CN219615691U - Ceramic mud ball mill - Google Patents

Abstract

The utility model discloses a ceramic mud ball mill which comprises a top plate, a ball milling mechanism for ball milling ceramic plates and a recycling mechanism for recycling and processing screened large ceramic powder, wherein the ball milling mechanism is positioned below the top plate. The beneficial effects are that: the ceramic powder after ball-milling enters into screening tray top, and then drive the second feed roll through the second motor and rotate, thereby carry ceramic powder to one side, utilize the second belt to drive the live-rollers simultaneously and rotate, and then the cam rotates the screening tray of top and carry out the striking that iterates, and then utilize the effect of spring to drive the screening tray and slide from top to bottom and make it produce vibrations, and then more be favorable to carrying out vibrations screening to great ceramic powder, prevent that great ceramic powder from causing the influence to subsequent processing operation, and then in the recovery tank of one side is carried to great powder through the second feed roll, the process of carrying has been accelerated, prevent phenomenon such as jam in the transportation process.

Description

Ceramic mud ball mill

Technical Field

The utility model relates to the technical field of ceramic manufacturing, in particular to a ceramic mud ball mill.

Background

The ball mill is a common device for grinding or milling, and the materials are crushed and mixed by utilizing the impact action of the falling grinding bodies and the grinding action of the grinding bodies and the inner wall of the ball mill, when the ball mill rotates, the grinding bodies are brought up and then fall down according to the rotating direction due to the friction action between the grinding bodies and the inner wall of the ball mill, so that the materials are crushed continuously.

The utility model provides a mud ball mill for ceramic manufacture through contrast patent number CN215353779U, includes the backup pad, the upper surface of backup pad is fixedly connected with support column, mount and servo motor respectively, the positive fixedly connected with control switch of backup pad, the lower fixed surface of backup pad is connected with the supporting leg, the fixed surface of mount is connected with the spliced pole, the lower fixed surface of spliced pole is connected with the link plate, the spout has been seted up on the surface of link plate, the inner wall sliding connection of spout has the steel ball body, the upper surface of support column is seted up flutedly, the inner wall of recess is inlayed and is had the ball, the surface sliding connection of ball has the agitator. This a mud ball mill for ceramic manufacture through setting up steel spheroid and circular arc arch, when the agitator rotated, drives the protruding rotation of circular arc, and earth rubs and rolls layer upon layer between steel spheroid and circular arc arch, smashes earth, makes earth smash more even, has shortened the crushing time, has improved the productivity.

When the device is used for ball milling ceramic, the ball milled ceramic powder can possibly generate larger powder particles, can not be effectively screened, and further can possibly influence the later-stage work when being put into processing, and meanwhile, the feeding port and the discharging port can be blocked in the feeding and discharging processes, so that the feeding and discharging efficiency is influenced, and certain limitations exist.

Disclosure of Invention

The utility model aims to solve the problems and provide a ceramic mud ball mill.

The utility model realizes the above purpose through the following technical scheme:

the ceramic pug ball mill comprises a top plate, a ball milling mechanism for ball milling ceramic plates, and a recovery mechanism for recycling and processing screened larger ceramic powder, wherein the ball milling mechanism is positioned below the top plate, the recovery mechanism is positioned on one side of the top plate, and the ceramic pug ball mill further comprises a screening mechanism for screening the larger ceramic powder, and the screening mechanism is positioned below the ball milling mechanism;

the screening mechanism comprises a fixed frame, a second motor, a fixed box, a material containing box, a screening disc, a second feeding roller and a rotating roller, wherein the fixed frame is positioned below the ball milling mechanism, the second motor is arranged on one side of the fixed frame, the second feeding roller is arranged inside the fixed frame, the screening disc is arranged below the fixed frame, the rotating roller is arranged below the screening disc, the fixed box is arranged outside the screening disc, and the material containing box is arranged below the fixed box.

Preferably: the ball milling mechanism comprises a first motor, a rotating shaft, a feeding pipeline, a ball milling barrel, a partition plate, a first electric push rod, a fixed ring and a first feeding roller, wherein a fixed plate is arranged on one side of the upper portion of a top plate, the first motor is arranged on one side of the fixed plate, the rotating shaft is arranged on the other side of the fixed plate, the feeding pipeline is arranged on the other side of the upper portion of the top plate, the ball milling barrel is arranged below the top plate, a plurality of partition plates are arranged on the inner wall of the ball milling barrel in a surrounding mode, the first electric push rod is arranged inside the partition plate, the feeding pipe is arranged on one side of the ball milling barrel, the fixed ring is arranged on the inner wall of the feeding pipe, and the first feeding roller is arranged on one side of the fixed ring.

