KR102258165B1 - a target for precision measure the displacement inner tunnel and method for measuring displacement using the same - Google Patents

Abstract

The present invention is a bolt having a target at the end so that the anchor is fixed to the stabilization layer through the non-stabilization layer of the rock surface from which crushed rock is removed after blasting, and exposed to the outside of the shock layer laminated on the outside of the non-stabilization layer is provided and connected to the anchor, and a cover material having a cap is connected to protect it by maintaining a certain distance on the outer diameter side of the bolt so that the impact is not transmitted to the bolt when the shock layer is formed, and the cap when the shock layer is completed It relates to a target unit for precise measurement of pore displacement in the base of a tunnel that measures only the behavior of the stabilization layer after exposing a separate target to the target and a displacement measurement method using the same.

Description

A target unit for precision measurement of the displacement of the inner ground of a tunnel and a displacement measuring method using the same {a target for precision measure the displacement inner tunnel and method for measuring displacement using the same}

After blasting, the anchor is fixed to the stabilization layer by passing through the unstabilized layer (fragmentation layer) of the surface of the tunnel rock from which crushed rock is removed, and the end is exposed to the outside of the shock layer laminated on the outside of the unstabilized layer A bolt having a target is provided and connected to the anchor, and a cover material having a cap is connected to protect the bolt by maintaining a certain distance on the outer diameter side of the bolt so that the impact is not transmitted to the bolt when the shock layer is formed, It relates to a target unit for precise measurement of pore displacement in the base of a tunnel that allows only the behavior of the stabilization layer to be measured after the cap is removed when the shockcrete layer is completed and the target is exposed, and a displacement measurement method using the same.

In general, tunnel construction is actively performed for smooth operation of trains and vehicles and expansion of social indirect capital, and new technologies have been developed to construct tunnels.

Even if a new high-tech construction method is applied to these tunnel constructions, there are many uncertain factors. Among them, geological uncertainty is emerging as the most important problem. Even in the case of tunnels that have already been constructed, displacement of the tunnel interior due to aging occurs. There is a possibility that a major accident may occur due to the collapse of the tunnel structure.

In order to prevent these problems in advance, a method of measuring the amount of displacement in the tunnel hole has recently been developed. As a representative method, a small target structure equipped with a reflector is attached to the tunnel hole, and a laser beam is measured at a reference point. By firing at the target structure, the length is grasped by the speed of the reflected light beam, and the amount of angular displacement between the predetermined reference coordinate point and the measurement point of the tunnel is measured, thereby the amount of internal displacement in the tunnel based on the length and the amount of angular displacement. to make it possible to understand

As described above, in relation to the technology, a technology of a target for measuring tunnel displacement is presented in Patent No. 971713 by the applicant of the present invention, and the configuration is to measure the degree of deformation according to the blasting of the tunnel T, as shown in FIG. 1 The target 100 to be exposed on the primary shockcrete surface (S1) and the secondary shockcrete surface (S2) is installed to measure the deformation of the tunnel due to an external impact such as blasting.

In addition, the present invention enables measurement of deformation with one target 100 regardless of the number of times the shock surface is formed by the target 100 first installed on the primary shockcrete surface S1, and by blasting and blasting In order to prevent damage to the target 100 by the target 100 that protrudes during the formation of the target 100, the target 100 is outside the tunnel wall 200, that is, the outside of the primary shockcrete surface S1, when processing or blasting. Install so that it is not exposed to

That is, by forming a target mounting part having a target mounting means at a predetermined depth at a predetermined position along the perimeter of the tunnel on the tunnel wall surface 200, the target 100 corresponds to the number of shocks and the operation of the target mounting means 400 Accordingly, the degree of exposure of the target 100 is constantly adjusted regardless of the number of times the shock surface is formed.

At this time, the target mounting means 400 has a configuration in which a positioning unit 450 whose height is adjusted is further provided.

