JP7129348B2 - Tailpiece carriage and stretch belt conveyor - Google Patents

Description

TECHNICAL FIELD The present invention relates to a tailpiece carriage and a stretching belt conveyor, and more particularly to a tailpiece carriage and a stretching belt conveyor for a stretching belt conveyor for conveying excavation waste during tunnel excavation.

2. Description of the Related Art Conventionally, there has been known a tail piece carriage of a stretched belt conveyor for conveying excavated waste (rock mass, earth and sand, etc. excavated from the ground) during tunnel excavation (see, for example, Patent Document 1).

As a mechanism for adjusting the belt level (height), Patent Literature 1 discloses a mechanism that installs an inclined frame on a tailpiece truck and a work truck for ventilation installed behind it. A stretching belt conveyor (continuous belt conveyor) is installed on the inclined frame. Specifically, the conveyor frame for the belt stretching operation is installed near the tail piece of the inclined frame, and the conveyor frame and the inclined frame move relative to each other when the tail piece carriage moves (advance). The tilt frame moves in the face direction and the conveyor frame does not move horizontally).

Although it is not specified in Patent Document 1, the belt conveyor generally has an inclined portion to suppress bending of the conveyor frame that supports the conveyor belt at the point where the belt conveyor moves from the inclined portion to the horizontal portion on the wellhead side. is made small (the angle between it and the horizontal part is an obtuse angle close to 180 degrees). That is, a large horizontal length of the inclined portion is ensured.

In Patent Document 1 as well, a large horizontal length of the inclined frame is ensured in order to suppress bending of the conveyor frame. Therefore, in the belt conveyor of Patent Document 1, the tailpiece carriage alone cannot support the horizontally long inclined frame. is provided. In addition, the work carriage is arranged at a relatively distant position away from the tailpiece carriage. The work trolley is used to fix the horizontally arranged conveyor frame to the pit wall.

JP 2016-169554 A

However, in the belt level (height) adjusting mechanism described in Patent Document 1, since the conveyor frame is installed on the inclined frame for adjusting the belt level, the conveyor frame is bent at the angle change point between the inclined portion and the horizontal portion. Therefore, it is necessary to set the angle change point to an obtuse angle close to 180 degrees. had to be installed. That is, there is a problem that the device configuration is complicated.

SUMMARY OF THE INVENTION The present invention has been made to solve the problems described above, and one object of the present invention is to provide a tailpiece carriage and a stretching belt conveyor that can suppress the complication of the device configuration. That is.

In order to achieve the above object, the tailpiece carriage according to the present invention is a tailpiece carriage arranged on the face side of a stretched belt conveyor for conveying excavation waste during tunnel excavation, the tailpiece carriage being arranged on the face side of the conveyor belt. A conveyor tail portion, to which a tail piece with a wound end portion is assembled, is inclined so that the wellhead side is positioned upward, and a conveyor frame is arranged substantially horizontally on the wellhead side of the conveyor tail portion. A horizontal mounting portion and a moving carriage portion on which the conveyor tail portion and the horizontal mounting portion are mounted.

In the tail piece carriage according to the present invention, with the configuration as described above, unlike the conventional tail piece carriage, in addition to the tail piece carriage, a work carriage is provided behind and a long inclined frame straddling the work carriage is not provided. The work of installing the conveyor frame can be performed at the horizontal installation section at the rear (pithead side) of the conveyor tail section where the belt level is adjusted at a steep angle of the piece truck. That is, since there is no need to provide a work trolley and an inclined frame as in the conventional art, complication of the device configuration can be suppressed. In addition, since the extension (additional) conveyor frame can be installed substantially horizontally on the horizontal installation section without being tilted, there is no need to consider the bending of the conveyor frame as in the conventional case, and the conveyor tail section can be adjusted. can be relatively large. Therefore, the horizontal length of the conveyor tail portion can be made relatively small, so that the device configuration can be simplified (downsized).

In the tailpiece carriage according to the present invention, the horizontal installation section is preferably configured such that the height position for installing the conveyor frame can be changed. With this configuration, the height position at which the conveyor frame is installed can be freely adjusted according to the conditions of the work site.

In the tailpiece carriage according to the present invention, preferably, the horizontal installation portion is composed of a plurality of support portions arranged at predetermined intervals in the extending direction of the tunnel. According to this structure, the horizontally elongated conveyor frame can be stably supported by the plurality of supporting portions.

