CN113680667B - Foam coke removing and sorting equipment in calcined needle coke - Google Patents

Abstract

The invention discloses equipment for removing and sorting foam coke in calcined needle coke, which comprises a sorting bin and a feeding belt, wherein a vibration type material guiding mechanism is arranged in the sorting bin along the inclined direction, a discharge port of the feeding belt extends into the sorting bin and is positioned above a feed end of the vibration type material guiding mechanism, and a grading and screening mechanism is arranged below a discharge end of the vibration type material guiding mechanism.

Description

Foam coke removing and sorting equipment in calcined needle coke

Technical Field

The invention relates to the technical field of needle coke sorting equipment, in particular to equipment for removing and sorting foam coke in calcined needle coke.

Background

Needle coke is an important carbon material, and the appearance of the needle coke is silver gray and metallic porous artificial graphite. The needle coke has an elliptical hole structure, particles have needle-shaped textures, and the needle coke is divided into two categories according to different production raw materials, wherein one category is the oil-based needle coke taking heavy oil as the production raw material; the other type is coal-based needle coke which takes coal tar, asphalt and important fractions thereof as raw materials, the calcination treatment is an important link for processing the needle coke, the calcined coke is cooled to form a mixture with different shapes, the calcined needle Jiao Fenxuan is fine needle coke, intermediate needle coke and powdery foam coke according to particle size and density, and the calcined coke has different purposes, so the calcined needle coke needs to be preliminarily screened, the powdery foam coke is firstly separated, and then the fine needle coke and the intermediate needle coke are screened to obtain finished needle coke with different qualities and are respectively packaged.

Disclosure of Invention

The invention aims to solve the problems, designs a device for removing and sorting the foam coke in the calcined needle coke, and solves the problems in the background technology.

The technical scheme of the invention for realizing the aim is as follows: a device for removing and sorting foam coke in calcined needle coke comprises a sorting bin and a feeding belt, wherein a vibration type material guide mechanism is arranged in the sorting bin along the inclined direction, a discharge opening of the feeding belt extends into the sorting bin and is positioned above the feed end of the vibration type material guide mechanism, a grading and screening mechanism is arranged below the discharge end of the vibration type material guide mechanism, a grading air injection mechanism is arranged at the lower part of the vibration type material guide mechanism, and a centrifugal type dust collection mechanism is arranged at the upper part of the vibration type material guide mechanism;

vibrations formula guide mechanism includes: the screening device comprises a mounting frame, an elastic connecting structure, a material guide groove, a screen and a vibration control structure, wherein the mounting frame is arranged in a sorting bin, the elastic connecting structure is arranged on the mounting frame, the material guide groove is arranged on the elastic connecting structure along the inclined direction, a rectangular notch is formed in the lower end surface of the material guide groove, the screen is welded in the rectangular notch, the vibration control structure is arranged on the mounting frame, and one end of the vibration control structure is connected with the material guide groove;

the hierarchical notes fan constructs includes: the lateral air injection structure is arranged on one side of the separation bin, the air outlet end of the lateral air injection structure extends into the separation bin and is right aligned to the position below a discharge opening of a feeding belt, and the bottom air injection structure is arranged on the lower portion of the separation bin, and the air outlet end of the bottom air injection structure extends into the separation bin.

The elastic connection structure includes: the guide chute comprises a connecting frame, compression springs and connecting seats, wherein the connecting frame is fixedly arranged on the side wall of the guide chute, the compression springs are arranged on the two sides of the connecting frame along a rectangular array, and the connecting seats are welded on the lower ends of the compression springs and are in assembly connection with an installation frame.

The vibration control structure includes: the device comprises a driving motor, a rotary table and a pull rod, wherein the driving motor is arranged on a mounting frame, the center position of the side wall of the rotary table is connected with the output end of the driving motor, one end of the pull rod is rotatably connected with the end surface of the guide chute, and the other end of the pull rod is rotatably connected with the non-circle center position of the side wall of the rotary table.

