JPS6335997A - Tunnel lining method - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method of lining a tunnel with concrete.

[Prior art]

Primary with segments, especially metal segments or cored concrete segments! ! When constructing a secondary lining by placing an internal formwork for lining inside the construction and placing concrete between the internal formwork and the primary lining from the bottom to the top, concrete As pouring progresses,
- The air between the secondary lining and the inner formwork is chased from the bottom towards the top, and the air that has no place to escape stays in the four segments at the top of the primary lining, causing the concrete to fall inside the recess. A secondary lining is formed that does not reach every corner of the area and has a cavity at the top. This cavity reduces the strength of the tunnel lining and causes leakage of groundwater from the segment joints. Especially when using Junsei segment joints as segments for the next lining, the copper segments corrode early and become durable. sex becomes shorter.

As a method to solve this problem, Japanese Patent Application Laid-Open No. 61-2479
As announced in Publication No. 8, an air vent pipe with a large number of branch pipes is placed at the top of the area where secondary lining concrete is planned to be placed, and the tip of each branch pipe is connected to the steel used in the primary lining. The air vent pipe is placed between the circumferential lips of the manufactured segment, and the end of the air vent pipe is guided outside the area where the secondary lining concrete is planned to be placed, and then the secondary lining concrete is placed in the area where the secondary lining concrete is planned to be placed. There are known methods for setting

[Problem that the invention seeks to solve]

However, when pouring secondary lining concrete from the bottom to the top of the area where secondary lining concrete is to be placed, the free area of the concrete decreases as it approaches the top of the area. As a result, the thickness of the breathing water is extremely thick compared to the case of ordinary concrete pouring, and even if all the air stagnant in the area where concrete is to be poured is removed, the required thickness will not be as high as the required thickness. This does not mean that concrete lining has been poured. Also, the top of the secondary lining concrete (crown)
Since concrete contains a large amount of excess water,
It is not possible to secure the required concrete strength.

Therefore, the strength of the crown of the secondary lining concrete is lower than other parts, and cracks often occur at the crown.

[Purpose and structure of the invention]

The purpose of this invention is to provide a tunnel lining method that can advantageously solve the above-mentioned problems, and the gist of the invention is to provide an inner formwork for lining concrete provided in a tunnel. At the top of the area where lining concrete is planned to be placed between 1 and the tunnel peripheral wall or primary lining, an air/water infiltration discharge pipe 2'5c having air/water permeability is placed in the peripheral wall so as to extend in the longitudinal direction of the tunnel. , and the end of the air/water infiltration discharge pipe 2 is made to protrude from the area where lining concrete is to be placed and opened into the tunnel, and then lining concrete is poured into the area where lining concrete is to be placed from the bottom to the top. The air at the top of the lining concrete is poured, the floating water due to the pleat song at the top of the lining concrete, and the excess water in the concrete are allowed to enter the inside of the air-water permeation discharge pipe 2. , a tunnel lining method characterized in that air and water are discharged from a concrete lining part through the permeation discharge pipe 2.

〔Example〕

Next, the present invention will be explained in detail using illustrated examples.

1 and 2 show that an air/water infiltration discharge pipe 2 is arranged at the upper part of the inside of the primary lining 10 in a shield tunnel, and an inner formwork for the secondary lining concrete is placed inside the secondary lining 10. This figure shows a state in which a large number of steel segments 6 are arranged in the tunnel circumferential direction and in the tunnel longitudinal direction, and each steel segment 6
The skin plate 4 of is in contact with the ground 5, and the joint plates 6 of adjacent steel segments 6 in the circumferential direction of the tunnel are connected by bolts 7 inserted through the through holes of the joint plates 6 to form a segment ring. The joint plates 8 of the steel segments 6 adjacent in the longitudinal direction of the tunnel are connected by bolts 9 inserted through the through holes of the joint plates 8,
The primary lining 10 that covers the ground 5 around the tunnel is constructed by each steel segment B connected by bolts 7 and 9, and the skin plate side of the reinforcing lip 11 extending in the tunnel longitudinal direction in each prepared segment 3 is A communication hole 12 is provided by cutting out both corners of the hole.

A metal or synthetic resin tube with many pores on the peripheral wall,
A plurality of air/water infiltration/discharge pipes 2 are made of metal or synthetic resin pipes having slits extending over the entire length.
- The air/water infiltration discharge pipes 2 are arranged at intervals in the circumferential direction of the tunnel at the top of the next lining 10 and extend in the longitudinal direction of the tunnel, and each air/water permeation discharge pipe 2 is connected to the joint plate 8 in the steel segment 5. Further, an inner formwork 1 for lining concrete is arranged inside the second lining 10, and a concrete pouring opening 14 is provided at the upper part of the inner formwork 1. ing.

