JP4647887B2 - Telescopic wind pipe - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a telescopic wind pipe used in a ventilation device installed in a tunnel, for example.
[0002]
[Prior art]
When constructing large underground structures or excavating mountain tunnels, a large amount of dust is generated along with the excavation work. If such dust remains in the tunnel, it may harm the health of workers such as pneumoconiosis. In particular, the dust in the work area near the face (hereinafter referred to as the “face work area”) is transferred to the outside of the tunnel. A ventilator is used to discharge the air. In this ventilator, a flexible telescopic telescopic wind tube is used so that it is easy to change the introduction position of air containing dust in accordance with the progress of tunnel excavation. And, for example, by providing a blower at the rear end of the wind pipe and flowing air from the front end to the rear end of the telescopic wind pipe, air containing dust is introduced from the front end to Ventilation is performed to remove dust.
[0003]
As a telescopic wind pipe used for this ventilation apparatus etc., there exists a fastener connection wind pipe disclosed by Unexamined-Japanese-Patent No. 2000-146272, for example. This connection wind pipe is provided with a plurality of wind path pipes of about 10 to 100 m, for example. The plurality of airway pipes are closed and connected with a fastener to form a long-distance air pipe such as 1 to 5 km.
[0004]
[Patent Document 1]
Japanese Patent Laid-Open No. 2000-146272
[Problems to be solved by the invention]
However, in the connection wind pipe disclosed in Patent Document 1, the wind pipe is simply connected with a fastener, and the whole wind pipe has flexibility, When sending air to the wind pipe, the wind tube was easily deformed. When the wind pipe is deformed, there is a problem that the wind pipe is clogged, and further, the fan is broken due to surging.
[0006]
Then, the subject of this invention is providing the telescopic wind pipe which can prevent suitably the obstruction | occlusion by a deformation | transformation of a wind pipe, when flowing air through a wind pipe.
[0007]
[Means for Solving the Problems]
The telescopic wind pipe according to the present invention that has solved the above problems has a flexible wind pipe body that has flexibility, and in the telescopic wind pipe that introduces air from one end of the wind pipe body through the wind pipe body, The wind pipe body includes a plurality of flexible flexible wind pipes having flexibility and a non-deformable connection pipe for connecting the flexible wind pipes, and the contracted flexible wind pipe is connected to the wind pipe body. A guide member is provided on the connection pipe, and the guide member is provided with a plurality of bars spaced apart along the outer peripheral portion of the connection pipe and arranged along the expansion and contraction direction of the wind pipe body. It is.
[0008]
The telescopic wind tube according to the present invention includes a plurality of flexible wind tubes having flexibility and a connection wind tube having non-deformability for connecting the flexible wind tubes to each other. For this reason, even when the flexible wind tube is deformed and closes when the air flows through the wind tube, the non-deformable connecting wind tube prevents the flexible wind tube from being deformed. Therefore, the obstruction | occlusion by a deformation | transformation of a wind pipe can be prevented. In addition, by making the diameter of the connection tube substantially the same as the diameter of the wind tube body, the diameter of the wind tube body can be kept unchanged at the connection tube portion even when the wind tube body is contracted. . Therefore, the pressure loss due to the change in the diameter of the wind tube body can be reduced.
Moreover, when such a guide member is provided, when the telescopic wind tube contracts, the deformation of the contracted portion of the telescopic wind tube can be reduced. Therefore, the pressure loss at the time of performing ventilation can be reduced.
[0009]
Here, the connecting pipe is preferably a steel pipe. By using a steel pipe as the connecting pipe, the deformation of the telescopic wind pipe can be prevented more reliably.
[0010]
Further, it is preferable that a plurality of shape retaining members that retain the shape of the opening of the wind tube main body are attached to the telescopic wind tube while being spaced apart from each other in the expansion and contraction direction of the wind tube main body. By providing such a shape-retaining member, the opening shape of the wind tube main body can be retained, so that it is possible to prevent the air pipe main body from closing and stopping the flow of air. .