The lateral air injection structure comprises: the air separation device comprises a first air blower, an air guide cover and an air separation plate, wherein the first air blower is arranged on one side of the separation bin, the air guide cover is arranged in the separation bin, one end of the air guide cover is communicated with the air outlet end of the first air blower, the other end of the air guide cover is over against the lower portion of a discharge opening of the feeding belt, and the air separation plate is arranged on the opening end of the air guide cover and is arranged along the inclined direction.

The centrifugal dust collecting mechanism includes: the air collecting cover is buckled on the separation bin and is communicated with the separation bin, the air inlet end of the cyclone dust collector is communicated with the air collecting cover, the air inlet end of the induced draft fan is communicated with the air exhaust end of the cyclone dust collector, and the air exhaust dust collecting structure is arranged on the air outlet end of the induced draft fan.

The dust collecting structure of airing exhaust includes: connecting pipe, tube-shape dust cage and tapered dust extraction section of thick bamboo, connecting pipe one end communicates with the end of airing exhaust of draught fan, tube-shape dust cage one end and connecting pipe be assembled between/be connected between, tapered dust extraction section of thick bamboo welds on tube-shape dust cage lower extreme and is linked together with the tube-shape dust cage.

The bottom air injection structure comprises: the second air-blower, annotate tuber pipe, flexonics head and tapered hood, the second air-blower sets gradually in selecting separately the storehouse lower part, annotate the tuber pipe and set up in the air-out of second air-blower is served and one end is stretched into and selects separately the storehouse in, the flexonics head sets up in the stretching into of annotating the tuber pipe and serves, the tapered hood welds on the baffle box lower extreme and is connected with the flexonics head.

Hierarchical screening mechanism includes: support, first blown down tank, screening otter board and second blown down tank, the support sets up in mounting bracket one side, first blown down tank sets up on the support and one end is connected with the leg joint, the other end stretches out outside the sorting storehouse, the terminal surface has seted up the rectangle and has led to the groove under the first blown down tank, the screening otter board inlays the dress and leads to the inslot in the rectangle, the second blown down tank sets up in first blown down tank below and is connected with the leg joint, the one end of second blown down tank stretches out outside the sorting storehouse, be provided with ejection of compact control structure between first blown down tank and the second blown down tank.

The ejection of compact control structure includes: fixing base, top push spring, shock dynamo and connecting rod, set up jaggedly on the position that selects separately the storehouse lateral wall and correspond first blown down tank and second blown down tank respectively, the fixing base sets up in breach position inboard, the top push spring sets up on the fixing base and is connected with first blown down tank and second blown down tank respectively, shock dynamo sets up on first blown down tank lateral wall, the both ends of connecting rod respectively with the lateral wall fixed connection of first blown down tank and second blown down tank.

The front side wall surface of the separation bin is provided with a through groove, an access door is arranged at the position of the through groove, one side of the access door is provided with a transparent observation window, and a lighting source is arranged on the inner side wall surface of the separation bin.

The equipment for removing and sorting the foam coke in the calcined needle coke, which is manufactured by the technical scheme of the invention, is characterized in that a vibration type guide mechanism is arranged in a sorting bin, the feeding end of the vibration type guide mechanism is positioned below the discharging opening of a feeding belt, a grading air injection mechanism is arranged at the lower part of the vibration type guide mechanism, a centrifugal type dust collection mechanism is arranged at the upper part of the vibration type guide mechanism, a grading and screening mechanism is arranged at one side of the discharging end of the vibration type guide mechanism, when the equipment is used, the vibration type guide mechanism is started, a calcined coke mixture is put into the vibration type guide mechanism through the feeding belt, the mixture moves along the vibration type guide mechanism under the vibration effect, the grading and air injection mechanism is started to blow air to the vibration type guide mechanism from top, the centrifugal type dust collection mechanism is matched to separate powdery foam coke in the mixture, the powdery foam coke is collected by the centrifugal type dust collection mechanism, the needle coke mixture subjected to removal 8978 zft enters the grading and screening mechanism, fine coke is separated from the middle coke, the needle coke, the grading and screening mechanism has complete structure and high integration degree, the needle coke separation operation can be realized, the once needle coke separation operation, the needle coke separation quality can be effectively realized, and the needle coke separation efficiency can be improved in the existing sorting process, and the existing needle coke separation technology can be improved.