Preferably: the recovery mechanism comprises a fixing frame, a first sliding rail, a second electric push rod, a lifting plate, a second sliding rail, a third electric push rod, a sliding plate, a recovery box and a third motor, wherein the fixing frame is arranged on one side of the top plate, two first sliding rails are arranged on one side of the fixing frame, the second electric push rod is arranged on the inner wall of the upper side of the first sliding rail, the lifting plate is arranged on the front side and the rear side of the first sliding rail, a bottom plate is arranged on one side of the fixing box, the lifting plate and the front side and the rear side of the bottom plate are both provided with the second sliding rail, the third electric push rod is arranged on the inner wall of the second sliding rail, the sliding plate is arranged in the second sliding rail, the recovery box is arranged on the front side and the rear side of the sliding plate, and the third motor is arranged in front of the sliding plate.

Preferably: the first sliding rail is in sliding connection with the lifting plate, and the fixed box is fixedly connected with the bottom plate.

Preferably: the second sliding rail is in sliding connection with the sliding plate, and the sliding plate is in rotary connection with the recovery box.

Preferably: the third motor is connected with the recovery box through a key, and the third motor is connected with the sliding plate through a bolt.

Preferably: the ball mill is characterized in that the first motor is connected with the fixed plate through bolts, the rotating shaft is rotationally connected with the fixed plate, the first motor is connected with the rotating shaft through a key, a first belt pulley is sleeved on one side of the ball mill barrel, and a first belt is connected between the first belt pulleys.

Preferably: the ball milling barrel is provided with a discharging pipeline, an electromagnetic valve is arranged on the outer side of the discharging pipeline, the ball milling barrel is connected with a feeding pipeline bearing, the fixed ring is fixedly connected with the first feeding roller, and the ball milling barrel is rotationally connected with the top plate.

Preferably: the fixed frame with the second motor passes through bolted connection, the second motor with second feed roll key-joint, the second feed roll with fixed frame rotates to be connected, fixed frame top is provided with the feeding pipeline, fixed case with flourishing workbin sliding connection.

Preferably: the screening tray with be connected with a plurality of springs between the fixed frame, the screening tray with fixed frame sliding connection, the rotor roller both sides all overlap and are equipped with the cam, the rotor roller with second feeding roller one side all overlaps and is equipped with the second belt pulley, and is connected with the second belt between the second belt pulley, screening tray one side is provided with the flitch.

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

through being provided with second motor, screening dish, second feed roll etc. ceramic powder after the ball-milling enters into fixed frame screening dish top through the feeding pipeline, and then drive the second feed roll through second motor kinetic energy and rotate, thereby carry ceramic powder to one side, the transmission effect that utilizes the second belt simultaneously drives the live-rollers and rotates, and then the cam rotates the screening dish of top and carry out the repeated striking, and then utilize the effect of spring to drive the screening dish and slide from top to bottom and make it produce vibrations, and then more be favorable to carrying out vibrations screening to great ceramic powder, prevent that great ceramic powder from influencing subsequent processing operation, and then make its qualified ceramic powder enter into the holding box of below through the screening dish and utilize it, and then great powder is carried in the recovery box of one side through the second feed roll, the process of carrying has been accelerated, prevent to appear blocking up phenomenon in the transportation process.

Through being provided with first motor, ball-milling bucket, first feed roll etc. in adding ball-milling bucket through the charge-in pipeline with a large amount of raw materials, and then drive the axis of rotation through first motor kinetic energy and rotate, utilize the transmission of first belt, drive ball-milling bucket and rotate, drive first feed roll rotation through solid fixed ring in the pivoted, and then carry out better unloading to the raw materials, prevent to appear blocking up etc. phenomenon, realized that ball-milling in-process can be more favorable to carry out the unloading to it, the control raw materials's at any time use proportion, the inside first electric putter of baffle can promote the baffle simultaneously and carry out the regulation of length, and then change spheroidal decline height that can be better, and then make the more even finer and more fine and more smooth of raw materials ball-milling.

