KR101262303B1 - Construction Method of waterproof in tunnel - Google Patents

Abstract

The present invention installs the rail on the wall along the longitudinal direction of the tunnel and move the waterproof sheet to the hanger device that moves along the rail, the rail is installed side by side at a predetermined interval on the transverse wall of the tunnel, a plurality of The present invention relates to a method for constructing a waterproof sheet in a tunnel that can cover a sheet on the entire tunnel wall.

Description

Construction method of waterproof in tunnel}

The present invention can easily install a waterproof sheet inside the tunnel to improve the productivity and efficiency of the construction work, can reduce the required amount of the waterproof sheet to be installed waterproof sheet construction in the tunnel can reduce the time, cost according to construction It is about a method.

In recent years, the construction of highways, high-speed railways, subways, and underwater tunnels has been rapidly increasing, and the construction of tunnels has been rapidly increasing.

In general, such tunnel construction methods include the conventional method (ASSM method, American Steel Support Method), NATM method, TBM (Tunnel Boring Machine) method, immersion method, etc. Among these, NATM method is the most ground in Korea It was most common because it consisted of rock.

The NATM method is briefly described as follows: tunnel drilling and excavation, primary shotcrete casting, rock bolt construction, secondary shotcrete casting, waterproof sheet construction, lining concrete casting, and tile finishing.

In particular, the waterproof sheet construction was performed to prevent groundwater from penetrating the lining concrete to corrode or deteriorate the concrete.

The waterproof sheet has been secured with a lantel permeable nonwoven fabric on the shotcrete on the tunnel excavation surface, and then waterproof sheets such as EVA, ECB, PVC, etc. on the surface of the nonwoven fabric are oriented at both edges of the upper end of the tunnel. After the installation in the transverse direction was connected to the waterproof sheet installed by heat-sealing the edge.

In the conventional method, since the waterproof sheet must be installed and heat-sealed in the transverse direction along the longitudinal direction of the tunnel, the installation method is complicated, and the number of installations increases, which requires a lot of time and manpower and equipment. Because of the large amount of waterproof sheet, there is an uneconomic problem.

In addition, even if the waterproof sheet is installed by heat fusion, there is a problem that can not withstand the shrinkage expansion according to the seasonal expansion of the concrete inside the tunnel to peel off and lead to leakage.

The present invention has been made to solve the above problems, in the construction work to cover the entire waterproof wall in the tunnel, the efficient construction work and the construction time can be increased through the efficient construction work and at the same time the required amount of waterproof sheet The purpose of the present invention is to provide a method for constructing a waterproof sheet in a tunnel, which can significantly reduce the cost.

In order to achieve the above object, the present invention installs a rail on the wall along the longitudinal direction of the tunnel and moves the waterproof sheet to the hook device moving along the rail, and the rail is fixed to the transverse wall of the tunnel at a predetermined interval. By installing side by side to propose a waterproof sheet construction method in the tunnel that can cover a plurality of the waterproof sheet in the entire tunnel wall surface.

In the present invention, by installing the waterproof sheet along the longitudinal direction of the tunnel, the connection surface is reduced to significantly reduce the amount of use of the waterproof sheet, thereby improving economic efficiency.

In addition, the waterproof sheet can be moved along the rail installed on the wall of the tunnel, so that the construction procedure is simple, the convenience of work is increased, and the construction time can be shortened, thereby improving the efficiency and productivity of the construction work.

1 is a side cross-sectional view showing that the rail according to the present invention is installed in the tunnel,
2 is a front view showing that the rail according to the present invention is installed in the tunnel,
3 is an exploded perspective view showing a rail and a waterproof sheet according to the present invention;
4 is a perspective view showing a rail and a waterproof sheet according to the present invention;
5 is a combined front view showing a rail and a waterproof sheet according to the present invention;
Figure 6 is an enlarged cross-sectional view showing the coupling of the waterproof sheet according to the present invention,
7 is a cross-sectional view of the waterproof sheet according to the present invention.
8 is a front view showing another embodiment of the rail installation according to the invention,
9 is a coupling front view showing another embodiment of the rail installation according to the invention,

DETAILED DESCRIPTION Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to FIGS. 1 to 9.

1 is a side cross-sectional view showing that the rail according to the present invention is installed in the tunnel, Figure 2 is a front view showing that the rail according to the present invention is installed in the tunnel, Figure 3 is an exploded perspective view showing the rail and the waterproof sheet according to the present invention 4 is a combined perspective view showing a rail and a waterproof sheet according to the present invention, FIG. 5 is a combined front view showing the rail and a waterproof sheet according to the present invention, and FIG. 6 is an enlarged view showing a combination of the waterproof sheet according to the present invention. 7 is a cross-sectional view of the waterproof sheet according to the present invention, FIG. 8 is a front view showing another embodiment of the rail installation according to the present invention, and FIG. 9 is a combined front view showing another embodiment of the rail installation according to the present invention. to be.