However, the target as described above is a configuration in which the target 100 is fixed to a rock that is not stabilized after blasting, so that it easily responds to minute vibrations, etc., making accurate measurement impossible, and the positioning unit 450 according to the height of the shockcrete. There is a disadvantage in that workability is deteriorated by having to change or change the target 100.

An object of the present invention to improve the conventional problems as described above is to accurately measure the displacement of the tunnel, to remove the abnormal displacement and to measure only the normal displacement, and to prevent damage to the target and facilitate construction An object of the present invention is to provide a target unit for precise measurement of the borehole displacement of the original ground of a tunnel that can easily protect the cover and the target by impact, and a displacement measurement method using the same.

In order to achieve the above object, the present invention passes through the non-stabilization layer of the rock surface from which crushed rock is removed after blasting, fixes the anchor to the stabilization layer, and exposes the end to the shock layer laminated on the outside of the non-stabilization layer. A bolt having a target is connected to the anchor, and a cover material having a cap is connected to protect the bolt by maintaining a certain distance on the outer diameter side of the bolt so that the shock is not transmitted to the bolt when the shock layer is formed. It provides a displacement measurement method using a target unit for precise measurement of pore displacement in the base of the tunnel, which allows only the behavior of the stabilization layer to be measured after the cap is separated and the target is exposed when the layer is completed.

In addition, the cover material is further provided with a damper member on the outer diameter side to absorb the impact and flow when the impact is transmitted to the cover material to prevent damage. It provides a target unit for precision measurement of the inner hole displacement of the tunnel and a displacement measurement method using the same. .

In addition, the bolt provides a target unit for precise measurement of the borehole displacement of a tunnel base that is fixed to an anchor fixed to only the stabilization layer through a hardening material, and a displacement measurement method using the same.

In addition, the stabilizing layer and the non-stabilizing layer are excavated through bits having different diameters to provide an anchor fixed only to the stabilizing layer, and a target unit for precise measurement of the borehole displacement of the original ground of the tunnel and a displacement measurement method using the same.

On the other hand, a bolt having a target at the end and a cover material fixed as a nut while positioned on the outside of the bolt, the cover material is made of a cap and a fixing cap that is coupled as a plurality of nuts while passing through the inner hole of the tunnel base A target unit for precision measurement of displacement is provided.

In addition, a damper member is further provided on the outer diameter side of the cover material, and a wrinkle part is integrally provided on one side of the cover material. To provide a target unit for precision measurement of internal displacement of the base ground and a displacement measurement method using the same.

As described above, according to the present invention, the displacement of the tunnel is accurately measured, the abnormal displacement is removed and only the normal displacement is measured, the construction is easy while preventing damage to the target, and the cover and the target are easily protected by impact. there will be

1 is a side view showing a conventional target installation state.
Figure 2 is an installation state diagram of the target unit according to the present invention.
Figure 3 is an exploded state diagram of the target unit according to the present invention.
4 is a view showing the mounting state of the target unit according to the present invention.
5 and 6 are each a mounting state diagram of a target unit according to another embodiment of the present invention.
7 is a flowchart illustrating a displacement measurement method according to the present invention.
8 to 10 are each a connection state diagram of a target according to another embodiment of the present invention.
11 is a connection state diagram of a target according to another embodiment of the present invention.
12 and 13 are each a connection state diagram of an anchor according to another embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail based on the accompanying drawings.

Figure 2 is an installation state diagram of the target unit according to the present invention, Figure 3 is an exploded state diagram of the target unit according to the present invention, Figure 4 is a mounting state diagram of the target unit according to the present invention, Figures 5 and 6 are each It is a state diagram of the mounting of the target unit according to another embodiment of the present invention, Figure 7 is a flow chart showing the displacement measuring method according to the present invention, Figures 8 to 10 are each a connection state diagram of the target according to another embodiment of the present invention. , Figure 11 is a connection state diagram of a target according to another embodiment of the present invention, Figures 12 and 13 are each a connection state diagram of an anchor according to another embodiment of the present invention.

