CN110976035A - Ceramic raw material ball mill that processing is divided to multicavity room - Google Patents

Abstract

The invention provides a multi-cavity ceramic raw material ball mill which is processed separately and comprises a ball milling barrel, wherein the ball milling barrel comprises a first ball milling inner barrel, the inner top end of the first ball milling inner barrel is welded with a second ball milling inner barrel, the inner top end of the second ball milling inner barrel is welded with a third ball milling inner barrel, the inner top end of the third ball milling inner barrel is welded with a fourth ball milling inner barrel, the bottoms of the first ball milling inner barrel, the second ball milling inner barrel, the third ball milling inner barrel and the fourth ball milling inner barrel are respectively provided with a plurality of first screening meshes, second screening meshes, third screening meshes and fourth screening meshes, the areas of the screening holes of the first screening meshes, the second screening meshes, the third screening meshes and the fourth screening meshes are sequentially increased, and the inner bottoms of the third ball milling inner barrel and the fourth ball milling inner barrel are respectively provided with a plurality of first grinding balls and second grinding balls. According to the invention, the ceramic raw materials are processed separately by arranging the multiple chambers, so that the ball milling efficiency of the ball mill is improved, and the ball milling time is reduced.

Description

Ceramic raw material ball mill that processing is divided to multicavity room

Technical Field

The invention relates to the technical field of ball mill equipment for ceramic processing, and mainly relates to a multi-cavity ceramic raw material ball mill for processing.

Background

In the process of preparing and forming the ceramic product, the ceramic raw material preparation process is required, and the fineness and the uniformity of the ceramic raw material directly influence the quality of a blank body, so that the raw material needs to be ground by using a ball mill, and the fineness of the ceramic raw material is ensured to meet the production requirement.

The invention discloses a ceramic raw material ball mill with the patent number of CN202087362U, which comprises a ball milling rotary drum, a support base, a fine material sieve and a driving device, wherein the support base is fixed at the bottom of the ball milling rotary drum, the fine material sieve is arranged at a discharging position on the ball milling rotary drum, and the driving device is arranged outside the ball milling rotary drum. Therefore, it is required to develop a multi-chamber ceramic raw material ball mill, which can improve the ball milling efficiency of the ball mill and reduce the ball milling time.

Disclosure of Invention

The invention mainly provides a multi-cavity ceramic raw material ball mill for processing separately, which is used for solving the technical problems in the background technology.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a multi-cavity ceramic raw material ball mill capable of being processed separately comprises a ball milling barrel, wherein the ball milling barrel comprises a first ball milling inner barrel, a second ball milling inner barrel is welded at the inner top end of the first ball milling inner barrel, a third ball milling inner barrel is welded at the inner top end of the second ball milling inner barrel, a fourth ball milling inner barrel is welded at the inner top end of the third ball milling inner barrel, a plurality of first screening meshes, second screening meshes, third screening meshes and fourth screening meshes are respectively and uniformly arranged at the bottoms of the first ball milling inner barrel, the second ball milling inner barrel, the third ball milling inner barrel and the fourth ball milling inner barrel, and the screening hole areas of the first screening meshes, the second screening meshes, the third screening meshes and the fourth screening meshes are sequentially increased;

and a plurality of first grinding balls and second grinding balls are respectively arranged at the inner bottoms of the third ball milling inner cylinder and the fourth ball milling inner cylinder.

Preferably, the top of ball-milling bucket is equipped with the inlet pipe, the outer wall of inlet pipe is connected with first valve, just bottom one side of inlet pipe is run through fourth ball-milling inner tube, third ball-milling inner tube, second ball-milling inner tube and first ball-milling inner tube top casing extend to in the first ball-milling inner tube.

Preferably, the bottom of the first ball milling inner barrel is connected with a discharge pipe, and the outer wall of the discharge pipe is connected with a second valve.

Preferably, the bottom of ball-milling bucket is equipped with the base, base top both ends symmetrical weld has the backup pad that is perpendicular setting, one side of backup pad is equipped with pulverizes the mechanism, pulverize the mechanism including setting up backup pad one side is the driving motor that the level set up, driving motor's output is connected with the action wheel, the top of action wheel is connected with the belt, the belt is kept away from the one end of action wheel is rotated and is connected with from the driving wheel, keep away from the driving wheel one side of driving motor runs through the pivot in the backup pad back with one side fixed connection of ball-milling bucket, just ball-milling bucket keeps away from one side from the driving wheel is through pivot and another ball bearing on the backup pad inside wall rotates.