As shown in Figure 1, the waterproof sheet construction method of the tunnel of the present invention is installed on the wall and the rail 100 extending along the longitudinal direction of the tunnel (A) is installed on the rail 100 is the rail 100 Hanging the waterproof sheet 200 to the hanger device 110 to move along the longitudinal direction of the tunnel (A) to cover the waterproof sheet on the wall surface of the tunnel (A).

The rail 100 is provided with a plurality of the hook device 110 that can walk the waterproof sheet 200 is to move the hook device 110 to the waterproof sheet 200 at a predetermined interval. The waterproof sheet 200 is rolled up like a roll and is caught by the hook device 110 at a predetermined interval from the tip.

Looking at the process of covering the waterproof sheet 200 in the tunnel (A) in detail, first place the waterproof sheet 200, which is rolled round like a scroll, near the tip of the rail 100 and all the hook devices 110 After gathering at the front end of the rail 100, the hook device 110 at the foremost is hooked to the tip of the waterproof sheet 200 and moved toward the inner side of the tunnel A to pull the waterproof sheet 200. It will unfold gradually. When the waterproof sheet 200 is gradually expanded, the hanger device 110 is sequentially moved to the waterproof sheet 200 at a predetermined interval to cover the waterproof sheet 200 on the wall surface of the tunnel A. FIG. . At this time, the waterproof sheet 200 is unfolded in a taut state by generating tension in the process of gradually unfolding.

At this time, the rail 100 is to be installed so that the front end is in contact with the ground is formed in the arch shape. That is, by allowing the worker to perform the coupling operation of the waterproof sheet 200 and the hook device 110 in the vicinity of the ground and to move the hook device 110, to ensure the safety of the work.

As shown in FIG. 2, a plurality of rails 100 are installed side by side at a predetermined interval along the transverse wall surface of the tunnel A. As shown in FIG. That is, the plurality of rails 100 are installed side by side along a predetermined interval in consideration of the width of the waterproof sheet 200 so that the waterproof sheet 200 does not overlap each other, the plurality of waterproof sheet 200 is moved By covering the waterproof sheet 200 on the entire wall surface of the tunnel (A).

Meanwhile, as illustrated in FIG. 3, the rail 100 has a tubular shape, but installation grooves 102 are formed at regular intervals along the longitudinal direction of the upper surface of the rail 100 to penetrate the installation grooves 102. It is to be installed in the tunnel (A) by a fixing pin 104 that is stuck to the wall. That is, the rail 100 is positioned on the wall of the tunnel A, and then the fixing pin 104 at the lower end of the installation groove 102 is in close contact with the wall of the tunnel A. Drive in until firmly seated. At this time, the rail 100 is not limited to the shape and installation method as described above can have a variety of forms suitable for the shape of the tunnel (A), construction environment, and the installation method also the shape and construction of the rail 100 You can install it in a way that suits your environment.

In addition, the rail 100 has a rail groove 106 is formed by cutting the bottom surface along the longitudinal direction. The hook device 110 moving along the rail 100 includes a roller 112 that rotates in contact with the lower inner circumferential surface of the rail 100 and a hook 114 that passes through the rail groove 106. Is done. The roller 112 is a pair is formed on both sides of the bottom surface of the rail 100 cut in the longitudinal direction, a pair of the roller 112 is coupled to the rotation axis. The hook 114 protrudes downward from one end of the rotating shaft to penetrate the rail groove 106, and the waterproof sheet 200 is coupled to a rear end having a hook-like shape.

And the rail 100 is formed with a plurality of inclined jaw 108 at a predetermined interval on the lower inner peripheral surface of the roller 112 in contact, the inclined jaw 108 is upward in the direction in which the roller 112 proceeds It is formed to be inclined. That is, the roller 112 is moved in the direction of travel over the inclined jaw 108, the tension is generated during the progress of the roller 112 is protruded in the reverse direction of the inclined jaw 108 The roller 112 is caught at one end and does not proceed in the reverse direction.

One surface of the waterproof sheet 200 is formed with a ring strap 210 at a predetermined interval along the longitudinal direction. Accordingly, as shown in FIGS. 4 to 5, the hook 114 is fastened to the hook string 210, and the roller 112 is moved along the rail 100 to stably move the waterproof sheet 200. It can be unfolded. At this time, the lower end surface of the rail 100 supports the roller 112 located on the inner circumferential surface of the inner end surface is bent vertically both ends cut. Therefore, the roller 112 is able to move stably without being separated while moving along the inner circumferential surface of the rail 100.