The target unit 100 of the present invention is composed of a bolt 110 having a target 111 at the end and a cover material 150 fixed as a nut 113 while positioned outside the bolt 110 .

In this case, the cover material 150 has a configuration in which the cap 151 and the fixing cap 153 coupled as a plurality of nuts 113 are connected while the cap 151 and the bolt are penetrated at the upper and lower portions.

In addition, the cover material 150 is made of various materials, but in the present invention, a paper material is used except for the fixing cap that requires the strength of the coupling part.

In addition, the fixing cap 153 may be integrally coupled to one side of the cover material by bonding or the like, or may be manufactured to be detachable and then closely coupled in a configuration that maximizes the close contact portion.

In addition, a damper member 170 may be further provided on the outer diameter side of the cover material 150 , and a wrinkle part 157 may be integrally provided on one side of the cover material so that the impact of the cover material is not transmitted to the bolt.

And, the bolt 110 is coupled to the rock face, that is, the stabilization layer through the anchor 400 .

At this time, the anchor 400 may have at least one side of the bolt 110 built-in, or the bolt 110 exposed to the outside of the anchor may be connected through a joint 440 provided at one end.

In addition, the bolt 110 may be used by extending it to a desired length through a separate coupling 120 as shown in FIG. 11 .

Subsequently, the anchor 400 may be installed to prevent separation through a plurality of fixing pins 430 protruding from the outer diameter side.

At this time, the fixing pin 430 may be connected by welding, or may be formed integrally by cutting one side of the anchor and then bending it outward as shown in FIG. 10 .

In addition, the anchor 400, after the anchor body 440 is manufactured as a detachable type that is coupled with a screw, etc., the inner diameter of the ring-shaped toothed washer 470 is inserted into the outer diameter side of the connection part to be integrally coupled, or the anchor A plurality of concave portions 420 are formed on the outer diameter side of the body 440, respectively, and the c-shaped toothed washer 470, which is a ring-shaped part cut out, may be extended and mounted from the outside.

At this time, the toothed washer 470 is integrally provided with a support jaw 472 inclined in a certain direction so as to enter a state compressed on the inner diameter side of the mounting hole on the outer circumference of the washer body 471 .

A displacement measurement method using the target unit 100 having the above configuration will be described.

2 to 13, the present invention passes through the non-stabilizing layer 200, which is easily changed even by a minute impact located on the surface of the rock from which the crushed rock is removed after blasting, and then drills to the stabilizing layer 300. The anchor 400 is fixed to the stabilization layer 300 .

At this time, the anchor 400 is coupled to the mounting hole 410 drilled in the stabilizing layer 300 by coupling the bolt 110 , and the hardening material 411 may be injected into the mounting hole 410 to be fixed. .

In addition, the bolt 110 may be coupled to the mounting hole of the stabilization layer without additional equipment, but in the present invention, it is coupled using the anchor 400 .

Then, the cover material 150 is connected to the bolt 110 coupled to the stabilization layer 300 through the anchor 400 .

At this time, the non-stabilization layer 200 generally refers to the surface layer after removal of the blasted rock, and a number of microcracks occur at a depth of about 15 to 20 cm.

In addition, the primary shockcrete layer 510 and the secondary shockcrete layer 530 are sequentially stacked on the upper side of the non-stabilizing layer 200 to reinforce the tunnel. Generally, the thickness of the shockcrete layer is 10 ~ It forms about 20 cm.

That is, the cover material 150 of the present invention should be located on the outside of the shockcrete layer, so that the size is preferably at least 40 cm or more, and there is no need to limit the material as long as it has a certain strength.

In addition, when the cover material 150 is coupled, a mounting hole 410 penetrating through the non-stabilization layer 200 and the stabilization layer 300 is drilled using a drill or the like, and the mounting hole formed in the stabilization layer 300 . After inserting the anchor 400 in the 410 is fixed as a bolt (110).

