CN113086581A - Coal auxiliary transportation system for coal mine - Google Patents

Abstract

The invention relates to an auxiliary coal transportation system for a coal mine. The coal auxiliary transportation system for the coal mine comprises a chassis piece, wherein the chassis piece is fixedly connected with a first conveying device, a bearing box and an output box which are obliquely arranged, the bearing box is communicated with the output box, the output box is positioned on the higher side surface of the bearing box, the upper end surface of the first conveying device is the box bottom of the bearing box and the output box, an auxiliary feeding device is arranged between the bearing box and the output box, the auxiliary feeding device limits the height of materials conveyed from the bearing box to the output box, the bottom of the output box is provided with an output port, the chassis piece is also connected with a second conveying device, the materials are input from the bearing box to the output box through the first output device and are discharged through the output port of the output box; this coal material auxiliary transportation system for coal mine, simple structure, convenient operation, it is nimble to use, can adjust conveyor's unit area's delivery material volume, the effectual life who improves conveyer, convenient to popularize and use.

Description

Coal auxiliary transportation system for coal mine

Technical Field

The invention belongs to the technical field of coal transportation, and particularly relates to an auxiliary coal transportation system for a coal mine.

Background

In traditional coal charge transportation system, its first section all needs the direct shovel of the coal charge that the workman will need the transportation to shovel on the conveyer belt of transportation usefulness, perhaps directly export the coal charge on the conveyer belt of transportation usefulness through the coal picker, the unit area coal charge volume of the control conveyer belt that neither mode can be fine, general mechanical system prevents too high (in the unit area) coal charge to pass through a limit for height pole or the restriction piece that has a take the altitude, its effect can effectual arrangement coarse material loading process, but the limit for height pole of stereoplasm probably damages easily because of the too much condition of coal charge, and it blocks that the coal charge piles up easily, the adaptability is relatively poor.

Disclosure of Invention

The invention aims to solve the problems and provide the coal auxiliary transportation system for the coal mine, which has a simple structure and a reasonable design.

The invention realizes the purpose through the following technical scheme:

the utility model provides a coal material auxiliary transportation system for coal mine, includes chassis spare, first conveyor, bearing box and delivery box that chassis spare fixedly connected with slope set up, bearing box and delivery box intercommunication, and the delivery box is located the higher side of bearing box, first conveyor's up end is the bottom of the case of bearing box and delivery box, be provided with supplementary material feeding unit between bearing box and the delivery box, supplementary material feeding unit prescribes a limit to carry the material height to the delivery box in from bearing box, the delivery outlet has been seted up to the bottom of delivery box, chassis spare still is connected with second conveyor, and the material is inputed to the delivery box in by first output device from bearing box, is discharged by the delivery outlet of delivery box, second conveyor bears the material of delivery box output.

As a further optimization scheme of the invention, the auxiliary feeding device comprises two sets of oppositely arranged slide bar frame pieces, a through groove body is formed in the outer surface of each slide bar frame piece, a connecting block piece is connected in the through groove body, a bearing piece is arranged in the middle of each connecting block piece, and two ends of the driving shaft piece are respectively connected with the bearing piece.

As a further optimized scheme of the invention, a driving motor is connected to the outer surface of one group of the sliding rod frame pieces, the driving end of the driving motor is connected with the driving shaft piece, and the driving motor drives the driving shaft piece to rotate.

As a further optimized scheme of the invention, the connecting block piece is slidably connected with the through groove body, the driving motor is slidably connected with the slide bar frame piece, the driving motor is connected with the supporting wheel piece, the side wall surface of the slide bar frame piece is provided with a supporting chute, the supporting wheel piece is in fit connection with the supporting chute, the upper end of the connecting block piece is fixedly connected with the built-in rod piece, the outer surface of the slide bar frame piece is fixedly connected with the fixed pipe piece, the inside of the fixed pipe piece is provided with the chute body, the upper end head of the built-in rod piece is fixedly connected with the clamping plate piece, the clamping plate piece is positioned in the chute body and can slide up and down along the chute body, and the upper end of.

As a further optimized scheme of the invention, a clamping block piece is slidably connected inside the sliding groove body, the upper end of the clamping block piece is movably connected with a screw rod piece, the screw rod piece penetrates through the end head of the fixed pipe fitting, the screw rod piece is in threaded connection with the end head part of the fixed pipe fitting, the outer surface of the screw rod piece is connected with a screwing plate piece, and the screwing plate piece is positioned outside the fixed pipe fitting.