Preferably, the action wheel is kept away from one side of driving motor runs through in proper order through the pivot be connected with first crushing roller behind the casing of one side of backup pad and ball-milling bucket, first crushing roller sets up inside the first ball-milling inner tube, pivot in the first crushing roller runs through connect first gear behind the casing of ball-milling bucket, one side of first gear through the pivot with ball bearing on the backup pad inside wall rotates and is connected.

Preferably, the meshing of the top of first gear is connected with the second gear, the second gear is close to one side of first crushing roller runs through the pivot one side casing of ball-milling bucket extends to swing joint has the second crushing roller in the second ball-milling inner tube, one side of second crushing roller through the pivot with ball bearing on the second ball-milling inner tube inside wall rotates and is connected.

Compared with the prior art, the invention has the beneficial effects that:

one is as follows: the ball milling barrel is mainly divided into a plurality of chambers by arranging the first ball milling inner barrel, the second ball milling inner barrel, the third ball milling inner barrel and the fourth ball milling inner barrel in the ball milling barrel, so that a plurality of first grinding balls, second grinding balls, first grinding rollers and second grinding rollers can be conveniently ground for a plurality of times, and the grinding of ceramic raw materials is more sufficient; screening and filtering through first screening meshes, second screening meshes, third screening meshes and fourth screening meshes at the bottoms of the first ball-milling inner cylinder, the second ball-milling inner cylinder, the third ball-milling inner cylinder and the fourth ball-milling inner cylinder;

the second step is as follows: drive first crushing roller through driving motor and rotate, carry out further grinding to the inside ceramic raw materials of first ball-milling inner tube, drive second gear through first gear and rotate, the second gear drives second crushing roller 38 and rotates, carries out further grinding to the inside ceramic raw materials of second ball-milling inner tube to through grinding many times, make ceramic raw materials more abundant by the ball-milling.

The present invention will be explained in detail below with reference to the drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a ball milling bowl of the present invention;

FIG. 3 is a schematic view of the grinding mechanism of the present invention;

fig. 4 is a cross-sectional view of a ball milling bowl of the present invention.

Reference numerals: 1. a ball milling barrel; 11. a fourth ball milling inner cylinder; 111. a fourth screen mesh; 12. a third ball milling inner cylinder; 121. a third screen mesh; 13. a second ball milling inner cylinder; 131. a second screening mesh; 14. a first ball milling inner cylinder; 141. a first screening net; 15. a feed pipe; 151. a first valve;

16. a discharge pipe; 161. a second valve; 17. a second grinding ball; 18. a first grinding ball; 2. a base; 21. a support plate; 3. a grinding mechanism; 31. a drive motor; 32. a driving wheel; 33. a belt; 34. a driven wheel; 35. a first crushing roller; 36. a first gear; 37. a second gear; 38. a second crushing roller.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in different forms and not limited to the embodiments described herein, but which are provided so as to provide a more thorough and complete disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may be present, and when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present, as the terms "vertical", "horizontal", "left", "right" and the like are used herein for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the knowledge of the terms used herein in the specification of the present invention is for the purpose of describing particular embodiments and is not intended to limit the present invention, and the term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to the attached fig. 1-4, a multi-cavity ceramic raw material ball mill comprises a ball milling barrel 1, the ball milling barrel 1 comprises a first ball milling inner barrel 14, a second ball milling inner barrel 13 is welded at the inner top end of the first ball milling inner barrel 14, the inner top end of the second ball milling inner cylinder 13 is welded with a third ball milling inner cylinder 12, the inner top end of the third ball milling inner cylinder 12 is welded with a fourth ball milling inner cylinder 11, and the bottoms of the first ball milling inner cylinder 14, the second ball milling inner cylinder 13, the third ball milling inner cylinder 12 and the fourth ball milling inner cylinder 11 are respectively and uniformly provided with a plurality of first screening meshes 141, second screening meshes 131, third screening meshes 121 and fourth screening meshes 111, the areas of the screening holes of the first screening mesh 141, the second screening mesh 131, the third screening mesh 121 and the fourth screening mesh 111 are sequentially increased, the inner bottoms of the third ball milling inner cylinder 12 and the fourth ball milling inner cylinder 11 are respectively provided with a plurality of first grinding balls 18 and second grinding balls 17.

