CN220803700U

CN220803700U - Crushing device for manufacturing graphite carbon products

Info

Publication number: CN220803700U
Application number: CN202322546864.0U
Authority: CN
Inventors: 马光燕
Original assignee: Anhui Anchen Technology Co ltd
Current assignee: Anhui Anchen Technology Co ltd
Priority date: 2023-09-19
Filing date: 2023-09-19
Publication date: 2024-04-19
Anticipated expiration: 2033-09-19

Abstract

The utility model discloses a crushing device for manufacturing a graphite carbon product, which relates to the technical field of graphite processing and comprises a box unit, a processing unit, an impact unit, a universal wheel, a crushing unit and a discharging unit; the crushing unit comprises a driving motor arranged at one side of the box body unit and two crushing rollers movably arranged in the processing unit and used for crushing graphite carbon; the discharging unit comprises a discharging table arranged below the inner part of the box body unit and a round extruding cavity which is arranged inside the discharging table and used for extruding graphite carbon crushed materials. The crushing device for manufacturing the graphite carbon product improves the crushing quality and efficiency of graphite carbon through double processing of collision crushing and crushing, the structure is convenient for the crushed graphite carbon to be discharged, the phenomenon of arch bridge caused by accumulation is avoided, and the discharging speed of the graphite carbon is improved.

Description

Crushing device for manufacturing graphite carbon products

Technical Field

The utility model relates to the technical field of graphite processing, in particular to a crushing device for manufacturing a graphite carbon product.

Background

A common material for graphite carbon is a non-metallic solid material based on carbon elements, wherein the carbon material consists essentially of non-graphitic carbon, and the graphite material consists essentially of graphitic carbon. In the carbon production process, the carbon material is required to be manufactured through a strict process, so that the carbon material can reach the highest quality, and the raw materials are required to be crushed in the initial stage of production.

In publication (bulletin) No.: 202220159501.4 discloses a crushing device for manufacturing a graphite carbon product, which comprises a frame, a grinding device and a screening and classifying device; the grinding device is fixedly arranged on the frame; the screening and classifying device is arranged below the grinding device and is fixedly connected with the frame; the grinding device comprises a grinding pool, a grinding wheel and a first rotary driver; the crushing pool is fixedly connected with the frame, and the inner wall of the crushing pool is provided with a friction surface; the crushing wheel is rotatably arranged in the crushing pool, and the outer side of the crushing wheel is provided with a friction surface; the first rotary driver is fixedly arranged on the crushing pool, and the output end of the first rotary driver is in transmission connection with the crushing wheel. The application can uniformly crush graphite and improve crushing efficiency.

In the above patent, although the graphite carbon can be pulverized, the problem of low discharge efficiency is caused by the arch bridge phenomenon which is easily caused by accumulation during discharge of the pulverized graphite, and the production efficiency of the graphite carbon product is affected, and therefore, it is necessary to provide a pulverizing apparatus for producing the graphite carbon product.

Disclosure of utility model

The utility model mainly aims to provide a crushing device for manufacturing a graphite carbon product, which can effectively solve the problems that in the background technology, though graphite carbon can be crushed, arch bridge phenomenon is easily caused by accumulation during discharging of crushed graphite, so that the discharging efficiency is low and the manufacturing efficiency of the graphite carbon product is influenced.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the crushing device for manufacturing the graphite carbon product comprises a box body unit, a processing unit arranged in the box body unit, an impact unit arranged above the processing unit, a universal wheel arranged at the bottom of the box body unit, a crushing unit arranged in the processing unit and a discharging unit arranged in the lower part of the box body unit;

The crushing unit comprises a driving motor arranged at one side of the box body unit and two crushing rollers movably arranged in the processing unit and used for crushing graphite carbon;

The discharging unit comprises a discharging table arranged below the inner part of the box body unit and a round extruding cavity which is arranged inside the discharging table and used for extruding graphite carbon crushed materials.

Preferably, the box body unit comprises a crushing box, a feed inlet formed in the top of the crushing box and an extrusion pipe fixedly connected to the lower side of one side of the crushing box.