In the tailpiece carriage according to the present invention, preferably, the conveyor tail portion includes an inclined portion on which the tailpiece is assembled and arranged at an angle; an extension disposed above the horizontal mounting portion. With this configuration, the conveyor belt can be arranged (detoured) above the horizontal installation part so as to avoid the horizontal installation part by the extension part, so that a new conveyor frame is installed in the horizontal installation part. It is possible to secure a working space below the extension. Therefore, a new conveyor frame can be easily installed on the horizontal installation section. In addition, while performing the work of installing a new conveyor frame, the work of conveying the excavated muck can be performed in parallel. Therefore, it is possible to further improve the workability of the stretching operation of the stretching belt conveyor.

In this case, the extension preferably extends substantially horizontally. With this configuration, the extension portion can be arranged substantially parallel to the horizontal installation portion, so the space for arranging the extension portion and the horizontal installation portion in the height direction can be reduced.

The tailpiece carriage according to the present invention preferably further includes a movable support portion that supports the conveyor tail portion and is capable of changing at least the vertical position (vertical position) and inclination angle of the conveyor tail portion. With this configuration, the height position of the conveyor belt can be easily adjusted by the movable support portion. In addition, if the movable support part has a degree of freedom such as horizontal direction and rolling, the belt attitude can be adjusted according to the subsequent installation.

A stretched belt conveyor according to the present invention is a stretched belt conveyor for conveying excavated waste during tunnel excavation, and includes a head pulley device arranged on the side of a wellhead and a tailpiece carriage. A conveyor tail portion in which a tail piece around which the end of the conveyor belt on the face side is wound between the pulley device is assembled, and which is inclined so that the wellhead side is positioned upward, and the wellhead side of the conveyor tail portion. and includes a horizontal mounting section for mounting the conveyor frame substantially horizontally, and a moving carriage section on which the conveyor tail section and the horizontal mounting section are mounted.

In the stretching belt conveyor according to the present invention, by being constructed as described above, it is possible to install the conveyor frame at the horizontal installation portion of the tail piece carriage without providing a conventional work carriage. The work of advancing the piece carriage and the work of installing the conveyor frame can be performed on the tail piece carriage without being dispersed. As a result, as with the tailpiece carriage, it is possible to suppress the complication of the device configuration.

According to the present invention, as described above, it is possible to provide a tailpiece carriage and a stretching belt conveyor capable of suppressing complication of the device configuration.

1 is a schematic diagram showing an overview of a stretching belt conveyor provided with a tailpiece carriage according to a first embodiment; FIG. FIG. 10 is a perspective view of the conveyor frame and knee brace; FIG. 4 is a front view showing the conveyor frame and knee brace; FIG. 6 is a schematic arrow view of the tailpiece carriage taken along line AA in FIG. 5; Fig. 2 is a rear view of the tailpiece carriage according to the first embodiment; FIG. 6 is a schematic arrow view of the tailpiece carriage taken along line BB of FIG. 5; It is a figure for demonstrating in order about operation|movement of the tailpiece truck by 1st Embodiment. FIG. 11 is a side view of the tailpiece carriage according to the second embodiment; It is a figure for demonstrating in order about operation|movement of the tailpiece truck by 2nd Embodiment.

BEST MODE FOR CARRYING OUT THE INVENTION An embodiment of the present invention will be described below with reference to the drawings.

[First embodiment]
The configuration of the tail piece carriage 100 according to the first embodiment will be described with reference to FIGS. 1 to 7. FIG. The tailpiece carriage 100 is a device that holds the tailpiece 21 of the stretching belt conveyor 1 for conveying the excavated waste EM during tunnel excavation. The excavated waste EM is rock masses, earth and sand excavated from the natural ground during excavation of the tunnel.

(Overview of configuration of stretching belt conveyor)
The tailpiece carriage 100 is one component of the stretch belt conveyor 1 . In addition to the tailpiece carriage 100, the stretching belt conveyor 1 includes a head pulley device 2, a belt storage 4, a belt drive device 5, a conveyor belt 3, a conveyor frame 6 (6a), and a knee brace K (Ka). It has

The stretching belt conveyor 1 is a conveyor belt for transporting the excavated muck EM between the tail piece 21 of the tail piece carriage 100 arranged on the face (excavation surface) side and the head pulley device 2 arranged on the wellhead side. 3 is a winding transport system. While the head pulley device 2 is fixedly installed near the wellhead, the tailpiece carriage 100 is movably provided and moves as the face advances. The conveyor belt 3 is an annular endless belt.

