CN216425681U - Pipeline device for transporting coal blocks - Google Patents

Abstract

The utility model provides a pipeline device for transporting coal blocks, which comprises a conveyer belt for transporting the coal blocks, and comprises: the conveying pipeline I is arranged at the discharge end of the conveying belt, a feed inlet of the conveying pipeline I faces upwards and is used for receiving coal blocks conveyed by the conveying belt, the conveying pipeline II is obliquely arranged, a feed inlet of the conveying pipeline II is connected to a discharge outlet of the conveying pipeline I and is used for conveying the coal blocks, and the mesh bag is arranged in the conveying pipeline I and is used for slowing down the impact force of falling of the coal blocks; and the receiving assembly comprises a receiving pipeline and at least one receiving hopper, the receiving pipeline is obliquely arranged, a feed inlet of the receiving pipeline is connected to a discharge outlet of the conveying pipeline II, and the receiving hopper is arranged at the discharge outlet of the receiving pipeline and detachably connected with the receiving pipeline and used for loading coal blocks conveyed by the conveying belt. The pipeline device is used for transporting coal blocks, and can prevent the coal blocks from falling down and injuring workers in the transportation process.

Description

Pipeline device for transporting coal blocks

Technical Field

The utility model relates to the technical field of transportation devices, in particular to a pipeline device for transporting coal briquettes.

Background

In the processing and use process of the coal blocks, the coal blocks are generally conveyed by a belt and the like, the coal blocks are usually thrown out at a coal outlet of a coal conveying pipeline, the coal blocks are influenced by inertia, and the movement track of the coal blocks falling from a high place is a parabola, so that people can be injured by crashing in the falling process, and safety accidents are caused.

For example, patent CN206243906U provides a conveying device for coal mine, which includes a conveying belt and a driving device thereof, and can control the conveying belt to transport coal blocks by controlling the driving device to start and stop, but there is no conveying pipeline, and the coal blocks directly fall after being transported by the conveying belt, if the height of the conveying belt is high, there may be a potential safety hazard that people are injured by crashing the coal blocks during the falling process.

At present, general conveyor is similar to above-mentioned patent, all is the direct transport material, but the discharge end of conveyer belt does not all have pipeline, and the material directly gets into next process after by the conveyer belt ejection of compact, if the conveyer belt with the receipts material end relative height of next process great, the material injures the staff easily at the in-process of whereabouts by a crashing object.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a pipeline device for transporting coal briquettes, which solves the technical problem that the transportation device in the prior art lacks a transportation pipeline.

In order to achieve the above technical object, the present invention provides a pipeline device for transporting coal blocks, which comprises a conveyor belt for transporting coal blocks, and comprises:

the conveying pipeline I is arranged at the discharge end of the conveying belt, a feed inlet of the conveying pipeline I faces upwards and is used for receiving coal blocks conveyed by the conveying belt, the conveying pipeline II is obliquely arranged, a feed inlet of the conveying pipeline II is connected to a discharge outlet of the conveying pipeline I and is used for conveying the coal blocks, and the mesh bag is arranged in the conveying pipeline I and is used for slowing down the impact force of falling of the coal blocks;

the receiving assembly comprises a receiving pipeline and at least one receiving hopper, the receiving pipeline is obliquely arranged, a feeding hole of the receiving pipeline is connected to a discharging hole of the second conveying pipeline, and the receiving hopper is arranged at the discharging hole of the receiving pipeline, is in sliding connection with the receiving pipeline and is used for loading coal blocks conveyed by the conveying belt;

the baffle, the baffle connect in the feed inlet of conveying pipe way one, the baffle set up in one side that the conveyer belt was kept away from to conveying pipe way one, the coal cinder is by the conveyer belt ejection of compact back warp the baffle striking can make the coal cinder get into conveying pipe way one.

Furthermore, the coal briquette ejection device further comprises a limiting plate, wherein the limiting plate is connected to one side, close to the conveying belt, of the first conveying pipeline, and the coal briquette is prevented from being ejected out of the first conveying pipeline after colliding with the baffle.

Furthermore, the number of the pipeline assemblies is multiple, and the pipeline assemblies are sequentially connected and the head ends of the pipeline assemblies are arranged at the discharge end and the tail end of the conveying belt, and the pipeline assemblies are connected to the receiving pipeline.

