction of the rock bolts in the tunnel construction is neglected due to the lack of management and supervision of the contractor, and the excessive burdens of customary funds for the maintenance of the deficit of the tunnel construction companies.

The inspection supervisor who concluded the construction supervision contract with the road construction supervisor of the Korea Highway Corporation did not confirm the quantity of actual materials such as rock bolts and quality, The prosecution confirmed.

It is not easy to visually confirm the actual construction of the rock bolts buried in the inside of the tunnels when the concrete bolts are installed after the rock bolts are installed. Due to the nature of the tunnel works conducted 24 hours, It is the prosecutor's explanation that it leads to the director. "

In addition, according to the article of Kyungbuk Ilbo on October 15, 2014, it is as follows.

"It has been revealed that the construction of the 'Rock bolt', which prevents tunnel collapse during the highway tunnel construction project ordered by KEC, was carried out in 78 tunnels, 64% of 121 tunnels nationwide.

The rock bolt that reinforced the tunnel was constructed less than the design quantity. Of these, it was confirmed that construction was carried out in 11 tunnels and 25 tunnels in Gyeongbuk area including Lotte Construction, Doosan E & C, SK Engineering & Construction, and 3 Pohang-Ulsan Expressway Tunnels.

Rock bolts are ground reinforcement materials that are drilled into rock to prevent rocks from collapsing during tunnel excavation.

(Yeongdeok Tunnel), Yangyang ~ Sungsan 14th tunnel (Goryeong 2nd ~ 4th Tunnel), Andong ~ Yeongdeok 16th tunnel (Anseong 2 tunnel, Anpyeong 1 tunnel) (Tunnels 6 ~ 10 Tunnels), Sangju ~ Youngdeok 11 Tunnels (Gilan 2 ~ 3 Tunnels), Andong ~ Youngdeok 15 Tunnels (Pohang-Ulsan), Pohang-Ulsan (Pohang-Ulsan), and Pohang-Ulsan (Pohang-Ulsan) tunnel (1 and 2 tunnels).

Lotte E & C, Doosan E & C, SK E & C and other construction companies in the Pohang-Ulsan area were confirmed.

Rock bolt trouble maker charged rock bolt of highway tunnel rock bolt, and demanded price like 187 million won, and prosecutor was indicted by a lot of field related people.

The investigation was conducted during a survey conducted by the prosecution on a survey of 76 tunnels and 121 tunnels commissioned by the Korea Highway Corporation in 2010.

Rock bolts are buried inside the tunnel and it is difficult to confirm whether the construction is bad or not, so it is proved that the contractors cheat the contractors as they used the design as few as the actual design quantity.

However, it is pointed out that the construction of the rock bolt can be seriously flawed in the safety of the tunnel.

Meanwhile, the prosecution will ask the road construction for a precise safety diagnosis of the tunnel, while the construction companies plan to return the overcharged construction expenses to the full amount. "

In the rock bolt construction method as described above, there is still a possibility of insufficient construction, and the problem is analyzed as follows.

First, there is a difficulty in understanding the quantity of construction of the rock bolt, and there is a difficulty in staying in the nighttime to supervise and supervise with 24 hours work in the tunnel. This is because it is difficult to grasp the quantity of rock bolts buried by the second shotcrete installation after the completion of the rock bolt construction.

Second, it is difficult to secure the tunnel cycle time. In other words, in case of an unexpected waiting time for maintenance of 2 times / day cycle time, a portion of the rock bolt construction may be abandoned. After the second shotcrete pouring, It is difficult to confirm the quantity.

Thirdly, there may be cheating of workers. In other words, the most commonly used steel lock bolts have poor workability due to heavy weight, and there is a possibility of causing bad construction during night work due to high fatigue of workers, and there is a case where the steel lock bolt is treated with scrap iron to pursue personal profit .

Korean Patent Registration No. 10-1383277 (Registered on Apr. 20, 2014), entitled " Lock bolt installation device and method of installing lock bolt using the same " Korean Patent Registration No. 10-1196889 (registered on October 26, 2012), the name of the invention 'Rock bolt and its construction method'

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-described problems, and it is an object of the present invention to provide a method of mounting a rock bolt on a shotcrete coating layer, Which can be easily seen by attaching a lock bolt cap which can be attached to a rock bolt.