In the following description, the up-down direction (vertical direction) is the Z direction, the direction in which the conveyor belt 3 extends is the X direction, and the direction orthogonal to the Z and X directions is the Y direction. Of the X directions, the excavation direction, which is the direction facing the face side, is defined as the X1 direction, and the conveying direction of the excavated muck EM, which is the direction facing the wellhead side, is defined as the X2 direction.

The belt driving device 5 is configured to drive one conveyor belt 3 wound around each pair of pulleys 4a and 4b of the tailpiece carriage 100 (tailpiece 21), the head pulley device 2, and the belt storage 4. It is Each pair of pulleys 4a and 4b is pulled from the left and right by a hydraulic cylinder or the like. The belt driving device 5 is configured to circulate the conveyor belt 3 by, for example, combining an electric motor and a speed reducer to rotationally drive a drive pulley 5a around which the conveyor belt 3 is wound. The belt storage 4 stores the conveyor belt 3, and when the tailpiece carriage 100 is extended, the conveyor belt 3 is let out while applying tension to the conveyor belt 3. As shown in FIG.

A conveyor frame provided with a carrier roller 6b and a return roller 6c between each device (tailpiece carriage 100, head pulley device 2, belt storage 4, belt drive device 5, conveyor belt 3) provided in the stretching belt conveyor 1. 6 supports the conveyor belt 3 . If the length of the stretching belt conveyor 1 is long, an intermediate driving device (not shown) that applies a driving force at an intermediate position between the head pulley device 2 and the tail piece 21 may be provided.

As shown in FIG. 2, the conveyor frame 6 is composed of a pair of beam members 6d that extend linearly in the X direction and are aligned in the Y direction. The conveyor frame 6 is configured to extend long in the X direction by connecting a plurality of pairs of beam members 6d in the X direction. The conveyor frame 6 is provided over substantially the entire area of the tunnel in the X direction. The beam member 6d is provided with a carrier roller support portion 6e for supporting the carrier roller 6b and a return roller support portion 6f for supporting the return roller 6c.

Conveyor frame 6 has carrier rollers 6b and return rollers 6c for respectively supporting two belt portions wound from tail piece 21 (see FIG. 1) to head pulley device 2 (see FIG. 1). It is a conveyor belt supporting frame assembled to the carrier roller supporting portion 6e and the return roller supporting portion 6f.

The two belt portions of the conveyor belt 3 referred to here are, as shown in FIG. A return portion 3b returning to the tailpiece 21 is meant. The carrier portion 3a of the conveyor belt 3 is formed in a boat shape by a plurality of rollers (see FIG. 3), but it can also be formed by rollers extending in the horizontal direction (Y direction). A return portion 3b of the conveyor belt 3 is supported by one return roller 6c extending in the horizontal direction (Y direction).

A conveyor frame 6 is provided between each device such as the tailpiece carriage 100 and the head pulley device 2 shown in FIG. 1 to support the conveyor belt 3 so as to be circulating. A conveyor frame 6 disposed between these devices is formed to a predetermined length, is connected at its ends, and is fixed to the tunnel wall via a knee brace K inside the tunnel. Therefore, when the tail piece carriage 100 moves forward with excavation, the conveyor tail portion 20 moves forward with respect to the existing conveyor frame 6, and the rear end portion (X2 direction end portion) of the conveyor tail portion 20 and the conveyor frame 6 move forward. A gap (gap S (see FIG. 7B)) is formed between the . In the tailpiece truck 100, every time it moves forward as it excavates, an extension (additional) conveyor frame 6a is assembled in this gap and connected so as to extend the existing conveyor frame 6 in the X1 direction. A later-described horizontal installation portion 60 (a later-described conveyor frame elevating support portion 61) on the second frame portion 11b is configured so that the extension conveyor frame 6a can be movably adjusted to the height position of the existing conveyor frame 6. there is The conveyor frame elevating support section 61 is an example of the "support section" in the scope of claims.

