CN110369051B - High-efficient ball mill with water-cooling exocoel - Google Patents

Abstract

The invention discloses a high-efficiency ball mill with a water-cooling outer cavity, which comprises a water-cooling component, a driving component and a ball-milling rotating component, wherein the driving component is arranged on a base and is used for driving the ball-milling rotating component to rotate, a ball body is arranged in the ball-milling rotating component and is used for grinding materials in the rotating process, the water-cooling component is used for cooling the interior of the ball-milling rotating component, when the materials are ground, heat is transferred into the water-cooling outer cavity from the inner circumferential surface of a water-cooling circular pipe, the heat is taken out of the water-cooling outer cavity through cooling liquid to realize rapid cooling, a plurality of groups of springs are arranged in the water-cooling outer cavity, on one hand, the springs can increase the heat conduction area, so that the heat is rapidly transferred into the cooling liquid, on the other hand, the ball body continuously rubs and impacts, increase its life-span and realize rapid cooling, this device has avoided the production of vapor from the source, thoroughly solves the problem of sticking with paste and grinding.

Description

High-efficient ball mill with water-cooling exocoel

Technical Field

The invention belongs to the technical field of ball mill equipment, and particularly relates to a high-efficiency ball mill with a water-cooling outer cavity.

Background

The ball mill can grind such as material such as cement, because spheroid and grinding inner chamber friction can produce a large amount of heats in grinding process, if the heat in time discharges and can influence the quality of material, through the investigation discovery, current drying equipment often does not set up the heat sink, if application number is 201710039970.6, chinese patent "a ball mill" that publication number is CN106694110A discloses: the utility model provides a ball mill, which comprises a bracket, the barrel and the drive assembly who is connected with the barrel, the support is used for supporting the barrel, the barrel is confined hollow cylinder, 1/2 department at the length of barrel sets up big ring gear, big ring gear is the ring shape ring gear of encircleing barrel a week, big ring gear is fixed on hollow cylinder's outer wall, drive assembly's rotation output shaft connects little ring gear, big ring gear and little ring gear meshing are connected, with the rotation of the rotation drive barrel through drive assembly, the device is not provided with the heat sink, therefore in the course of grinding, its inside heat can't be dispelled, especially when handling hydrous material, if the high temperature, produce steam, steam can't in time discharge, under this condition, the ball mill is extremely easy to produce the mill in the ball mill, very big influence the quality of material.

Accordingly, those skilled in the art have provided a high efficiency ball mill with a water-cooled outer chamber to solve the problems set forth in the background art described above.

Disclosure of Invention

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a high-efficient ball mill with water-cooling exocoel, its includes water cooling assembly, drive assembly and ball-milling rotating assembly, wherein, drive assembly sets up and is used for driving ball-milling rotating assembly to rotate on the frame, ball-milling rotating assembly is inside to be equipped with the spheroid and is used for the abrasive material at the rotation in-process, water cooling assembly is used for cooling down the inside of ball-milling rotating assembly and handles.

Further, as the optimization, the ball milling rotating assembly comprises a ball milling circular tube and a first annular baffle, the two ends of the ball milling circular tube are symmetrically and fixedly provided with the first annular baffle, the outer circumference of the first annular baffle is fixedly embedded in the inner surface of the ball milling circular tube, the inner circumference of the first annular baffle is fixedly provided with a sealing rotating piece, the sealing rotating piece is arranged on a material tube, the left material tube is a material inlet tube, the right material tube is a material outlet tube, the sealing rotating piece comprises a connecting seat, a sealing bearing and a sealing piece, the cross section of the connecting seat is a convex rotating body, the center position of the connecting seat is provided with a through hole, the convex part of the connecting seat is embedded in the inner circumference of the first annular baffle, the contact part of the connecting seat and the first annular baffle is welded, the material tube is embedded in, still be provided with the sealing member between connecting seat and the material pipe, the both ends of ball-milling pipe still symmetry are provided with annular baffle two, and left annular baffle two rotates and sets up on the inlet pipe, and the annular baffle two on right side rotates and sets up on the discharging pipe.

Further, preferably, a feeding bin is fixedly arranged at one end, away from the ball milling circular tube, of the feeding pipe, and an opening of the feeding bin is upward; the ball-milling circular tube discharging device is characterized in that one end, far away from a ball-milling circular tube, of the discharging tube is fixedly provided with a discharging bin, an opening of the discharging bin is downward, and fixing seats are arranged on the feeding tube and the discharging tube and used for fixing the ball-milling circular tube on the base.