Drawings

FIG. 1 is a schematic perspective view of a device for removing and separating foam coke from calcined needle coke according to the present invention.

FIG. 2 is a schematic diagram of an axial structure of a device for removing and separating foam coke from calcined needle coke according to the present invention.

FIG. 3 is a schematic diagram of a partially cut-away three-dimensional structure of a device for removing and sorting foam coke in calcined needle coke according to the present invention.

FIG. 4 is a schematic diagram of the axial structure of FIG. 3 of the apparatus for removing and sorting the foam coke from the calcined needle coke according to the present invention.

FIG. 5 is a schematic sectional view of the apparatus for removing and separating the foam coke from the calcined needle coke according to the present invention.

FIG. 6 is a schematic side sectional view of a device for removing and separating foam coke from calcined needle coke according to the present invention.

FIG. 7 is a schematic view of a partial three-dimensional structure of a device for removing and separating foam coke from calcined needle coke according to the present invention.

FIG. 8 is a schematic diagram of the axial structure of FIG. 7 of a coke foam removal and separation apparatus for calcined needle coke according to the present invention.

In the figure: 1. a sorting bin; 2. a feeding belt; 3. a mounting frame; 4. a material guide chute; 5. screening a screen; 6. a connecting frame; 7. a compression spring; 8. a connecting seat; 9. a drive motor; 10. a turntable; 11. a pull rod; 12. a first blower; 13. a wind scooper; 14. a wind distribution plate; 15. a wind collecting cover; 16. a cyclone dust collector; 17. an induced draft fan; 18. a connecting pipe; 19. a cylindrical dust collecting cover; 20. a cone-shaped dust exhaust cylinder; 21. a second blower; 22. injecting an air pipe; 23. a flexible connector; 24. a conical cover; 25. a support; 26. a first discharge chute; 27. screening a screen plate; 28. a second discharge chute; 29. a fixed seat; 30. pushing a spring; 31. vibrating a motor; 32. a connecting rod; 33. an access door; 34. a transparent viewing window; 35. an illumination source.

Detailed Description

The present invention is described in detail below with reference to the accompanying drawings, as shown in fig. 1 to 8, all electrical components in the present application are connected to their adapted power supplies through wires, and an appropriate controller should be selected according to actual situations to meet control requirements, and specific connection and control sequence should be implemented by referring to the following working principle, in which the electrical connection between the electrical components is implemented in sequence, and the detailed connection means is a known technology in the art, and the following description mainly describes the working principle and process, and does not describe the electrical control.

Example (b): as shown in attached figures 1-8 of the specification, the scheme comprises a sorting bin 1 and a feeding belt 2, a vibration type material guiding mechanism is arranged in the sorting bin 1 along the inclined direction, a discharge opening of the feeding belt 2 extends into the sorting bin 1 and is positioned above a feed end of the vibration type material guiding mechanism, a grading screening mechanism is arranged below a discharge end of the vibration type material guiding mechanism, a grading air injection mechanism is arranged at the lower part of the vibration type material guiding mechanism, a centrifugal dust collecting mechanism is arranged at the upper part of the vibration type material guiding mechanism, when the vibration type material guiding mechanism is started, calcined coke mixture is put into the vibration type material guiding mechanism through the feeding belt 2, the mixture moves along the vibration type material guiding mechanism under the vibration effect, meanwhile, the grading air injection mechanism is started to blow air to the vibration type material guide mechanism from the upward direction, the centrifugal type dust collection mechanism is matched to separate powdery foam coke in the mixture, the powdery foam coke is collected by the centrifugal type dust collection mechanism, needle-shaped Jiao Jin subjected to end removal enters the grading screening mechanism in one step to separate fine needle-shaped coke and intermediate needle-shaped coke, the structure is complete, the integration degree is high, one-time separation operation on the needle-shaped coke can be realized, calcined coke with three qualities can be separated in one time, no dust is generated in the separation process, the integral separation operation is carried out in the separation bin 1, and the condition that personal injury of workers is easily caused in the operation process of the traditional open type vibration equipment can be effectively avoided;

