JPS58193807A - Bendable conveyor - Google Patents

Abstract

PURPOSE:To enable the bending of a conveyor for carrying out an excavated material such as earth and sand, without causing the conveyor to meander, by providing a conveyor support pulley with a pulley displacing means movable depending on the bending of the conveyor. CONSTITUTION:When the inside and outside circumference of the belt 39 of a train conveyor have become different from each other due to the bending of the conveyor, an automatic meander corrector 30 coupled to a tail pulley 20 acts so that hydraulic cylinders 31 expand or contract in opposite directions at both the ends of the pulley. As a result, the shaft 37 of the pulley 20 slides in opposite directions in guides 35 so that the axis of the shaft becomes oblique to the front- to-rear direction of the conveyor. The tension difference of the conveyor belt 39 is thus automatically eliminated. According to this constitution, the conveyor can be bent without being caused to meander.

Description

[Detailed Description of the Invention] The present invention relates to a conveyor device for transporting excavated materials such as earth, sand, rocks, minerals, etc., and more specifically, a bendable conveyor device that can be bent according to the curve of a curved conveyance path. The present invention relates to a conveyor device.

2. Description of the Related Art Conventionally, a train conveyor has been known as a device for continuously transporting excavated waste when tunnel construction is carried out using high-speed excavation machines such as tunnel polling machines. The train conveyor includes a plurality of train conveyors each having a track on which a steel car and a power car are placed to transport the excavation picks to a predetermined collection point outside the tunnel, and a conveyor device placed on the train loader. The excavated waste received at the face side of the conveyor device is transported to the mine entrance side by the conveyor device, and the steel car is pulled out from the train loader through a track inside the train loader. The excavation scraps are sequentially unloaded from the end of the belt conveyor on the tunnel entrance side, and the steel car carrying the excavation scraps is pulled by a power vehicle and transferred to a track connected to the train loader track, passing through the tunnel and outside the tunnel. The waste is transported to a designated collection site. As the excavation progresses, tracks are sequentially laid on which the train loaders are placed, and the train loaders themselves also move toward the face side on the laid tracks.

The conveyor device equipped in this known train conveyor has a total length of 60 to 70 m, and includes a plurality of conveyor frames, a plurality of rollers suspended from the conveyor frames, and a conveyor placed on the rollers. The conveyor frame is provided with a belt pulley and a tail pulley at the front end of the frontmost conveyor frame and at the rear end of the rearmost conveyor frame, respectively, and the conveyor belt is conveyed via the helad pulley and the tail pulley. It is divided into the side and the return side.

This known train conveyor is effective in straight tunnel construction, but when the tunnel reaches a curved section, the conveyor belt meanderes due to the tension difference in the conveyor belt caused by the difference in the inner and outer circumferential lengths due to the curve. In addition, since the rollers must not be separated from each other, the work must be stopped and the tail pulley or head pulley must be manually adjusted and moved, or the roller position must be manually shifted, so the only option is to operate intermittently. This often caused work to be interrupted and became a major problem during construction.

The main object of the present invention is to provide a bendable conveyor belt that can bend according to the curve of the conveyor path without meandering the conveyor belt even when the conveyor path is curved.

Another object of the present invention is to provide a conveyor device for continuously and efficiently carrying out excavated materials such as earth, sand, rocks, minerals, etc. in curved tunnel construction without interrupting the excavation work.

Another object of the present invention is to provide a bendable conveyor device that prevents meandering and separation of the conveyor belt and automatically adjusts according to the curvature.

Yet another object of the present invention is to provide a transport conveyor device that is mounted on a train loader of a lane conveyor (connected with tunnels, machines, and machines).

According to the present invention, a plurality of conveyor frames, a pulley attached to an end side of an end conveyor frame among a plurality of conveyor frames connected in series, and a pulley attached to an end side of the other end conveyor frame. a conveyor belt supported by the two pulleys and running through a plurality of conveyor frames, and conveyor belt support means disposed on each conveyor frame to support the conveyor belt, There is provided a bendable transport conveyor device, characterized in that at least one of the pulleys is provided with a pulley position moving means that can freely move its position within a predetermined range in accordance with the bending of the conveyor belt. .

Further, according to the present invention, there is provided a plurality of conveyor frames, a gear attached to the end side of one end of the conveyor frame among the plurality of conveyor frames connected in series, and a gear attached to the end side of the other end of the conveyor frame. a conveyor belt supported by the two pulleys and traveling through a plurality of conveyor frames, and a conveyor belt support means disposed on each conveyor frame to support the four conveyor belts; At least one of the pulleys is provided with a pulley position moving means that can freely move its position within a predetermined range in response to the bending of the conveyor belt, and the conveyor belt supporting means is provided with a pulley position moving means that can move the position of the pulley freely within a predetermined range according to the bending of the conveyor belt, and the conveyor belt supporting means is provided with a pulley position moving means that allows the front d-picture conveyor belt to move from the normal position. A patentable conveyor apparatus is provided which is characterized in that it includes means for restoring the conveyor belt to its normal position upon disengagement.