Further, as preferred, drive assembly locates the outside of ball-milling pipe, drive assembly includes motor, bull gear and driving gear, the motor is fixed on the frame under the ball-milling pipe, the motor is carried out unified control by the controller, the output of motor is provided with the reduction gear, and links to each other with the pivot through the shaft coupling, equidistant three driving gear that is fixed with in the pivot, and the tip of pivot is provided with the bearing frame, the bearing frame is fixed on the frame, and is three the driving gear meshes with the bull gear respectively mutually, and is three the bull gear is equidistant to be fixed on the outer circumference of ball-milling pipe.

Further, as preferred, drive assembly still includes supplementary supporting component, the outside of ball-milling pipe is provided with two sets ofly supplementary supporting component, every group supplementary supporting component all includes roller area and backing roll, the surface at the ball-milling pipe is fixed in the roller area, the backing roll includes preceding backing roll and back backing roll, and preceding backing roll and the equal rotatable setting of back backing roll are on the frame, preceding backing roll and the common backing roll area of back backing roll.

Further, as preferred, every all be provided with the fixing base on the material pipe, the fixing base passes through the supporting seat to be fixed on the frame, the fixing base includes an elastic rubber ring, two inner ring seats and an outer ring seat, two the inner ring seat is fixed on the outer circumference of material pipe, just the inner ring seat surface is equipped with the arch, the outer ring seat divide into two parts from top to bottom, and the outer ring seat of two parts from top to bottom passes through the engaging lug and fixes and link to each other and form a whole, the interior circumference of outer ring seat is provided with the recess for make the protruding embedding of inner ring seat surface wherein, still be provided with the elastic rubber ring in the cavity between outer ring seat and the material pipe.

Further, as preferred, the water-cooling subassembly is including setting up in the inside water-cooling pipe of ball-milling pipe, the coaxial cover of water-cooling pipe is established in the inside of ball-milling pipe, just the both ends of water-cooling pipe all weld mutually with ring baffle one, the inside of water-cooling pipe is the ball-milling chamber, has placed a plurality of spheroids in the ball-milling chamber, form the water-cooling exocoel between water-cooling pipe and the ball-milling pipe, the equipartition has the multiunit spring in the water-cooling exocoel, the internal surface of the fixed and ball-milling pipe of one end of spring links to each other, the other end of spring.

Further, as preferred, the water-cooling subassembly still includes cooling tank, liquid inlet bin and goes out the liquid storehouse, the cooling tank carries out the heat exchange through the coolant liquid in circulation subassembly and the water-cooling exocoel, the circulation subassembly includes the feed liquor hose, the one end of feed liquor hose stretches into in the cooling tank, the other end and the feed liquor storehouse of feed liquor hose are linked together, the sealed cover in feed liquor storehouse is established at the surface of inlet pipe, still be provided with the water pump on the feed liquor hose, the water pump is carried out unified control by the controller.

Further, as preferred, the intercommunication is provided with T shape connecting pipe two in the feed liquid storehouse, the inlet pipe is stretched out at the upper and lower both ends of T shape connecting pipe two, just T shape connecting pipe two is fixed on the inlet pipe, but T shape connecting pipe two still is linked together with T shape connecting pipe one through the adapter, the upper and lower both ends of T shape connecting pipe one stretch into in the water-cooling exocoel, just T shape connecting pipe one is fixed on the water-cooling pipe, the other end of water-cooling pipe is fixed and is provided with T shape connecting pipe three, but the upper and lower both ends of T shape connecting pipe three stretch into in the water-cooling exocoel, but T shape connecting pipe three still communicates with T shape connecting pipe four times through the adapter, the upper and lower both ends of T shape connecting pipe four stretch out the discharging pipe and are linked together with going.

Further, as preferred, the surface equipartition of cooling tank has a plurality of radiating fin to be used for the heat dissipation, the outside of cooling tank is provided with the fan through the support is fixed, the fan is unified by the controller and is controlled, the bottom of cooling tank is provided with the waste liquid pipe.