As a further optimization scheme of the invention, the side wall of the clamping block piece is fixedly connected with a limiting block body, a limiting sliding groove is formed in the fixed pipe fitting, and the limiting block body is positioned in the limiting sliding groove to slide.

An auxiliary transportation method for coal mines comprises the following steps of S1, placing a variable amount of materials in a bearing box, starting a first conveying device, driving the materials in the bearing box to move by the first conveying device, and enabling the materials to pass through an auxiliary feeding device; step S2, the hollow roller in the auxiliary feeding device prevents the materials exceeding the limited height from entering the output box through the rotation of the hollow roller; and step S3, after the materials enter the output box, the materials fall to the surface of the second conveying device through an output port arranged at the bottom of the output box, and the materials are conveyed through the second conveying device.

The invention has the beneficial effects that: the auxiliary feeding device is provided with the auxiliary feeding device, the auxiliary feeding device comprises a hollow roller, the hollow roller can rotate to further adjust coal passing through the lower part of the hollow roller, the middle part of the hollow roller is connected with a driving shaft part, the driving shaft part is connected with a connecting block part, the hollow roller can also move upwards and be adjusted according to the actual height of the coal, the blocking possibility is reduced, the auxiliary feeding device is used by matching with the rolling characteristic of the hollow roller, the acting force of excessive coal on the hollow roller can be reduced, the material quantity of the conveying device in unit area is effectively adjusted, the quantitative conveying device is convenient to use, the bearing pressure of each part of the conveying device is adapted, and the service life of the whole device is prolonged; whole device simple structure, convenient operation uses in a flexible way, can adjust conveyor's unit area's delivery material volume, and effectual improvement conveyer's life is convenient for use widely.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the interior of the carrying case of the present invention;

FIG. 3 is a schematic view of the construction of the auxiliary feeding device of the present invention;

FIG. 4 is a schematic illustration of the construction of the slider frame member of the present invention;

FIG. 5 is a schematic view of the internal structure of the slider frame member of the present invention;

fig. 6 is a schematic view of the internal structure of the slider frame member with the catch member of the present invention.

In the figure: 1. an undercarriage member; 2. a carrying case; 3. an output box; 4. a hollow drum; 5. a drive shaft member; 6. a drive motor; 7. fixing the pipe fitting; 8. a slide bar frame member; 9. a connecting block; 10. a bearing member; 11. a rod piece is arranged inside; 12. a chute body; 13. a clamp plate member; 14. a spring member; 15. a support wheel member; 16. an auxiliary plate; 17. connecting the plate members; 18. a second conveying device; 19. screwing the plate; 20. a screw member; 21. a block member; 22. the mass is restrained.

Detailed Description

The present application will now be described in further detail with reference to the drawings, it should be noted that the following detailed description is given for illustrative purposes only and is not to be construed as limiting the scope of the present application, as those skilled in the art will be able to make numerous insubstantial modifications and adaptations to the present application based on the above disclosure.

Example 1

As shown in fig. 1-6, an auxiliary coal transportation system for coal mines comprises a chassis member 1, the chassis component 1 is fixedly connected with a first conveying device, a bearing box 2 and an output box 3 which are obliquely arranged, the bearing box 2 is communicated with the output box 3, the output box 3 is positioned at the higher side surface of the bearing box 2, the upper end surface of the first conveying device is the box bottom of the bearing box 2 and the output box 3, an auxiliary feeding device is arranged between the bearing box 2 and the output box 3, the auxiliary feeding device limits the height of the materials conveyed from the bearing box 2 to the output box 3, an output port is formed in the bottom of the output box 3, the chassis component 1 is further connected with a second conveying device 18, materials are input into the output box 3 from the bearing box 2 through the first output device and are discharged through the output port of the output box 3, and the second conveying device 18 bears the materials output by the output box 3.

The auxiliary feeding device comprises a hollow roller 4, a driving shaft part 5 is arranged at the axis of the center of the hollow roller 4, and the hollow roller 4 is matched with the driving shaft part 5 to rotate. The outer surface of the hollow roller 4 is provided with a plurality of groups of auxiliary plate members 16, and gaps are reserved among the groups of auxiliary plate members 16. The hollow roller 4 comprises connecting plates 17 arranged on two end faces, the connecting plates 17 are in a circular plate shape, in the embodiment, the hollow roller 4 further comprises a connecting plate 17 arranged in the middle, and the stability of the auxiliary plate 16 is further enhanced.

