CN214811635U - Spherical graphite grinds machine - Google Patents

Abstract

The application relates to a spherical graphite grinding machine, which comprises a rack, wherein a grinding bin is fixedly arranged at the top of the rack, a discharge pipe is fixedly arranged at the top of the grinding bin, and a screening mechanism is arranged on the discharge pipe; screening mechanism is including setting up the rose box on the discharging pipe, is provided with the filter screen in the rose box, and the filter screen is used for filtering out the graphite powder that does not satisfy the fineness requirement. The method has the effect of enabling the fineness of the ground graphite powder to meet the requirement.

Description

Spherical graphite grinds machine

Technical Field

The application relates to the field of stone mill grinding equipment, in particular to a spherical graphite grinding machine.

Background

Graphite is an allotrope of elemental carbon, the periphery of each carbon atom is connected with three other carbon atoms and combined by covalent bonds to form covalent molecules, and because graphite has the advantages of good high temperature resistance, electric conductivity, thermal conductivity, chemical stability and the like, graphite is widely applied to the industrial fields of petrochemical industry, atomic energy and the like, graphite and carbon products have excellent performance and are increasingly widely applied, and the productivity and the benefit are in a rapid growth trend.

The ultramicro spherical graphite is mainly used as a graphite superconducting agent and applied to a cathode material of a high-end lithium ion battery. Before spherical graphite is manufactured into a formed product, graphite is often ground into fine powder through special grinding equipment, and the ground graphite powder contains a large amount of graphite powder with unqualified fineness, so that subsequent use is influenced, and the quality is difficult to guarantee when subsequent spherical graphite is processed into a finished product.

SUMMERY OF THE UTILITY MODEL

In order to enable the fineness of the ground graphite powder to meet the requirement, the application provides a spherical graphite grinding machine.

The application provides a spherical graphite grinds machine adopts following technical scheme:

a spherical graphite grinder comprises a rack, wherein a grinding bin is fixedly arranged at the top of the rack, a discharge pipe is fixedly arranged at the top of the grinding bin, and a screening mechanism is arranged on the discharge pipe; screening mechanism is including setting up the rose box on the discharging pipe, is provided with the filter screen in the rose box, and the filter screen is used for filtering out the graphite powder that does not satisfy the fineness requirement.

By adopting the technical scheme, the ground graphite powder passes through the discharge pipe, and the filter screen filters out the graphite with the fineness not meeting the requirement, so that the graphite powder finally discharged through the discharge pipe meets the requirement.

Optionally, a vibration motor is fixedly arranged at the bottom of the filter screen.

By adopting the technical scheme, the vibration motor drives the filter screen to vibrate, so that the graphite meeting the fineness requirement on the filter screen is completely filtered out.

Optionally, the middle part of rose box rotates and is connected with the locating frame, has seted up the holding tank in the locating frame, and four corners departments of locating frame have set firmly the guide post, and the filter screen slides and connects on the guide post in the holding tank.

Through adopting above-mentioned technical scheme, vibrating motor drive filter screen vibration, the filter screen slides along the guide post, makes the filter screen more stable at the in-process of vibration.

Optionally, the guide post is sleeved with a first spring and a second spring, and the first spring and the second spring are respectively located on two sides of the filter screen.

Through adopting above-mentioned technical scheme, when vibrating motor drive filter screen vibration, the filter screen slides along the guide post, extrudees spring one and spring two, and spring one and spring two play the effect of buffering, prevent the filter screen vibration to the wearing and tearing of locating frame.

Optionally, the discharge gate has been seted up to the lateral wall of rose box, and one side of locating frame has set firmly the joint in the baffle of discharge gate, and the position that the locating frame is close to the baffle has set firmly the transmission shaft, and the transmission shaft rotates to be connected on the rose box, and the lateral wall of rose box has set firmly driving motor, and driving motor's output shaft and transmission shaft are fixed.

Through adopting above-mentioned technical scheme, driving motor rotates, can drive baffle and locating frame upset to the graphite particles ejection of compact that filters out on the filter screen.

Optionally, a sealing plate is fixedly arranged on one side of the baffle plate close to the positioning frame.

Through adopting above-mentioned technical scheme, the closing plate is used for sealing the discharge gate, prevents that the graphite powder in the rose box from spilling through the gap of discharge gate and baffle.

Optionally, the positioning frame is detachably connected with a material receiving box below the material outlet.

Through adopting above-mentioned technical scheme, the uncovered setting in top that connects the workbin to be used for accepting the filter screen upset and the graphite powder of pouring, is convenient for handle the graphite powder that filters off.