When the tailpiece carriage 100 advances and the conveyor frame 6 is removed from the horizontal installation portion 60, a new knee brace Ka is installed and fixed to the conveyor frame 6. - 特許庁

As shown in FIG. 2, the plurality of knee braces K are beam members provided on the hole wall at predetermined intervals in the X direction. The knee brace K extends linearly in the Y direction, with an upper beam member K1 having one end fixed to the well wall, and a lower beam member K2 extending linearly in an oblique direction and having one end fixed to the well wall. and The lower beam member K2 supports the upper beam member K1 from below so as to reinforce it. In short, the conveyor frame 6 is supported by the knee braces K so as to float above the road surface of the tunnel (see FIG. 3). The lower beam member (knee brace K) described above is only an example, and the conveyor frame 6 (6a) is suspended by chains or the like from the opposite wall end of the upper beam member, not the lower beam member (knee brace K). may In addition, the conveyor frame 6 (6a) may be supported by a gate type knee brace from the road surface of the tunnel.

As shown in FIG. 4, the X1-direction end of the conveyor frame 6 located at the X1-direction end is not supported by the knee brace K, and the horizontal installation portion 60 of the tailpiece carriage 100, which will be described later, is supported for raising and lowering the conveyor frame. It is supported by the portion 61 . In addition, the conveyor frame lifting support part 61 may be of a fixed type instead of a movable type. That is, the conveyor frame elevating support section 61 may have any configuration as long as it supports the conveyor frame 6 .

In FIG. 1, as an example, an example of construction by a blasting method used for construction of a mountain tunnel or the like is shown. The generated excavated muck EM is collected by a transport vehicle 7a such as a wheel loader, crushed to a size that can be transported by a self-propelled crusher 7b, and then loaded onto a tailpiece truck 100. FIG.

The excavated muck EM loaded on the conveyor belt 3 of the tailpiece truck 100 is conveyed by the belt driving device 5 to the head pulley device 2 installed near the portal outside the tunnel. is continuously conveyed with the movement of

(Composition of the tailpiece carriage)
As shown in FIG. 4 , as an example, the tailpiece carriage 100 includes a movable carriage section 10 , a conveyor tail section 20 , a movable support section 30 and a horizontal installation section 60 .

<Structure of moving cart>
Various components constituting the tail piece carriage 100 are assembled to the movable carriage portion 10 . The movable carriage section 10 movably supports the entire tailpiece carriage 100 . The mobile carriage section 10 is a single (one) configuration on which both the conveyor tail section 20 and the horizontal mounting section 60 are mounted. In addition, in this specification, the "movable carriage" means a support structure configured to be movable, and is not limited to a structure having wheels.

As shown in FIG. 4 (corresponding to the view in the direction of arrow A in FIG. 5), the movable carriage section 10 includes a carriage frame 11 to which various components constituting the tailpiece carriage 100 are assembled, and a carriage frame 11 that is movable. and a moving mechanism 12 for supporting. The carriage frame 11 is a skeleton portion that supports each portion including the conveyor tail portion 20 and the horizontal installation portion 60 .

The carriage frame 11 includes a first frame portion 11a that supports the conveyor tail portion 20, and a second frame portion 11b that supports the horizontal installation portion 60 on the X2 direction side of the first frame portion 11a. The first frame portion 11a and the second frame portion 11b are provided integrally. The second frame portion 11b is provided to rise upward from the X2-direction end of the first frame portion 11a. The second frame portion 11 b is provided so as to rise to a position above the tail piece 21 of the conveyor tail portion 20 .

The moving mechanism 12 is provided below the carriage frame 11 . The moving mechanism 12 is provided below the first frame portion 11 a and supports the carriage frame 11 . The moving mechanism 12 is a crawler type (endless track type) moving mechanism, and includes a crawler 12a, a hydraulic motor (not shown) for driving the crawler 12a, and the like. The tailpiece carriage 100 is configured to be able to run by itself (running without depending on external power) by the crawler-type moving mechanism 12 provided in the movable carriage section 10 .

As shown in FIG. 5 (a view of the tailpiece carriage 100 viewed from the rear), the crawlers 12a constituting the moving mechanism 12 are provided on both sides of the carriage frame 11 in the Y direction (both sides in the width direction of the tailpiece carriage 100). (pair) provided. The bogie frame 11 (the first frame portion 11a and the second frame portion 11b) is arranged at a position sandwiched between the crawlers 12a on both sides.

In addition, the moving mechanism 12 may be configured to run by itself, for example, by a tire system or a rail and wheel system. Further, the moving mechanism 12 may be configured to travel by being pulled or propelled by an external device. As the movement mechanism 12 when traveling by an external device, for example, a skid system (sled) may be used in addition to the crawler system, tire system, and rail and wheel system.

