JP2016142029A - Tunnel ventilation equipment and ventilation method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide tunnel ventilation equipment that can be wholly and simply moved, and a ventilation method during tunnel construction utilizing the same.SOLUTION: Tunnel ventilation equipment 1 includes: a dust collector 2 that is arranged near a working face T; an air duct 3 that is extended in a direction of a pit mouth Tof a tunnel T from the dust collector 2; and a rail 4 that is held in the state of being suspended from an upper part of the tunnel T. The air duct 3 is suspended from the rail 4, and the rail 4 is held in the suspended state via a plurality of suspension members 7 provided on the top or shoulder part of the tunnel T.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a tunnel ventilation device and a ventilation method used at the time of tunnel construction.

In tunnel construction, it is necessary to ventilate to prevent environmental degradation in the tunnel mine.
As a tunnel ventilation system, a suction collection system (see, for example, Patent Document 1) or a dilution containment system (see, for example, Patent Document 2) is generally employed.

  Among these, the ventilation of the tunnel by the dilution containment method sends fresh air from outside the tunnel tunnel to the face and removes the contaminated air by the dust collector provided on the face side, and is discharged from the dust collector. Contaminated air is sealed in the vicinity of the face by fresh air (refresh air).

  It is necessary to install a wind pipe having a length about five times the tunnel equivalent diameter along the tunnel extension direction at the exhaust port on the well port side of the dust collector. The wind pipe is generally suspended on the top or shoulder of the tunnel so that the installation space of the facility can be secured and the movement of the transport vehicle or construction equipment is not hindered.

JP 2003-262100 A JP 2002-221000 A

Tunnel ventilators equipped with dust collectors and wind pipes need to be advanced along with tunnel excavation (advance of the face), but it takes time to move the wind pipes installed at the top of the tunnel. It takes time to complete the movement.
From such a viewpoint, it is an object of the present invention to propose a tunnel ventilation device that can easily move the entire device and a ventilation method at the time of tunnel construction using the device.

  A tunnel ventilator according to the present invention for solving the above-mentioned problems comprises a dust collector, a wind pipe extending from the dust collector in the tunnel entrance direction, and a rail suspended from the upper portion of the tunnel. The wind pipe is suspended from the rail, and the rail is suspended through a plurality of suspension members provided at the top or shoulder of the tunnel.

According to such a tunnel ventilation device, since the wind pipe is suspended by the rail, the wind pipe can be easily moved.
Moreover, since the rail is not directly fixed to the inner wall (top portion or shoulder portion) of the tunnel, but is suspended through a suspension member, the rails can be easily replaced.
The rearrangement of the rails may be performed by the length of the excavation using the lifting members added with the excavation of the tunnel.

  In addition, if the suspension member includes an anchor embedded in the top or shoulder of the tunnel and a chain block attached to the anchor, a special jig is not used, Since the chain block can be diverted, it is economical.

The wind pipe is preferably provided so as to be movable along the rail.
Moreover, if the dust collector and the wind tube are connected via a reducer, the connectivity between the dust collector and the wind tube is improved.

  The ventilation method of the present invention includes a ventilation process for ventilating the vicinity of the face using the tunnel ventilator, and a moving process for moving the tunnel ventilator toward the face as the tunnel is dug. In the moving step, an operation of installing the most advanced suspension member in the vicinity of the face, an operation of suspending the tip of the rail on the state of the suspension member, and the dust collector and the wind pipe on the face side It is characterized by having a work to move forward.

  According to such a ventilation method, the tunnel ventilation device can be easily moved, so that the overall construction of the tunnel is not hindered, and the environment in the tunnel mine can be maintained.

  According to the tunnel ventilator of the present invention and the ventilation method at the time of tunnel construction using the tunnel ventilator, it becomes possible to easily move the entire tunnel ventilator, and as a result, shorten the construction period of the entire tunnel construction. Can do.

(A) is a longitudinal cross-sectional view which shows the tunnel ventilation apparatus of embodiment of this invention, (b) is the cross-sectional view. (A) is an enlarged vertical sectional view showing a part of the tunnel ventilation device, and (b) is an enlarged horizontal sectional view of the same. It is a plane sectional view showing typically the ventilation process of the ventilation method of this embodiment. (A)-(c) is a longitudinal cross-sectional view which shows typically each operation | movement of the movement process of the ventilation method of this embodiment.