The present invention will be described below with reference to a train conveyor connected to a tunnel pooling machine as one of its embodiments, but it is not necessarily limited to this embodiment.

Referring to FIG. 1, a transfer conveyor apparatus 11 of the present invention is mounted at reference number 1O. A train conveyor is shown. The train conveyor xOu is equipped with a plurality of train loaders 14 that accommodate a plurality of steel cars 12 and a notary loco 13 that exploits the steel cars 12, and as shown in the cross-sectional view in FIG. 15 has been laid so that a steel car 12 and a notary loco 13 can run inside the train loader. The train loader 14 itself also has rails 1 laid in the tunnel 16.
7, and is moved toward the face side on the rail 17 as the tunnel pooling machine (not shown) installed on the left side of FIG. 1 progresses in excavation.

Conveyor device of the present invention 111ri) v-y
It is placed on the o-tick 4 and includes a plurality of conveyor frames lla, llb, lie...llh
It receives the excavated debris from the conveyor 18 that conveys the excavated debris from the tunnel polling machine (not shown), and transports it on the conveyor frame llh''! on the tunnel entrance side. The excavated debris is unloaded from the train loader 14 to the steel cars 12 that are used sequentially.The steel cars 12 loaded with excavated debris are transferred to the
The waste is then misused and transferred through the inclined rails 19 to the rails 17 laid inside the tunnel, where it is transported to a predetermined collection location outside the tunnel.

As shown in FIG. 1, a tail pulley 20 is disposed on the face side end of the conveyor frame lea, and a drive boo IJ 21 is disposed on the mine entrance side of the conveyor flail llh.
The conveyor belt is divided into a transport side and a return side. The drive pulley 21 is driven by a variable speed motor 22 and runs the conveyor belt.

The tail pulley 20 is connected to a hydraulic 11 meander correction device 30, as shown in detail in FIGS. 3 and 4. The automatic meandering correction device 30 includes a hydraulic cylinder 31, a frame 32 to which the hydraulic cylinder 31 is connected, and a unit 34 having a bearing pivotally connected to the cylinder rod 33.
Equipped with. The hydraulic cylinder 31 is connected to a hydraulic pump unit 41 via a hydraulic hose 40. The frame member 38 of the unit 34 has a third bearing on the guide member 35 of the frame 32.
It is attached so that it can be moved in the direction of the arrow in the figure. The frame member 38 is a rotating member 36 that is rotatable about the axis of the pulley shaft 37.
The pulley shaft 37 is removably engaged with the rotating member 36. Therefore, the pulley shaft 37 can freely move in its axial direction. (See the arrows in FIGS. 4 and 5) When the train conveyor 10 reaches a curved tunnel section and the train loader 14 bends, the conveyor frames l1a-11h of the present invention are also illustrated in FIG. 6. When the conveyor belt 39 bends as shown in FIG. death,
The conveyor belt 39 is self-adjusted to equalize tension differences. In this case, the hydraulic systems of the left and right hydraulic cylinders 31 are connected to the same hydraulic supply source and are maintained at the same pressure.

As shown schematically in FIG.
A large number of rotating rollers 61 are arranged at a to llh. Taking the conveyor frame llb as an example, as shown in FIG.
1 is suspended from a bracket 70 and rotates around an axis 71. The conveyor belt 39 is supported by rotating rollers 61 and runs along its length. On the upper stage 72 in FIG.
4 shows the return side conveyor belt after unloading the excavation-free shift 3 onto the steel car 12. As shown in FIG. 6, a plurality of rotating rollers 61 are provided depending on the length of the conveyor frame. Conveyor belt adjusting devices 80 are provided at both ends of the conveyor frame (llb+7) to adjust the meandering and separation of the conveyor belt (see FIGS. 8 and 9). FIG. 8 shows a case where the conveyor belt adjusting device 80 is arranged on the upper stage 72 side, and FIG. 9 shows a case where the conveyor belt adjusting device 80 is arranged on the lower stage 74 side.

The conveyor belt adjusting device 80 will be explained in more detail with reference to FIGS. 8 to 1θ. Conveyor belt adjustment device 8
0 is a rotating base 81 that is rotatable around a rotating shaft 82;
A pair of brackets 83 fixed to a rotation base 81 for suspending the rotation plate 61, a pair of side roller support rods 84 fixed to the rotation pace 81, and a pair of side rollers 85 attached to the support rod f14. Equipped with.