As shown in FIG. 6, the tailpiece carriage 100 includes outriggers 101, a control panel 103, a hydraulic control unit 102, an operation panel (not shown), a cable reel (not shown), etc., in addition to the main equipment described above. is installed. The hydraulic control unit 102 hydraulically operates the movable support section 30, the moving mechanism 12, the outriggers 101, the conveyor frame elevation support section 61, and the like. In addition, FIG. 6 corresponds to the B-direction arrow directional view of FIG. 5 .

<Construction of Conveyor Tail>
As shown in FIG. 4, as an example, the conveyor tail section 20 includes a tail piece 21, a pulley frame 22, a conveyor hopper 23, and rollers (carrier roller 24b, return roller 24c, impact roller 24d). ing.

<Structure of movable support>
As shown in FIG. 4, the movable support section 30 is provided so as to support the conveyor tail section 20 with respect to the movable carriage section 10, and is configured so that at least the inclination angle α of the conveyor tail section 20 can be changed. Specifically, the movable support portion 30 rotates the conveyor tail portion 20 with the tail piece 21 side (X1 direction side) of the conveyor tail portion 20 as a fulcrum 31a, thereby rotating the conveyor tail portion 20 toward the wellhead side (X2 direction side). side) is changed to change the inclination angle α of the conveyor tail portion 20 . The movable support portion 30 changes the height position of the end portion of the conveyor tail portion 20 in the X2 direction without substantially changing the height position of the conveyor tail portion 20 on the conveyor hopper 23 side, thereby tilting the conveyor tail portion 20. It is configured to change the angle α.

The movable support section 30 includes a first support mechanism 31 on the face side and a second support mechanism 41 on the wellhead side that is spaced apart from the first support mechanism 31 in the X2 direction.

A first support mechanism 31 supports the conveyor tail section 20 directly below the conveyor hopper 23 . The first support mechanism 31 supports the conveyor tail portion 20 from below at a position serving as a fulcrum 31 a of the conveyor tail portion 20 . The second support mechanism 41 is arranged closer to the wellhead side (X2 direction side) than the first support mechanism 31, and supports the conveyor tail section 20 from below. The second support mechanism 41 is installed on the first frame portion 11 a of the carriage portion 10 at a position higher than the first support mechanism 31 . The first support mechanism 31 includes a link member that tiltably supports the conveyor tail portion 20, and a hydraulic cylinder that can extend and contract in the vertical direction (Z direction). The second support mechanism 41 includes a link member that tiltably supports the conveyor tail portion 20, and a hydraulic cylinder that can extend and contract in the vertical direction (Z direction).

<Construction of horizontal installation part>
As shown in FIG. 4, the horizontal installation section 60 is configured to install the conveyor frame 6 substantially horizontally. The horizontal installation section 60 is arranged on the tunnel side (X2 direction side) of the conveyor tail section 20 . The horizontal installation section 60 is composed of a plurality (three) of conveyor frame elevating support sections 61 arranged at predetermined intervals in the extending direction (X direction) of the tunnel.

The plurality of conveyor frame elevating support sections 61 are configured to install the extension (additional) conveyor frame 6a on the moving carriage section 10 and to support it from below. The conveyor frame elevating support section 61 is composed of, for example, a vertically extendable hydraulic cylinder. Thus, the conveyor frame elevating support section 61 is configured to be adjustable by changing the height position at which the conveyor frame 6 (6a) is installed.

(Operation of the tailpiece carriage)
Next, the operation of the tailpiece carriage 100 will be described with reference to FIGS. 7(A) to 7(D). Note that the operation of the tailpiece carriage 100 described below is merely an example, and the configuration of the present invention is not limited to this.

When the excavated muck EM is transported, the tailpiece carriage 100 operates while being fixed by the outriggers 101 .

First, the excavated muck EM excavated by blasting is thrown into the crusher 7b by the transport vehicle 7a (see FIG. 1) such as a wheel loader, and crushed to the belt conveying limit. The crushed excavated muck EM is then supplied to the conveyor hopper 23 of the conveyor tail section 20 .

Then, as shown in FIG. 7A, the conveyor belt 3 is driven by the belt driving device 5 (see FIG. 1) of the stretched belt conveyor 1 so that the tail piece 21 on the face side and the head pulley device 2 on the wellhead side (see FIG. 1) reference). As a result, the excavated muck EM loaded on the conveyor belt 3 is conveyed to the head pulley device 2 toward the wellhead (in the X2 direction).