In the embodiment of the present invention, a tunnel ventilation device 1 that performs ventilation near the face and a ventilation method using the tunnel ventilation device 1 will be described for the purpose of maintaining the underground environment during tunnel construction.
The tunnel ventilator 1 of this embodiment is provided with the dust collector 2, the wind pipe 3, and the rail 4 as shown to Fig.1 (a).

The dust collector 2 is disposed on the face _TF side, and removes dust generated by excavation of the tunnel T. The refreshed air after dust removal is transported to the wellhead side through the wind pipe 3 connected to the dust collector 2 and exhausted to a position sufficiently away from the face _TF .

  The dust collector 2 of this embodiment is mounted on the vehicle 21 and is movable. In addition, the dust collector 2 does not necessarily need to be mounted on the vehicle 21, and may be provided so as to be movable on a rail via a carriage or the like, for example.

Ventilation tube 3 is extended from the dust collector 2 to wellhead T _E direction of the tunnel. It is desirable that the wind pipe 3 has a length of about 5 times the tunnel equivalent diameter (50 m in the present embodiment).
End of the working face T _F side of the ventilation tube 3 is connected to an exhaust port of the dust collector 2 through a reducer 5, the end of the wellhead T _E side open at a position sufficiently away from the working face T _F Yes. When the wind tube 3 is directly connected to the dust collector 2, the reducer 5 may be omitted.

  As shown in FIGS. 1A and 1B, the wind pipe 3 is suspended along a rail 4 provided on the shoulder portion of the tunnel T, and is thus piped along the tunnel axis direction. . In addition, the installation location of the wind pipe 3 is the upper part of the tunnel T so as not to hinder the movement, installation, etc. of each equipment used for the construction of the tunnel T, and the movement of workers, transportation devices, etc. Is desirable. In the present embodiment, the wind pipe 3 is piped on the shoulder of the tunnel T, but may be piped on the top of the tunnel T.

  The wind pipe 3 is a cylindrical body capable of transporting air, and is provided so as to be movable along the rail 4. As shown in FIGS. 2A and 2B, the wind pipe of the present embodiment is suspended via a trolley 6 that runs on the flange of the rail 4. The wind tube 3 may be attached to the rail 4 by a jig without the trolley 6.

  As shown in FIG. 1A, the rail 4 is formed to have a predetermined length (50 m in this embodiment) by connecting a plurality of rail members 41, 41,... In the tunnel axis direction. The length of each rail member 41 is not limited and may be set as appropriate. In this embodiment, a rail member having an I-shaped cross section is used. However, the material constituting the rail 4 is not limited, and may be a member having a U-shaped cross section, for example.

The rail 4 is suspended by the shoulder part of the tunnel T through the several suspension member 7, as shown in FIG.1 (b).
In this embodiment, as the suspension member 7, as shown in FIGS. 2 (a) and 2 (b), an anchor 8 embedded in a natural ground or shotcrete at the shoulder of the tunnel, and attached to the anchor 8. The chain block 9 is adopted. The suspension member 7 may be provided at the top of the tunnel T. Moreover, the structure of the suspension member 7 is not limited, For example, even if it uses the suspension member which can be attached to the steel support work (not shown) which comprises a part of support work of the tunnel T, for example. Good.

  A locking member capable of locking the chain block 9 is formed at the end of the anchor 8. The connection method of the anchor 8 and the chain block 9 is not limited, For example, you may connect via a jig | tool.

In the present embodiment, the chain block 9 and the rail 4 are connected via an attachment member 42 attached to the rail 4.
The attachment member 42 of this embodiment is locked to the upper flange of the rail 4. The attachment member 42 has wheels and can roll on the lower surface of the upper flange. Note that the configuration of the attachment member 42 is not limited, and may be, for example, a hook fixed to the rail 4 or the like. Further, the hook of the chain block 9 may be locked in an attachment hole formed in the rail 4.

Next, the ventilation method at the time of tunnel construction using the tunnel ventilation apparatus 1 of this embodiment is demonstrated.
The ventilation method includes a ventilation process and a movement process.
As shown in FIG. 3, the ventilation process is a process of performing ventilation in the vicinity of the face _TF and removing dust accompanying excavation. In the ventilation process, the tunnel ventilation device 1 installed in the tunnel T tunnel is activated.

Dust collector 2 absorbs contaminated air A ₁ (air containing dust) of the working face T _F vicinity, to remove the dust. Refresh air A ₂ which dust has been removed is transported to the wellhead T _E side via the ventilation tube 3 is evacuated to a position sufficiently away from the working face T _F.
Note that the tunnel T downhole separately from the tunnel ventilation system 1, air line 10 is being piping, fresh air A ₀ out of tunnel has been blown to the working face T _F vicinity.