Through being provided with first slide rail, the second slide rail, third motor etc., push up-down board through the second electric putter and move down and put with the bottom plate keeps level, rethread third electric putter promotes the sliding plate and drives the collection box and move to one side and go out the flitch below, and then collect the ceramic powder of great granule, and then rethread second electric putter and third electric putter's combined action makes its collection box remove the charge-in pipeline top, then drive the collection box through the third motor kinetic energy and rotate, make its ceramic powder of great granule pour in the charge-in pipeline, carry out ball-milling again to it, make its ball-milling become qualified powder granule, thereby realize automatic recovery transportation, the powder granule that makes its ball-milling go out through repeated recovery ball-milling all is the standard that accords with the production, the ball-milling quality of device has been improved, a large amount of manpower and materials have been saved through automatic working process, the practicality of device has been improved.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings that are necessary for the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a perspective view of a ceramic slurry ball mill according to the present utility model;

FIG. 2 is a schematic structural view of a ball milling mechanism of a ceramic mud ball mill according to the present utility model;

FIG. 3 is a sectional view showing the structure of the inside of a bowl of a ceramic mud ball mill according to the present utility model;

FIG. 4 is a cross-sectional view of the inside of a partition plate of a ceramic slurry ball mill according to the present utility model;

FIG. 5 is a schematic structural view of a screening mechanism of a ceramic mud ball mill according to the present utility model;

FIG. 6 is a schematic view of the structure of the outside of a screening disc of a ceramic mud ball mill according to the present utility model;

FIG. 7 is a sectional view showing the structure of the inside of a fixed frame of a ceramic mud ball mill according to the present utility model;

fig. 8 is a schematic structural view of a recovery mechanism of a ceramic mud ball mill according to the present utility model.

The reference numerals are explained as follows:

1. a top plate; 2. a ball milling mechanism; 21. a first motor; 22. a rotating shaft; 23. a feed conduit; 24. ball milling barrel; 25. a partition plate; 26. a first electric push rod; 27. a fixing ring; 28. a first feed roller; 3. a screening mechanism; 31. a fixed frame; 32. a second motor; 33. a fixed box; 34. a material-containing box; 35. a screening tray; 36. a second feed roller; 37. a rotating roller; 4. a recovery mechanism; 41. a fixing frame; 42. a first slide rail; 43. a second electric push rod; 44. a lifting plate; 45. a second slide rail; 46. a third electric push rod; 47. a sliding plate; 48. a recovery box; 49. and a third motor.

Detailed Description

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first", "a second", etc. may explicitly or implicitly include one or more such feature. In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art in a specific case.

The utility model is further described below with reference to the accompanying drawings:

as shown in fig. 1-8, the ceramic mud ball mill comprises a top plate 1, a ball milling mechanism 2 for ball milling ceramic plates, a recycling mechanism 4 for recycling and processing screened larger ceramic powder, wherein the ball milling mechanism 2 is positioned below the top plate 1, the recycling mechanism 4 is positioned at one side of the top plate 1, the ceramic mud ball mill further comprises a screening mechanism 3 for screening the larger ceramic powder, and the screening mechanism 3 is positioned below the ball milling mechanism 2;