Referring to fig. 1 and 3, a base 2 is arranged at the bottom of a ball milling barrel 1, support plates 21 which are vertically arranged are symmetrically welded at two ends of the top of the base 2, a grinding mechanism 3 is arranged on one side of each support plate 21, the grinding mechanism 3 comprises a driving motor 31 which is horizontally arranged on one side of each support plate 21, an output end of the driving motor 31 is connected with a driving wheel 32, a belt 33 is connected to the top end of the driving wheel 32, one end, far away from the driving wheel 32, of the belt 33 is rotatably connected with a driven wheel 34, one side, far away from the driving motor 31, of the driven wheel 34 penetrates through the support plates 21 through a rotating shaft and then is fixedly connected with one side of the ball milling barrel 1, and one side, far away from the driven wheel 34, of the ball milling barrel 1 is rotatably connected. In this embodiment, the driving motor 31 is started to operate, so that the driving wheel 32 drives the driven wheel 34 to rotate through the belt 33, thereby driving the ball milling barrel 1 to rotate, and realizing automatic ball milling.

Referring to fig. 1, 2 and 3, one side of the driving wheel 32, which is away from the driving motor 31, sequentially penetrates through the supporting plate 21 and one side of the housing of the ball milling barrel 1 through a rotating shaft, and is connected with a first crushing roller 35, the first crushing roller 35 is disposed inside the first ball milling inner barrel 14, the rotating shaft inside the first crushing roller 35 penetrates through the housing of the ball milling barrel 1 and is connected with a first gear 36, and one side of the first gear 36 is rotatably connected with a ball bearing on the inner side wall of the supporting plate 21 through a rotating shaft; the meshing of the top of first gear 36 is connected with second gear 37, second gear 37 is close to one side of first crushing roller 35 runs through the pivot one side casing of ball-milling bucket 1 extends to swing joint has second crushing roller 38 in the second ball-milling inner tube 13, one side of second crushing roller 38 through the pivot with ball bearing on the second ball-milling inner tube 13 inside wall rotates and is connected. In this embodiment, drive first crushing roller 35 through driving motor 31 and rotate, further grind the inside ceramic raw materials of first ball-milling inner tube 14, drive second gear 37 through first gear 36 and rotate, second gear 37 drives second crushing roller 38 and rotates, carries out further grinding to the inside ceramic raw materials of second ball-milling inner tube 13 to through grinding many times, make ceramic raw materials more abundant by the ball-milling.

Referring to fig. 4, a feed pipe 15 is arranged at the top end of the ball milling barrel 1, the outer wall of the feed pipe 15 is connected with a first valve 151, and one side of the bottom end of the feed pipe 15 penetrates through the fourth ball milling inner barrel 11, the third ball milling inner barrel 12, the second ball milling inner barrel 13 and the top shell of the first ball milling inner barrel 14 and extends into the first ball milling inner barrel 14; the bottom of the first ball milling inner barrel 14 is connected with a discharge pipe 16, and the outer wall of the discharge pipe 16 is connected with a second valve 161. In the present embodiment, the ceramic raw material can be effectively prevented from falling down when the ball milling bowl 1 is rotated by the design of the first valve 151 and the second valve 161.

The specific operation mode of the invention is as follows:

when the invention is needed, firstly, the first valve 151 is opened, the ceramic raw material is put into the fourth ball milling inner cylinder 11 through the feeding pipe 15, then the driving motor 31 is started to work, the driving wheel 32 drives the driven wheel 34 to rotate through the belt 33, the driven wheel 34 drives the ball milling barrel 1 to rotate through the rotating shaft, the second grinding balls 17 in the fourth ball milling inner cylinder 11 strike and crush the ceramic raw material, the crushed ceramic raw material falls into the third ball milling inner cylinder 12 through the fourth screening mesh 111, similarly, the first grinding balls 18 in the third ball milling inner cylinder 12 further strike and crush the ceramic raw material, the crushed ceramic raw material falls into the second ball milling inner cylinder 13 through the third screening mesh 121, then the driving motor 31 drives the first grinding roller 35 and the first gear 36 to rotate, the first gear 36 drives the second gear 37 to rotate, the second gear 37 drives the second grinding roller 38 to rotate, the ceramic raw materials in the second ball milling inner barrel 13 and the first ball milling inner barrel 14 can be further ground in sequence, finally the second valve 161 is opened, and the ground materials are discharged and collected through the discharge pipe 16.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents, and thus the embodiments of the present invention are intended to be merely illustrative examples of the invention and are not to be construed as limiting the invention in any way.

