JP2001090487A - Tunnel lining work - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a lining work capable of shortening the term of work. SOLUTION: In a lining work method, formworks 12 are installed along the inner periphery of an excavation surface 10 at predetermined intervals, and a lining concrete layer 14 is formed by placing concrete between the excavation surface 10 and the formwork 12. The formwork 12 has a precast concrete flat panel 16 which is used also as a formwork panel and a coupling reinforcing member 18 accompanied along the inner surface of this flat panel 16. When installing the formwork 12 along the inner periphery of the excavated surface 10, the lower end side of a pair of formworks 121 located at both the ends in the peripheral direction is placed on the side wall concrete portion 22 and another formwork 122 is placed and connected adjacently at its upper side. When installing the formwork 122, its lower end side is coupled to the upper end side of the formwork 121 being adjacent in the peripheral direction, and the upper end portion is supported by an anchor 24. The one end side of the anchor 24 is anchored to the natural ground 26.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention relates to a tunnel lining method, and more particularly to a tunnel lining method using a panel that also serves as a formwork.

[0002]

2. Description of the Related Art When constructing a mountain tunnel, a lining concrete layer is formed on an excavated cross section.
After performing the primary lining by spraying, the secondary lining is performed.

[0003] In the secondary lining, a method is known in which a form plate is installed on the inner side of an excavation surface, and concrete is poured between the excavation surface and the form plate.

As a secondary lining method using a mold, a method using a movable mold having a width of about 10 m, called a centur, is known. The centre used in this type of lining method has a structure in which a form plate that can cover the entire cross-sectional size of the tunnel is assembled and supported on a movable support base, and this is assembled outside the mine In the state, pulled into the mine, cast concrete between the excavated surface and the formwork,
After forming the lining concrete layer, construction is performed by sequentially moving it along the tunnel axis direction.

[0005] However, such a centre lining method has the following technical problems.

[0006]

That is, when constructing a tunnel, a part of the inside may be widened. In such a case, if the lining method of the centre method is adopted, the cross section of the widened portion is increased. However, since the cross section of the other portion is larger than the cross section of the other portion, if the centre is assembled in advance outside the mine, it cannot be drawn into the mine, so that the centre is assembled at the construction site of the widening portion.

[0007] However, the work of assembling the center in the mine is
Since it was not possible to secure a margin for hanging the crane, it had to rely on human power, and this work was complicated and sometimes dangerous, which was a major factor in prolonging the construction period.

The present invention has been made in view of such a conventional problem, and a tunnel lining method capable of greatly shortening a construction period as compared with a case of constructing a pit in a mine. To provide.

[0009]

In order to achieve the above object, according to the present invention, a formwork is provided at predetermined intervals along an inner periphery of an excavation surface, and a space between the excavation surface and the formwork is provided. In a tunnel lining method of forming a lining concrete layer by casting concrete on the surface, the formwork includes a panel also serving as a formwork plate left on the surface of the lining concrete layer, and an inner surface or an outer surface of the panel. With a connecting reinforcing material attached to the
When the formwork is installed along the excavation surface, the lower end side of the connection reinforcing material is mutually connected to the connection reinforcing material of another formwork installed adjacently in the circumferential direction, and Is supported by an anchor having one end connected to a ground or a shoring installed at the ground. According to the tunnel lining method configured as described above, the formwork that is installed at a predetermined interval along the inner periphery of the excavation surface is a panel that also serves as a formwork plate that is left on the surface of the lining concrete layer. When,
A connection reinforcing member attached to the inner surface or the outer surface of the panel, and when the formwork is installed along the excavation surface, the lower end side of the connecting reinforcing material is installed adjacently in the circumferential direction. Since it is mutually connected with the reinforcing material for connection of the formwork, and the upper end side of each formwork is supported by an anchor having one end connected to the ground or a shoring installed on the ground, the formwork is supported. No underground support is required, and interference with other operations can be avoided. In addition, the panel can be fitted with connecting reinforcements outside the mine, and by adding the connecting reinforcements, it is possible to increase the size. By using large panels, the formwork can be installed. Work can be done quickly. Further, in the present invention, the panel may be constituted by a precast concrete slab. According to this configuration, since the panel made of the precast concrete plate also serves as the formwork plate and is left on the surface of the lining concrete layer, it does not require curing after casting the concrete,
This can shorten the construction period. Further, since the surface of the lining concrete layer is covered with a panel made of a precast concrete plate that can be factory-produced with high quality, the appearance is excellent and the durability is excellent. In the present invention, the panel may be formed in a flat plate shape. According to this configuration, the panel can be easily manufactured.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will be described below in detail with reference to the accompanying drawings. 1 to 3 show a first embodiment of a tunnel lining method according to the present invention.

In the tunnel lining method shown in FIG.
As shown in the overall front view of the construction state, the formwork 12 is installed at predetermined intervals along the inner peripheral surface of the excavation surface 10, and concrete is poured between the excavation surface 10 and the formwork 12. The lining concrete layer 14 is formed as a basic configuration.