in this embodiment: the ball milling mechanism 2 comprises a first motor 21, a rotating shaft 22, a feeding pipeline 23, a ball milling barrel 24, a partition plate 25, a first electric push rod 26, a fixed ring 27 and a first feeding roller 28, wherein a fixed plate is arranged on one side above a top plate 1, the first motor 21 is arranged on one side of the fixed plate, the rotating shaft 22 is arranged on the other side of the fixed plate, the feeding pipeline 23 is arranged on the other side above the top plate 1, the ball milling barrel 24 is arranged below the top plate 1, a plurality of partition plates 25 are arranged on the inner wall of the ball milling barrel 24 in a surrounding way, the first electric push rod 26 is arranged in the partition plate 25, the feeding pipe is arranged on one side of the ball milling barrel 24, the fixed ring 27 is arranged on the inner wall of the feeding pipe, the first feeding roller 28 is arranged on one side of the fixed ring 27, the first motor 21 is connected with the fixed plate through bolts, the rotating shaft 22 is connected with the fixed plate in a key way, the rotating shaft 22 is sleeved with one side of the ball milling barrel 24, and a first belt is connected between the first belt pulleys, the ball milling barrel 24 is provided with a discharge pipeline, an electromagnetic valve is arranged on the outer side of the discharge pipeline, the ball milling barrel 24 is in bearing connection with a feeding pipeline 23, a fixed ring 27 is fixedly connected with a first feeding roller 28, the ball milling barrel 24 is in rotary connection with a top plate 1, a large amount of raw materials are added into the ball milling barrel 24 through the feeding pipeline 23, the rotary shaft 22 is driven to rotate by the kinetic energy of the first motor 21, the ball milling barrel 24 is driven to rotate by the transmission of the first belt, the first feeding roller 28 is driven to rotate by the fixed ring 27 while rotating, the raw materials are better fed, the phenomena of blockage and the like are prevented, the more favorable feeding of the raw materials in the ball milling process is realized, the use proportion of the raw materials is controlled at any time, meanwhile, the first electric push rod 26 in the partition 25 can push the partition 25 to adjust the length, the descending height of the ball body can be better changed, so that the raw materials are ball-milled more uniformly and more finely;

in this embodiment: the screening mechanism 3 comprises a fixed frame 31, a second motor 32, a fixed box 33, a material containing box 34, a screening disc 35, a second feeding roller 36 and a rotating roller 37, wherein the fixed frame 31 is positioned below the ball milling mechanism 2, the second motor 32 is arranged at one side of the fixed frame 31, the second feeding roller 36 is arranged inside the fixed frame 31, the screening disc 35 is arranged below the fixed frame 31, the rotating roller 37 is arranged below the screening disc 35, the fixed box 33 is arranged outside the screening disc 35, the material containing box 34 is arranged below the fixed box 33, the fixed frame 31 is connected with the second motor 32 through bolts, the second motor 32 is connected with the second feeding roller 36 through keys, the second feeding roller 36 is connected with the fixed frame 31 in a rotating manner, a feeding pipeline is arranged above the fixed frame 31, the fixed box 33 is connected with the material containing box 34 in a sliding manner, a plurality of springs are connected between the screening disc 35 and the fixed frame 31 in a sliding manner, cams are sleeved on two sides of the rotating roller 37, a second belt pulley is sleeved on one side of the rotating roller 37 and one side of the second feeding roller 36, a second belt is connected between the second belt pulleys, a discharge plate is arranged on one side of the screening disc 35, ceramic powder after ball milling enters the upper portion of the screening disc 35 of the fixed frame 31 through a feeding pipeline, and then the second feeding roller 36 is driven to rotate through the kinetic energy of the second motor 32, so that the ceramic powder is conveyed to one side, meanwhile, the rotating roller 37 is driven to rotate through the transmission effect of the second belt, the cams rotate to repeatedly strike the screening disc 35 above, and then the screening disc 35 is driven to slide up and down through the effect of a spring to vibrate, so that larger ceramic powder is more favorably screened through vibration, the influence of the larger ceramic powder on subsequent processing operation is prevented, the qualified ceramic powder enters the lower material containing box 34 through the screening disc 35 to be utilized, and the larger powder is conveyed into the recovery box 48 on one side through the second feeding roller 36, so that the conveying process is quickened, and phenomena such as blockage and the like in the conveying process are prevented;