Preferably, the processing unit comprises a processing table fixedly connected between the inner walls of the crushing box and a crushing cavity formed in the inner concave center of the top of the processing table.

Preferably, the impact unit comprises a cylinder arranged above one side of the crushing box, a fixed plate fixedly connected between the inner walls of the crushing box and provided with a feed opening, a baffle fixedly connected between the top of the fixed plate and the top wall of the crushing box, and an impact plate fixedly connected with the driving end of the cylinder.

Preferably, the crushing unit further comprises a rotating shaft fixedly connected to the driving end of the driving motor, a belt wheel a sleeved on the outer surface of the rotating shaft, a gear a fixedly connected to one end of the rotating shaft, and a gear b meshed with and connected to the same horizontal plane of the gear a.

Preferably, the discharging unit further comprises a transmission shaft penetrating through the discharging table, a helical blade fixedly connected to the outer surface of the transmission shaft, a belt wheel b fixedly connected to one end of the transmission shaft, a transmission belt arranged between the belt wheel b and the belt wheel a, and a concave through groove formed in the top of the discharging table.

Preferably, one end of the rotating shaft penetrates through the outer wall of the crushing box and extends into one side of the processing table, and one ends of the two crushing rollers are fixedly connected with the centers of one sides of the gear a and the gear b respectively;

the concave through groove is communicated with the circular extrusion cavity, the extrusion pipe is communicated with the circular extrusion cavity, and the belt wheel b is in transmission connection with the belt wheel a through a transmission belt.

Compared with the prior art, the utility model has the following beneficial effects:

According to the utility model, graphite carbon is sent into the crushing box through the feeding hole, slides to the top of the fixed plate through the inclined surface, then the impact plate is pushed by the start of the air cylinder to collide the graphite carbon falling onto the fixed plate with the baffle plate, so that the graphite carbon is primarily collided and crushed, the collided and crushed graphite carbon falls into the processing table through the feeding hole and slides into the crushing cavity, the drive motor is started to drive the rotating shaft to rotate, the rotation of the rotating shaft drives the gear a to rotate, the rotation of the gear a drives the two crushing rollers to relatively rotate in the crushing cavity through meshing with the gear b, and therefore the collided and crushed graphite carbon is crushed, and the crushing quality and efficiency of the graphite carbon are improved through double processing of collision crushing and crushing.

2. According to the utility model, the belt pulley a is driven to rotate through the rotating shaft, the belt pulley b is driven to rotate through the driving belt, the driving shaft is driven to rotate in the circular extrusion cavity in the blanking table by the rotation of the belt pulley b, the spiral blades are driven to rotate at a high speed, so that crushed graphite carbon enters the circular extrusion cavity through the concave through grooves, and the graphite carbon is spirally pushed to be discharged through the extrusion pipe by the high-speed rotation of the spiral blades.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic diagram of the front view and inner cross-section structure of the present utility model;

FIG. 3 is a schematic diagram of a driving connection structure according to the present utility model;

FIG. 4 is a schematic perspective view of a blanking table of the present utility model;

fig. 5 is an enlarged schematic view of the structure of fig. 2a according to the present utility model.

In the figure:

100. A case unit; 101. a crushing box; 102. a feed inlet; 103. extruding a pipe;

200. A processing unit; 201. a processing table; 202. a crushing cavity;

300. An impact unit; 301. a cylinder; 302. a fixing plate; 303. a baffle; 304. an impingement plate;

400. A pulverizing unit; 401. a driving motor; 402. a rotating shaft; 403. a belt wheel a; 404. a gear a; 405. a gear b; 406. a pulverizing roller;

500. A discharging unit; 501. a transmission shaft; 502. a helical blade; 503. a belt wheel b; 504. a blanking table; 505. a drive belt; 506. a concave through groove; 507. a circular extrusion cavity;

600. And a universal wheel.

Detailed Description

Examples

Referring to fig. 1 to 5, the present utility model is a pulverizing apparatus for manufacturing a graphite carbon product, comprising a housing unit 100, a processing unit 200 disposed inside the housing unit 100, an impact unit 300 disposed above the processing unit 200, a universal wheel 600 mounted at the bottom of the housing unit 100, a pulverizing unit 400 disposed inside the processing unit 200, and a discharging unit 500 disposed inside the lower portion of the housing unit 100;

The discharging unit 500 includes a discharging table 504 installed below the inside of the case unit 100, and a circular extrusion chamber 507 provided inside the discharging table 504 for extruding the graphite carbon crushed material.