in a specific implementation process, the vibration type material guiding mechanism comprises: mounting bracket 3, elastic connection structure, baffle box 4, screen cloth 5 and vibration control structure, mounting bracket 3 sets up in sorting bin 1, and elastic connection structure sets up baffle box 4 on mounting bracket 3 and sets up on elastic connection structure along the incline direction, and the rectangle breach has been seted up to the lower terminal surface of baffle box 4, and screen cloth 5 welds in the rectangle breach, and vibration control structure sets up on mounting bracket 3 and one end is connected with baffle box 4, and wherein hierarchical notes fan constructs and includes: the utility model discloses a dust and debris foam dust separating device, including separation bin 1, guide chute 4, vibration control structure, material guide chute 4, lateral part wind injection structure and bottom wind injection structure, lateral part wind injection structure sets up in separation bin 1 one side and the air-out end stretches into the position below the discharge opening just to feeding belt 2 in separation bin 1, bottom wind injection structure sets up in separation bin 1 lower part and the air-out end stretches into separation bin 1, when using, start vibration control structure, utilize vibration control structure to carry out vibration control to guide chute 4, thereby make guide chute 4 keep the vibrations effect under the effect of elastic connection structure, thereby vibrate the mixed raw materials burnt that drops into in guide chute 4, make the material looser, start lateral part wind injection structure and bottom wind injection structure simultaneously and annotate wind, lateral part wind injection structure is in the in-process that feeding belt 2 will mix raw materials burnt to guide chute 4, sweep the raw materials burnt in the unloading process, thereby separate out the dust bits in the raw materials burnt and debris foam burnt, and sweep out the dust and debris foam under the negative pressure wind stream effect of centrifugal dust collecting mechanism, take out the dust and debris foam, the debris dust and debris foam are taken out through centrifugal dust and debris collection mechanism.

As can be seen from fig. 3 to 8 of the specification, in the implementation process, the elastic connection structure comprises: link 6, compression spring 7 and connecting seat 8, link 6 sets firmly on 4 lateral walls of baffle box, and compression spring 7 sets up on 6 both sides positions of link along rectangular array, and connecting seat 8 welds on compression spring 7's lower extreme and with 3 assembly connection of mounting bracket, and above-mentioned vibrations control structure includes: driving motor 9, carousel 10 and pull rod 11, driving motor 9 sets up on mounting bracket 3, carousel 10 lateral wall central point puts and is connected with driving motor 9's output, pull rod 11 one end is rotated with baffle box 4 terminal surface and is connected, the other end rotates with the non-centre of a circle position of carousel 10 lateral wall and is connected, in use, start driving motor 9 in the mounting bracket 3, the drive end of control driving motor 9 rotates, then drive carousel 10 and rotate, carousel 10 rotates and makes the non-centre of a circle position rotate the pull rod 11 one end of being connected on the lateral wall with it and carry out the circular motion, thereby utilize pull rod 11 to stimulate baffle box 4, connecting seat 8 and compression spring 7 in mounting bracket 3 elastic connection of baffle box 4 both sides through connecting frame 6 lower part simultaneously, and then at the in-process of pull rod 11 pulling baffle box 4, baffle box 4 can be even shake, thereby can shake the material that drops in the baffle box 4, make the material more loose, be convenient for cooperate hierarchical notes wind mechanism to separate out the dirt bits and the piece foam coke that mixes in the raw materials.

