CN115404087A

CN115404087A - Coke powder recovery mechanism for coke powder bin

Info

Publication number: CN115404087A
Application number: CN202211190974.1A
Authority: CN
Inventors: 焦俊锋; 王豪杰; 宋沛刚; 徐军
Original assignee: Luoyang Long Ze Energy Co ltd
Current assignee: Luoyang Long Ze Energy Co ltd
Priority date: 2022-09-28
Filing date: 2022-09-28
Publication date: 2022-11-29
Anticipated expiration: 2042-09-28
Also published as: CN115404087B

Abstract

The invention discloses a fine coke recycling mechanism for a fine coke bin, which comprises a feeding pipe, a pipeline conveying assembly, a collecting pipe and a fine coke bin, wherein one end of the pipeline conveying assembly is fed by the feeding pipe, the other end of the pipeline conveying assembly is communicated with the collecting pipe, the other end of the collecting pipe is communicated into the fine coke bin, the pipeline conveying assembly is supported by a corner bin and is inclined upwards, and the collecting pipe is inclined downwards.

Description

Coke powder recovery mechanism for coke powder bin

Technical Field

The invention relates to the technical field of coke powder recovery, in particular to a coke powder recovery mechanism for a coke powder bin.

Background

In the prior art, coke produced by coking is conveyed to a vibrating screen through a belt conveyor, coke powder screened by the vibrating screen directly falls on the ground, the falling coke powder is loaded on a dump truck through a forklift and then conveyed to a coke powder bin, and the forklift is required to carry out manual cleaning after shoveling the coke powder each time.

Therefore, it is necessary to provide a coke powder recycling mechanism for a coke powder bin to solve the problems mentioned in the background art.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: a fine coke recycling mechanism for a fine coke bin comprises a feeding pipe, a pipeline conveying assembly, a collecting pipe and a fine coke bin, wherein one end of the pipeline conveying assembly is fed by the feeding pipe, the other end of the pipeline conveying assembly is communicated with the collecting pipe, the other end of the collecting pipe is communicated into the fine coke bin, the pipeline conveying assembly is supported by a corner bin and accordingly inclines upwards, and the collecting pipe inclines downwards.

Preferably, the collecting pipe is communicated to the middle of the coke powder bin, a partition plate is arranged in the coke powder bin in a vertically sliding mode, two winding ropes are connected to the partition plate and driven by a winding wheel machine to be wound and unwound, and a discharging pipe is arranged at the bottom of the coke powder bin.

Further, preferably, the two rolling wheel machines are in synchronous transmission connection by adopting a synchronous shaft.

Further, preferably, the pipeline conveying assembly comprises a plurality of T-shaped pipe groups connected in sequence, each T-shaped pipe group comprises a horizontal pipe and a vertical pipe, each horizontal pipe is communicated with the corresponding vertical pipe, a horizontal conveying assembly is arranged in each horizontal pipe and can continuously convey coke powder into the corresponding vertical pipe, a vertical conveying assembly is arranged in each vertical pipe and can convey the coke powder at the bottom of each vertical pipe to the horizontal conveying assembly of the next T-shaped pipe group.

Further, as preferred, horizontal transfer subassembly include bilateral symmetry rotate set up in roll body in the horizontal pipe, the transmission is connected with the area body between two roll bodies, and at least one roll body has power.

Further, as preferred, vertical conveying subassembly including be the rectangular distribution and rotate set up in power gear in the vertical pipe, the transmission is connected with the chain between two power gear on same vertical, adopts the axis body synchronous continuous between two chains, the axis body below rotates and is connected with the flitch, go up the flitch and be the plastics material, and the bottom is fixed with the adsorption iron, it is provided with limit gear still to rotate in the vertical pipe, limit gear can drive the middle part direction deflection of vertical pipe rather than adjacent chain, the middle part of vertical pipe still is fixed with the electro-magnet that is located the limit gear top.

Preferably, a material guide pipe positioned above the limit gear is obliquely embedded into one side of the vertical pipe, and the other end of the material guide pipe is communicated to a horizontal pipe in the next T-shaped pipe group.

Preferably, the lower surface of the horizontal pipe is provided with a hole body which is communicated with the corner bin.

Further, as a preferred option, a bottom pipe bin is fixed at the bottom of the vertical pipe, a groove is formed in the upper surface of the bottom pipe bin, an electromagnetic disc is connected to the groove in a sealing and rotating mode, and the electromagnetic disc is driven by a motor.

Compared with the prior art, the invention provides a coke powder recovery mechanism for a coke powder bin, which has the following beneficial effects:

according to the coke powder recycling device, coke powder is limited in the pipeline conveying assembly when the coke powder is recycled, so that the coke powder is gathered, the leakage of the coke powder is reduced, the participation of personnel is reduced, and the working efficiency is improved. In addition, the collecting pipe is communicated to the middle of the coke powder bin, so that the conveying length and the conveying angle of the pipeline conveying assembly can be reduced, the installation and configuration of the pipeline conveying assembly are guaranteed within effective space and limited budget, and the overall safety is improved.