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

this device is provided with water cooling assembly, the coaxial cover of water-cooling pipe is established in the inside of ball-milling pipe, make the water-cooling pipe contact with the spheroid in real time, be convenient for grind and heat conduction, when grinding the material, the heat is transmitted to the water-cooling exocoel from the interior circumference surface of water-cooling pipe, bring the heat out the water-cooling exocoel through the coolant liquid, realize rapid cooling, be provided with the multiunit spring in the water-cooling exocoel, the multiplicable heat conduction area of spring on the one hand, make the heat transmit to the coolant liquid rapidly, on the other hand constantly rubs the striking with the water-cooling pipe at the grinding in-process spheroid, the spring can cushion and support the water-cooling pipe, increase its life-span and realize rapid cooling, the production of.

Drawings

FIG. 1 is a schematic structural diagram of a high-efficiency ball mill with a water-cooled outer cavity;

FIG. 2 is a partially enlarged schematic view of a high-efficiency ball mill with a water-cooled outer chamber;

FIG. 3 is an enlarged view of FIG. 2 at A;

FIG. 4 is a view of a high efficiency ball mill with a water cooled outer chamber in the direction B;

in the figure: 1. ball milling a round pipe; 2. water-cooling the round pipe; 3. a motor; 4. a liquid inlet bin; 5. a liquid outlet bin; 6. a material pipe; 7. a second annular baffle plate; 8. a machine base; 9. a cooling tank; 10. a water pump; 11. a fan; 12. a driving gear; 13. a bearing seat; 14. a large gear ring; 15. a fixed seat; 16. a feeding bin; 17. a discharging bin; 18. a liquid outlet hose; 19. a liquid inlet hose; 20. a roll belt; 21. a first annular baffle plate; 22. a T-shaped connecting pipe I; 23. sealing the bearing; 24. a seal member; 25. a support roller; 26. a connecting seat; 27. a supporting seat; 28. an elastic rubber ring; 29. an inner ring seat; 30. an outer ring seat; 31. a T-shaped connecting pipe II; 32. a switchable joint; 34. a T-shaped connecting pipe III; 35. and a T-shaped connecting pipe IV.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example (b): referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a high-efficient ball mill with water-cooling exocoel, its characterized in that, it includes water cooling assembly, drive assembly and ball-milling rotating assembly, wherein, drive assembly sets up and is used for driving ball-milling rotating assembly to rotate on the frame, ball-milling rotating assembly is inside to be equipped with the spheroid and is used for the abrasive material at the rotation in-process, water cooling assembly is used for cooling down the processing to ball-milling rotating assembly's inside.

The ball milling rotating assembly comprises a ball milling circular tube 1 and a first annular baffle 21, the two ends of the ball milling circular tube 1 are symmetrically and fixedly provided with the first annular baffle 21, the outer circumference of the first annular baffle 21 is fixedly embedded in the inner surface of the ball milling circular tube 1, the inner circumference of the first annular baffle 21 is fixedly provided with a sealing rotating piece, the sealing rotating piece is arranged on a material tube 6, the left material tube 6 is a feeding tube, the right material tube 6 is a discharging tube, the sealing rotating piece comprises a connecting seat 26, a sealing bearing 23 and a sealing piece 24, the cross section of the rotating body 26 is in a convex shape, the center of the rotating body is provided with a through hole, the convex part of the connecting seat 26 is embedded in the inner circumference of the first annular baffle 21, the connecting seat 26 is welded with the contact part of the first annular baffle 21, the material tube 6 is embedded in the through hole of the connecting seat 26, and a sealing ring is arranged between the bearing close to the middle part of the ball milling circular tube 1 and the material tube 6, a sealing ring is also arranged between the bearing and the connecting seat, meanwhile, a sealing part 24 is also arranged between the connecting seat 26 and the material tube 6, the sealing part 24 is arranged between the two groups of sealing bearings 23, two ends of the ball milling circular tube 1 are symmetrically provided with two annular baffles 7, the two annular baffles on the left side are rotatably arranged on the feeding tube, and the two annular baffles on the right side are rotatably arranged on the discharging tube.

In the embodiment, a feeding bin 16 is fixedly arranged at one end of the feeding pipe, which is far away from the ball milling circular pipe 1, and an opening of the feeding bin 16 is upward; the ball-milling device is characterized in that one end, far away from the ball-milling circular tube 1, of the discharge tube is fixedly provided with a discharge bin 17, an opening of the discharge bin 17 is downward, fixing seats 15 are arranged on the feed tube and the discharge tube and used for fixing the ball-milling circular tube 1 on the machine base 8, and materials enter the ball-milling bin from the feed bin 16 and can be discharged from the discharge bin 17.