Then, as shown in FIG. 7(B), when the tunnel excavation for a predetermined distance is completed, the tailpiece carriage 100 is advanced to extend the conveyor belt 3 . When moving forward (when the conveyor belt 3 is stretched), the tailpiece carriage 100 moves with the outriggers 101 unlocked while the conveyor belt 3 is stopped from being driven by the belt driving device 5 of the stretching belt conveyor 1. Advance by mechanism 12 . At this time, in the belt storage 4 (see FIG. 1), the conveyor belt 3 is let out while maintaining the required tension by the advance distance of the tailpiece carriage 100 .

Then, as shown in FIG. 7(C), an additional conveyor frame 6 is assembled for the forward distance of the tailpiece carriage 100 . Specifically, the conveyor frame 6 is assembled so as to fill the gap S (see FIG. 7B) between the conveyor frame 6 and the conveyor tail portion 20 generated by the forward movement of the tailpiece carriage 100. , to the end of the existing conveyor frame 6 in the X1 direction. The additional conveyor frame 6 is supported from below by a conveyor frame elevating support 61 . In addition, the gap S is positioned directly above the horizontal installation portion 60 . Further, a knee brace K is newly installed near the X2 direction end of the horizontal installation portion 60 to support the conveyor frame 6 .

Then, as shown in FIG. 7D, an additional conveyor frame 6 is provided with a carrier roller 6b and a return roller 6c.

When the extension work is completed, the tailpiece carriage 100 is fixed by the outriggers 101 again. Further, the levels (height positions) of the conveyor belt 3, the conveyor frame 6, and the like are adjusted by the outrigger 101 and the movable support portion 30 of the conveyor tail portion 20. FIG.

(Effect of the first embodiment)
The following effects can be obtained in the first embodiment.

In the first embodiment, by configuring as described above, in addition to the tailpiece carriage as in the conventional art, the tailpiece carriage is provided without providing a working carriage behind it and providing a long inclined frame straddling the working carriage. The installation of the conveyor frame 6 can be carried out at the horizontal installation section 60 at the rear (pithead side) of the conveyor tail section 20 where the belt level is adjusted at a steep angle of 100 degrees. That is, since there is no need to provide a work trolley and an inclined frame as in the conventional art, complication of the device configuration can be suppressed. In addition, since the extending (additional) conveyor frame 6 can be installed substantially horizontally on the horizontal installation portion without being inclined, there is no need to consider bending of the conveyor frame 6 as in the conventional art, and the conveyor can be The inclination angle of the tail portion 20 can be made relatively large. Therefore, the horizontal length of the conveyor tail portion 20 can be made relatively small, so that the device configuration can be simplified (downsized).

In the first embodiment, as described above, the horizontal installation section is configured such that the height position at which the conveyor frame 6 is installed can be changed. As a result, the height position at which the conveyor frame 6 is installed can be freely adjusted according to the conditions of the work site.

In the first embodiment, as described above, the horizontal installation section is composed of a plurality of conveyor frame elevating support sections 61 arranged at predetermined intervals in the extending direction of the tunnel. As a result, the conveyor frame 6 extending in the horizontal direction can be stably supported by the plurality of conveyor frame elevating support portions 61 .

As described above, the first embodiment further includes the movable support portion 30 that supports the conveyor tail portion 20 and can change at least the vertical position (vertical position) and the inclination angle α of the conveyor tail portion 20 . Thereby, the height position of the conveyor belt 3 can be easily adjusted by the movable support portion 30 . In addition, if the movable support part has a degree of freedom such as horizontal direction and rolling, the belt attitude can be adjusted according to the subsequent installation.

[Second embodiment]
Next, a second embodiment will be described with reference to FIGS. 8 and 9. FIG. In this second embodiment, in addition to the configuration of the first embodiment, an example in which the conveyor tail portion 220 has an extension portion 222 will be described. In addition, in the figure, the same reference numerals as in the first embodiment are assigned to the same configurations as in the first embodiment.

As shown in FIG. 8 , the tailpiece carriage 200 in the second embodiment includes a horizontal installation portion 260 and a conveyor tail portion 220 including an inclined portion 221 and an extension portion 222 . Conveyor tail 220 supports conveyor belt 3 .