An arch-shaped steel support 11 is provided on the inner peripheral side of the excavation surface 10 so as to follow the curvature thereof, and a primary lining concrete layer 13 is provided so as to bury the support 11. Spraying is formed.

In the tunnel lining method of this embodiment, the form 1
2 is composed of a plurality of sheets having the same structure,
A flat panel 16 made of a precast concrete slab which also serves as a form plate, which is left on the surface side of the lining concrete layer 14
And a connection reinforcing member 18 attached to the inner surface of the flat panel 16 (the side where the lining concrete is cast).

The flat panel 16 made of a precast concrete slab is manufactured in advance in a production plant outside the mine, and a reinforcing member 18 for connection is attached to the manufactured flat panel 16 outside the mine. Fixed.

The connecting reinforcing member 18 has vertical and horizontal reinforcing members 18a and 18b made of H-shaped steel. The vertical and horizontal reinforcing members 18a and 18b are spaced apart from the flat panel 16 by a predetermined distance. Are arranged in a lattice.

On the back side of the flat panel 16, a reinforcing member 1 for connection is provided.
8, the area of the flat panel 16 can be increased. When the large flat panel 16 having a large area is used, the number of the panels 16 that cover the excavation surface 10 is reduced. Only installation and assembly work can be performed easily and quickly.

[0017] When installing the formwork 12 along the inner periphery of the excavating surface 10, as shown in FIG. 1, a pair of the form 12 ₁ of the lower end side which is positioned in the circumferential direction of the both ends, first, the tunnel On the invert section 20, it is mounted on a side wall concrete section 22 which is formed upright in advance.

[0018] When this form 12 ₁ of the installation of the end portion is completed, the upper portion another formwork side 12 ₂ is connected to and installed so as to be adjacent. When installing the formwork 12 _2, together with is combined with the mold frame 12 ₁ of the upper side adjacent the lower end side in the circumferential direction, for supporting the upper side by the anchor 24.

The anchor 24 is already installed before the formwork 12 is installed, and one end of the anchor 24 is fixed in the ground 26. When the form 12 ₂ of installation ends, the upper side sequentially another mold 12 ₃ and later by the same method, are connected to and installed in the toward the center side of the tunnel.

[0020] Then, when installing the formwork 12 ₆ located at one end on the center axis of the tunnel cross section, by installing a steel frame 27 in the ceiling portion, the upper side is locked in a steel frame 27 You. Steel frame 27, after installation of the formwork 12 _6, there is installed on a ceiling portion of the tunnel axis, the concrete inlet 28 is provided. This concrete inlet 2
8 is used when concrete is in the mold 12 _6.

Same as the formwork 12 ₁ installed adjacently in the circumferential direction
2 ₂ more specific coupling installation state details are shown in FIGS. When connected to and installed another form 12 ₂ to form 12 ₁ of the existing, first, the mold 12 the lower end of the _second vertical reinforcing member 18a, the upper end of the vertical stiffener 18a of the existing mold 12 ₁ Then, the connection plate 30 is fixed and connected between the two by bolts and nuts.

[0022] At this time, between the mold 12 ₁ and the 12 _second flat panel 16, is interposed a seal gasket 32 for preventing leakage of the concrete for pouring. On the other hand, the upper side of the mold 12 _2, one end of the head side of the anchor 24 that is fixed to the natural ground 26 via a coupling bracket 34, is supported by coupling with the upper side of the transverse stiffener 18b. Anchor 24
Is adjusted by using a long nut or the like.

[0023] When the installation of the form 12 in the manner described above is terminated, after performing leakproof measures gable of the tunnel axis, from the upper end side of the mold 12 _{and second} flat panel 16, for example, a high fluidity concrete the by Da設between the mold 12 ₂ and excavating surface 10, lining concrete layer precast concrete panel made of flat panel 16 was left on the surface side 14
To form

By repeating the same operation up to the tunnel center axis side, the lining concrete layer 14 corresponding to the length of the flat panel 16 made of a precast concrete plate is formed, and one cycle of operation is completed.

According to the tunnel lining method configured as described above, when the formwork 12 is installed along the excavation surface 10, the lower end side of the connection reinforcing member 18 is installed adjacently in the circumferential direction. And the upper end of each mold 12 is supported by an anchor 24 fixed at one end to the ground.
This eliminates the need for an underground shoring for supporting the work, thereby avoiding interference with other work.

Further, the flat panel 16 can be provided with the connecting reinforcement 18 outside the mine, and can be increased in size by adding the connecting reinforcement 18, so that a large panel can be used. Thus, the work of installing the formwork 12 can be performed quickly.

Further, the flat panel 16 made of a precast concrete plate also serves as a form plate and is left on the surface of the lining concrete layer 14, so that curing after concrete casting is not required. Can be shortened.