As can be seen from fig. 1 to 6 of the specification, in the specific implementation process, the side air injection structure includes: first air-blower 12, wind scooper 13 and divide aerofoil 14, first air-blower 12 sets up in sorting bin 1 one side, and wind scooper 13 sets up in sorting bin 1 and one end communicates with the air-out end of first air-blower 12 mutually, and the other end of wind scooper 13 is just to the discharge opening below of feeding belt 2, divides aerofoil 14 to set up on wind scooper 13's uncovered end, and arranges along the incline direction, and the structure of annotating wind in the bottom includes: the device comprises a second air blower 21, an air injection pipe 22, a flexible connector 23 and a conical cover 24, wherein the second air blower 21 is sequentially arranged at the lower part of the separation bin 1, the air injection pipe 22 is arranged at the air outlet end of the second air blower 21, one end of the air injection pipe extends into the separation bin 1, the flexible connector 23 is arranged at the extending end of the air injection pipe 22, the conical cover 24 is welded at the lower end of the guide chute 4 and is connected with the flexible connector 23, when the device is used, air is injected into the air guide hood 13 by using the first air blower 12, air flow is blown out in the inclined direction through an air distribution plate 14 at one end of the air guide hood 13 and is contacted with raw coke falling from the feeding belt 2, and therefore dust and scrap foam coke in the raw coke are primarily separated in the blanking process, reduce follow-up burnt proportion of foam of operation in-process that sweeps, improve separation operating efficiency, conical cover 24 assembles in proper order on the lower terminal surface of baffle box 4 through the bolt simultaneously, and utilize flexible connector 23 and the notes tuber pipe 22 of second air-blower 21 to be linked together, can be according to actual use needs, adjust the power of blowing of each second air-blower 21, thereby realize sweeping from ascending pressure boost step by step in baffle box 4 lower part, and then can effectively improve the burnt separation efficiency of piece foam, wherein need point out importantly, through the setting of flexible connector 23, can effectively guarantee to shake the in-process at baffle box 4, annotate the stability of wind operation, improve the practicality of integrated device.

As can be seen from fig. 1 to 6 of the specification, in the implementation process, the centrifugal dust collecting mechanism comprises: 15 air-collecting cover, cyclone 16, draught fan 17 and the dust collection structure of airing exhaust, 15 lock joints of air-collecting cover just are linked together with selecting separately storehouse 1 on selecting separately storehouse 1, and cyclone 16's air inlet end is linked together with air-collecting cover 15, and draught fan 17's air inlet end is linked together with cyclone 16's the end of airing exhaust end, and the dust collection structure of airing exhaust sets up and is served in the air-out of draught fan 17, and the above-mentioned dust collection structure of airing exhaust includes: the air purifier comprises a connecting pipe 18, a cylindrical dust hood 19 and a conical dust exhaust barrel 20, one end of the connecting pipe 18 is communicated with an air exhaust end of an induced draft fan 17, one end of the cylindrical dust hood 19 is connected with the connecting pipe 18 in an assembling mode, the conical dust exhaust barrel 20 is welded to the lower end of the cylindrical dust hood 19 and is communicated with the cylindrical dust hood 19, when the air purifier is used, the induced draft fan 17 is started, air in the separation bin 1 is sucked into the cyclone dust collector 16 through the negative pressure drainage function of the induced draft fan 17, dust and fragment foam coke generated by the sweeping function of the air in the separation bin 1 are sucked into the cyclone dust collector 16 synchronously through negative pressure air flow, the cyclone dust collector 16 is used for separating the fragment foam coke in the air flow, the separated foam coke can be led out through a lower end discharge port of the cyclone dust collector 16 when the air purifier is stopped, meanwhile, the separated air still contains partial fine dust, the air exhaust end of the induced draft fan 17 is communicated with the cylindrical dust hood 19 through the connecting pipe 18, the air exhaust end of the cylindrical dust hood 16 further enters the cylindrical dust hood 19 and is settled into the cylindrical dust exhaust end of the cylindrical dust hood 19, and the cylindrical dust exhaust barrel, and the air can cause waste of the environment.