When the conveyor belt 39 meanderes and deviates from the normal position shown by the solid line as shown by the dotted line in FIG. Rotate as shown. At the position of the dotted line, the running direction 9 of the conveyor belt 39
0 and the rotation axis direction 91 of the rotation row 261 are different,
The conhoya belt 39 is automatically restored to the position shown by the solid line so that the two directions 9() and 91 are at right angles.

The present invention further includes a train loader 14 as shown in FIG.
By making the rail 15 provided on the rail 15 and the rail 17 on which the train loader 14 is placed the same width, the Nonotsuteri loco 13 and the steel car 14 can run out of the tunnel by directly using the rail 17 of the train loader 14. Therefore, there is no need to lay each rail twice.

The train conveyor 1011 equipped with the conveyor conveyor device 11 of the present invention has a total length of approximately 63 m, and can be constructed continuously in response to changes in curves in tunnel construction including curved tunnels with a minimum radius of 150 m or more, and excavated shear can be removed by the conveyor. With a belt width of 750 mm and a belt speed of θ to 156 m/min, it is possible to carry out a maximum conveyance amount of 700 t/hour without interrupting the work at all.

[Brief explanation of the drawing]

FIG. 1 is a schematic side view showing a train conveyor equipped with the conveyor device of the present invention, FIG. 2 is a sectional view taken along line A-A in FIG. 1, and FIG. A sectional view of the automatic meandering correction device shown in FIG. 4 is taken along the line E- in FIG.
5 is a schematic top view showing the correction mechanism of the automatic meandering correction device of FIG. 3, FIG. 6 is a schematic top view of the conveyor device of the present invention, and FIG. Line B in Figure 6
-A cross-sectional view along BK, Figure 8 is line C- in Figures 1 and 6.
A cross-sectional view along C, Figure 9 is @D-D in Figures 1 and 6.
A sectional view along K and FIG. 10 are schematic top views showing a correction mechanism of the conveyor (rut adjustment device) provided in the conveyor device of the present invention. In the figure, 10tj:) lane conveyor, 11#'i conveyor Equipment, lla to llh are conveyor frames, 20
9. 21 is a drive pulley, 30 automatic meandering correction devices, 39 is a conveyor belt, 61 is a rotating roller, 8
0 is a conveyor belt adjustment device. 42 Procedural amendment. Spontaneous) 2] Haruki Shimada, Commissioner of the Japan Patent Office on a dark day in June 1980 1 Indication of the case 1983 Patent Application No. 73211 2 Title of the invention Bendable conveyor device 3, Matters to be amended f1 Related Patent Applicant Name: Hazama Kumizumi Co., Ltd. Toranomon Jitsugyo Kaikan 5,
Date of the amendment order 6. Number of inventions increased by the amendment. The following parts of the specification of the present application are corrected as follows. 2 From the bottom 3 Tunnel/pooling/tunnel pooling machine Machines 59-10 Tunnel pooling/tunnel dealing machine Machine 5 12 That is. There is a particular thing. 7 2-3 Tunnel/pooling/tunnel polling machine Machine 7 From bottom 4 Tunnel/pooling/tunnel polling machine Machine 8 3 Tunnel/pooling/tunnel pooling machine Machine 8 7-8 from bottom Conveyor frame Conveyor frame 98-9 Pulley shaft 37 36a, which is rotatable about the axis of the protrusion of the rotating member 36, and is fitted with the rotary member 36, and is rotatable with respect to each other about the axis of the protrusion 36a;
9 from the bottom Dotted line Chain line 124
Steel car 14 Steel car 1220 Drawing attached to this application No. 3
Figures 4 and 10 have been replaced with separate sheets.

Claims (1)

[Scope of Claims] l) A plurality of conveyor frames, a booth connected in series and attached to one end of the conveyor frame at one end of the plurality of conveyor frames, and an end side of the other end of the conveyor frame. a conveyor belt supported by the two boots IJK and running through a plurality of conveyor frames, and conveyor belt support means installed on each conveyor frame to support the conveyor belt, A bendable transport conveyor device, characterized in that at least one of the pulleys is provided with pulley position moving means that can freely move its position within a predetermined range in accordance with the bending of the conveyor belt. 2) A plurality of conveyor frames, a booby attached to the end side of one end of the conveyor frame among the plurality of conveyor frames connected in series, a tassori attached to the end side of the other end of the conveyor frame, and the above-mentioned a conveyor belt supported by two conveyor belts and running through a plurality of conveyor frames; and conveyor belt support means disposed on each conveyor frame for supporting the conveyor belt; The conveyor belt supporting means is provided with pulley position moving means that can freely move its position within a predetermined range according to the bending of the conveyor belt, and the conveyor belt supporting means is provided with a pulley position moving means that can move the conveyor belt to the normal position when the conveyor belt leaves the normal position. A bendable transport conveyor device, characterized in that it is provided with means for correcting the conveyor belt for returning it to position.