In this embodiment, drive assembly locates the outside of ball-milling pipe 1, drive assembly includes motor 3, bull gear 14 and driving gear 12, motor 3 is fixed on frame 8 under ball-milling pipe 1, motor 3 is by controller unified control, motor 3's output is provided with the reduction gear, and this output passes through the shaft coupling and links to each other with the pivot, equidistant three driving gear 12 that is fixed with in the pivot, and the tip of pivot is provided with bearing frame 13, bearing frame 13 is fixed on frame 8, and is three driving gear 12 meshes with bull gear 14 respectively mutually, and is three equidistant fixing of bull gear 14 adopts three group gears to carry out the transmission on ball-milling pipe 1's outer circumference, reduces the loss, the lifting efficiency.

Drive assembly still includes supplementary supporting component, the outside of ball-milling pipe 1 is provided with two sets ofly supplementary supporting component, every group supplementary supporting component all includes roller area 20 and backing roll 25, roller area 20 is fixed at ball-milling pipe 1's surface, backing roll 25 includes preceding backing roll and back backing roll, and preceding backing roll and the equal rotatable setting of back backing roll are on frame 8, preceding backing roll supports roller area 20 with back backing roll jointly.

In this embodiment, each material pipe 6 is provided with a fixed seat 15, the fixed seat 15 is fixed on the machine base 8 through a supporting seat 27, the fixed seat 15 comprises an elastic rubber ring 28, two inner ring seats 29 and an outer ring seat 30, the two inner ring seats 29 are fixed on the outer circumference of the material pipe 6, the surface of the inner ring seat 29 is provided with a plurality of bulges, the outer ring seat 30 is divided into an upper part and a lower part, the outer ring seats 30 of the upper part and the lower part are fixedly connected into a whole through connecting lugs, the inner circumference of the outer ring seat 30 is correspondingly provided with a groove, for embedding the projections on the surface of the inner ring seat 29 therein, limiting the lateral displacement of the outer ring seat 30, preventing the outer ring seat from rotating relative to the inner ring seat, and in addition, the outer ring seat 30 is fixed on the machine base 8 through the support seat 27, thereby supporting and fixing the material pipe, and an elastic rubber ring 28 is arranged in the cavity between the outer ring seat 30 and the material pipe 6.

In the embodiment, the water cooling component comprises a water cooling circular tube 2 arranged inside a ball milling circular tube 1, the water cooling circular tube 2 is coaxially sleeved inside the ball milling circular tube 1, two ends of the water cooling circular tube 2 are welded with a first annular baffle 21, a ball milling cavity is arranged inside the water cooling circular tube 2, a plurality of spheres are placed in the ball milling cavity, a water cooling outer cavity is formed between the water cooling circular tube 2 and the ball milling circular tube 1, a plurality of groups of springs are uniformly distributed in the water cooling outer cavity, one end of each spring is fixedly connected with the inner surface of the ball milling circular tube 1, the other end of each spring is fixedly connected with the outer surface of the water cooling circular tube 2, when the ball milling device grinds materials, a large amount of heat is generated due to friction, if the heat cannot be discharged in time, the paste milling is generated, so that the quality of the materials is influenced, and the heat is transmitted, the heat is taken out of the water-cooling outer cavity through the cooling liquid, a plurality of groups of springs are arranged in the water-cooling outer cavity, on one hand, the heat can be rapidly transmitted to the cooling liquid due to the fact that the springs can increase the heat conduction area, on the other hand, the ball body continuously rubs and strikes with the water-cooling circular tube 2 in the grinding process, and the springs can buffer and support the water-cooling circular tube 2 and prolong the service life of the water-cooling circular tube.

In this embodiment, the water-cooling subassembly still includes cooling tank 9, feed liquor storehouse 4 and goes out liquid storehouse 5, cooling tank 9 carries out the heat exchange through the coolant liquid in circulation subassembly and the water-cooling exocoel, the circulation subassembly includes feed liquor hose 19, feed liquor hose 19's one end stretches into in cooling tank 9, feed liquor hose 19's the other end is linked together with feed liquor storehouse 4, 4 sealing cover in feed liquor storehouse are established at the surface of inlet pipe, still be provided with water pump 10 on the feed liquor hose 19, water pump 10 is carried out unified control by the controller.

