CN220258282U - A kind of carbon grinding machine - Google Patents

Abstract

The utility model discloses a carbon grinding machine, which includes a processing box. A spiral blade is installed above the processing box, and a crushing motor is installed on one side of the spiral blade. The middle part below the inclined mesh plate is equipped with a A grinding plate, and an abrasive motor is connected above the grinding plate; a feeding box is installed on both sides outside the processing box, a feeding plate is installed below the feeding box, and lifts are installed on both sides below the feeding plate Hydraulic cylinder, a positioning shaft is installed at the connection between the lifting hydraulic cylinder and the feeding plate, and a guide hopper is installed on the inside above the feeding box. Compared with the existing device, this carbon pulverizer sends the materials to the top of the feeding box through the upwardly moving feeding plate. When it moves up to the designated position, the outer lifting hydraulic cylinder drives the feeding plate to continue to move upward for a while. The feeding plate rotates through the positioning shaft, and the material can fall into the feed port through the guide hopper, making it easy to crush the material again.

Description

Carbon pulverizer

Technical Field

The utility model relates to the technical field of grinding machines, in particular to a carbon grinding machine.

Background

The carbon is obtained by using high-purity high-quality anthracite and changing some properties of the coal through deep processing, and carbon products are classified into graphite electrodes, carbon blocks, graphite anodes, carbon electrodes, pastes, electric carbons and the like according to the product application. Commonly called carbon bricks or electric furnace blocks, and is mainly used in the metallurgical industry: smelting of nonferrous metals and colorless metals, and calcium carbide and phosphorus chemical enterprises, when grinding carbon raw materials, a carbon pulverizer is used.

The existing carbon pulverizer can combine two steps of pulverizing and pulverizing into one, saves time and labor, but only grinds carbon raw materials in a single direction, so that uneven grinding is easily caused, larger-particle materials can exist in the pulverizing process, the large-particle materials are directly grinded, time is wasted, and even the device is damaged to a certain extent, so that the carbon pulverizer is provided.

Disclosure of Invention

The utility model aims to provide a carbon pulverizer, which solves the problems that in the prior art, only carbon raw materials are pulverized in one direction, so that uneven grinding is easy to cause, larger-particle materials exist in the pulverizing process, and the large-particle materials are directly pulverized, so that the time is relatively long, and even the device is damaged to a certain extent.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a carbon mill comprising:

the device comprises a processing box body, wherein a feeding hole is formed in the middle of the upper part of the processing box body, a spiral blade is arranged on the upper part in the processing box body, and a crushing motor is arranged on one side of the spiral blade;

the inclined screen plate is fixedly arranged on two sides below the spiral blade, a millstone is arranged in the middle of the lower part of the inclined screen plate, and an abrasive motor is connected above the millstone;

the feeding box is arranged at two sides outside the processing box body, a feeding plate is arranged below the feeding box, lifting hydraulic cylinders are arranged at two sides below the feeding plate, a positioning rotating shaft is arranged at the joint of the lifting hydraulic cylinders and the feeding plate, and a guide hopper is arranged at the inner side above the feeding box;

the material receiving box is arranged at the bottom in the processing box body, and a packaging plate is arranged at one end of the outer wall of the processing box body.

Preferably, the crushing motor forms a rotating structure with the spiral blade through the output shaft and the linkage shaft, and the spiral blade is spirally distributed.

Preferably, the inclined screen plates are symmetrically distributed about the vertical center line of the processing box body, the inclined screen plates are of hollow net structures, and a rotating structure is formed between the abrasive motor and the grinding disc.

Preferably, the grinding disc is further provided with:

the filter screen plate is arranged below the grinding disc, mounting blocks are arranged on two sides of the filter screen plate, a vibrating block is connected with the lower side of the mounting blocks, and a vibrating motor is connected with the lower side of the vibrating block.

Preferably, the vibrating motor is in key connection with the vibrating block, the vibrating block is fixedly connected with the mounting block, and the filter screen plate is of a hollowed-out net structure.

Preferably, the processing box body is communicated with the feeding box, and the feeding plate is matched with the feeding box in size.

Preferably, a telescopic structure is formed between the lifting hydraulic cylinder and the feeding plate, the output end of the lifting hydraulic cylinder is movably connected with the feeding plate through a positioning rotating shaft, and the guide hoppers are symmetrically distributed in an opening downward shape relative to the vertical center line of the feeding hole.