Furthermore, the quantity of the receiving hoppers is multiple, the discharge ends of the receiving pipelines are provided with guide rails, the receiving hoppers corresponding to the guide rails are provided with slide blocks, the receiving hoppers are connected with the guide rails in a sliding mode, the receiving hoppers are arranged in parallel and are seamlessly spliced, so that the receiving hoppers continuously receive materials, and the receiving hoppers can be separated from the receiving pipelines along the guide rails.

Furthermore, the top of the sliding block is provided with an inclined surface.

Further, the bottom of the material receiving hopper is provided with a roller for moving the material receiving hopper.

Furthermore, the side wall of the material receiving hopper is also provided with a handle for pushing the material receiving hopper.

Further, still include the shock pad, the shock pad set up in the striking face of baffle.

Further, the baffle is obliquely arranged.

Further, the inclination angle of the baffle ranges from 30 ° to 60 °.

Compared with the prior art, the utility model has the beneficial effects that: the pipeline device is used for transporting the coal blocks, the coal blocks at the high position can be transported to the receiving hopper through the pipeline structure, and compared with the traditional unprotected material transporting mode, the pipeline device can effectively prevent the coal blocks from falling down and injuring workers when the coal blocks are transported from the high position; the pipeline structure adopts a multi-section bending structure, so that the coal blocks fall step by step to slow down the falling impact force of the coal blocks, a baffle plate is arranged at the inlet of the pipeline to counteract the impact in the horizontal direction when the coal blocks fall from the material conveying end, so that the coal blocks fall into the pipeline, a mesh bag is also arranged in the pipeline, the falling impact force in the vertical direction of the coal blocks can be slowed down, and the coal blocks can be slowly transmitted into a receiving hopper below along the pipeline; the receiving hopper adopts detachable structure connecting tube, can make things convenient for the receiving hopper to collect and change the receiving hopper behind the coal cinder to the sustainable receipts material of plumbing installation.

Drawings

FIG. 1 is a schematic structural diagram of a pipeline device for transporting coal briquettes according to an embodiment of the present invention;

FIG. 2 is a schematic view of a specific assembly structure of a pipeline device for transporting coal briquettes according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a receiving assembly in a pipe device for transporting coal briquettes according to an embodiment of the present invention.

The attached drawings are marked as follows: 1. a fixing assembly; 11. a first conveying pipeline; 12. a second conveying pipeline; 13. a mesh bag; 2. A material receiving assembly; 21. a receiving pipe; 22. a material receiving hopper; 221. a roller; 222. a handle; 23. a guide rail; 24. A slider; 3. a baffle plate; 4. a limiting plate; 5. a shock pad; 100. a conveyor belt; 200. a drive mechanism.

Detailed Description

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate preferred embodiments of the utility model and together with the description, serve to explain the principles of the utility model and not to limit the scope of the utility model.

Referring to fig. 1, the utility model provides a pipeline device for transporting coal briquettes, which comprises a conveyor belt 100 for transporting coal briquettes and a driving mechanism 200 thereof, wherein the conveyor belt 100 comprises a pipeline assembly 1, a receiving assembly 2, a baffle 3 and a limiting plate 4, the fixing assembly 1 is installed at the discharge end of the conveyor belt 100, the receiving assembly 2 is arranged below the conveyor belt 100 and is connected with the pipeline assembly 1, the baffle 3 and the limiting plate 4 are arranged at the feed end of the fixing assembly 1 to ensure that the coal briquettes transported by the conveyor belt 100 enter the pipeline assembly 1 and then are transported to the receiving assembly 2 by the pipeline assembly 1 to ensure that the coal briquettes can be smoothly transported from a high place to a low place by the pipeline device, and the pipeline device is safer compared with a traditional non-protection transportation mode.

Referring to fig. 2, the pipeline assembly 1 includes a first transportation pipeline 11, a second transportation pipeline 12 and a mesh bag 13, the first transportation pipeline 11 is installed at the discharge end of the conveyer belt 100, the first transportation pipeline 11 is vertically placed with its feed inlet facing upwards for receiving the coal blocks transported by the conveyer belt 100, the second transportation pipeline 12 is inclined and its feed inlet is connected to the discharge port of the first transportation pipeline 11, the first transportation pipeline 11 is arranged in the mesh bag 13 for slowing down the impact force of the falling coal blocks, a plurality of openings are arranged on the two end openings and the circumferential side wall of the mesh bag 13, the large coal blocks can fall after being decelerated by the mesh bag 13, the small coal blocks can fall to the next pipeline from the openings, and the mesh bag 13 can cooperate with the first transportation pipeline 11 and the second transportation pipeline 12 to complete the work of transporting the coal blocks from high to low.