On the other hand, the waterproof sheet 200 is connected to each other by inserting one side end of the two ends of the adjacent waterproof sheet 200 into a branched space. That is, one end of the waterproof sheet 200 is branched in two layers and the other end is formed in one layer. As illustrated in FIG. 6, the left end branched into two layers and the right end branched into one layer are described by way of example. A plurality of waterproof sheets 200 are covered with the tunnel A and thermally fused to the ends of the waterproof sheets 200 adjacent to each other so that a gap space is not generated. At this time, the right end of the waterproof sheet 200 adjacent to the left end of the waterproof sheet 200, which is branched in two layers, is inserted into a branched space, and then the connected portions are heat-sealed to connect the two waterproof sheets 200. Combine with each other. In this way, the plurality of waterproof sheets 200 written on the wall of the tunnel A are connected to each other to completely cover the waterproof sheet 200 inside the tunnel A.

Meanwhile, as shown in FIG. 7, the waterproof sheet 200 has a nonwoven fabric 202 formed on one surface thereof, and both ends of the nonwoven fabric 202 are fixed to the waterproof sheet 200, and a center portion thereof is spaced a certain distance apart. Is formed. This is to close the waterproof sheet 200 to the wall surface of the tunnel A. More specifically, after the waterproof sheet 200 is completely covered with the tunnel A wall surface, the waterproof sheet 200 and the The waterproof sheet 200 is in close contact with the wall surface of the tunnel A by driving the tartar pin 208 toward the tunnel A in a space where the nonwoven fabric 202 is spaced apart.

In addition, the waterproof sheet 200 is formed with a zipper 204 along the longitudinal direction, the waterproof sheet 200 is covered with the tunnel (A) wall and then open the zipper 204 to the pour pin 208 ), And when all the pour pins 208 are poured, it touches the zipper 204 to finish. Therefore, the pouring work space of the pouring pin 208 is secured and can be poured quickly and easily.

In addition, the space between the waterproof sheet 200 and the nonwoven fabric 202 is coated with a bond 206 to bond the waterproof sheet 200 and the nonwoven fabric 202 to each other to closely adhere to each other. Looking at the close contact between the non-woven fabric 202, and the concrete (A) is covered with the waterproof sheet 200 and then the concrete is poured on the outer peripheral surface of the waterproof sheet 200, at this time by the pressure of the concrete to be poured The waterproof sheet 200 and the nonwoven fabric 202 are in close contact with each other, and the coated bond 206 is crushed and cured, whereby the waterproof sheet 200 and the nonwoven fabric 202 are attached to each other.

Meanwhile, as illustrated in FIGS. 8 to 9, the rail 100 may be formed so that a pair of rails 100 may be caught by one waterproof sheet 200. That is, a pair of rails 100 are installed side by side on the inner circumferential surface of the tunnel A, so that one waterproof seat 200 can be moved by walking on the pair of rails 100. At this time, the pair of rails 100 is preferably installed so that the combined waterproof sheet 200 can be balanced without hitting one side. In addition, the waterproof sheet 200 is formed in a pair of ring strap 210 is caught on the hook 114. Accordingly, the pair of hooks 210 are hooked to the pair of hooks 114, and then the roller 112 is moved to cover the waterproof sheet 200 in the tunnel A. FIG.

100: rail 110: hanger
112: roller 114: hook
200: waterproof sheet 202: nonwoven fabric
210: collar

Claims (7)

The rail 100 is installed on the wall along the longitudinal direction of the tunnel A, and the waterproof sheet 200 is hung on the hook device 110 moving along the rail 100 to move the wall of the tunnel A. Put the waterproof sheet 200 on the whole,
The hook device 110 is composed of a roller 112 to move along the inner circumferential surface of the rail 100 and a hook 114 for hanging the waterproof sheet 200, the hook 114 to the waterproof sheet ( Method of constructing a waterproof sheet in a tunnel, characterized in that to spread the waterproof sheet 200 by moving the roller 112 after walking 200). The method according to claim 1,
Installing a plurality of rails (100) side by side at a predetermined interval on the transverse wall surface of the tunnel (A) to cover the plurality of the waterproof sheet (200) on the entire tunnel (A) wall surface construction method of the tunnel . delete The method according to claim 1,
The waterproof sheet construction method of the tunnel, characterized in that the hook (114) to the hook strap formed on one surface of the waterproof sheet 200 to move and expand the waterproof sheet 200. The method according to claim 1,
The rail 100 is installed in such a way that the front end is in contact with the ground near the ground, the worker is a waterproof sheet construction method in the tunnel, characterized in that for coupling the waterproof sheet 200 and the hook device 110. The method of claim 2,
The waterproof sheet 200 is a waterproof sheet construction method in a tunnel, characterized in that one side end is divided into two layers by connecting one side end of the adjacent waterproof sheet 200 into a branched space and connected to each other. The method according to claim 1,
The rail 100 is formed with a plurality of inclined jaw 108 along the longitudinal direction of the inner circumferential surface of the roller 112,
The inclined jaw (108) is formed inclined upward along the advancing direction of the roller 112, the waterproof sheet construction method in the tunnel, characterized in that to prevent the back of the roller (112).

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