Compared with the prior art, the utility model provides a carbon pulverizer, which has the following beneficial effects:

according to the utility model, large-particle materials can fall into the feeding box along the inclined screen plate, the lifting hydraulic cylinder can drive the feeding plate to move in the vertical direction, so that the materials can be conveyed to the upper part of the feeding box through the upward-moving feeding plate, when the feeding plate moves to a designated position, the outer lifting hydraulic cylinder drives the feeding plate to move upwards for a certain period, at the moment, the feeding plate rotates through the positioning rotating shaft, the materials can fall into the feeding hole through the guide hopper, the materials are convenient to be crushed again, the problem that the grinding is uneven due to the fact that the carbon raw materials are ground in a single direction is avoided, the large-particle materials are directly ground in the crushing process, and the device is damaged to a certain extent is solved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of the internal structure of the present utility model;

FIG. 3 is a schematic view of the attachment of the screen plate and mounting block of the present utility model;

fig. 4 is an enlarged schematic view of the structure of fig. 2 a according to the present utility model.

In the figure: 1. processing the box body; 2. a feed inlet; 3. a crushing motor; 4. a helical blade; 5. tilting the screen plate; 6. a grinding motor; 7. grinding disc; 8. a filter screen plate; 9. a mounting block; 10. a vibrating block; 11. a vibration motor; 12. a material receiving box; 13. a package plate; 14. a feed box; 15. a feeding plate; 16. a lifting hydraulic cylinder; 17. positioning a rotating shaft; 18. and a guide hopper.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, a carbon pulverizer, comprising: the device comprises a processing box body 1, wherein a feed inlet 2 is formed in the middle of the upper part of the processing box body 1, a spiral blade 4 is arranged above the inside of the processing box body 1, and a crushing motor 3 is arranged on one side of the spiral blade 4; a receiving box 12 which is arranged at the bottom in the processing box body 1, and one end of the outer wall of the processing box body 1 is provided with a packaging plate 13; the crushing motor 3 forms a rotating structure with the spiral blade 4 through an output shaft and a linkage shaft, and the spiral blade 4 is spirally distributed; the crushing motor 3 can drive the spiral blade 4 to rotate through the output shaft and the linkage shaft, and the rotating spiral blade 4 can crush materials; the inclined screen plates 5 are fixedly arranged on two sides below the spiral blade 4, a grinding disc 7 is arranged in the middle of the lower part of the inclined screen plates 5, and an abrasive motor 6 is connected above the grinding disc 7; the inclined screen plates 5 are symmetrically distributed about the vertical center line of the processing box body 1, the inclined screen plates 5 are of hollow net structures, and a rotating structure is formed between the grinding motor 6 and the grinding disc 7; the inclined screen plate 5 can filter the crushed materials, the materials reaching a certain size standard can fall to the middle of the processing box body 1 through the inclined screen plate 5, the grinding disc 7 can be driven to rotate through the grinding material motor 6, the grinding disc 7 can relatively rotate with the inner wall of the processing box body 1, so that the materials can be ground, and meanwhile, the relative distance between the grinding disc 7 and the processing box body 1 is smaller and smaller, so that the materials can be ground more finely.

Referring to fig. 1, 3 and 4, a carbon pulverizer comprises: the filter screen plate 8 is arranged below the grinding disc 7, mounting blocks 9 are arranged on two sides of the filter screen plate 8, a vibrating block 10 is connected below the mounting blocks 9, and a vibrating motor 11 is connected below the vibrating block 10; the vibrating motor 11 is connected with the vibrating block 10 in a key way, the vibrating block 10 is fixedly connected with the mounting block 9, and the filter screen plate 8 is of a hollowed-out net structure; the filter screen plate 8 can filter the ground materials, and the vibrating block 10 and the filter screen plate 8 can be driven to vibrate by the vibrating motor 11, so that the sieving efficiency can be improved; a feed box 14 mounted on both sides outside the processing box 1, the processing box 1 and the feed box 14 being communicated with each other, and a feed plate 15 being matched with the size of the feed box 14; large particle materials can fall into the feeding box 14 along the inclined screen 5; a feeding plate 15 is arranged below the feeding box 14, lifting hydraulic cylinders 16 are arranged on two sides below the feeding plate 15, a positioning rotating shaft 17 is arranged at the joint of the lifting hydraulic cylinders 16 and the feeding plate 15, and a guide hopper 18 is arranged on the inner side above the feeding box 14; a telescopic structure is formed between the lifting hydraulic cylinder 16 and the feeding plate 15, the output end of the lifting hydraulic cylinder 16 is movably connected with the feeding plate 15 through a positioning rotating shaft 17, and the guide hoppers 18 are symmetrically distributed in an opening downward shape relative to the vertical center line of the feed inlet 2; the lifting hydraulic cylinder 16 can drive the feeding plate 15 to move in the vertical direction, so that materials can be conveyed to the upper part of the feeding box 14 through the upward-moving feeding plate 15, when the materials move to a designated position, the outer lifting hydraulic cylinder 16 drives the feeding plate 15 to continue to move upwards for a section, at the moment, the feeding plate 15 rotates through the positioning rotating shaft 17, and the materials can fall into the feeding port 2 through the guide hopper 18, so that the materials can be crushed again conveniently.