[0012]
In addition, it is preferable that the guide member includes a plurality of bar members that are separated from each other along the outer peripheral portion of the connection pipe and that are arranged along the expansion and contraction direction of the wind pipe body.
[0013]
Thus, by providing the guide member with a plurality of rods arranged along the direction of expansion and contraction of the wind tube body, it is not necessary to reduce the diameter of the wind tube body by providing the guide member. For this reason, the pressure loss at the position where the guide member is provided can be reduced, and the pressure loss in the wind pipe body can be reduced accordingly. Note that the bar here is a long member, which includes a circular or rectangular cross-sectional shape, and includes a flat plate such as a ski.
[0014]
At this time, it is preferable that the tip portion of the bar is bent toward the center direction of the wind tube body. Thus, since the front-end | tip part of a bar is bent toward the center direction of a wind tube main body, the shrunk flexible wind tube can be easily inserted in a guide member.
[0015]
Further, it is preferable that the guide member includes a frame member that supports the bar, and the frame member is a rectifying plate that rectifies the air flowing in the wind pipe body. By providing such a frame member, it is possible to support the bar and prevent breakage of the bar. In addition, by using a rectifying plate as the frame member, it is possible to rectify the air flow in the wind pipe body to prevent turbulent flow, thereby contributing to reduction of pressure loss.
[0016]
The telescopic windpipe according to the present invention that has solved the above problems has a flexible windpipe main body that can be stretched and introduces air from one end of the windpipe main body through the windpipe main body. The wind tube body is formed by connecting a plurality of flexible flexible wind tubes having flexibility, and a plurality of shape-retaining members that keep the shape of the opening of the wind tube main body are extending and contracting directions of the wind tube body. A plurality of wind tube deformation prevention belts are provided apart from each other in the direction of expansion and contraction of the wind tube main body. Is.
[0017]
In the telescopic windpipe according to the present invention, a plurality of windpipe deformation preventing belts are provided apart from each other in the direction of expansion and contraction of the windpipe main body. For this reason, since the shape-retaining member is prevented from being twisted or rolled up, the pressure loss due to these can be reduced . Therefore, blockage due to deformation of the wind pipe can be suitably prevented.
[0018]
Further, the plurality of wind tube deformation prevention belts provided on the downstream side in the air flow direction in the wind tube body is more than the plurality of wind tube deformation prevention belts provided on the upstream side in the air flow direction in the wind tube body. It is preferable to adopt a mode in which they are densely arranged.
[0019]
The downstream side of the wind pipe body in the air flow direction is more likely to be deformed because a higher pressure is applied to the wind pipe body than the upstream side. Therefore, by arranging the wind tube deformation prevention belt densely on the downstream side, the deformation of the wind tube can be more preferably prevented.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings. In addition, the same code | symbol shall be used for the same element and the overlapping description is abbreviate | omitted.
[0021]
FIG. 1 is a view showing a telescopic wind tube according to the present invention, in which (a) is a side view showing a state where the telescopic wind tube is extended, and (b) is a side view showing a state where the telescopic wind tube is contracted. 2 is a perspective view of a main part of the telescopic wind pipe according to the present invention, and FIG. 3 is a front view of a tunnel provided with the telescopic wind pipe according to the present invention.
[0022]
As shown in FIG. 1, the telescopic wind tube 1 according to this embodiment includes a wind tube body 2. The wind pipe main body 2 is made of vinyl, and has a flexible flexible wind pipe 3 that can be expanded and contracted, and a steel connection pipe 4 that connects the flexible wind pipes 3 to each other. The flexible wind tube 3 is expanded and contracted so that the wind tube main body 2 is expanded and contracted. The flexible wind pipe 3 has a length of, for example, 10 m to 50 m. By connecting the plurality of flexible wind pipes 3 with connecting pipes 4 respectively, the length of the flexible wind pipe 3 is, for example, about 1 km in an extended state. The telescopic wind tube 1 is formed. When this contracts, the length becomes, for example, about 400 m. Moreover, the connection part of the flexible wind pipe 3 and the connection pipe 4 is fixed by the band member 4A and sealed so as to maintain an airtight state.
