JPS5996398A - Covering of tunnel - Google Patents

Abstract

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

Description

[Detailed description of the invention] The present invention relates to a tunnel lining method.

The so-called NATM construction method is a construction method in which the excavated surface is protected with rock bolts or sprayed concrete immediately after tunnel excavation.

This method has had many effects on site, but since it is only temporary protection, it is necessary to roughly apply concrete to the inner surface.

Therefore, even if concrete is sprayed quickly, a lot of time and equipment will be used for the subsequent concrete work.

Furthermore, since concrete is placed based on the condition of the inner surface of the tunnel immediately after excavation, it is not possible to respond easily even if the ground pressure changes afterwards.

The present invention has been made in view of the above points, and is based on the NAT
The purpose of the present invention is to provide a tunnel lining method that can greatly improve the varnished bead in combination with the M-knee method.

Next, an example of the construction method will be described.

[1] Shotting is performed by spraying concrete (1) on the inner surface immediately after excavation using the well-known NATM construction method for concrete construction.

[2] Casting of side wall concrete After completion of spraying, side wall concrete (2) is cast at a certain height (for example, about 1 to 3 m) above the tunnel floor.

A storage groove (3) is formed by cutting out a certain depth in the upper part of the side wall concrete.

This storage groove (3) has at least the front and top surfaces open and has a volume sufficient to store a VSL jack for tensioning the PC cable, as will be described later.

[3] To install the precast boards, install the gantry (4) at a predetermined position, and set the precast boards side by side on the arched surface of the upper part of the gantry (4).

This concrete precast board is manufactured in a factory and is relatively thin (12 to 15 cm) and has a curved surface along the tunnel cross direction.The inside has a through hole for inserting the PC cable in the tunnel cross direction. It is being opened for the.

Moreover, this precast board (5) is divided into a plurality of parts along a line in the tunnel axis direction, and bolt holes are provided so that adjacent parts can be easily connected to each other.

Such a precast plate is fitted into a predetermined arch using an erector on the gantry (4) and fixed with bolts.

[4] Introduction of prestress The PC cable (6) is inserted into the cable insertion hole of the precast plate (5), which opens in the direction across the tunnel, using a charging machine. Both ends of the PC cable (6) are positioned within the storage groove (3). That is, the storage groove (3) is provided in advance at a fixed position.

Next, install a PC cable tensioning jack (6) such as a VSL jack in the storage groove (3), and tension the cable (7). In this way, prestress is introduced by the boss tension, and the precast plates (5) are rigidly connected to each other to firmly connect the precast plates (5).

As a result, the precast board (5) group stands on its own in an arch shape with sufficient strength.

[5] After completing tensioning such as mortar injection, move the gantry (4), move to the next section J5 and perform the same work.

After completing the lining with precast board (5) for a predetermined distance, spray the concrete (1) and precast board (
5) Inject mortar as necessary between the back side and the back side.

Since the present invention is as described above, the following effects can be expected.

(b) Precast board manufactured in advance at the factory (5
) to form the arch, it is possible to maintain a certain level of superior quality compared to when it is cast on site.
Furthermore, construction is extremely quick.

(b) By introducing prestress, the precast board (5) group can stand on its own and form an arch, so the construction of the flexures 1 to board (5) group is possible regardless of the unevenness of the surface of the sprayed concrete. can be done.

(c) Even if mortar or concrete is filled with high pressure on the back side of the precast board (5) group when the ground is in bad condition,
Since prestress is introduced into the precast board (5) group, it can withstand sufficiently.

(d) Spraying allows the precast boards (5) to be firmly attached to the side wall concrete without using such palliative methods as drilling holes in the waterproof sheet on the concrete surface, attaching concrete anchors, and suspending the boards with bolts. It can stand on its own.

(e) The gantry does not support the entire weight of concrete, but only supports one precast board (5), so it does not require great strength and is significantly lighter than conventional concrete formers. You can use things.

(f) As a result of the above-mentioned comprehensive effects, construction efficiency has improved significantly, making it possible to construct tunnels at high speed.

(1-) By adopting an unbond method without fixing the PC cable to the insertion hole of the precast board (5),
It is possible to respond to changes in the load on the mountain over a long period of time by increasing or decreasing the tension, or by changing the strength by replacing the cable.

[Brief explanation of the drawing]

Figure 1: An explanatory diagram of the construction state of the precast board (5) Figure 2: An explanatory diagram at the time of completion of construction Figure 3: A sectional view of the main part Figure 4: An explanatory diagram of the tensioned part 1: The spraying is made of concrete −, 2: Side wall, 3: Storage groove, 5: Precast board m, 6: Jacket,
7: PC anchor. Patent applicant: Taisei Corporation

Claims (1)

[Scope of Claims] After spraying concrete on the inner surface of the tunnel, a group of precast plates with PC wire insertion holes drilled in the tunnel cross direction is placed on the inside of the surface, and a tunnel is formed on the group of precast plates. A tunnel lining method that involves introducing transverse prestress to form an arch.