The auxiliary plate 16 comprises a vertical plate body and a horizontal plate body, the vertical plate body and the horizontal plate body are in L-shaped combined connection, and the vertical plate body is located outside the hollow roller 4. The vertical plates are rubber plates in this embodiment, which is convenient for reducing the influence of the coal on the auxiliary plates 16, so that the hollow roller 4 cannot rotate.

Supplementary material feeding unit includes two sets of relative slide bar frame spare 8 that set up, the surface of slide bar frame spare 8 has been seted up and has been led to the cell body, it has connecting block spare 9 to lead to the cell body internal connection, the middle part of connecting block spare 9 is provided with bearing spare 10, the both ends head of drive shaft spare 5 is connected with bearing spare 10 respectively.

The outer surface of one group of the sliding rod frame pieces 8 is connected with a driving motor 6, the driving end of the driving motor 6 is connected with the driving shaft piece 5, and the driving motor 6 drives the driving shaft piece 5 to rotate.

Driving motor 6 is connected with supporting wheel spare 15, the lateral wall surface of slide bar frame spare 8 has been seted up and has been supported the spout, supporting wheel spare 15 is connected with the cooperation of supporting the spout, driving motor 6 choose for use servo motor can, supporting wheel spare 15 includes wheel body part and body of rod part, and body of rod part is connected with driving motor 6 shell lateral part, and the slip in supporting the spout is blocked to wheel body part, and this supporting wheel spare 15 can improve driving motor 6 stability when using.

Connecting block piece 9 and logical notch part sliding connection, driving motor 6 and slide bar frame 8 sliding connection, the built-in member piece 11 of upper end fixedly connected with of connecting block piece 9, the fixed pipe fitting 7 of the outer fixed surface of slide bar frame 8, chute body 12 has been seted up to the inside of fixed pipe fitting 7, the upper end fixedly connected with joint strip piece spare 13 of built-in member piece 11, joint strip piece spare 13 is located chute body 12, can follow chute body 12 and slide from top to bottom, the upper end of joint strip piece spare 13 is connected with spring part 14, and spring part 14 provides certain adaptive capacity.

The inside sliding connection of spout body 12 has a chuck piece 21, the upper end swing joint of chuck piece 21 has screw member 20, screw member 20 runs through the end of fixed pipe fitting 7, and screw member 20 with the end part threaded connection of fixed pipe fitting 7, the surface of screw member 20 is connected with twists plate 19, it is located to twist plate 19 the outside of fixed pipe fitting 7, twists plate 19 through rotating, can adjust the length that screw member 20 inserted in spout body 12 to adjust the height of chuck piece 21, thereby adjust the concrete actual position (when not in use) of whole drive shaft 5, in the in-service use, can connect corresponding motor, drive two sets of twisting plate 19 simultaneously and rotate, drive screw member 20 and rotate, thereby adjust the position of drive shaft 5. The limit block 22 is fixedly connected to the side wall of the block piece 21, the limit sliding groove is formed in the fixed pipe fitting 7, the limit block 22 is located in the limit sliding groove to slide, the limit sliding groove can effectively prevent the block piece 21 from rotating, and the connecting position of the block piece 21 and the screw rod piece 20 is matched with the bearing piece for use. First conveyor and second conveyor all adopt the conveyer belt structure can, drive the roller through servo motor promptly and rotate to make the cover the driven roller periodic movement of belt cooperation on its surface can.

It should be noted that, in the coal mine coal auxiliary transportation system, when in use, the bearing box 2 bears the materials directly dumped by workers or other devices, the first conveying device is started, the bearing box 2 is actually a wrapped box body, the initial section of the first conveying device is positioned at the bottom of the bearing box, and the first conveying device drives the materials borne in the bearing box 2 to move so as to pass through the auxiliary feeding device; in supplementary material feeding unit, drive shaft spare 5 through driving motor 6 drive rotates, thereby it is rotatory to drive hollow cylinder 4, prevent to exceed the material of injecing the height and get into in output box 3, should injecing the height and can twist plate 19 through the rotation, adjust screw member 20, thereby make block 21 gliding, thereby adjust the actual position height of connecting block 9, adjust the height of drive shaft spare 5 promptly, hollow cylinder 4 surface supplementary plate 16 rotates, can effectually block the coal charge that surpasss the height of injecing, and throw away the coal charge that surpasss the height of injecing backward, the unit area's on first conveyor surface material quantity has further been adjusted, therefore, the device is very practical, after the material gets into output box 3, drop to the surface of second conveyor 18 through the delivery outlet that sets up in output box 3 bottom, transport it through second conveyor 18.