[0023]
As shown in FIG. 2, a plurality of metal or resin ring members 5, which are shape-retaining members of the present invention, are attached to the inside of the flexible wind tube 3. The plurality of ring members 5 are attached at regular intervals in the expansion / contraction direction (extending direction) of the flexible wind tube 3. The ring member 5 has non-deformability (hardness), and is fixed to the surface of the flexible wind tube 3 from the surface side by a heating adhesive portion of an adhesive sheet (not shown). In this way, the opening shape is maintained and the opening shape is maintained so that the flexible wind tube 3 is not crushed and the passage is not blocked. Moreover, deterioration of the ring member 5 and the flexible wind tube 3 is prevented by the adhesive tape.
[0024]
A bell mouth 6 is attached to the distal end portion (left end portion in FIG. 1) of the wind tube main body 2. Dust generated from the face working area in the vicinity of the face K in the tunnel T is introduced into the wind pipe body 2 through the bell mouth 6 together with air. A dust collector 7 is attached to the rear end (base end) of the wind pipe body 2. The dust collector 7 includes a blower (not shown). By driving the blower, a suction force is generated so that air flows in the wind tube main body 2 from the front end portion to the rear end side of the wind tube main body 2. It has become. Then, dust generated in the vicinity of the face work area via the bell mouth 6 is sucked together with air and sent to the dust collector 7 via the wind tube body 2. The dust collector 7 collects the sent dust. The dust collector 7 is mounted on the vehicle 8, and the dust collector 7 can be moved by moving the vehicle 8. The dust collector 7 and the telescopic wind tube 1 constitute a ventilation device in the tunnel. As shown in FIG. 3, the telescopic wind tube 1 is suspended from the upper part at a position slightly lateral to the center position in the width direction in the tunnel T.
[0025]
Further, as shown in FIGS. 4 and 5, an expansion / contraction driving device 9 is provided above the wind tube main body 2. The telescopic drive device 9 includes a first rail 10 provided obliquely above the tunnel T and a second rail 11 provided below the first rail 10. The first rail 10 is provided with a ring support member 12 and a lower trolley 13. A ring member 5 is suspended from the ring support member 12. The ring support member 12 is provided with a rotation prevention mechanism (not shown) to prevent the ring support member 12 and the ring member 5 from rotating around the vertical axis. The ring support member 12 is provided with the ring member 5 in all, and the ring member 5 includes those that are suspended from the ring support member 12 and those that are not suspended from the ring support member 12. The number of ring members 5 suspended from the ring support member 12 is 80% of the total number of ring members 5. As described above, the ring support member 12 prevents the ring member 5 from rotating about 80%, thereby preventing the wind pipe body 2 from being kinked.
[0026]
Although a certain number of the ring support members 12 are provided side by side, the ring support members 12 are spaced apart from each other in the extending direction of the wind tube main body 2 at a predetermined interval, and a lower trolley 13 is provided at an appropriate interval therebetween. The lower trolley 13 is driven by a driving device (not shown) and has a roller 14 placed on the second rail 11. The roller 14 travels on the second rail 11, whereby the wind pipe body 2. Can be expanded and contracted as a whole. Since these lower trolleys 13 are arranged at equal intervals with a predetermined interval, when the wind tube body 2 is contracted, the wind tube body 2 is contracted uniformly.
[0027]
The first rail 10 is suspended by the upper trolley 15. The upper truck 15 is suspended from a turnbuckle 16 suspended from the upper part of the tunnel T. Further, the upper trolley 15 has a roller 17, and the first rail 10 and the second rail 11 are moved relative to the tunnel T by rolling the roller 17.