As can be seen from fig. 3 to 8 of the specification, in the implementation process, the classifying and screening mechanism comprises: support 25, first blown down tank 26, screening otter board 27 and second blown down tank 28, support 25 sets up in mounting bracket 3 one side, first blown down tank 26 sets up on support 25 and one end is rotated with support 25 and is connected, the other end stretches out outside sorting bin 1, the rectangle logical groove has been seted up to the terminal surface under the first blown down tank 26, screening otter board 27 inlays the inslot that adorns in the rectangle, second blown down tank 28 sets up in first blown down tank 26 below and rotates with support 25 to be connected, the one end of second blown down tank 28 stretches out outside sorting bin 1, be provided with ejection of compact control structure between first blown down tank 26 and the second blown down tank 28, wherein ejection of compact control structure includes: a fixed seat 29, a pushing spring 30, a vibration motor 31 and a connecting rod 32, wherein the side wall of the sorting bin 1 corresponding to the first discharging chute 26 and the second discharging chute 28 is respectively provided with a notch, the fixed seat 29 is arranged at the inner side of the notch, the pushing spring 30 is arranged on the fixed seat 29 and is respectively connected with the first discharging chute 26 and the second discharging chute 28, the vibration motor 31 is arranged on the side wall of the first discharging chute 26, two ends of the connecting rod 32 are respectively fixedly connected with the side walls of the first discharging chute 26 and the second discharging chute 28, when in use, the vibration motor 31 on the side wall of the first discharging chute 26 is started, and by using the vibration action of the vibration motor 31, so that the first discharging chute 26 keeps vibrating under the supporting action of the elasticity of the pushing spring 30, meanwhile, as the second discharging chute 28 is connected with the first discharging chute 26 through the connecting rod 32, while the first discharging chute 26 vibrates, the second discharging chute 28 synchronously keeps a vibration state, the raw material Jiao Jin after primary separation enters the first discharging chute 26 on the bracket 25 in one step, and the raw coke is further screened by a screening net plate 27 in the first discharging chute 26, thereby obtaining fine needle coke with larger particles and middle needle coke with smaller particles, the fine needle coke is discharged out of the sorting bin 1 through one end of the first discharging chute 26, and the middle needle coke with smaller particles passes through the sieving screen plate 27 to enter the second discharging chute 28 under the vibration effect and is discharged through the second discharging chute 28, wherein, when the key points are needed, in the actual production process, according to the requirements of different needle coke product grades, the aperture of the sieve plate 27 is selected, and the combined design of multiple groups of sieve plates 27 can be adopted, so that more needle coke products with different particle size grades can be obtained at one time.

As can be seen from the attached drawings 1-6 in the specification, in the specific implementation process, the front side wall surface of the sorting bin 1 is provided with a through groove, the through groove is provided with an access door 33, one side of the access door 33 is provided with a transparent observation window 34, and the inner side wall surface of the sorting bin 1 is provided with an illumination light source 35. As the whole sorting operation environment of the device is arranged in the sorting bin 1, in order to enable an operator to know the operation condition inside the sorting bin 1 in time, the transparent observation window 34 is arranged on one side of the access door 33, the internal condition of the sorting bin 1 can be observed in time, meanwhile, the illumination light source 35 is arranged in the sorting bin 1 in order to improve the observation convenience, once the abnormal operation of equipment in the sorting bin 1 is found, the feeding can be stopped immediately, and the equipment enters the sorting bin 1 through the access door 33 for maintenance.