in this embodiment: the recovery mechanism 4 comprises a fixed frame 41, a first sliding rail 42, a second electric push rod 43, a lifting plate 44, a second sliding rail 45, a third electric push rod 46, a sliding plate 47, a recovery box 48 and a third motor 49, wherein the fixed frame 41 is arranged on one side of the top plate 1, two first sliding rails 42 are arranged on one side of the fixed frame 41, the second electric push rod 43 is arranged on the inner wall of the upper side of the first sliding rail 42, the lifting plate 44 is arranged between the front side and the rear side of the first sliding rail 42, a bottom plate is arranged on one side of the fixed box 33, the lifting plate 44 and the front side and the rear side above the bottom plate are respectively provided with the second sliding rail 45, the third electric push rod 46 is arranged on the inner wall of the second sliding rail 45, the sliding plate 47 is arranged in the second sliding rail 45, the recovery box 48 is arranged between the sliding plates 47 on the front side and the rear side, the third motor 49 is arranged in front of the sliding plate 47, the first sliding rail 42 is in sliding connection with the lifting plate 44, the fixed box 33 is fixedly connected with the bottom plate, the second slide rail 45 is in sliding connection with the sliding plate 47, the sliding plate 47 is in rotating connection with the recycling bin 48, the third motor 49 is in key connection with the recycling bin 48, the third motor 49 is in bolt connection with the sliding plate 47, the lifting plate 44 is pushed by the second electric push rod 43 to move downwards to keep the horizontal height with the bottom plate, the recycling bin 48 is pushed by the third electric push rod 46 to drive the sliding plate 47 to move to one side to the lower side of the discharging plate, larger-particle ceramic powder is collected, the recycling bin 48 is further moved to the upper side of the feeding pipeline 23 under the combined action of the second electric push rod 43 and the third electric push rod 46, the recycling bin 48 is driven to rotate by the kinetic energy of the third motor 49, the larger-particle ceramic powder is poured into the feeding pipeline 23 to be ball-milled again, and the qualified powder particles are ball-milled, so that an automatic recycling and conveying process is realized, powder particles ball-milled by repeated recovery ball milling are in accordance with production standards, ball milling quality of the device is improved, a large amount of manpower and material resources are saved through an automatic working process, and practicability of the device is improved.

Working principle: firstly, a large amount of raw materials are added into a ball milling barrel 24 through a feeding pipeline 23, then a rotating shaft 22 is driven to rotate through the kinetic energy of a first motor 21, the ball milling barrel 24 is driven to rotate through the transmission of a first belt, a first feeding roller 28 is driven to rotate through a fixed ring 27 while rotating, further, the raw materials are better discharged, the phenomena of blockage and the like are prevented, the more favorable discharging of the raw materials in the ball milling process is realized, the use proportion of the raw materials is controlled at any time, meanwhile, a first electric push rod 26 in a baffle 25 can push the baffle 25 to adjust the length, further, the falling height of a ball body can be better changed, further, the raw materials are more uniform and finer after ball milling, ceramic powder enters above a screening disc 35 of a fixed frame 31 through the feeding pipeline, further, the kinetic energy of a second motor 32 drives a second feeding roller 36 to rotate, thereby conveying the ceramic powder to one side, simultaneously driving the rotating roller 37 to rotate by utilizing the transmission effect of the second belt, further repeatedly knocking the screening disc 35 above by cam rotation, further driving the screening disc 35 to slide up and down by utilizing the effect of the spring to generate vibration, further being more beneficial to vibrating and screening larger ceramic powder, further enabling the qualified ceramic powder to enter the lower containing box 34 through the screening disc 35 to be utilized, further conveying the larger powder into the recovery box 48 at one side through the second feeding roller 36, pushing the lifting plate 44 to move downwards to keep the horizontal height with the bottom plate by the second electric push rod 43, pushing the sliding plate 47 to drive the recovery box 48 to move to one side to the lower part of the discharge plate by the third electric push rod 46, further collecting the ceramic powder with larger particles, and then the second electric push rod 43 and the third electric push rod 46 are combined to make the recovery box 48 move to the upper part of the feeding pipeline 23, and then the third motor 49 can drive the recovery box 48 to rotate, so that the ceramic powder with larger particles is poured into the feeding pipeline 23, and is subjected to ball milling again to be ball milled into qualified powder particles, thereby realizing an automatic recovery and transportation process, and the powder particles ball milled by repeated recovery ball milling are all in accordance with the production standard, improving the ball milling quality of the device, saving a large amount of manpower and material resources and improving the practicability of the device.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (10)

1. The utility model provides a ceramic mud ball mill, includes roof (1), is used for ball-milling mechanism (2) to the ceramic wafer ball-milling, is used for retrieving recovery mechanism (4) of processing once more to screening out great ceramic powder, ball-milling mechanism (2) are located roof (1) below, recovery mechanism (4) are located roof (1) one side, its characterized in that: the ball milling device also comprises a screening mechanism (3) for screening the larger ceramic powder, wherein the screening mechanism (3) is positioned below the ball milling mechanism (2);

screening mechanism (3) are including fixed frame (31), second motor (32), fixed case (33), flourishing workbin (34), screening dish (35), second feed roll (36), rotor (37), fixed frame (31) are located ball-milling mechanism (2) below, second motor (32) set up fixed frame (31) one side, second feed roll (36) are installed inside fixed frame (31), screening dish (35) set up fixed frame (31) below, rotor (37) set up screening dish (35) below, fixed case (33) set up screening dish (35) outside, flourishing workbin (34) set up fixed case (33) below.