The system is provided with an auxiliary feeding device, the auxiliary feeding device comprises a hollow roller 4, the hollow roller 4 is rotated to block and limit the passing of the overhigh coal material, the hollow roller 4 can rotate and further adjust the coal material passing through the lower part of the hollow roller 4, the middle part of the hollow roller 4 is connected with a driving shaft part 5, the driving shaft part 5 is connected with a connecting block part 9, the hollow roller 4 can also move upwards and be adjusted according to the height of the actual coal material, the possibility of blocking is reduced, the auxiliary feeding device is used by matching with the rolling characteristic of the hollow roller 4, the acting force of the overhigh coal material on the hollow roller 4 can be reduced, the material quantity of the conveying device in unit area can be effectively adjusted, the quantitative conveying and the use are convenient, the bearing pressure of each part of the conveying device is; whole device simple structure, convenient operation uses in a flexible way, can adjust conveyor's unit area's delivery material volume, and effectual improvement conveyer's life is convenient for use widely.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (7)

1. The utility model provides a coal material auxiliary transportation system for coal mine, its characterized in that, includes chassis spare, first conveyor, bearing box and the delivery box that chassis spare fixedly connected with slope set up, bearing box and delivery box intercommunication, and the delivery box is located the higher side of bearing box, first conveyor's up end is the bottom of the case of bearing box and delivery box, be provided with supplementary material feeding unit between bearing box and the delivery box, supplementary material feeding unit prescribes a limit to carry the material height to the delivery box in from bearing box, the delivery outlet has been seted up to the bottom of delivery box, chassis spare still is connected with second conveyor, and the material is inputed to the delivery box in by first output device from bearing box, is discharged by the delivery outlet of delivery box, second conveyor bears the material of delivery box output.

2. The coal mine coal auxiliary transportation system according to claim 1, characterized in that: the auxiliary feeding device comprises two sets of oppositely arranged slide bar frame pieces, a through groove body is formed in the outer surface of each slide bar frame piece, a connecting block piece is connected in the through groove body, a bearing piece is arranged in the middle of each connecting block piece, and two ends of the driving shaft piece are connected with the bearing piece respectively.

3. The coal mine coal auxiliary transportation system according to claim 2, characterized in that: the outer surface of one group of the sliding rod frame pieces is connected with a driving motor, the driving end of the driving motor is connected with the driving shaft piece, and the driving motor drives the driving shaft piece to rotate.

4. The coal mine coal auxiliary transportation system according to claim 3, characterized in that: the utility model discloses a slide bar frame, including connecting block spare, driving motor and slide bar frame spare, connecting block spare and logical groove body sliding connection, driving motor and slide bar frame spare sliding connection, driving motor is connected with the supporting wheel spare, the lateral wall surface of slide bar frame spare has been seted up and has been supported the spout, the supporting wheel spare is connected with the cooperation of supporting the spout, the built-in member of upper end fixedly connected with of connecting block spare, the fixed pipe fitting of fixed surface connection of slide bar frame spare, the spout body has been seted up to the inside of fixed pipe fitting, the last end fixedly connected with cardboard piece of built-in member, cardboard piece is located the spout internally, can follow the spout body and slide from top to bottom.

5. The coal mine coal auxiliary transportation system according to claim 4, characterized in that: the inside sliding connection of spout body has the chuck piece spare, the upper end swing joint of chuck piece spare has the screw member, the screw member runs through the end of fixed pipe fitting, and the screw member with the end part threaded connection of fixed pipe fitting, the surface connection of screw member has twists the plate, it is located to twist the plate the outside of fixed pipe fitting.

6. The coal mine coal auxiliary transportation system according to claim 5, characterized in that: the limit block body is fixedly connected to the side wall of the clamping block piece, the limit sliding groove is formed in the fixed pipe fitting, and the limit block body is located in the limit sliding groove and slides.

7. An auxiliary transportation method for coal mines is characterized in that: the method comprises the following steps of S1, placing a variable amount of materials in a bearing box, starting a first conveying device, and driving the materials in the bearing box to move by the first conveying device so as to enable the materials to pass through an auxiliary feeding device;

step S2, the hollow roller in the auxiliary feeding device prevents the materials exceeding the limited height from entering the output box through the rotation of the hollow roller;

and step S3, after the materials enter the output box, the materials fall to the surface of the second conveying device through an output port arranged at the bottom of the output box, and the materials are conveyed through the second conveying device.

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