Working principle: when the carbon pulverizer is used, firstly, materials are put into a processing box body 1 through a feed inlet 2, a pulverizing motor 3 is started, an output shaft of the pulverizing motor 3 and a linkage shaft can drive a spiral blade 4 to rotate, and the rotating spiral blade 4 can pulverize the materials; secondly, the crushed materials are filtered through the inclined screen 5, the materials reaching a certain size standard fall to the middle part of the processing box body 1 through the inclined screen 5, large-particle materials fall into the feeding box 14 along the inclined screen 5, the grinding material motor 6 is started again, the grinding material motor 6 drives the grinding disc 7 to rotate, the grinding disc 7 and the inner wall of the processing box body 1 rotate relatively, so that the materials can be ground, and meanwhile, the relative distance between the grinding disc 7 and the processing box body 1 is smaller and smaller, so that the materials can be ground more finely; then the material receiving box 12 is arranged at the inner bottom of the processing box body 1, the ground material is filtered through the filter screen plate 8, meanwhile, the vibrating motor 11 is started, and the vibrating motor 11 drives the vibrating block 10 and the filter screen plate 8 to vibrate, so that the sieving efficiency can be improved; finally, the lifting hydraulic cylinder 16 is started, the lifting hydraulic cylinder 16 drives the feeding plate 15 to move in the vertical direction, so that materials can be conveyed to the upper part of the feeding box 14 through the upward-moving feeding plate 15, when the materials move to a designated position, the outer lifting hydraulic cylinder 16 drives the feeding plate 15 to continue to move upwards, at the moment, the feeding plate 15 rotates through the positioning rotating shaft 17, the materials can fall into the feeding port 2 through the guide hopper 18, the materials are convenient to crush again, the packaging plate 13 is connected with the processing box 1 in a sliding clamping manner, meanwhile, the filter screen plate 8 can be mutually detached with the mounting block 9, and after the use is completed, the packaging plate 13 is periodically moved upwards, the filter screen plate 8 is taken out again to clean the packaging plate, so that the working principle of the carbon pulverizer is provided.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A carbon pulverizer, comprising:

the device comprises a processing box body (1), wherein a feed inlet (2) is formed in the middle of the upper part of the processing box body (1), a spiral blade (4) is arranged above the processing box body (1), and a crushing motor (3) is arranged on one side of the spiral blade (4);

the inclined screen plates (5) are fixedly arranged on two sides below the spiral blade (4), a grinding disc (7) is arranged in the middle of the lower part of the inclined screen plates (5), and an abrasive motor (6) is connected above the grinding disc (7);

the feeding box (14) is arranged on two sides outside the processing box body (1), a feeding plate (15) is arranged below the feeding box (14), lifting hydraulic cylinders (16) are arranged on two sides below the feeding plate (15), a positioning rotating shaft (17) is arranged at the joint of the lifting hydraulic cylinders (16) and the feeding plate (15), and a guide hopper (18) is arranged on the inner side above the feeding box (14);

the material receiving box (12) is arranged at the bottom in the processing box body (1), and a packaging plate (13) is arranged at one end of the outer wall of the processing box body (1).

2. A carbon mill according to claim 1, characterized in that the pulverizing motor (3) forms a rotating structure with the screw blades (4) through the output shaft and the linkage shaft, and the screw blades (4) are spirally distributed.

3. The carbon pulverizer as claimed in claim 1, wherein the inclined screen (5) is symmetrically distributed about a vertical center line of the processing box (1), the inclined screen (5) is of a hollowed-out net structure, and a rotating structure is formed between the abrasive motor (6) and the grinding disc (7).

4. A carbon mill according to claim 1, characterized in that the grinding disc (7) is further provided with:

the filter screen plate (8) is arranged below the grinding disc (7), mounting blocks (9) are arranged on two sides of the filter screen plate (8), vibrating blocks (10) are connected to the lower portions of the mounting blocks (9), and vibrating motors (11) are connected to the lower portions of the vibrating blocks (10).

5. The carbon pulverizer as claimed in claim 4, wherein the vibration motor (11) is in key connection with the vibration block (10), the vibration block (10) is fixedly connected with the mounting block (9), and the filter screen plate (8) is of a hollowed-out net structure.

6. A carbon mill according to claim 1, characterized in that the processing box (1) is in communication with the feed box (14) and that the feed plate (15) is matched to the size of the feed box (14).

7. The carbon pulverizer as claimed in claim 1, wherein a telescopic structure is formed between the lifting hydraulic cylinder (16) and the feeding plate (15), the output end of the lifting hydraulic cylinder (16) is movably connected with the feeding plate (15) through a positioning rotating shaft (17), and the guide hoppers (18) are symmetrically distributed in an opening downward shape with respect to the vertical center line of the feed inlet (2).