Claims (6)

1. The utility model provides a ceramic raw materials ball mill of processing is divided to multicavity room, including ball-milling bucket (1), its characterized in that: the ball milling barrel (1) comprises a first ball milling inner barrel (14), a second ball milling inner barrel (13) is welded at the inner top end of the first ball milling inner barrel (14), a third ball milling inner barrel (12) is welded at the inner top end of the second ball milling inner barrel (13), a fourth ball milling inner barrel (11) is welded at the inner top end of the third ball milling inner barrel (12), a plurality of first screening meshes (141), second screening meshes (131), third screening meshes (121) and fourth screening meshes (111) are respectively and uniformly formed in the bottoms of the first ball milling inner barrel (14), the second ball milling inner barrel (13), the third ball milling inner barrel (12) and the fourth ball milling inner barrel (11), and the screening hole areas of the first screening meshes (141), the second screening meshes (131), the third screening meshes (121) and the fourth screening meshes (111) are sequentially increased;

the inner bottoms of the third ball milling inner cylinder (12) and the fourth ball milling inner cylinder (11) are respectively provided with a plurality of first grinding balls (18) and second grinding balls (17).

2. A multi-chamber batch ceramic feedstock ball mill according to claim 1, characterized in that: the top of ball-milling bucket (1) is equipped with inlet pipe (15), the outer wall connection of inlet pipe (15) has first valve (151), just run through bottom one side of inlet pipe (15) fourth ball-milling inner tube (11), third ball-milling inner tube (12), second ball-milling inner tube (13) and first ball-milling inner tube (14) top casing extend to in the first ball-milling inner tube (14).

3. A multi-chamber batch ceramic feedstock ball mill according to claim 1, characterized in that: the bottom of the first ball milling inner barrel (14) is connected with a discharge pipe (16), and the outer wall of the discharge pipe (16) is connected with a second valve (161).

4. A multi-chamber batch ceramic feedstock ball mill according to claim 1, characterized in that: the bottom of ball-milling bucket (1) is equipped with base (2), base (2) top both ends symmetrical welding has backup pad (21) that is perpendicular setting, one side of backup pad (21) is equipped with and pulverizes mechanism (3), pulverize mechanism (3) including setting up driving motor (31) that backup pad (21) one side is the level and sets up, the output of driving motor (31) is connected with action wheel (32), the top of action wheel (32) is connected with belt (33), belt (33) are kept away from the one end of action wheel (32) is rotated and is connected with from driving wheel (34), keep away from driving wheel (34) one side of driving motor (31) runs through the pivot backup pad (21) back with one side fixed connection of ball-milling bucket (1), just keep away from ball-milling bucket (1) one side from driving wheel (34) is through pivot and another ball bearing on backup pad (21) inside wall rotates and connects.

5. A multi-chamber batch ceramic feedstock ball mill according to claim 4, characterized in that: keep away from action wheel (32) one side of driving motor (31) is run through the pivot in proper order be connected with first crushing roller (35) behind backup pad (21) and the one side casing of ball-milling bucket (1), first crushing roller (35) set up inside first ball-milling inner tube (14), pivot in first crushing roller (35) is run through connect first gear (36) behind the casing of ball-milling bucket (1), one side of first gear (36) through the pivot with ball bearing on backup pad (21) inside wall rotates and connects.

6. A multi-chamber batch ceramic feedstock ball mill according to claim 5, characterized in that: the top meshing of first gear (36) is connected with second gear (37), second gear (37) are close to one side of first crushing roller (35) runs through the pivot one side casing of ball-milling bucket (1) extends to swing joint has second crushing roller (38) in second ball-milling inner tube (13), one side of second crushing roller (38) through the pivot with ball bearing on second ball-milling inner tube (13) inside wall rotates and is connected.

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