For this reason, when the lining method of this embodiment is applied to the widened portion of the tunnel, the construction period can be greatly reduced as compared with the centrifugal method, and even if the lining method is applied to a general portion other than the widened portion. The effect can be exhibited effectively.

The surface of the lining concrete layer 14 is
Since it is covered with the flat panel 16 made of a precast concrete slab which can be factory-produced with high quality, the appearance is excellent and the durability is also excellent.

Further, in the case of the present embodiment, on the rear side of the flat panel panel 16 made of a precast concrete plate, connecting reinforcing members 18 arranged in a lattice shape are protruded to be uneven. Therefore, when the concrete is cast, the joint area between the concrete and the flat panel 16 increases, and the bonding strength between the two increases.

FIG. 4 shows a second embodiment of the tunnel lining method according to the present invention, in which the same or corresponding parts as those in the first embodiment are denoted by the same reference numerals and description thereof is omitted. At the same time, only the features of catabolic will be described.

In the embodiment shown in FIG.
As in the above-described embodiment, a flat panel 16 made of a precast concrete plate that also serves as a form plate and a reinforcing member 18 for connection are provided. In the present embodiment, the reinforcing member 18 for connecting is used.
Is attached to the outer surface of the flat panel 16 (the surface opposite to the side where the lining concrete is cast).

A plurality of dowels 36 are provided on the inner surface of the flat panel 16 to reinforce the adhesive force between the flat panel 16 and the concrete to be cast. In the case of the present embodiment also, when connected to and installed another form 12 ₂ to form 12 ₁ of the existing, first, the lower end of the mold 12 _{and second} longitudinally reinforcements 18a, existing mold 12 ₁ the connecting the upper side of the vertical stiffener 18a, the upper side of the mold 12 _2, supported by an anchor 24.

[0034] At this time, in the case of the embodiment, since the connecting reinforcement 18 on the outer surface side of the flat panel 16 is additionally provided, without interposing another member, longitudinal reinforcement of the form 12 ₂ the lower end of the timber 18a, the vertical reinforcement 18 of the existing mold 12 ₁
It can be directly connected to the upper end side of a using a bolt and nut.

In this embodiment, the anchor 24
Is fixed to the shoring 11 installed so as to be in contact with the ground 26 via a leading plate 38, and the other end penetrates the flat panel 16 and the vertical reinforcing member 18 a,
It extends to the outside and is fixed by attaching a nut to the lateral reinforcing member 18b.

Also in this embodiment, when the installation of the formwork 12 is completed, concrete is poured between the excavated surface 10 and the formwork 12, and the lining concrete layer 14 is formed in the same manner as in the above embodiment. .

In the second embodiment using such a formwork 12, the same operation and effect as those of the first embodiment can be obtained. In particular, in the case of the second embodiment, the reinforcing members 18 are directly connected. And, for example, the connecting reinforcement 1
When the concrete 8 is configured to be detachable from the flat panel 16, it is possible to remove and convert the cast concrete after it has hardened, so that the concrete can be removed more than in the first embodiment.
The structure is simple, which is advantageous in terms of economy.

In the above embodiment, the panel 16 is made of a precast concrete slab, and its shape is a flat plate. However, the present invention is not limited to this. It may be,
For example, a curved panel along the excavation surface of the tunnel can be used.

[0039]

As described above in detail, according to the tunnel lining method of the present invention, the construction period can be significantly shortened as compared with the case of constructing the pit in a pit.

[Brief description of the drawings]

FIG. 1 is a front view of a construction state showing one embodiment of a tunnel lining method according to the present invention.

FIG. 2 is an enlarged view of a main part of FIG.

FIG. 3 is a top view of FIG. 2;

FIG. 4 is an explanatory view of a principal part showing another embodiment of the tunnel lining method according to the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 10 Excavation surface 11 Shoring 12 Formwork 14 Lining concrete layer 16 Precast concrete flat panel panel 18 Connection reinforcement 24 Anchor

Continued on the front page (72) Inventor Ryo Shinmura 2-15-2 Konan, Minato-ku, Tokyo Obayashi Corporation F-term (reference) 2D055 CA03 DA01

Claims (3)

[Claims] 1. A tunnel cover that forms a lining concrete layer by placing a formwork at a predetermined interval along an inner periphery of an excavation surface and casting concrete between the excavation surface and the formwork. In the method of construction, the formwork includes a panel that also serves as a formwork plate that is left on the surface of the lining concrete layer, and a connecting reinforcing material attached to an inner surface or an outer surface of the panel. When installing along the excavation surface, the lower end side of the connection reinforcing material is mutually connected with the connection reinforcing material of another formwork installed adjacently in the circumferential direction, and the upper end side of each formwork. A tunnel lining method characterized by supporting the ground by means of an anchor having one end connected to a ground or a shoring installed at the ground. 2. The panel as claimed in claim 1, wherein the panel is made of a precast concrete slab.
The tunnel lining method described. 3. The tunnel lining method according to claim 1, wherein the panel is formed in a flat plate shape.