In the embodiment provided by the utility model, the number of the pipeline assemblies 1 is two, the two pipeline assemblies 1 are sequentially connected, the pipeline assemblies 1 at the head ends are arranged at the discharge end of the conveying belt 100, the pipeline assemblies 1 at the tail ends are connected to the receiving assembly 2, a multi-section bending structure is adopted, and the mesh bag 13 is matched to enable coal blocks to fall off step by step when the conveying belt 100 is used for blanking so as to slow down the impact force of falling of the coal blocks, so that the coal blocks are prevented from falling off too fast to damage equipment; the number of the pipeline assemblies 1 can be determined according to the actual height of the conveyed materials, and can be 3, 4 or more.

Referring to fig. 3, the receiving assembly 2 includes a receiving pipe 21 and a receiving hopper 22, the receiving pipe 21 is disposed obliquely, and a feeding hole of the receiving pipe 21 is connected to a discharging hole of the second conveying pipe 12, and the receiving hopper 22 is disposed at the discharging hole of the receiving pipe 21 and slidably connected to the receiving pipe 21 for loading coal blocks conveyed by the conveying belt; the bottom of the receiving hopper 22 is provided with a roller 221, the side wall of the receiving hopper 22 is also provided with a handle 222 for moving the receiving hopper 22, wherein the discharge end of the receiving pipe 21 is provided with a guide rail 23, the corresponding receiving hopper 22 is provided with a slide block 24, the receiving hopper 22 is slidably connected to the guide rail 23 through the slide block 24 and can be separated from the receiving pipe 21 along the guide rail 23, and the receiving hopper 22 can be manually pushed to the next station after the receiving hopper 22 is collected; the top of the sliding block 24 is provided with an inclined surface, and the highest position of the sliding block is lower than or flush with the discharge end of the receiving pipe 21, so that the coal blocks can flow into the receiving hopper 22 along the inclined surface.

In the embodiment provided by the utility model, the number of the receiving hoppers 22 is two, two receiving hoppers 22 can be slidably connected to the guide rail 24, the receiving hoppers 22 are placed in parallel and are connected seamlessly, after receiving materials, one receiving hopper 22 can slide out along the guide rail 24, and the other receiving hopper 22 continues to receive the materials, so that the pipeline device can continuously receive the materials, and the problem that the working efficiency is influenced by frequent starting and stopping of equipment is avoided; the number of the receiving hoppers 22 may be 3, 4 or more, and may be determined according to the actual speed of the coal transported by the conveyor belt 100, so as to ensure that there are always receiving hoppers 22 for continuous receiving.

The baffle 3 is connected to a feeding hole of the first conveying pipeline 11 and arranged on one side, away from the conveying belt 100, of the first conveying pipeline 11, and the coal blocks are discharged from the conveying belt 100 and then are impacted by the baffle 3 to enter the first conveying pipeline 11; the limiting plate 4 is connected to one side, close to the conveying belt 100, of the first conveying pipeline 11 to match with the baffle plate 3 to ensure that the coal blocks can enter the first conveying pipeline 11, and the coal blocks are prevented from being ejected out of the first conveying pipeline 11 after impacting the baffle plate 3 to injure workers by smashing. The baffle 3 is obliquely arranged, the inclination angle range of the baffle 3 is 30-60 degrees, and when the inclination angle of the baffle 3 is 45 degrees, the coal block falls most smoothly, so that in the embodiment provided by the utility model, the inclination angle of the baffle 3 is 45 degrees.

The pipeline device further comprises a shock pad 5, wherein the shock pad 5 is arranged on one surface of the baffle plate 3, which is used for buffering the impact force of the coal when the coal collides with the baffle plate 3. In the embodiment of the utility model, the damping pad 5 is a rubber pad, and preferably, the transportation pipeline one 11 and the limiting plate 4 thereof, the transportation pipeline two 12 and the receiving pipeline 21 are all provided with rubber pads to reduce the impact force of falling coal blocks.