According to an aspect of the present invention, there is provided a method of constructing an exposed rock bolt for constructing a tunnel by forming a base tunnel,

(a) a first shotcrete forming step of placing a first shotcrete on a rock surface of the foundation tunnel;

(b) a perforating step of perforating a rocking bolt to be inserted into rock bolts as many as the designed number of rock bolts are inserted into the rock bolt using a punching device;

(c) a locking bolt inserting step of inserting the locking bolt into the perforated arm anticlock by guiding the distal end side of the locking bolt to the end point of the arm anticlock, so that the rear end side of the locking bolt protrudes;

(d) a locking bolt securing step of securing an acupressure plate at the initial position of the arm rest and inserting the nut while the locking bolt is inserted;

(e) a second shotcrete forming step of forming a coating layer by a second shotcrete pouring and exposing a rear end of the rock bolt to an upper portion of the coating layer; And

(f) a locking bolt cap fastening step of fastening a locking bolt cap to a rear end side end portion of the locking bolt.

According to the present invention, after the installation of the rock bolt, the rock bolt is not fully buried due to the second shotcrete pouring, and it is easy to identify the rock bolt, and it is advantageous that the rock bolt does not need to be held at night for supervision have.

In addition, it is difficult to secure tunnel cycle time. In case of unexpected work waiting for maintenance of 2 times / day cycle time, if lock bolt construction is partially abandoned, the quantity of rock bolts can be detected in the next process, There is an advantage.

In addition, after the installation of the rock bolt, even after the second shotcrete is laid, it is possible to easily grasp the quantity due to the lock bolt cap, which is advantageous in preventing cheating of workers.

1 is a schematic view showing the inside of a tunnel.
2 is a schematic cross-sectional view illustrating the configuration of an exposed rock bolt according to an embodiment of the present invention.
3 is a schematic process flow chart showing a method of applying an exposed rock bolt according to the first and second embodiments of the present invention.
4 is a view showing an exemplary verification sheet to which an embodiment of the present invention is applied.

A tunnel excavation system will now be described in order to facilitate understanding before the present invention is implemented.

Tunnel excavation system is a passage for passing through railway, road, waterway, sewer etc. In tunnel construction, safe and economical excavation method considering the topography, geology, construction, and length of tunnel Should be selected. These excavation methods include the conventional method, the latest method, and other methods. The conventional method is a method of supporting the load with wood or steel rib, which is low in safety and has been widely used in mines. The latest methods include a new austrian tunneling method, a TBM tunnel boring machine method, and a shield driving method.

(1) The NATM method is a method of using the ground itself as main support material, which is widely applied to the mountain tunnel construction.

(2) The TBM method is a method of cutting or crushing the tunnel cross section by using a rotary cutter of hard rock tunnel boring machine without using explosives, and is mainly applied to rock tunnel excavation work.

(3) The shielding method is a method of excavating a tunnel by propelling a forced cylindrical excavator called a shield in the ground, which is useful for excavating the soil with soft soil and water.

Other methods include open cut method and immersed method. The open type method is a method of making a tunnel by constructing a tunnel body from the bottom of the earth to a certain depth and buried it as a cutting method. It is mainly used in a subway tunnel. The soaking method is a so-called "bottom tunnel", which is a method of excavating a tunnel under the seabed or underground water. A tunnel box is made on the ground, floated in the water, and transported to the site.

[0001] The present invention relates to a rock bolt construction method using the NATM method, in which a rock bolt is inserted into rocks of an underground structure, a tunnel or the like at predetermined angles at predetermined angles, And a step of securing the lock bolts to each other by clamping the lock bolts.

These rock bolts are used in civil engineering construction work, especially in tunnel construction, etc. They are inserted into the anti-cavities in the ground including the rocks in the mountains, forming a bulb from the inside to reinforce the inside of the rocks and tunnels. Method.

In general tunnel construction, it is intended to construct a tunnel side by inserting rock bolts in a rock anticollage having a diameter of about 36-40 mm and a depth of 2 m to 4 m in the rock around the tunnel, , And the method of bonding to the rock is a tip bonding method and a front surface bonding method. Based on the bonding method, the two methods are commonly divided into mechanical type (wedge type), water type (resin type), and mortar type. In this case, various kinds of rock bolts may be used depending on the condition of the rock, such as thickness and length.

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

The following embodiments are provided to fully convey the spirit of the present invention to a person having ordinary skill in the art to which the present invention belongs. The present invention is not limited to the embodiments shown herein but may be embodied in other forms. For the sake of clarity, the drawings are not drawn to scale, and the size of the elements may be slightly exaggerated to facilitate understanding.