The inner formwork 1, the primary lining 10, and the end formwork 15 provided between the end of the inner formwork 1 and the primary lining 10 constitute a secondary lining concrete placement area 16, The air/water infiltration/discharge pipe 2 is passed through the end formwork 15, and the open end 17 of the air/water infiltration/discharge pipe 2 is arranged in the tunnel.

When concrete is continuously poured into the area 16 where secondary lining concrete is to be placed through the concrete pouring port 14 provided in the inner formwork 1 using a concrete pump or the like (not shown), the poured concrete , gradually rises from the bottom to the top in the area 16 where secondary lining concrete is to be poured, and reaches the top.

When the concrete being poured into the secondary lining concrete placement area 16 reaches the top (crown) of the secondary lining concrete placement area 16, the top of the secondary lining concrete placement area 16 is reached. The air passes through the pores or slits in the peripheral wall of the air-water permeation discharge pipe 20, enters the air-water permeation discharge pipe 2, passes through the air-water permeation discharge pipe 2, and is released into the tunnel. The concave portion of the steel segment 6 at the top of the area 16 where secondary lining concrete is to be placed is also completely filled with concrete. Figure 6 shows the state in which the secondary lining concrete IJ-) 18 has been cast.

At the top of the secondary lining concrete IJ-) 18, floating water occurs due to the tree song, and there is concrete with an extremely high water-to-cement ratio, so there is surplus water in the concrete. Floating water and surplus water also pass through the pores or slits in the peripheral wall of the air-water permeation discharge pipe 2, enter the air-water permeation discharge pipe 2, pass through the air-water permeation discharge pipe 2, and enter the tunnel. be discharged.

Next, after the secondary lining concrete IJ-i F3 has undergone a curing period, mortar or other coagulable filling material is injected into the air-water permeation discharge pipe 2 from the end of the air-water permeation discharge pipe 2. Ru.

Figures 4 and 5 show a mountain tunnel in which preparations for pouring secondary lining concrete have been completed, and a number of steel supporting frames 19 are installed at intervals in the longitudinal direction of the tunnel. A wire mesh 20 is placed over the outside of each steel support frame 19, and a primary lining 21 is formed by spraying concrete on the ground 5 of the tunnel. Primary lining 21
Further, a through hole 13 is provided in the top web of each steel support frame 19, and the air/water permeation discharge pipe 2 is inserted across the through hole 13 of each steel support frame 19. An inner formwork 1 having a concrete pouring opening 14 is arranged inside the frame 19 and the primary lining λ, and an end formwork 15 is provided between the end of the inner formwork 1 and the primary lining 21. The end of the air/water infiltration and discharge pipe 2 protrudes from the end formwork 15.

Figures 6 and 7 show the state in which preparations for placing primary lining concrete have been completed in a mountain tunnel where only primary lining is performed, and a large number of steel supporting frames 19 are installed in the tunnel in the longitudinal direction of the tunnel. A through hole 16 is provided in the web at the top of each steel support frame 19, and the air/water infiltration discharge pipe 2 is installed in the through hole 1 of each steel support frame 19.
Further, an inner formwork 1 for lining concrete having a concrete pouring opening 14 is placed inside the steel supporting frame 19, and the end of the inner formwork 1 for lining concrete and the ground 5 An end form 15 is provided between them, and the end of the air/water infiltration and discharge pipe 2 protrudes from the end form 15. A primary lining concrete placement planned area 24 has been formed.

When secondary concrete is placed in Figures 4 and 5, and when primary lining concrete is placed in Figures 6 and 7, the top of the lining concrete is placed as described above. The air, breathing water, and excess water are discharged through the entire air/water permeation discharge pipe 2.

When carrying out this invention, a sealing material 22 may be interposed between the joint plates of adjacent steel segments 6 in the primary lining made of steel segments, as shown in FIGS. 8 and 9. Furthermore, as shown in FIG. At a remote location, the air/water infiltration drain tube 2 may extend into contact with or close to the skin plate 4.

In addition, as shown in Figure 11, there are two through holes in the joint plate in the tunnel circumferential direction of the upper steel segment B of the secondary lining.
3 is provided, and air, floating water, surplus water, etc. are provided through the through hole 23.
After passing through and rising to the inside of the key segment, it may be discharged from the concrete lining area through the air/water permeation discharge pipe 2.