As shown in fig. 1 and 2, the box unit 100 includes a crushing box 101, a feed inlet 102 formed at the top of the crushing box 101, and an extrusion tube 103 fixedly connected below one side of the crushing box 101, wherein an inclined surface of the feed inlet 102 formed at the top of the crushing box 101 is provided to facilitate the entry of graphite carbon, and the extrusion tube 103 facilitates the extrusion of the crushed graphite carbon.

As shown in fig. 2, the processing unit 200 includes a processing table 201 fixedly connected between inner walls of the pulverizing box 101, and a pulverizing cavity 202 formed at a concave center of a top of the processing table 201, wherein the processing table 201 is arranged in a concave shape, so that graphite carbon after preliminary impact crushing slides down into the pulverizing cavity 202, and pulverizing operation is performed again.

As shown in fig. 1 and 2, the impact unit 300 includes a cylinder 301 installed above one side of the pulverizing box 101, a fixing plate 302 fixedly connected between the inner walls of the pulverizing box 101 and provided with a discharge opening, a baffle 303 fixedly connected between the top of the fixing plate 302 and the top wall of the pulverizing box 101, and an impact plate 304 fixedly connected to the driving end of the cylinder 301, and the activation of the cylinder 301 pushes the impact plate 304 to collide the graphite carbon falling onto the fixing plate 302 with the baffle 303, thereby primarily crashing the graphite carbon.

As shown in fig. 1, 2, 3 and 5, the crushing unit 400 includes a driving motor 401 installed at one side of the box unit 100, two crushing rollers 406 movably disposed inside the processing unit 200 for crushing graphite carbon, a rotating shaft 402 fixedly connected to the driving end of the driving motor 401, a belt wheel a403 sleeved on the outer surface of the rotating shaft 402, a gear a404 fixedly connected to one end of the rotating shaft 402, and a gear b405 engaged and connected to the same horizontal plane of the gear a404, one end of the rotating shaft 402 extends into one side of the processing table 201 through the outer wall of the crushing box 101, and one ends of the two crushing rollers 406 are fixedly connected to one side centers of the gear a404 and the gear b405 respectively.

Working principle: firstly, the graphite carbon is sent into the crushing box 101 through the feeding hole 102, slides to the top of the fixed plate 302 through the inclined surface, then the cylinder 301 is started to push the impact plate 304 to collide the graphite carbon falling onto the fixed plate 302 with the baffle 303, so that the graphite carbon is primarily collided and crushed, the collided and crushed graphite carbon falls into the processing table 201 through the feeding hole and slides into the crushing cavity 202, the driving motor 401 is started, the driving motor 401 drives the rotating shaft 402 to rotate, the rotation of the rotating shaft 402 drives the gear a404 to rotate, the rotation of the gear a404 drives the two crushing rollers 406 to rotate relatively in the crushing cavity 202 through meshing with the gear b405, and therefore the collided and crushed graphite carbon is crushed, and the crushing quality and efficiency of the graphite carbon are improved through double processing of collision crushing and crushing.

Examples

The pulverizing unit 400 includes a driving motor 401 installed at one side of the case unit 100, and two pulverizing rollers 406 movably disposed inside the processing unit 200 for pulverizing graphite carbon.

As shown in fig. 1, 2, 4 and 5, the discharging unit 500 includes a discharging table 504 installed below the inner portion of the box unit 100, a circular extrusion cavity 507 formed inside the discharging table 504 and used for extruding graphite carbon crushed materials, a transmission shaft 501 penetrating inside the discharging table 504, a helical blade 502 fixedly connected to the outer surface of the transmission shaft 501, a belt pulley b503 fixedly connected to one end of the transmission shaft 501, a transmission belt 505 arranged between the belt pulley b503 and the belt pulley a403, and a concave through groove 506 formed at the top of the discharging table 504, wherein the concave through groove 506 is communicated with the circular extrusion cavity 507, the extrusion pipe 103 is communicated with the circular extrusion cavity 507, and the belt pulley b503 is in transmission connection with the belt pulley a403 through the transmission belt 505.