At this time, the bolt 110 may be fixed with a hardening material without the need for a separate anchor in the mounting hole 410 , and the bolt 110 has a length of about 50 cm in consideration of the mounting hole and the shock layer.

In addition, the bolt 110 may be simultaneously coupled to the non-stabilizing layer 200 and the stabilizing layer 300 through a hardener, but in the present invention, the stabilizing layer 300 is not measured when the non-stabilizing layer 200 is displaced. Only use it by fixing it.

At this time, if the mounting holes formed in the non-stabilization layer 200 and the stabilization layer 300 are formed to have different diameters, the input operation of the hardener and the like is facilitated.

Subsequently, the cover material 150 is connected to the bolt 110 exposed to the outside of the destabilization layer 200 , and then coupled as a nut 113 .

At this time, a damper member 170 is provided on the outer side of the cover material 150 to prevent the cover material 150 from being damaged by the injection impact of a steel ball or the like when the shockcrete layer is laminated.

In addition, the damper member 170 allows the cover material to move inside the primary shockcrete layer when the primary shockcrete layer is formed after the primary shockcrete layer is formed on the outside thereof, so that when the secondary shockcrete layer is formed It makes it easy to absorb the generated shock.

In addition, the bolt 110 is positioned inside the cover material 150 and the target 115 connected to the end thereof is also positioned at the same time.

At this time, the target 115 is located inside the cap 151 covered on the top of the cover material 150 and is exposed when the cap is removed, and when the cap is removed after completion of the shock layer, the target is exposed to the outside. to be exposed

That is, the cover material 150 and the cap 151 covered on the cover material are installed to be located outside the shockcrete layer.

And, when the cover material 150 and the bolt 110 are connected first, the bolt 110 passes through the fixing cap 153 and then the nuts 113 each fastened to one side are combined, the cover material is removed at a certain position of the bolt. to be fixed

As described above, only the behavior of the stabilization layer is measured through the bolt connected to the stabilization layer after the cap is removed and the target is exposed when the shockcrete is completed.

In addition, the wrinkle portion 157 is integrally provided on one side of the cover material 150 so that when an impact occurs, the cover material shakes left and right through the wrinkle portion to easily absorb the impact to prevent damage.

And, when the bolt 110 is coupled to the bedrock through the anchor 400, the anchor 400 is easy to enter through a plurality of fixing pins 430 protruding to the outer diameter side and prevents separation after entering. A strong bond is possible.

In addition, at least one side of the bolt 110 is embedded in one side of the anchor 400 to perform the role of a reinforcing material, thereby preventing deformation.

At this time, the bolt 110 may be used by extending it to a desired length through a separate coupling 120 .

That is, the target connected to the bolt 110 and a part of the bolt 110 are always positioned inside the cover material 150 to prevent deformation or damage due to exposure and cover the bolt 110 when the impact factor is removed. It can be easily extended to the outside of the material as much as a desired length and used.

In addition, the anchor 400 is manufactured as a detachable type in which a plurality of anchor bodies 440 are coupled through screws, etc. to correspond to the length of the entire anchor, and then a ring-shaped toothed washer 470 is coupled to the connection portion. When the anchor is press-fitted, it is possible to enter, but to prevent retreat.

In addition, a ring-shaped toothed washer 470, which is partially cut by forming a plurality of recesses 420 in the anchor body 440, is installed by extending a separate dedicated tool, and this also press-fits the anchor. Entry is allowed, but retreat is prevented.

At this time, the toothed washer 470 has a configuration in which a support jaw 472 inclined in a predetermined direction is integrally provided on the outer periphery of the washer body 471. do.

In addition, the toothed washer 470 may be installed so that an adhesive is supplied or rotation is prevented through a separate support surface.