In the tunnel T tunnel, the wrapping of the wind pipes (the air feed pipe and the wind pipe 3) is based on the balance between the amount of fresh air A ₀ blown by the air feed pipe 10 and the air volume of the refresh air A ₂ exhausted from the tunnel ventilator 1. since air curtain effect occurs in parts, the diffusion is prevented to the wellhead T _E side of the contaminated air a _1.

As shown in FIGS. 4A to 4C, the moving process is a process of moving the tunnel ventilation device 1 forward to the face _TF as the tunnel T is dug.
In the moving process, first, a suspension member 7 is newly installed on the face _TF side (see FIG. 4A). The suspension member 7 is newly installed by driving the anchor 8 into the shoulder of the tunnel T and attaching the chain block 9 to the anchor 8.

After the suspension member 7 is installed, the rail member 41 disposed at the rear end of the rail 4 is removed and moved to the face _TF side. The rail member 41 is connected to the tip of the rail 4 and is disposed on the tunnel shoulder through the newly provided suspension member 7 (see FIG. 4B). At this time, it is desirable to replace the chain block 9 that has suspended the rail member 41 together with the rail member 41.

When the rail 4 (rail member 41) is replaced, the dust collector 2 and the wind pipe 3 are moved forward to the face _TF side (see FIG. 4C). At this time, the wind pipe 3 is moved forward by moving the rail 4.
When the movement of the tunnel ventilator 1 is completed, the tunnel ventilator 1 is activated to ventilate the mine (ventilation process).

According to the tunnel ventilator 1 and the ventilation method of the present embodiment, the tunnel ventilator 1 can be easily moved, so that the transfer of the tunnel ventilator 1 does not hinder the entire construction of the tunnel.
Moreover, the environment in the tunnel T mine can be maintained by moving the tunnel ventilation apparatus 1 rapidly.

Since the wind pipe 3 is movable along the rail 4, the movement of the wind pipe 3 is easy.
Moreover, since the rail 4 is not directly fixed to the inner wall (top or shoulder) of the tunnel T but is suspended through the suspension member 7, it is easy to replace (remove and attach). is there.
The rearrangement of the rails 4 may be performed by the length of the excavation using the lifting members 7 that are added as the tunnel T is excavated.

Since no special jig is used as the suspension member 7 and the anchor 8 and the chain block 9 that are easy to procure are used, it is inexpensive.
Moreover, since the chain block 9 can be diverted, it is economical.

Although the embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and the above-described components can be appropriately changed without departing from the spirit of the present invention.
For example, in the embodiment, the axis of the dust collector 2 and the central axis of the wind tube 3 are arranged so as to be parallel in the vertical direction, but the axis of the dust collector 2 and the central axis of the wind tube 3 are eccentric. May be.

In the said embodiment, although the rail member 41 of a rear-end part was demonstrated to the front, the case where the rail 4 was moved to the face side was demonstrated, but the moving method of the rail 4 is not limited, for example, The entire rail 4 may be rearranged forward. Further, the rail 4 may be slid to the face _TF side using the attachment member 42.

DESCRIPTION OF SYMBOLS 1 Tunnel ventilation apparatus 2 Dust collector 3 Wind pipe 4 Rail 5 Reducer 6 Trolley 7 Suspension member 8 Anchor 9 Chain block

Claims (5)

A dust collector,
A wind pipe extending from the dust collector toward the tunnel entrance;
A tunnel ventilation device comprising a rail suspended from an upper part of the tunnel,
The wind pipe is suspended from the rail,
The tunnel ventilation device, wherein the rail is suspended through a plurality of suspension members provided on the top or shoulder of the tunnel.   The tunnel ventilation device according to claim 1, wherein the suspension member includes an anchor embedded in a top portion or a shoulder portion of the tunnel, and a chain block attached to the anchor.   The tunnel ventilator according to claim 1, wherein the wind pipe is provided so as to be movable along the rail.   4. The tunnel ventilator according to claim 1, wherein the dust collector and the wind pipe are connected via a reducer. 5. A ventilation process for ventilating the vicinity of the face using the tunnel ventilation device according to any one of claims 1 to 4,
A moving step of moving the tunnel ventilation device forward to the face side along with tunnel excavation, and a ventilation method in the tunnel comprising:
In the moving step, the operation of installing the most advanced suspension member in the vicinity of the face,
Working to suspend the tip of the rail on the state-of-the-art suspension member;
And a work for advancing the dust collector and the wind pipe to the face side.

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