Optionally, supporting blocks are fixedly arranged on two sides of the positioning frame perpendicular to the discharge port, inserting grooves are formed in the supporting blocks, and inserting blocks are fixedly arranged on two sides of the material receiving box.

Through adopting above-mentioned technical scheme, the grafting piece can be followed the top of supporting shoe and pegged graft in the inserting groove, is convenient for take out the lateral wall that connects the workbin from the rose box, is convenient for handle the graphite powder in the butt joint workbin.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the discharge pipe is provided with the filter box, the filter screen is arranged in the filter box and is used for filtering graphite powder which does not meet the fineness requirement, the ground graphite powder passes through the discharge pipe, and the filter screen filters graphite which does not meet the fineness requirement, so that the graphite powder discharged through the discharge pipe finally meets the requirement;

2. the vibration motor is fixedly arranged at the bottom of the filter screen, the first spring and the second spring are sleeved on the guide post and are respectively positioned at two sides of the filter screen, when the vibration motor drives the filter screen to vibrate, the filter screen slides along the guide post to extrude the first spring and the second spring, and the first spring and the second spring play a role in buffering, so that the abrasion of the filter screen vibration on the positioning frame is prevented;

3. the discharge gate has been seted up through the lateral wall at the rose box, one side of posting sets firmly the joint in the baffle of discharge gate, the posting sets firmly the transmission shaft near the position of baffle, the transmission shaft rotates to be connected on the rose box, the lateral wall of rose box has set firmly driving motor, driving motor's output shaft and transmission shaft are fixed, driving motor rotates, can drive baffle and posting upset to filter off the graphite particles ejection of compact that filters on the filter screen.

Drawings

Fig. 1 is a schematic structural diagram of the embodiment.

FIG. 2 is a sectional view of the tapping pipe and the sifting mechanism.

Fig. 3 is a schematic structural view of the positioning frame and the filter screen.

Fig. 4 is an enlarged view of a portion a of fig. 3.

FIG. 5 is an exploded view of the tapping pipe and the sifting mechanism.

Description of reference numerals: 1. a frame; 11. a grinding bin; 12. a discharge pipe; 2. a screening mechanism; 21. a filter box; 211. a discharge port; 212. a baffle plate; 213. a sealing plate; 214. a drive shaft; 215. a drive motor; 22. filtering with a screen; 23. a positioning frame; 231. accommodating grooves; 24. a vibration motor; 25. a guide post; 251. a first spring; 252. a second spring; 26. a material receiving box; 261. an insertion block; 27. a support block; 271. and (4) inserting grooves.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses spherical graphite grinds machine. Referring to fig. 1, a spherical graphite grinds machine includes frame 1, and the top of frame 1 has set firmly grinding storehouse 11, and the top of grinding storehouse 11 has set firmly a discharging pipe 12, and discharging pipe 12 is outwards derived the graphite powder that will grind, is provided with screening mechanism 2 on discharging pipe 12, and screening mechanism 2 is used for sieving out the graphite that the fineness is not conform to the requirement, makes final through discharging pipe 12 exhaust graphite powder all satisfy the requirement.

Referring to fig. 2 and 3, screening mechanism 2 is including setting up the rose box 21 in discharging pipe 12, be provided with filter screen 22 in the rose box 21, filter screen 22 is used for filtering out the graphite that the fineness does not satisfy the requirement, the middle part of rose box 21 is rotated and is connected with a locating frame 23, locating frame 23 is square setting, set up holding tank 231 in the locating frame 23, filter screen 22 is located holding tank 231, vibrating motor 24 has been set firmly to the bottom of filter screen 22, vibrating motor 24 drives the vibration of filter screen 22, make the graphite that accords with the fineness requirement on the filter screen 22 filter out completely. Four corners of the positioning frame 23 are fixedly provided with guide posts 25, the filter screen 22 is connected to the guide posts 25 in a sliding manner, and when the vibration motor 24 drives the filter screen 22 to vibrate, the filter screen 22 vibrates along the axial direction of the guide posts 25, so that the filter screen 22 is more stable in the vibrating process.

Referring to fig. 4, a first spring 251 and a second spring 252 are sleeved on the guide post 25, and the first spring 251 and the second spring 252 are respectively located at two sides of the filter screen 22; when the vibration motor 24 vibrates, the filter screen 22 slides along the guide post 25, the first spring 251 and the second spring 252 are pressed, and the first spring 251 and the second spring 252 play a role in buffering to prevent the filter screen 22 from vibrating to wear the positioning frame 23.