As described above, according to the present invention, after coupling a bolt having a certain length to the stabilization layer 300, a target is connected to the end to accurately measure the displacement of the stabilization layer, and the target connected to the bolt is applied to the 1 and 2 shockcrete layers. After connecting the cover material to the bolt to protect it by the cover material having a length corresponding to the stacking height of the , it is the last process to separate the cap from the cover material without the need for a separate post-process. Measurement of the displacement of the stabilization layer is performed by the target. it will be possible

100...Target unit 110...Volt
111...target 113...nut
150...Cover material 151...Cap
153...Fixed cap 157...Wrinkles
170... Damper member

Claims (8)

After blasting, after passing through the non-stabilizing layer on the surface of the rock from which crushed rock has been removed, a mounting hole is formed that penetrates to the stabilization layer, and then the bolt is fixed in the mounting hole of the stabilization layer,
and a bolt having a target at the end so as to be exposed to the shock layer laminated on the outside of the non-stabilizing layer,
The non-stabilizing layer is to have a depth of 15 to 20 cm from the surface of the bedrock having a number of microcracks,
A cover material is connected to the outer diameter side of the bolt to protect the bolt by maintaining a certain interval, so that the shock is not transmitted to the bolt when the shock layer is formed, and the target fixed to the upper end of the cover material when the shock layer is completed is exposed and then stabilized Only the behavior of the layer is measured,
The bolt is press-fitted and fixed to the mounting hole of the stabilization layer through an anchor,
In the anchor, a plurality of toothed washers supported by compression on the stabilization layer are mounted on the anchor body,
The toothed washer, when the inner diameter side of the washer body is fixed to the anchor body, is compressed in the mounting hole of the stabilization layer, and has a plurality of inclinations along the outer circumference of the washer body in a certain direction to prevent backward movement while making it easy to enter. Displacement measurement method using a target unit for precise measurement of internal displacement of the tunnel base, in which the supporting jaws are provided to protrude in one piece. The method of claim 1, wherein the cover material further includes a damper member on the outer diameter side of the cover material to absorb the impact and flow when the impact is transmitted to the cover material. . delete According to claim 1, wherein the bolt, the anchor is configured to be connected to the bolt through a joint provided at one end,
Displacement measurement method using a target unit for precision measurement of borehole displacement in a tunnel, characterized in that the plurality of bolts are connected to any one selected from among the components that are extended to a desired length through a coupling. It consists of a bolt having a target at the end and a cover material fixed as a nut while positioned on the outside of the bolt,
The cover material has a configuration in which the cap and the bolt are penetrated in the upper and lower portions and the fixing cap coupled as a plurality of nuts are connected,
The bolt is further connected to an anchor,
The anchor, after the anchor body is manufactured as a separate type, a ring-shaped toothed washer is inserted outside the connection part of the anchor body, and is combined with the anchor body as a single body,
The toothed washer is a tunnel base in which a plurality of inclined support jaws that enter in a state of being pressed into the mounting hole in a certain direction on the outer periphery of the washer body in order to facilitate entry of the anchor and prevent backward movement are provided so as to protrude each integrally. Target unit for precision measurement of internal displacement. According to claim 5, wherein a damper member is further provided on the outer diameter side of the cover member,
A target unit for precision measurement of the inner hole displacement of the tunnel base, characterized in that the wrinkle part is integrally provided on one side of the cover material. delete It consists of a bolt having a target at the end and a cover material fixed as a nut while positioned on the outside of the bolt,
The cover material has a configuration in which the cap and the bolt are penetrated in the upper and lower portions and the fixing cap coupled as a plurality of nuts are connected,
The bolt is further connected to an anchor,
In the anchor, the anchor body is made of a single body of a certain length, a plurality of recesses are formed at regular intervals in the longitudinal direction of the anchor body, and a C-shaped toothed washer cut in part is extended and mounted, respectively,
The toothed washer is a tunnel base in which a plurality of inclined support jaws that enter in a state of being pressed into the mounting hole in a certain direction on the outer periphery of the washer body in order to facilitate entry of the anchor and prevent backward movement are provided so as to protrude each integrally. Target unit for precision measurement of internal displacement.

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