1, an exposed rock bolt 100 installed in several female anti-cavities 1 formed in a base tunnel A has a large number of rocks on the inner surface of a base tunnel to prevent collapse of the root tunnel The shotcrete application layer F1, the waterproof sheet B, and the lining application layer F2 as the auxiliary reinforced concrete waterworks work after the bolts (foundation bolts) By constructing the tunnels, basically a reinforcement film of the tunnel is formed to complete the tunnel.

This reinforcing membrane construction should be made by first drilling a rocking bolt to be inserted into a rock bolt by using a rock drill or a crusher, then inserting a cement mortar into the corresponding rock bolt, inserting a rock bolt, or inserting a rock bolt, do. When the cement mortar is completely hardened, the rock bolt is firmly fixed in the rock. In this case, a plurality of rock bolts are provided at predetermined intervals to sufficiently endure the concrete load injected into the mesh body, and to firmly maintain the fixed state, thereby constructing the tunnel.

The technical idea of the present invention is that the upper part of the rock bolt protrudes above the shotcrete coating layer by a predetermined height even after the shot bolts are installed after the rock bolts are installed so that the rock bolts are installed So that a seat for attaching the lock bolt cap can be formed and easily confirmed through the attached lock bolt cap.

Therefore, it is solved the difficulty to grasp and confirm the quantity of rock bolt construction, and it is solved the difficulty to stay in the night to supervise and supervise with 24 hours work in tunnel, and after shotcrete is put after rock bolt installation The lock bolt cap is installed and made visible so that the quantity can be easily determined.

In addition, it is difficult to secure the tunnel cycle time. In other words, in case of unexpected waiting time to maintain the 2 times / day cycle time, if the rock bolt construction part is abandoned, the quantity of rock bolts buried in the next process after shotcrete pouring .

It can also prevent workers from cheating. In other words, the most commonly used steel lock bolts have poor workability due to their heavy weight, and there is a possibility of causing bad construction during night work due to the high fatigue of workers. Even if the steel lock bolts are treated with scrap iron for personal profit, (shotcrete) can be easily confirmed with a rock bolt cap even after the installation, cheating can be blocked.

Therefore, although the possibility of insufficient construction still exists, the above-mentioned problem can be solved by the practice of the present invention.

As shown in FIG. 2, the exposed rock bolt 100 according to an embodiment of the present invention includes a rock bolt 10 having a threaded portion formed in a longitudinal direction thereof; An arch-shaped pressure plate 20 installed on the rock bolt 10 so as to be closely attached to the inner wall surface of the tunnel of the cancer arm 1 punctured from the rock; And a nut 30 which is fastened to the threaded portion of the lock bolt 10 and fixes the pressure plate 20. The first shotcrete is inserted into the base tunnel A, A concrete application layer F1 is formed by a second shotcrete operation together with a mesh work in the tunnel and then easily distinguished from the rock bolts exposed to the outside of the application layer F1 And a lock bolt cap 40 of a different color or fluorescence.

Since the exposed rock bolt 100 is provided, the quantity of the rock bolt can be easily grasped and confirmed before the post-process.

That is to say, after the first shotcrete operation is performed in the base tunnel A, the rock bolts 10 are guided to the end points of the rock bolts 10 in the state where the tip ends of the rock bolts 10 are guided to the end points of the rock bolts 10 10 so that the rear end of the lock bolt 10 is supported and fixed at the top of the arm half 1 through the pressurizing plate 20 by fastening the nut 30 After the second shotcrete operation, the rear end of the exposed rock bolt is covered with the lock bolt cap 40, which is easy to grasp and confirm the quantity of the rock bolt without being disturbed by the post-process.

Thereafter, a waterproof sheet B is attached to the surface of the concrete application layer, and a tunnel is formed by performing a lining operation to have a curved surface in the concrete application layer (F2) tunnel after completion of the attachment of the waterproof sheet (B) .

As shown in FIG. 3, the exposed rock bolt construction method according to the first embodiment of the present invention will be described in detail as follows.

The first embodiment of the present invention is applied to a case where a rock bolt material is made of a metal material such as steel.

(A) First, a shotcrete is cast on a rock surface excavated in order to construct a tunnel according to the formation of a foundation tunnel (SA01).

For reference, shotcrete is a liquid-phase type quick-setting material with fast adhesion and early condensation, and is an essential product for use in the surface and tunnel works.