Referring to fig. 2 and 4, a discharge port 211 is formed in the outer side wall of the filter box 21, a baffle 212 perpendicular to the positioning frame 23 is fixedly arranged on one side of the positioning frame 23, the baffle 212 is clamped in the discharge port 211, a sealing plate 213 is fixedly arranged on one side of the baffle 212 close to the positioning frame 23, a transmission shaft 214 is fixedly arranged on the position of the positioning frame 23 close to the baffle 212, the transmission shaft 214 is rotatably connected to the filter box 21, a driving motor 215 is fixedly arranged on the outer side wall of the filter box 21, the driving motor 215 is used for driving the transmission shaft 214 to rotate, and further the baffle 212 and the positioning frame 23 are driven to turn over so as to discharge filtered graphite particles on the filter screen 22, and the sealing plate 213 is used for sealing the discharge port 211 and preventing graphite from flowing out from the discharge port 211.

Referring to fig. 2 and 5, a material receiving box 26 is arranged below the discharge port 211 of the positioning frame 23, the top of the material receiving box 26 is open, the material receiving box 26 is used for receiving graphite powder poured out by turning the filter screen 22, supporting blocks 27 are fixedly arranged on two sides of the positioning frame 23 perpendicular to the discharge port 211, an insertion groove 271 is formed in each supporting block 27, insertion blocks 261 bent downwards are fixedly arranged on two sides of the material receiving box 26, and the insertion blocks 261 can be inserted into the insertion grooves 271 from the top of the supporting blocks 27. After a period of time, the driving motor 215 drives the transmission shaft 214 to turn, and when the transmission shaft 214 turns more than ninety degrees, the graphite powder on the filter screen 22 turns over to the sealing plate 213 and rolls down along the sealing plate 213 to the material receiving box 26.

The implementation principle of the spherical graphite grinder in the embodiment of the application is as follows: after grinding, the discharge pipe 12 discharges graphite powder outwards, and the filter screen 22 keeps off graphite powder which does not meet the fineness requirement, so that graphite powder which finally meets the fineness requirement is discharged; when the graphite powder filtered out from the filter screen 22 needs to be cleaned, the driving motor 215 drives the filter screen 22 and the baffle 212 to turn over, so that the graphite powder on the filter screen 22 falls into the material receiving box 26.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a spherical graphite grinds machine, includes frame (1), and the top of frame (1) has set firmly grinding storehouse (11), and the top of grinding storehouse (11) has set firmly a discharging pipe (12), its characterized in that:

the discharge pipe (12) is provided with a screening mechanism (2);

screening mechanism (2) is provided with filter screen (22) including setting up rose box (21) on discharging pipe (12) in rose box (21), and filter screen (22) are used for filtering out the graphite powder that does not satisfy the fineness requirement.

2. The spherical graphite grinding mill according to claim 1, characterized in that: and a vibration motor (24) is fixedly arranged at the bottom of the filter screen (22).

3. The spherical graphite grinding mill according to claim 1, characterized in that: the middle part of rose box (21) is rotated and is connected with location frame (23), has seted up holding tank (231) in location frame (23), and four corners department of location frame (23) has set firmly guide post (25), and filter screen (22) slide and connect on guide post (25) in holding tank (231).

4. The spherical graphite grinding mill according to claim 3, characterized in that: the guide post (25) is sleeved with a first spring (251) and a second spring (252), and the first spring (251) and the second spring (252) are respectively positioned on two sides of the filter screen (22).

5. The spherical graphite grinding mill according to claim 3, characterized in that: discharge gate (211) have been seted up to the lateral wall of rose box (21), one side of locating frame (23) has set firmly baffle (212) of joint in discharge gate (211), and the position that locating frame (23) are close to baffle (212) has set firmly transmission shaft (214), and transmission shaft (214) rotate to be connected on rose box (21), and the lateral wall of rose box (21) has set firmly driving motor (215), and the output shaft and transmission shaft (214) of driving motor (215) are fixed.

6. The spherical graphite grinding mill according to claim 5, characterized in that: and a sealing plate (213) is fixedly arranged on one side of the baffle plate (212) close to the positioning frame (23).

7. The spherical graphite grinding mill according to claim 5, characterized in that: the positioning frame (23) is positioned below the discharge hole (211) and is detachably connected with a material receiving box (26).

8. The spherical graphite grinding mill according to claim 7, characterized in that: the two sides of the positioning frame (23) perpendicular to the discharge port (211) are fixedly provided with supporting blocks (27), the supporting blocks (27) are provided with inserting grooves (271), and the two sides of the material receiving box (26) are fixedly provided with inserting blocks (261).

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