In this embodiment, the intercommunication is provided with two 31 of T shape connecting pipes in the feed liquid storehouse 4, the inlet pipe is stretched out at the upper and lower both ends of two 31 of T shape connecting pipes, just two 31 of T shape connecting pipes are fixed on the inlet pipe, two 31 of T shape connecting pipes are still linked together through adapter 32 and first 22 of T shape connecting pipe, the upper and lower both ends of first 22 of T shape connecting pipe stretch into in the water-cooling exocoel, just one 22 of T shape connecting pipe is fixed on water-cooling pipe 2, the other end of water-cooling pipe 2 is fixed and is provided with three 34 of T shape connecting pipe, the upper and lower both ends of three 34 of T shape connecting pipe stretch into in the water-cooling exocoel, three 34 of T shape connecting pipe still is linked together through adapter 32 and four 35 of T shape connecting pipe, the upper and lower both ends of four 35 of T shape connecting pipe stretch out the discharging pipe.

In this embodiment, a plurality of radiating fins are evenly distributed on the outer surface of the cooling tank 9 and used for radiating heat, a fan 11 is fixedly arranged outside the cooling tank 9 through a support, the fan 11 is uniformly controlled by a controller, and a waste liquid pipe is arranged at the bottom of the cooling tank 9.

When the concrete implementation, the material of packing into, open motor 3 through the controller, water pump 10, and fan 11, motor 3's pivot is rotated and is made driving gear 12 on it drive the bull gear and rotate, thereby realize the grinding to the material, water-cooling module begins to cool down to the ball-milling storehouse this moment, water pump 10 drives feed liquor hose 19 and takes out the coolant liquid to feed liquor storehouse 4 from cooling tank 9 in, the coolant liquid in feed liquor storehouse 4 enters into the water-cooling exocoel afterwards, the coolant liquid continues to flow and takes away the partial heat in the water-cooling exocoel, after the coolant liquid flows into cooling tank 9 through outlet hose 18, the heat dispels the heat through radiating fin, fan 11 blows away near hot-air, be convenient for more quick heat dissipation cooling.

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.

Claims (7)

1. The high-efficiency ball mill with the water-cooled outer cavity is characterized by comprising a water-cooled component, a driving component and a ball-milling rotating component, wherein the driving component is arranged on a base and used for driving the ball-milling rotating component to rotate;

the ball-milling rotating assembly comprises a ball-milling circular tube (1) and a first annular baffle plate (21), the first annular baffle plate (21) is symmetrically and fixedly installed at two ends of the ball-milling circular tube (1), the outer circumference of the first annular baffle plate (21) is fixedly embedded in the inner surface of the ball-milling circular tube (1), a sealing rotating piece is fixed on the inner circumference of the first annular baffle plate (21), the sealing rotating piece is arranged on a material tube (6), the left material tube (6) is an inlet tube, the right material tube (6) is a discharge tube, the sealing rotating piece comprises a connecting seat (26), a sealing bearing (23) and a sealing piece (24), the connecting seat (26) is a convex rotating body with a convex cross section, a through hole is formed in the center position of the rotating body, the convex part of the connecting seat (26) is embedded in the inner circumference of the first annular baffle plate (21), and the connecting, the ball milling circular tube is characterized in that a material tube (6) is embedded into a through hole of the connecting seat (26), the connecting seat (26) is rotatably connected with the material tube (6) through two groups of sealing bearings (23), a sealing element (24) is further arranged between the connecting seat (26) and the material tube (6), two ends of the ball milling circular tube (1) are further symmetrically provided with two annular baffles (7), the two annular baffles on the left side are rotatably arranged on the feeding tube, and the two annular baffles on the right side are rotatably arranged on the discharging tube;

the ball milling device is characterized in that the water cooling assembly comprises a water cooling circular tube (2) arranged inside a ball milling circular tube (1), the water cooling circular tube (2) is coaxially sleeved inside the ball milling circular tube (1), two ends of the water cooling circular tube (2) are welded with a first annular baffle (21), the inside of the water cooling circular tube (2) is a ball milling cavity, a plurality of balls are placed in the ball milling cavity, a water cooling outer cavity is formed between the water cooling circular tube (2) and the ball milling circular tube (1), a plurality of groups of springs are uniformly distributed in the water cooling outer cavity, one end of each spring is fixedly connected with the inner surface of the ball milling circular tube (1), and the other end of each spring is fixedly connected with the outer surface of the water;

the water-cooling subassembly still includes cooling tank (9), feed liquor storehouse (4) and goes out liquid storehouse (5), cooling tank (9) carry out the heat exchange through the coolant liquid in circulation subassembly and the water-cooling exocoel, the circulation subassembly includes feed liquor hose (19), the one end of feed liquor hose (19) stretches into in cooling tank (9), the other end and the feed liquor storehouse (4) of feed liquor hose (19) are linked together, the surface at the inlet pipe is established to feed liquor storehouse (4) sealing cover, still be provided with water pump (10) on feed liquor hose (19), water pump (10) are unified control by the controller.