[0028]
Further, a stay 20 that is a guide member of the present invention is provided inside the connecting pipe 4. As shown in FIG. 6, the stay 20 includes a total of two sets of four bar members 21 at the front and rear positions. These bar members 21 are arranged at equal intervals on a circle that is slightly smaller than the circle when the connection pipe 4 is viewed from the front, and the longitudinal direction thereof is arranged along the expansion / contraction direction of the wind pipe body 2. It is installed. Furthermore, the stay 20 includes a frame member 22 that supports the bar 21. The frame member 22 has a rectangular portion 22A provided in the central portion and a substantially X-shape that is disposed on a diagonal line of the rectangular portion 22A and extends to the bar 21 through each corner portion of the rectangular portion 22A. A cross section 22B is formed. The cross bar 22B supports the bar 21 so as to prevent the bar 21 from being broken. Each of the rectangular portion 22 </ b> A and the cross portion 22 </ b> B is formed by a rectifying plate having a thin shape when viewed from the expansion / contraction direction of the wind tube body 2. For this reason, it has the function to prevent the turbulent flow by rectifying the air flow in the wind pipe body 2. The frame member 22 including the rectangular portion 22A and the cross portion 22B is provided also inside the connection pipe 4, and a total of three frame members 22 are provided in one connection pipe 4.
[0029]
Furthermore, the tip of the bar 21 is a bent portion 21 </ b> A that is slightly bent toward the central direction of the wind tube body 2. By forming the bent portion 21A, when the wind tube body 2 contracts, the bar 21 smoothly enters the inside of the flexible wind tube 3, and the flexible wind tube 3 is connected to the connecting tube. 4 is easy to guide.
[0030]
The stay 20 shown in FIG. 6 is used for the connection pipe 4 that connects the flexible wind pipes 3 to each other, but the stay 25 shown in FIG. 7 is used for the connection pipe 4 provided at both ends of the wind pipe body 2. . This stay 25 is provided with a bar 21 only on one side of the connecting pipe 4, and the configuration of the bar 21 and the frame member 22 is the same as that of the stay 20 shown in FIG. 6. The connecting pipe 4 is provided with a set of four bar members 21 and two frame members 22.
[0031]
Further, as shown in FIGS. 4 and 5, on the outer side of a part of the position where the ring member 5 is provided in the flexible wind tube 3, the deformation of the flexible wind tube 3 is prevented. A belt (hereinafter referred to as “belt”) 30 is provided. As shown in FIG. 5, the belt 30 has a diameter that is slightly larger than the diameter of the flexible wind tube 3, and a gap is formed between the flexible wind tube 3 and the belt 30. The ring member 5 and the belt 30 at a position corresponding to the belt 30 are fixed at the upper part by a flange member 31 and fixed at the lower part by a fixing member (not shown). The ring member 5 corresponding to the belt 30 is It moves with the belt 30.
[0032]
Furthermore, as shown in FIG. 1, a plurality of belts 30 are provided apart from each other in the direction of expansion and contraction of the wind tube body 2. The belt 30 is arranged so that the downstream side in the flow direction of the air flowing inside the wind tube body 2 is denser than the upstream side. Specifically, the belt 30 is densely arranged on the side where the dust collector 7 which is the most downstream side of the air flow is provided, and the four belts 30 are provided between the connecting pipes 4 and 4. . On the other hand, two belts 30 are provided between the connecting pipes 4 and 4 on the side where the bell mouth 6 which is the most upstream side of the air flow is provided. Since the flexible air pipe 3 having the same length is provided between the two connecting pipes 4 and 4, the belt 30 provided on the downstream side in the air flow direction is more than the belt 30 provided on the upstream side. It will be arranged densely.
[0033]
The operation of the telescopic wind tube 1 according to the present invention having the above configuration will be described.
[0034]
When excavating the tunnel T, a large amount of dust or the like is generated in the face work area in the vicinity of the face K. The dust or the like is sucked by applying a suction pressure through the telescopic wind tube 1 by a blower provided in the dust collector 7, and dust is removed for ventilation. Now, when excavation of the tunnel T has progressed and the face K is at a position far from the vehicle 8, as shown in FIG. 1 (a), the wind tube body 2 in the telescopic wind tube 1 is used in an extended state.