Drawings

FIG. 1 is a schematic structural view of a coke powder recovery mechanism for a coke powder bin;

FIG. 2 is a schematic structural view of a pipe conveying assembly in a coke powder recovery mechanism for a coke powder bin;

FIG. 3 is a schematic view of a bottom bin of a coke powder recovery mechanism for a coke powder bin;

in the figure: 1. a feed pipe; 2. a pipe conveying assembly; 3. a collecting pipe; 4. a coke powder bin; 5. a discharge pipe; 6. a partition plate; 7. a reel machine; 8. rope rolling; 9. a synchronizing shaft; 10. a bottom pipe bin; 11. a groove; 12. an electromagnetic disk; 13. a motor; 21. a horizontal tube; 22. a vertical tube; 23. a roller body; 24. a belt body; 25. a power gear; 26. a chain; 27. feeding plates; 28. a limit gear; 29. a material guide pipe; 210. an electromagnet.

Detailed Description

Example (b): referring to fig. 1 to 3, in an embodiment of the present invention, a coke powder recycling mechanism for a coke powder bin includes a feeding pipe 1, a pipe conveying assembly 2, a collecting pipe 3 and a coke powder bin 4, wherein one end of the pipe conveying assembly 2 is fed by the feeding pipe 1, the other end is communicated with the collecting pipe 3, the other end of the collecting pipe 3 is communicated to the coke powder bin 4, the pipe conveying assembly 2 is supported by a corner bin so as to extend upward in an inclined manner, and the collecting pipe 3 extends downward in an inclined manner.

That is to say, in this embodiment, when the coke powder is retrieved, with the coke powder restriction in the pipeline transport subassembly to realized the gathering to the coke powder, reduced its and leaked, reduced personnel and participated in, promoted work efficiency.

In addition, the collecting pipe 3 is communicated with the middle part of the coke powder bin 4, a partition plate 6 is arranged in the coke powder bin 4 in a sliding mode, two winding ropes 8 are connected to the partition plate 6, the winding ropes 8 are driven by a winding wheel machine 7 to be wound and unwound, and a discharging pipe 5 is arranged at the bottom of the coke powder bin 4.

It should be explained that, the collecting pipe 3 is connected to the middle part of the coke breeze bin 4, so that the conveying length and conveying angle of the pipeline conveying assembly 2 can be reduced, and the installation configuration of the pipeline conveying assembly in an effective space and limited budget is ensured, thereby improving the overall safety.

In practice, the material is fed to the dividing plate 6 through the collecting pipe 3, and when the volume of the material on the dividing plate 6 is half of that of the coke breeze bin, the dividing plate 6 is lifted upwards to be positioned above the junction of the collecting pipe and the coke breeze bin 4, and then the material is continuously fed into the coke breeze bin through the collecting pipe 3.

In order to ensure the moving stability and balance of the partition plates, the two rolling wheels 7 are synchronously connected by a synchronous shaft 9 in a transmission way.

In this embodiment, as shown in fig. 2, the pipeline conveying assembly 2 includes a plurality of T-shaped pipe sets connected in sequence, each T-shaped pipe set includes a horizontal pipe 21 and a vertical pipe 22, the horizontal pipe 21 is communicated with the vertical pipe 22, a horizontal conveying assembly is arranged in the horizontal pipe, the horizontal conveying assembly can continuously convey coke powder into the vertical pipe, a vertical conveying assembly is arranged in the vertical pipe, and the vertical conveying assembly can convey the coke powder at the bottom of the vertical pipe to the horizontal conveying assembly of the next T-shaped pipe set.

Therefore, a large conveying device does not need to be configured, only a plurality of horizontal conveying assemblies and a plurality of vertical conveying assemblies need to be matched, different numbers of T-shaped pipe sets can be configured according to actual conditions, and the overall flexibility is high.

Specifically, the horizontal conveying assembly comprises roller bodies 23 which are arranged in the horizontal pipe 21 in a bilaterally symmetrical mode, a belt body 24 is connected between the two roller bodies 23 in a transmission mode, and at least one roller body 23 has power. It should be noted that the power of the roller body 23 can be derived from a speed reduction motor, which is arranged outside the horizontal tube.

Particularly, vertical conveying assembly including be the rectangular distribution and rotate set up in power gear 25 in the vertical pipe, the transmission is connected with chain 26 between two power gear 25 on same vertical, adopts the axis body synchronous continuous between two chains 26, the axis body below rotates and is connected with flitch 27, it is the plastics material to go up flitch 27, and the bottom is fixed with the adsorption iron, still rotate in the vertical pipe 22 and be provided with limit gear 28, limit gear 28 can drive the middle part direction deflection of vertical pipe 22 rather than adjacent chain, the middle part of vertical pipe still is fixed with the electro-magnet 210 that is located limit gear 28 top. In addition, a material guide pipe 29 positioned above the limit gear 28 is obliquely embedded in one side of the vertical pipe 22, and the other end of the material guide pipe 29 is communicated to the horizontal pipe 21 in the next T-shaped pipe group.