(B) Next, by using a rock drill or a crusher, the rock bolts 10 to be inserted into the rock bolts 10 as many as designed are drilled. (SA02)

(C) Next, the rock bolt 10 is inserted by guiding the tip end of the lock bolt 10 to the perforated arm anticlock 1 to the end point of the arm anticlock (SA03).

At this time, the rock bolt 10 is inserted so as to protrude by a predetermined length so as to be exposed at a predetermined height (about 4 to 5 cm) after the second shotcrete installation, which will be described later.

(D) Next, in the state where the lock bolt is inserted, the acupressure plate 20 is installed at the beginning of the arm anti-hole, and the nut 30 is fastened and fixed.

That is, when the rock bolt 10 is constructed, the pressure-sensitive plate 20 and the nut 30 are tightened so as to protrude about 4 to 5 cm from the coating layer of the second shotcrete stage described later.

(E) Next, when the rock bolt 10 is fixed to the plurality of the arm rests 1 drilled in the rock in either of the SA03 step and the SA03 step, the inside of the arm rest 1 and the rock bolt (SA05) is injected into the inner side of each female antirejection (1) by an amount which is set so as to be filled in the clearance of the male connector (10)

That is, the cement mortar is placed in the female counter-hole 1 and the rock bolt 10 is inserted, or the rock bolt 10 is inserted, and then the cement mortar is poured. When the cement mortar is completely hardened, the rock bolt (10) is firmly fixed in the rock.

(F) Next, a concrete shot layer F1 is formed by a second shotcrete placement (SA06)

At this time, it is checked whether the lock bolt 10 is exposed to the upper end of the entrance of the female anti-hole 1 so as to cover the lock bolt cap 40.

(SA) Next, the anti-corrosive treatment is performed on the site where the rock bolt is to be exposed in any of SA03, SA06, and SA07. (SA07)

The lock bolt 10 is prevented from being easily corroded due to a metal material such as steel or the like, and can be coated or coated with a preventive liquid such as epoxy in the prevention process.

(A) Next, the rounded arch bolt cap 40 is fastened to the exposed rock bolt 10 (SA08).

Particularly, the lock bolt cap 40 may be coated or coated with light-emitting, fluorescent, and distinguishable two-color hue. Since the rock bolt cap 40 is located between the rock wall and the waterproof sheet as a back-end process, it is preferable to use a material resistant to corrosion.

At this time, it is possible to confirm whether or not the lock bolt is attached even in the extreme environment (a small amount of light or dust), and the readability is increased to make it easy to grasp the quantity.

Further, the lock bolt cap 40 has a strength that is not damaged by impacts during operation or a softness that is not easily broken.

In addition, it protects the protruding sharp part of the lock bolt smoothly while protecting the waterproof sheet.

Thus, the exposed rock bolt 100 includes the rock bolt 10, the pressure applying plate 20, the nut 30, and the lock bolt cap 40.

(SA09) Next, the waterproof sheet B is adhered in the cured state after the second shotcrete operation is completed. (SA09)

Thus, the method of constructing the exposed rock bolt according to the first embodiment of the present invention is completed.

Next, as shown in FIG. 3, a method of constructing an exposed rock bolt according to a second embodiment of the present invention will be described step by step.

The second embodiment of the present invention is applied to a case where a glass fiber material such as glass fiber reinforced plastic (GFRP) or the like, which is resistant to corrosion and light in weight, is used as the lock bolt material.

First, a shotcrete is placed on the excavated rock wall in order to construct a tunnel according to the formation of the foundation tunnel (SB01).

For reference, shotcrete is a liquid-phase type quick-setting material with fast adhesion and early condensation, and is an essential product for use in the surface and tunnel works.

(B ') Next, by using a rocker arm or a crusher, the rock bolts 10 to be inserted into the rock bolts 10 as many as designed are drilled. (SB02)

The lock bolt 10 is inserted by inserting the tip end of the lock bolt 10 into the perforated arm protrusion 1 and guiding it to the end point of the arm protrusion (SB03).

At this time, the rock bolt 10 is inserted so as to protrude by a predetermined length so as to be exposed at a predetermined height (about 4 to 5 cm) after the second shotcrete installation, which will be described later.

(LA ') Next, in the state where the lock bolt 10 is inserted, the acupressure plate 20 is installed at the beginning of the arm anti-hole, and the nut 30 is fastened and fixed.

That is, when the rock bolt 10 is constructed, the pressure-sensitive plate 20 and the nut 30 are tightened so as to protrude about 4 to 5 cm from the coating layer of the second shotcrete stage described later.