Working principle: when the driving motor 401 drives the crushing unit 400 to crush graphite carbon, the rotating shaft 402 drives the belt pulley a403 to rotate, the belt pulley a403 rotates to drive the belt pulley b503 to rotate through the driving belt 505, the driving shaft 501 is driven to rotate in the circular extrusion cavity 507 in the blanking table 504 by the rotation of the belt pulley b503, the helical blade 502 is driven to rotate at a high speed, the crushed graphite carbon enters the circular extrusion cavity 507 through the concave through groove 506, and the helical blade 502 is driven to spirally push the graphite carbon to be discharged through the extrusion pipe 103 by the high-speed rotation of the helical blade 502.

Claims

1. A crushing device for manufacturing a graphite carbon product, which comprises a box unit (100), a processing unit (200) arranged in the box unit (100), an impact unit (300) arranged above the processing unit (200), and a universal wheel (600) arranged at the bottom of the box unit (100), and is characterized by also comprising a crushing unit (400) arranged in the processing unit (200) and a discharging unit (500) arranged in the lower part of the box unit (100);

The crushing unit (400) comprises a driving motor (401) arranged at one side of the box body unit (100), and two crushing rollers (406) movably arranged inside the processing unit (200) and used for crushing graphite carbon;

The discharging unit (500) comprises a discharging table (504) arranged below the inside of the box body unit (100), and a circular extrusion cavity (507) arranged inside the discharging table (504) and used for extruding graphite carbon crushed materials.

2. The pulverizing apparatus for producing a graphite carbon product as defined in claim 1, wherein: the box body unit (100) comprises a crushing box (101), a feeding hole (102) formed in the top of the crushing box (101), and an extrusion pipe (103) fixedly connected to the lower side of one side of the crushing box (101).

3. The pulverizing apparatus for producing a graphite carbon product as defined in claim 2, wherein: the processing unit (200) comprises a processing table (201) fixedly connected between the inner walls of the crushing box (101), and a crushing cavity (202) formed in the concave center of the top of the processing table (201).

4. The pulverizing apparatus for producing a graphite carbon product as defined in claim 2, wherein: the impact unit (300) comprises an air cylinder (301) arranged above one side of the crushing box (101), a fixed plate (302) fixedly connected between the inner walls of the crushing box (101) and provided with a blanking opening, a baffle (303) fixedly connected between the top of the fixed plate (302) and the top wall of the crushing box (101), and an impact plate (304) fixedly connected with the driving end of the air cylinder (301).

5. A pulverizing apparatus for producing a graphite carbon product as defined in claim 3, wherein: the crushing unit (400) further comprises a rotating shaft (402) fixedly connected to the driving end of the driving motor (401), a belt wheel a (403) sleeved on the outer surface of the rotating shaft (402), a gear a (404) fixedly connected to one end of the rotating shaft (402), and a gear b (405) meshed with and connected to the same horizontal plane of the gear a (404).

6. The pulverizing apparatus for producing a graphite carbon product as defined in claim 5, wherein: the discharging unit (500) further comprises a transmission shaft (501) penetrating through the discharging table (504), a spiral blade (502) fixedly connected to the outer surface of the transmission shaft (501), a belt wheel b (503) fixedly connected to one end of the transmission shaft (501), a transmission belt (505) arranged between the belt wheel b (503) and the belt wheel a (403), and a concave through groove (506) formed in the top of the discharging table (504).

7. The pulverizing apparatus for producing a graphite carbon product as defined in claim 6, wherein: one end of the rotating shaft (402) penetrates through the outer wall of the crushing box (101) and extends into one side of the processing table (201), and one ends of the two crushing rollers (406) are fixedly connected with one side centers of the gear a (404) and the gear b (405) respectively;

The concave through groove (506) is communicated with the circular extrusion cavity (507), the extrusion pipe (103) is communicated with the circular extrusion cavity (507), and the belt wheel b (503) is in transmission connection with the belt wheel a (403) through a transmission belt (505).