To sum up, the equipment for removing and sorting the foam coke in the calcined needle coke is characterized in that a vibration type guide mechanism is arranged in a sorting bin 1, the feeding end of the vibration type guide mechanism is positioned below the discharging opening of a feeding belt 2, a grading air injection mechanism is arranged at the lower part of the vibration type guide mechanism, a centrifugal dust collection mechanism is arranged at the upper part of the vibration type guide mechanism, a grading screening mechanism is arranged at one side of the discharging end of the vibration type guide mechanism, when the equipment is used, the vibration type guide mechanism is started, calcined coke mixture is put into the vibration type guide mechanism through the feeding belt 2, the mixture moves along the vibration type guide mechanism under the vibration effect, the grading air injection mechanism is started to blow air to the vibration type guide mechanism from the upward direction, and the centrifugal dust collection mechanism is matched to separate out the powdery foam coke in the mixture, the needle-shaped coke sorting machine is characterized in that a centrifugal dust collecting mechanism is used for collecting needle-shaped coke, needle-shaped coke Jiao Jin which is subjected to dust removal enters a grading and screening mechanism in one step, fine needle-shaped coke and intermediate needle-shaped coke are sorted, the structure is complete, the integration degree is high, one-time sorting operation of the needle-shaped coke can be realized, calcined coke with three qualities can be separated in one step, the whole sorting operation is completely finished in a sorting bin 1, no dust is generated, the cleanliness of an operating environment can be effectively guaranteed, the quality of the operating environment can be improved, meanwhile, the problem of noise generated in the operating process of traditional vibration screening equipment can be effectively reduced, and the problems that in the prior art, the needle-shaped coke sorting operation is mainly and directly screened by adopting a multi-stage vibration screen, the operating efficiency is low, and dust is serious in the operating process are solved.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims (6)

1. A device for removing and sorting foam coke in calcined needle coke comprises a sorting bin (1) and a feeding belt (2), and is characterized in that a vibration type material guide mechanism is arranged in the sorting bin (1) along the inclined direction, a discharge opening of the feeding belt (2) extends into the sorting bin (1) and is positioned above a feed end of the vibration type material guide mechanism, a grading screening mechanism is arranged below a discharge end of the vibration type material guide mechanism, a grading air injection mechanism is arranged at the lower part of the vibration type material guide mechanism, and a centrifugal type dust collection mechanism is arranged at the upper part of the vibration type material guide mechanism;

vibrations formula guide mechanism includes: the sorting bin comprises a mounting frame (3), an elastic connecting structure, a material guide groove (4), a screen (5) and a vibration control structure, wherein the mounting frame (3) is arranged in the sorting bin (1), the elastic connecting structure is arranged on the mounting frame (3), the material guide groove (4) is arranged on the elastic connecting structure along the inclined direction, a rectangular notch is formed in the lower end face of the material guide groove (4), the screen (5) is welded in the rectangular notch, the vibration control structure is arranged on the mounting frame (3), and one end of the vibration control structure is connected with the material guide groove (4);

the hierarchical notes fan constructs includes: the side air injection structure is arranged on one side of the sorting bin (1), an air outlet end of the side air injection structure extends into the sorting bin (1) and is opposite to the position below a discharge opening of the feeding belt (2), and the bottom air injection structure is arranged on the lower portion of the sorting bin (1), and an air outlet end of the bottom air injection structure extends into the sorting bin (1);

the lateral air injection structure comprises: the air separation device comprises a first air blower (12), an air guide cover (13) and an air distribution plate (14), wherein the first air blower (12) is arranged on one side of a separation bin (1), the air guide cover (13) is arranged in the separation bin (1), one end of the air guide cover is communicated with the air outlet end of the first air blower (12), the other end of the air guide cover (13) is over against the lower portion of a discharge opening of a feeding belt (2), and the air distribution plate (14) is arranged on the opening end of the air guide cover (13) and is arranged along the inclined direction;