Next, the rock bolts 10 are fixed to the plurality of rock heights 1 pierced in the rock at one of the rock heights before and after SA03 step, And is injected into the inner side of each female antireflection 1 by an amount so set as to be filled in the clearance of the bolt 10. (SB05)

That is, the cement mortar is placed in the female counter-hole 1 and the rock bolt 10 is inserted, or the rock bolt 10 is inserted, and then the cement mortar is poured. When the cement mortar is completely hardened, the rock bolt (10) is firmly fixed in the rock.

(Bar ') Next, a concrete shot layer F1 is formed by a second shotcrete placement (SB06)

At this time, it is checked whether the lock bolt 10 is exposed to the upper end of the entrance of the female anti-hole 1 so as to cover the lock bolt cap 40.

Next, the rounded arch bolt cap 40 is fastened to the exposed rock bolt 10 (SB07).

Particularly, the lock bolt cap 40 may be coated or coated with light-emitting, fluorescent, and distinguishable two-color colors. Since it is located between the rock wall A and the waterproof sheet (B) .

At this time, it is possible to confirm whether or not the lock bolt is attached even in the extreme environment (a small amount of light or dust), and the readability is increased to make it easy to grasp the quantity.

Further, the lock bolt cap 40 has a strength that is not damaged by impacts during operation or a softness that is not easily broken.

In addition, it protects the protruding sharp part of the lock bolt smoothly while protecting the waterproof sheet.

Thus, the exposed rock bolt 100 includes the rock bolt 10, the pressure applying plate 20, the nut 30, and the lock bolt cap 40.

(A ') Next, the waterproof sheet B is attached in a state where the second shotcrete work is completed and hardened (SB08)

Thus, the exposed rock bolt construction method according to the second embodiment of the present invention is completed.

According to the embodiments of the present invention as described above, the following effects can be expected.

After the installation of the rock bolt, the rock bolt is not buried due to the second shotcrete pouring, and it is easy to grasp the quantity of the rock bolt, and there is an advantage that it is not necessary to reside at night to supervise the operation by the 24 hour operation in the tunnel.

In addition, it is difficult to secure tunnel cycle time. In case of unexpected work waiting for maintenance of 2 times / day cycle time, if lock bolt construction is partially abandoned, the quantity of rock bolts can be detected in the next process, There is an advantage.

In addition, after the rock bolt is completed, the rock bolt cap is exposed even after the second shotcrete is laid, and the quantity of the rock bolt cap can be grasped, which is advantageous in preventing cheating of workers.

FIG. 4 shows an exemplary verification sheet to which the embodiment of the present invention is applied. Through the above-described format, it is possible to easily check whether or not a lock bolt is installed, and to know the quantity thereof.

The foregoing has shown and described specific embodiments. However, it is to be understood that the present invention is not limited to the above-described embodiment, and various changes and modifications may be made without departing from the scope of the technical idea of the present invention described in the following claims It will be possible.

100: exposed rock bolt
10: Rock bolt
20: Chiropractic plate
30: Nut
40: Rock bolt cap

Claims (4)

A method of constructing an exposed rock bolt for constructing a tunnel according to the formation of a base tunnel,
(a) a first shotcrete forming step of placing a first shotcrete on a rock surface of the foundation tunnel;
(b) a perforating step of perforating a rocking bolt to be inserted into rock bolts as many as the designed number of rock bolts are inserted into the rock bolt using a punching device;
(c) a locking bolt inserting step of inserting the locking bolt into the perforated arm anticlock by guiding the distal end side of the locking bolt to the end point of the arm anticlock, so that the rear end side of the locking bolt protrudes;
(d) a locking bolt securing step of securing an acupressure plate at the initial position of the arm rest and inserting the nut while the locking bolt is inserted;
(e) a corrosion prevention treatment step of performing a corrosion prevention treatment on the protruding portion of the rock bolt;
(f) a second shotcrete forming step of forming a coating layer by a second shotcrete pouring and exposing a rear end of the rock bolt to an upper portion of the coating layer; And
(g) a lock bolt cap fastening step of fastening a lock bolt cap of a different color or fluorescence which can be easily distinguished to the rear end of the lock bolt,
Wherein the locking bolt cap is easily grasped by the locking bolt cap.
The method according to claim 1,
Further comprising a mortar injecting step between the step (b) and the step (c) to inject the mortar into the interior of the cancer anticollonity.
delete The method according to claim 1,
Wherein the rock bolt is made of metal or glass fiber reinforced plastic (GFRP).

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