As the air/water infiltration/discharge pipe 2, a spiral tube in which a metal band plate is wound spirally and the sides of the metal band plate are bent and loosely engaged may be used. As the material 2, either a material having high rigidity or a material having flexibility may be used.

Furthermore, a vacuum pump (not shown) is installed at the end of the air-water permeation discharge pipe 2 in order to enhance the discharge effect of air, floating water caused by pre-songs, and surplus water in the concrete.
You may also connect it to actively suck and discharge.

The present invention can also be implemented when a primary lining is constructed using a segment that does not have four parts on the inside, that is, a segment whose inside is smooth, and a secondary lining is constructed inside the primary lining.

〔Effect of the invention〕

According to this invention, lining concrete is sequentially poured from the bottom toward the top in the area where lining concrete is planned to be placed between the inner formwork 1 for lining concrete and the tunnel peripheral wall or the primary lining. The air at the top of the lining concrete placement area is allowed to enter the inside of the air/water infiltration discharge pipe 2 that has air/water permeability in the surrounding wall, and is discharged from the lining concrete placement area through the air/water infiltration discharge pipe 2. The design concrete thickness can be ensured by filling the concrete lining without any gaps, and the breather song water at the top of the lining concrete can also be absorbed.
Since it is allowed to enter the inside of the air and water infiltration discharge pipe 2 and discharged from the lining concrete IJ-casting part through the air and water infiltration and discharge pipe 2, the designed concrete thickness can be ensured.
Furthermore, surplus water from the concrete with a high water-to-cement ratio at the top of the lining concrete is also allowed to enter the inside of the air-water infiltration discharge pipe 2, and is discharged from the concrete lining area by the air-water infiltration discharge pipe 2. Sufficient concrete strength can be ensured at the top of the lining concrete IJ-t, and the above-mentioned air discharge, pre-song water discharge, and excess water discharge increase the strength of the top of the lining concrete and prevent cracks. Effects such as reduction or prevention can be obtained.

[Brief explanation of drawings]

Figure 1 is a longitudinal side view showing the state in which preparations for pouring the secondary lining concrete have been completed in a shield tunnel, Figure 2 is its longitudinal front view, and Figure 6 is the state in which the secondary lining concrete has been poured. Figure 4 is a vertical side view of a mountain tunnel that has completed preparations for placing the secondary lining concrete, Figure 5 is its vertical front view, and Figure 6 is a mountain tunnel with only the primary lining constructed. Figure 7 is a longitudinal side view showing the state in which preparations for pouring the primary lining concrete have been completed, Figure 8 is a longitudinal front view of the tunnel, and Figure 8 is a sealing material interposed between adjacent steel segments in the longitudinal direction of the tunnel. A longitudinal side view showing the condition, Fig. 9 is a longitudinal front view showing a state in which a sealing material is interposed between adjacent steel segments in the circumferential direction of the tunnel, and Fig. 10 is a modification of the arrangement of the air/water permeation discharge pipe. FIG. 11 is a longitudinal sectional side view showing an example in which a through hole is provided in a joint plate in the circumferential direction of a tunnel in a lubrication segment. In the figure, 1 is the inner formwork for lining concrete, 2 is the air/water infiltration discharge pipe, 3 is the steel segment, 5 is the ground, 10 is the primary lining, 12 is the circulation hole, 13 is the through hole, and 14 is the 15 is an end formwork, 16 is an area where secondary lining concrete is to be placed, and 18 is secondary lining concrete. Figure 6: Figure 7

Claims (1)

[Claims] Inner formwork 1 for lining concrete installed inside the tunnel
An air/water infiltration discharge pipe 2 having air/water permeability through the surrounding wall is arranged at the top of the area where lining concrete is planned to be placed between the tunnel surrounding wall or the primary lining so as to extend in the longitudinal direction of the tunnel, and The end of the air/water infiltration discharge pipe 2 is made to protrude from the area where the lining concrete is to be placed and opened into the tunnel, and then the lining concrete is sequentially poured into the area where the lining concrete is to be placed from the bottom to the top. The air at the top of the concrete lining area, the floating water caused by breathing at the top of the concrete lining, and the excess water in the concrete are allowed to enter the inside of the air-water permeation discharge pipe 2, and the air is discharged. A tunnel lining method characterized in that water is discharged from a concrete lining area through a water infiltration discharge pipe 2.