the centrifugal dust collecting mechanism includes: the air-conditioning device comprises an air collecting cover (15), a cyclone dust collector (16), an induced draft fan (17) and an air exhaust dust collecting structure, wherein the air collecting cover (15) is buckled on the sorting bin (1) and is communicated with the sorting bin (1), the air inlet end of the cyclone dust collector (16) is communicated with the air collecting cover (15), the air inlet end of the induced draft fan (17) is communicated with the air exhaust end of the cyclone dust collector (16), and the air exhaust dust collecting structure is arranged at the air outlet end of the induced draft fan (17);

the dust collecting structure of airing exhaust includes: the device comprises a connecting pipe (18), a cylindrical dust collection cover (19) and a conical dust exhaust cylinder (20), wherein one end of the connecting pipe (18) is communicated with the air exhaust end of an induced draft fan (17), one end of the cylindrical dust collection cover (19) is assembled and connected with the connecting pipe (18), and the conical dust exhaust cylinder (20) is welded on the lower end of the cylindrical dust collection cover (19) and is communicated with the cylindrical dust collection cover (19);

the bottom air injection structure comprises: second air-blower (21), notes tuber pipe (22), flexible connector (23) and tapered cover (24), second air-blower (21) set gradually in sorting storehouse (1) lower part, it sets up in air-out of second air-blower (21) and serves and one end stretches into in sorting storehouse (1) to annotate tuber pipe (22), flexible connector (23) set up in the end of stretching into of annotating tuber pipe (22), tapered cover (24) weld on baffle box (4) lower extreme and are connected with flexible connector (23).

2. The apparatus of claim 1, wherein the resilient connecting structure comprises: link (6), compression spring (7) and connecting seat (8), link (6) set firmly on baffle box (4) lateral wall, compression spring (7) set up on link (6) both sides position along rectangular array, connecting seat (8) weld on the lower extreme of compression spring (7) and with mounting bracket (3) be assembled between/be connected between.

3. The apparatus of claim 2, wherein the vibration control structure comprises: driving motor (9), carousel (10) and pull rod (11), driving motor (9) set up on mounting bracket (3), carousel (10) lateral wall central point puts and is connected with driving motor's (9) output, pull rod (11) one end rotates with baffle box (4) terminal surface to be connected, the other end rotates with the non-centre of a circle position of carousel (10) lateral wall to be connected.

4. The apparatus for removing and sorting foam coke from calcined needle coke according to claim 1, wherein the classifying and screening mechanism comprises: support (25), first blown down tank (26), screening otter board (27) and second blown down tank (28), support (25) set up in mounting bracket (3) one side, first blown down tank (26) set up on support (25) and one end rotate with support (25) be connected, the other end stretches out outside sorting bin (1), the rectangle logical groove has been seted up to the terminal surface under first blown down tank (26), screening otter board (27) inlay the dress in the logical inslot of rectangle, second blown down tank (28) set up in first blown down tank (26) below and rotate with support (25) and be connected, the one end of second blown down tank (28) stretches out outside sorting bin (1), be provided with ejection of compact control structure between first blown down tank (26) and second blown down tank (28).

5. The apparatus of claim 4, wherein the discharge control structure comprises: fixing base (29), top push spring (30), shock dynamo (31) and connecting rod (32), set up jaggedly on the position that selects separately storehouse (1) lateral wall corresponds first blown down tank (26) and second blown down tank (28) respectively, fixing base (29) set up in breach position inboard, top push spring (30) set up on fixing base (29) and be connected with first blown down tank (26) and second blown down tank (28) respectively, shock dynamo (31) set up on first blown down tank (26) lateral wall, the both ends of connecting rod (32) respectively with the lateral wall fixed connection of first blown down tank (26) and second blown down tank (28).

6. The equipment for removing and sorting the foam coke in the calcined needle coke according to claim 1, wherein a through groove is formed in the front side wall surface of the sorting bin (1), an access door (33) is arranged at the position of the through groove, a transparent observation window (34) is arranged on one side of the access door (33), and an illumination light source (35) is arranged on the inner side wall surface of the sorting bin (1).

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