[0035]
Here, since the wind pipe main body 2 is shape-retained by the plurality of ring members 5, closing due to negative pressure is prevented, and the opening shape can be maintained. Further, when the wind tube main body 2 is in the extended state, the surface of the wind tube main body 2 is in a tensioned state. Therefore, when air is sucked by the blower of the dust collector 7, the pressure loss may be reduced. it can.
[0036]
Further, the wind pipe main body 2 according to the present embodiment is provided with a plurality of belts 30 on the outer side where the ring member 5 is provided. When the plurality of ring members 5 provided on the wind pipe body 2 are twisted or rolled up, the wind pipe body 2 (flexible wind pipe 3) is deformed. When such deformation occurs, it causes a pressure loss in the wind pipe body 2 to increase. In this respect, in the present embodiment, the provision of the belt 30 prevents the ring member 5 from being twisted or rolled up, and the pressure loss caused by these can be reduced. In particular, in the telescopic wind tube 1 according to the present embodiment, the belt 30 is densely arranged on the downstream side of the air flowing through the wind tube body 2 and is roughly arranged on the upstream side. For this reason, it is possible to suitably prevent deformation of the flexible wind tube 3 on the downstream side of the air that is relatively likely to be deformed in the flexible wind tube 3.
[0037]
Subsequently, when the excavation of the tunnel T proceeds and the distal end portion of the telescopic wind tube 1 moves away from the face work area, the vehicle 8 is moved in the direction of the face K. Then, in order to reduce the number of movements of the vehicle 8 as much as possible, the vehicle 8 is brought close to the face K, and ventilation is performed with the telescopic wind tube 1 contracted as shown in FIG. And as excavation of the tunnel T proceeds, the telescopic wind tube 1 is gradually extended so that the vehicle 8 is ventilated without moving.
[0038]
Here, when the wind tube main body 2 is contracted, the flexible wind tube 3 is folded on the rod 21 of the stay 20 provided in the connecting tube 4, and the rod 21 enters the flexible wind tube 3. The flexible wind tube 3 is guided in the direction of the connecting tube 4. At this time, since the bent portion 21A is formed at the tip of the bar 21, the bar 21 smoothly enters the flexible wind tube 3 so that the flexible wind tube 3 is not damaged. be able to.
[0039]
Further, in the wind pipe body 2 according to the present embodiment, the flexible wind pipe 3 is connected by a non-deformable connection pipe 4. Since the flexible wind tube 3 has flexibility, the flexible wind tube 3 tends to be deformed by contraction. However, since the flexible wind tube 3 is connected by a non-deformable connecting tube 4, the flexible wind tube 3 tends to be deformed. Since the length of the flexible wind tube 3 itself is short, deformation of the flexible wind tube 3 can be suppressed. Therefore, since the deformation | transformation as the whole wind pipe main body 2 can be suppressed, the obstruction | occlusion resulting from a deformation | transformation of the wind pipe main body 2 can be prevented. Further, when the wind tube body 2 is loosened, turbulent flow is generated in the wind tube body 2 and the pressure loss is increased. On the other hand, in the wind pipe main body 2 according to the present embodiment, the flexible wind pipe 3 is connected with the non-deformable connecting pipe 4 even if the flexible wind pipe 3 is loosened. The slack of the wind tube 3 is suppressed. Therefore, it is possible to prevent an increase in pressure loss due to the looseness of the wind pipe body 2.
[0040]
By the way, for example, when a small-diameter inner tube is provided inside a connection portion of a flexible wind tube in the wind tube main body, and the wind tube main body 2 contracts, the inner tube is continuously formed to form a wind tube. In this case, turbulent flow due to slack does not occur, which contributes to reduction of pressure loss. However, such an embodiment in which the inner pipe is provided may reduce the volume of the wind pipe main body and increase the pressure loss. In that respect, in the telescopic wind tube 1 according to the present embodiment, the flexible wind tube 3 is simply connected to the connection tube 4, so that the volume in the wind tube body 2 can be prevented from being reduced. Further, when the wind tube main body 2 is contracted, the stay 20 provided in the connection tube 4 is used. However, since the stay 20 is composed of a bar member 21 and a frame member 22 made of a current plate, The volume in the tube body 2 can be hardly reduced. In addition, turbulent flow in the wind tube main body 2 can be prevented by the action of the frame member 22 that is a current plate, and air can flow smoothly, so that pressure loss can be further reduced.