2. A ceramic mud ball mill according to claim 1, wherein: the ball milling mechanism (2) comprises a first motor (21), a rotating shaft (22), a feeding pipeline (23), a ball milling barrel (24), a partition plate (25), a first electric push rod (26), a fixed ring (27) and a first feeding roller (28), wherein a fixed plate is arranged on one side of the upper portion of the top plate (1), the first motor (21) is arranged on one side of the fixed plate, the rotating shaft (22) is arranged on the other side of the fixed plate, the feeding pipeline (23) is arranged on the other side of the upper portion of the top plate (1), the ball milling barrel (24) is arranged below the top plate (1), a plurality of partition plates (25) are arranged on the inner wall of the ball milling barrel (24) in a surrounding mode, the first electric push rod (26) is arranged inside the partition plate (25), the feeding pipe (24) is arranged on one side of the ball milling barrel, the fixed ring (27) is arranged on the inner wall of the feeding pipe, and the first feeding roller (28) is arranged on one side of the fixed ring (27).

3. A ceramic mud ball mill according to claim 1, wherein: the utility model provides a recovery mechanism (4) is including mount (41), first slide rail (42), second electric putter (43), lifter plate (44), second slide rail (45), third electric putter (46), slide plate (47), recovery case (48), third motor (49), mount (41) set up roof (1) one side, mount (41) one side is provided with two first slide rail (42), second electric putter (43) set up on first slide rail (42) upside inner wall, lifter plate (44) are installed in front and back both sides between first slide rail (42), fixed case (33) one side is provided with the bottom plate, lifter plate (44) and bottom plate top front and back both sides all are provided with second slide rail (45), third electric putter (46) are installed on second slide rail (45) inner wall, slide plate (47) are installed in second slide rail (45), recovery case (48) are installed in front and back both sides slide plate (47) between first slide rail (42), third slide plate (47) are provided with the place ahead.

4. A ceramic mud ball mill according to claim 3, wherein: the first sliding rail (42) is in sliding connection with the lifting plate (44), and the fixed box (33) is fixedly connected with the bottom plate.

5. A ceramic mud ball mill according to claim 3, wherein: the second sliding rail (45) is in sliding connection with the sliding plate (47), and the sliding plate (47) is in rotary connection with the recovery box (48).

6. A ceramic mud ball mill according to claim 3, wherein: the third motor (49) is connected with the recovery box (48) in a key way, and the third motor (49) is connected with the sliding plate (47) through bolts.

7. A ceramic mud ball mill according to claim 2, wherein: the ball mill is characterized in that the first motor (21) is connected with the fixed plate through bolts, the rotating shaft (22) is rotationally connected with the fixed plate, the first motor (21) is in key connection with the rotating shaft (22), a first belt pulley is sleeved on one side of the rotating shaft (22) and one side of the ball mill barrel (24), and a first belt is connected between the first belt pulleys.

8. A ceramic mud ball mill according to claim 2, wherein: the ball milling barrel (24) is provided with a discharge pipeline, an electromagnetic valve is arranged on the outer side of the discharge pipeline, the ball milling barrel (24) is connected with the feed pipeline (23) through a bearing, the fixed ring (27) is fixedly connected with the first feed roller (28), and the ball milling barrel (24) is rotationally connected with the top plate (1).

9. A ceramic mud ball mill according to claim 1, wherein: the fixed frame (31) with second motor (32) pass through bolted connection, second motor (32) with second feed roll (36) key connection, second feed roll (36) with fixed frame (31) rotate to be connected, fixed frame (31) top is provided with the feeding pipeline, fixed case (33) with filling box (34) sliding connection.

10. A ceramic mud ball mill according to claim 1, wherein: the screening disc (35) with be connected with a plurality of springs between fixed frame (31), screening disc (35) with fixed frame (31) sliding connection, rotor (37) both sides all overlap and are equipped with the cam, rotor (37) with second feeding roller (36) one side all overlaps and is equipped with the second belt pulley, and is connected with the second belt between the second belt pulley, screening disc (35) one side is provided with the flitch.