The horizontal installation section 260 is configured such that the height position at which the conveyor frame 6 (6a) is installed can be changed. Specifically, the horizontal installation portion 260 includes a horizontal member 261 that supports the conveyor tail portion 220, one end connected to the horizontal member 261 via a hinge 262a, and the other end connected to the second frame portion 11b via a hinge 262b. and an intermediate member 263 to be connected. Further, the horizontal installation portion 260 includes a first tilting cylinder 264 that tilts the intermediate member 263 with respect to the second frame portion 11b, and a second tilting cylinder 265 that tilts the horizontal member 261 with respect to the intermediate member 263. there is

The first tilting cylinder 264 tilts the intermediate member 263 so that the horizontal member 261 side is higher. The second tilting cylinder 265 tilts the horizontal member 261 with respect to the intermediate member 263 to arrange the horizontal member 261 substantially horizontally. A plurality (three) of support portions for the conveyor tail portion 220 are provided on the upper portion of the horizontal member 261 at predetermined intervals in the extending direction (X direction) of the tunnel.

The inclined portion 221, to which the tailpiece 21 is assembled, is inclined. That is, the inclined portion 221 generally corresponds to the conveyor tail portion 20 described in the first embodiment.

The extending portion 222 is provided so as to extend further toward the wellhead side (X2 direction) from the upper end portion of the inclined portion 221 on the wellhead side (X2 direction side). The extending portion 222 extends substantially horizontally. Also, the extension portion 222 is arranged above the horizontal member 261 of the horizontal installation portion 260 . In the X direction, the wellhead side end of the extending portion 222 is arranged on the X2 direction side (wellhead side) than the wellhead side end of the horizontal installation portion 260 (horizontal member 261).

A tilt cylinder 223 is provided between the extension portion 222 and the tilt portion 221 to change and adjust the tilt angle of the extension portion 222 with respect to the tilt portion 221 . Therefore, even if the tilt angle of the tilting portion 221 (conveyor tail portion 220) is changed by the movable support portion 30, the tilting cylinder 223 can adjust the tilting angle of the extending portion 222 so that the extending portion 222 is substantially Can be placed horizontally.

The conveyor belt 3 is arranged to pass above the horizontal installation portion 260 so as to avoid (detour) the horizontal installation portion 260 while being supported by the extension portion 222 .

(Operation of the tailpiece carriage)
Next, the operation of the tailpiece carriage 200 will be described with reference to FIGS. 9(A) and 9(B). Note that the operation of the tailpiece carriage 200 described below is merely an example, and the configuration of the present invention is not limited to this.

First, the tailpiece carriage 200 moves forward from the position shown in FIG. 9(A) to the position shown in FIG. 9(B). As a result, as shown in FIG. 9(B), a gap S1 is created above the horizontal member 261 of the horizontal installation portion 260 .

Here, as described above, the conveyor belt 3, while being supported by the extension portion 222, moves above the horizontal installation portion 260 (the space S1) so as to avoid (bypass) the horizontal installation portion 260 (the space S1). are placed in Therefore, the tailpiece carriage 200 can carry out the work of installing the extending (additional) conveyor frame 6a in the space S1 in parallel with the work of conveying the excavated muck by the conveyor belt 3 . In parallel with the work of installing the (additional) conveyor frame 6a for stretching, the work of conveying the excavated waste by the conveyor belt 3 is performed.

Other configurations of the second embodiment are the same as those of the first embodiment.

(Effect of Second Embodiment)
The following effects can be obtained in the second embodiment.

In the second embodiment, as described above, the conveyor tail portion 220 includes the inclined portion 221 to which the tail piece 21 is assembled and arranged at an angle, and the inclined portion 221 extending from the upper end of the inclined portion 221 toward the wellhead side. and an extension portion 222 disposed above the horizontal mounting portion 260 . As a result, the extension portion 222 allows the conveyor belt 3 to be arranged (detoured) above the horizontal installation portion 260 so as to avoid the horizontal installation portion 260 , so that a new conveyor frame 6 can be installed in the horizontal installation portion 260 . can be secured below the extension portion 222 to install the . Therefore, a new conveyor frame 6 can be easily installed on the horizontal installation section 260 . In addition, while performing the work of installing a new conveyor frame 6, the work of conveying the excavated muck EM can be done in parallel. Therefore, the workability of the stretching operation of the stretching belt conveyor 1 can be further improved.

In the second embodiment, as described above, the extending portion 222 extends substantially horizontally. As a result, the extension part 222 can be arranged substantially parallel to the horizontal installation part 260, so that the arrangement space of the extension part 222 and the horizontal installation part 260 in the height direction can be reduced.