Therefore, in implementation, the electromagnet 210 is energized to generate magnetic force to adsorb the adsorption iron, so that the corresponding feeding plate is inclined and deflected, and the material body on the feeding plate falls into the material guide pipe.

In actual operation, a small part of the material body in the horizontal pipe falls into the bottom of the horizontal pipe, so that in order to ensure smooth operation of a subsequent belt body, the lower surface of the horizontal pipe 21 is provided with a hole body which is communicated with the corner bin. In fact, the corner bin can provide support for the pipe conveyor assembly on the one hand and can also receive scattered material from the horizontal pipe on the other hand.

In this embodiment, as shown in fig. 3, a bottom tube bin 10 is fixed to the bottom of the vertical tube, a groove 11 is formed in the upper surface of the bottom tube bin, an electromagnetic disc 12 is hermetically and rotatably connected in the groove 11, and the electromagnetic disc 12 is driven by a motor 13.

Therefore, when the vertical conveying assembly is used for conveying the material bodies, the motor 13 is used for driving the electromagnetic disc to rotate so as to drive the corresponding feeding plate to deflect, and the feeding effect is improved.

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 person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The utility model provides a burnt powder recovery mechanism for burnt powder storehouse which characterized in that: the coke powder collecting device comprises a feeding pipe (1), a pipeline conveying assembly (2), a collecting pipe (3) and a coke powder bin (4), wherein one end of the pipeline conveying assembly (2) is fed by the feeding pipe (1), the other end of the pipeline conveying assembly is communicated with the collecting pipe (3), the other end of the collecting pipe (3) is communicated into the coke powder bin (4), the pipeline conveying assembly (2) is supported by a corner bin and accordingly inclines upwards, and the collecting pipe (3) inclines downwards.

2. The coke powder recovery mechanism for the coke powder bin according to claim 1, wherein: the collecting pipe (3) is communicated to the middle of the coke powder bin (4), a partition plate (6) is arranged in the coke powder bin (4) in a sliding mode, two winding ropes (8) are connected to the partition plate (6), the winding ropes (8) are wound and unwound by a winding wheel machine (7) in a driving mode, and a discharging pipe (5) is arranged at the bottom of the coke powder bin (4).

3. The coke powder recovery mechanism for the coke powder bin according to claim 2, wherein: the two coiling machines (7) are connected in a synchronous transmission way by adopting a synchronous shaft (9).

4. The coke powder recovery mechanism for the coke powder bin according to claim 1, wherein: the pipeline conveying assembly (2) comprises a plurality of T-shaped pipe groups which are sequentially connected, each T-shaped pipe group comprises a horizontal pipe (21) and a vertical pipe (22), each horizontal pipe (21) is communicated with each vertical pipe (22), each horizontal pipe is internally provided with a horizontal conveying assembly, each horizontal conveying assembly can continuously convey coke powder into each vertical pipe, each vertical pipe is internally provided with a vertical conveying assembly, and each vertical conveying assembly can convey the coke powder at the bottom of each vertical pipe to the horizontal conveying assembly of the next T-shaped pipe group.

5. The coke powder recovery mechanism for the coke powder bin according to claim 4, wherein: the horizontal conveying assembly comprises roll bodies (23) which are arranged in the horizontal pipe (21) in a bilaterally symmetrical mode, a belt body (24) is connected between the two roll bodies (23) in a transmission mode, and at least one roll body (23) has power.

6. The coke powder recovery mechanism for the coke powder bin according to claim 4, wherein: vertical conveying assembly including be rectangular distribution and rotate set up in power gear (25) in the vertical pipe, transmission is connected with chain (26) between two power gear (25) on same vertical, adopts the axis body to link to each other in step between two chain (26), the axis body below is rotated and is connected with flitch (27), it is the plastics material to go up flitch (27), and the bottom is fixed with the adsorption iron, it is provided with limit gear (28) still to rotate in vertical pipe (22), limit gear (28) can drive the middle part direction deflection of vertical pipe (22) rather than adjacent chain, the middle part of vertical pipe still is fixed with electro-magnet (210) that are located limit gear (28) top.

7. The coke powder recovery mechanism for the coke powder bin according to claim 4, wherein: a material guide pipe (29) positioned above the limit gear (28) is obliquely embedded into one side of the vertical pipe (22), and the other end of the material guide pipe (29) is communicated to a horizontal pipe (21) in the next T-shaped pipe group.

8. The coke powder recovery mechanism for the coke powder bin according to claim 4, wherein: the lower surface of the horizontal pipe (21) is provided with a hole body which is communicated with the corner bin.

9. The coke powder recovery mechanism for the coke powder bin according to claim 6, wherein: a bottom pipe bin (10) is fixed to the bottom of the vertical pipe, a groove (11) is formed in the upper surface of the bottom pipe bin, an electromagnetic disc (12) is connected to the groove (11) in a sealing and rotating mode, and the electromagnetic disc (12) is driven by a motor (13).