The working principle of the embodiment provided by the utility model is as follows: the pipeline device is used for transporting high-position materials, in the transportation process of coal blocks, a transportation pipeline 11 is arranged at the discharge end of a transportation belt 100 positioned at a high position, the transportation pipeline 11 is vertically arranged, a feed inlet of the transportation pipeline 11 is lower than the transportation belt 100, a baffle plate 3 and a limiting plate 4 are arranged at the feed inlet of the transportation pipeline 11, when the transportation belt 100 transports the coal blocks, the coal blocks are separated from the transportation belt at a certain speed and fall in a parabola shape, when the coal blocks fall, the coal blocks collide against the baffle plate 3 and then match with the limiting plate 4, so that the coal blocks can enter the transportation pipeline one 11 along the baffle plate 3, then enter the transportation pipeline 12 and sequentially pass through the transportation pipeline one 11 and the transportation pipeline two 12, the impact force of the falling coal blocks is sequentially reduced by matching with a mesh bag 13 inside the transportation pipeline, finally enter a receiving hopper 22 through the receiving pipeline 21, the transportation of the materials from the high position to the low position is completed, and the receiving hopper 22 is provided with a plurality of receiving hoppers, the receiving hopper 22 can continue to receive the material after the receiving hopper 22 finishes receiving the material, so that the continuous receiving of the pipeline device is ensured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention.

Claims (10)

1. The utility model provides a pipe installation for transporting coal cinder, is including the conveyer belt that is used for transporting coal cinder, its characterized in that includes:

the conveying pipeline I is arranged at the discharge end of the conveying belt, a feed inlet of the conveying pipeline I faces upwards and is used for receiving coal blocks conveyed by the conveying belt, the conveying pipeline II is obliquely arranged, a feed inlet of the conveying pipeline II is connected to a discharge outlet of the conveying pipeline I and is used for conveying the coal blocks, and the mesh bag is arranged in the conveying pipeline I and is used for slowing down the impact force of falling of the coal blocks;

the receiving assembly comprises a receiving pipeline and at least one receiving hopper, the receiving pipeline is obliquely arranged, a feeding hole of the receiving pipeline is connected to a discharging hole of the second conveying pipeline, and the receiving hopper is arranged at the discharging hole of the receiving pipeline, detachably connected with the receiving pipeline and used for loading coal blocks conveyed by the conveying belt;

the baffle, the baffle connect in the feed inlet of conveying pipe way one, the baffle set up in one side that the conveyer belt was kept away from to conveying pipe way one, the coal cinder is by the conveyer belt ejection of compact back warp the baffle striking can make the coal cinder get into conveying pipe way one.

2. The pipe apparatus for transporting coal briquettes of claim 1 wherein: the coal block ejection device further comprises a limiting plate, wherein the limiting plate is connected to one side, close to the conveying belt, of the first conveying pipeline, and the coal block is prevented from being ejected out of the first conveying pipeline after being impacted on the baffle.

3. The pipe apparatus for transporting coal briquettes of claim 1 wherein: the quantity of pipeline subassembly is a plurality of, and is a plurality of pipeline subassembly connects gradually and its head end pipeline subassembly sets up in the discharge end of conveyer belt, the tail end pipeline subassembly connect in receive the pipeline.

4. The pipe apparatus for transporting coal briquettes of claim 1 wherein: the quantity of receiving hopper is a plurality of, the discharge end of receiving the pipeline is provided with the guide rail, and it corresponds be provided with the slider on the receiving hopper, it is a plurality of the receiving hopper warp slider sliding connection in the guide rail, it is a plurality of the receiving hopper sets up side by side and seamless concatenation, for the supply the receiving hopper lasts the receipts material, the receiving hopper follows the guide rail can break away from the receiving pipeline.

5. The pipe apparatus for transporting coal briquettes of claim 4, wherein: the top of the sliding block is provided with an inclined plane.

6. The pipe apparatus for transporting coal briquettes of claim 5, wherein: and the bottom of the material receiving hopper is provided with a roller for moving the material receiving hopper.

7. The pipe apparatus for transporting coal briquettes of claim 6, wherein: the side wall of the material receiving hopper is also provided with a handle used for pushing the material receiving hopper.

8. The pipe apparatus for transporting coal briquettes of claim 1 wherein: still include the shock pad, the shock pad set up in the striking face of baffle.

9. The pipe apparatus for transporting coal briquettes of claim 1 wherein: the baffle is obliquely arranged.

10. The pipe apparatus for transporting coal briquettes of claim 1 wherein: the range of the inclination angle of the baffle is 30-60 degrees.

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