Other effects of the second embodiment are the same as those of the first embodiment.

[Modification]
The embodiments disclosed this time should be considered illustrative and not restrictive in all respects. The scope of the present invention is indicated by the scope of the claims rather than the description of the above-described embodiments, and includes all modifications (modifications) within the scope and meaning equivalent to the scope of the claims.

For example, in the above-described first and second embodiments, an example in which the excavated muck is thrown into the tailpiece truck by the wheel loader and the crusher is shown, but the present invention is not limited to this. In the present invention, for example, excavation may be performed by a shield machine and the excavated waste may be thrown into the tailpiece truck by a dedicated belt conveyor. From the viewpoint of workability, it is particularly effective to use a shield machine in the second embodiment, in which the excavation muck transport work and the extension (additional) conveyor frame installation work can be performed in parallel.

Moreover, in the above-described first and second embodiments, an example including a movable support portion was shown, but the present invention is not limited to this. In the present invention, the movable support may not be provided.

Further, in the above-described first and second embodiments, an example in which the movable support portion is driven by hydraulic pressure has been shown, but the present invention is not limited to this. In the present invention, the movable support may be driven by an electric motor or the like.

Further, in the first and second embodiments, an example in which only one extension (additional) conveyor frame is installed on the horizontal installation portion (the size of the horizontal installation portion in the X direction is set) is taken. Although shown, the invention is not so limited. In the present invention, a plurality of extension (additional) conveyor frames may be installed on the horizontal installation portion (the size of the horizontal installation portion in the X direction may be set).

In addition, in the above-described second embodiment, in the X direction, an example in which the end of the extension portion on the portal side is arranged on the X2 direction side relative to the end on the portal side of the horizontal installation portion has been shown, but the present invention. is not limited to this. In the present invention, for example, in the X direction, the wellhead-side end of the extending portion may be arranged closer to the X1 direction than the wellhead-side end of the horizontal installation portion.

Further, in the above-described second embodiment, an example in which the extension portions are arranged so as to extend substantially horizontally has been described, but the present invention is not limited to this. In the present invention, for example, the extension may be arranged in an inclined state.

Reference Signs List 1 stretching belt conveyor 2 head pulley device 3 conveyor belt 6, 6a conveyor frame 10 movable carriage 20, 220 conveyor tail 21 tail piece 30 movable support 60, 260 horizontal installation 61 conveyor frame elevating support (support)
100, 200 tailpiece carriage 221 inclined portion 222 extended portion EM excavation muck α Inclination angle (of conveyor tail portion)

Claims (7)

A tailpiece carriage arranged on the face side of a stretched belt conveyor for conveying excavation waste during tunnel excavation,
a conveyor tail portion, to which a tail piece around which the end of the conveyor belt on the face side is wound is assembled, and which is inclined so that the wellhead side is positioned upward;
a horizontal installation section disposed on the portal side of the conveyor tail section for installing the conveyor frame substantially horizontally;
a moving carriage section on which the conveyor tail section and the horizontal mounting section are mounted. 2. The tailpiece carriage according to claim 1, wherein said horizontal installation portion is configured such that a height position at which said conveyor frame is installed can be changed. 3. The tailpiece carriage according to claim 1, wherein said horizontal installation portion is composed of a plurality of support portions arranged at predetermined intervals in the extending direction of the tunnel. The conveyor tail portion includes an inclined portion to which the tail piece is assembled and arranged in an inclined manner, and an upper end portion of the inclined portion on the side of the wellhead that extends toward the wellhead side, and is arranged above the horizontal installation portion. A tailpiece carriage according to any one of claims 1 to 3, comprising an extension that 5. The tailpiece carriage according to claim 4, wherein said extension extends substantially horizontally. The tailpiece carriage according to any one of claims 1 to 5, further comprising a movable support portion that supports said conveyor tail portion and is capable of changing at least the vertical position and inclination angle of said conveyor tail portion. A stretched belt conveyor for conveying excavated waste during tunnel excavation,
A head pulley device arranged on the side of the wellhead;
and a tailpiece carriage,
The tailpiece carriage is
a conveyor tail portion, to which a tail piece around which the end of the conveyor belt on the face side is wound between the head pulley device and the tail piece, is arranged at an angle so that the wellhead side is positioned upward;
a horizontal installation section disposed on the portal side of the conveyor tail section for installing the conveyor frame substantially horizontally;
a moving carriage section on which said conveyor tail section and said horizontal mounting section are mounted.

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