[0041]
The preferred embodiment of the present invention has been described above, but the present invention is not limited to the above embodiment. For example, in the above-described embodiment, four bars 21 of the stay 20 form one set, but this may be three or five or more. Moreover, in the said embodiment, although the suction type dust collector provided in the entrance side of a tunnel is used, it can be made to respond | correspond to the type of dust collection exhaust system which provided the air blower in the face side.
[0042]
【The invention's effect】
As described above, according to the present invention, it is possible to provide a telescopic wind tube that can suitably prevent blockage due to deformation of the wind tube when air is passed through the wind tube.
[Brief description of the drawings]
1A and 1B are views showing a telescopic wind tube according to the present invention, in which FIG. 1A is a side view showing a state where the telescopic wind tube is extended, and FIG. 1B is a side view showing a state where the telescopic wind tube is contracted. .
FIG. 2 is a perspective view of an essential part of the telescopic wind pipe according to the present invention.
FIG. 3 is a front view of a tunnel provided with a telescopic wind pipe according to the present invention.
FIG. 4 is an enlarged side sectional view of the telescopic wind pipe according to the present invention.
FIG. 5 is an enlarged front sectional view of the telescopic wind pipe according to the present invention.
FIG. 6 is a perspective view of a connecting pipe.
FIG. 7 is a perspective view of a connection pipe used at the end of the wind pipe body.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Telescopic wind pipe 2 ... Wind pipe main body 3 ... Flexible wind pipe 4 ... Connection pipe 5 ... Ring member 6 ... Bell mouth 7 ... Dust collector 8 ... Vehicle 9 ... Telescopic drive device 10 ... First rail 11 ... Second rail 12 ... Ring support member 13 ... Lower trolley 14 ... Roller 15 ... Upper trolley 16 ... Turn buckle 17 ... Rollers 20, 25 ... Stay 21 ... Steel 22 ... Frame member 30 ... Belt 31 ... Flange member K ... Face T ... Tunnel

Claims (7)

A telescopic wind tube having a flexible wind tube body having flexibility, and introducing air from one end of the wind tube body through the wind tube body,
The wind pipe main body includes a plurality of flexible flexible wind pipes having flexibility, and a non-deformable connection pipe for connecting the flexible wind pipes,
A guide member for guiding the contracted flexible wind pipe to the connection pipe is provided in the connection pipe ;
The telescopic wind tube is characterized in that the guide member includes a plurality of bar members that are spaced along the outer peripheral portion of the connection tube and are disposed along the expansion and contraction direction of the wind tube body . The telescopic wind tube according to claim 1 , wherein a distal end portion of the bar is bent toward a center direction of the wind tube body. The guide member includes a frame member that supports the bar,
The telescopic wind tube according to claim 1 or 2 , wherein the frame member is a rectifying plate that rectifies air flowing in the wind tube body. The telescopic wind pipe according to any one of claims 1 to 3, wherein the connection pipe is a steel pipe. The plurality of shape-retaining members that retain the shape of the opening of the flexible wind tube are attached to the flexible wind tube at a distance from each other in the expansion and contraction direction of the wind tube main body . The telescopic wind tube according to any one of the preceding claims. The wind pipe body is formed by connecting a plurality of the flexible wind pipes,
Wherein the outside of the shape-retaining member is the air tube body provided, ventilation tube for preventing deformation belt, telescopic air tube according to claim 5 which are more spaced apart in the stretching direction of the wind pipe body. The plurality of wind tube deformation prevention belts provided on the downstream side in the air flow direction in the wind tube body is more than the plurality of wind tube deformation prevention belts provided on the upstream side in the air flow direction in the wind tube body. The telescopic windpipe according to claim 6 , which is densely arranged.

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