2. The high-efficiency ball mill with the water-cooled outer cavity is characterized in that a feeding bin (16) is fixedly arranged at one end of the feeding pipe, which is far away from the ball milling circular pipe (1), and the opening of the feeding bin (16) is upward; the ball-milling circular tube (1) is kept away from to the discharging pipe one end is fixed and is provided with out feed bin (17), the opening that goes out feed bin (17) is down, all be provided with fixing base (15) on inlet pipe and the discharging pipe and be used for fixing ball-milling circular tube (1) on frame (8).

3. A high-efficiency ball mill with a water-cooled outer cavity according to claim 1, the driving component is arranged outside the ball milling circular tube (1), the driving component comprises a motor (3), a large gear ring (14) and a driving gear (12), the motor (3) is fixed on the base (8) right below the ball milling circular tube (1), the motors (3) are controlled by a controller in a unified way, the output ends of the motors (3) are provided with speed reducers, the output end of the motor (3) is connected with a rotating shaft through a coupler, three driving gears (12) are fixed on the rotating shaft at equal intervals, a bearing seat (13) is arranged at the end part of the rotating shaft, the ball milling machine is characterized in that the bearing seat (13) is fixed on the machine base (8), the three driving gears (12) are respectively meshed with the large gear rings (14), and the three large gear rings (14) are fixed on the outer circumference of the ball milling circular tube (1) at equal intervals.

4. The high-efficiency ball mill with the water-cooled outer cavity is characterized in that the driving assembly further comprises auxiliary supporting assemblies, two groups of the auxiliary supporting assemblies are arranged outside the ball milling circular tube (1), each group of the auxiliary supporting assemblies comprises a roller belt (20) and supporting rollers (25), the roller belt (20) is fixed on the outer surface of the ball milling circular tube (1), the supporting rollers (25) comprise a front supporting roller and a rear supporting roller, the front supporting roller and the rear supporting roller are rotatably arranged on the base (8), and the front supporting roller and the rear supporting roller jointly support the roller belt (20).

5. The high-efficiency ball mill with the water-cooled outer cavity is characterized in that each material pipe (6) is provided with a fixed seat (15), the fixed seat (15) is fixed on the machine base (8) through a supporting seat (27), the fixed seat (15) comprises an elastic rubber ring (28), two inner ring seats (29) and an outer ring seat (30), the two inner ring seats (29) are fixed on the outer circumference of the material pipe (6), the surface of the inner ring seat (29) is provided with a bulge, the outer ring seat (30) is divided into an upper part and a lower part, the outer ring seats (30) of the upper part and the lower part are fixedly connected through a connecting lug to form a whole, the inner circumference of the outer ring seat (30) is provided with a groove, the material pipe is characterized in that a protrusion used for enabling the surface of the inner ring seat (29) to be embedded into the material pipe, and an elastic rubber ring (28) is further arranged in a cavity between the outer ring seat (30) and the material pipe (6).

6. The high-efficiency ball mill with the water-cooled outer cavity is characterized in that a T-shaped connecting pipe II (31) is communicated with and arranged in the liquid inlet bin (4), the upper end and the lower end of the T-shaped connecting pipe II (31) extend out of the liquid inlet pipe, the T-shaped connecting pipe II (31) is fixed on the liquid inlet pipe, the T-shaped connecting pipe II (31) is further communicated with a T-shaped connecting pipe I (22) through a switchable joint (32), the upper end and the lower end of the T-shaped connecting pipe I (22) extend into the water-cooled outer cavity, the T-shaped connecting pipe I (22) is fixed on a water-cooled round pipe (2), the other end of the water-cooled round pipe (2) is fixedly provided with a T-shaped connecting pipe III (34), the upper end and the lower end of the T-shaped connecting pipe III (34) extend into the water-cooled outer cavity, and the T-shaped connecting pipe III (34) is further communicated with a, the upper end and the lower end of the T-shaped connecting pipe IV (35) extend out of the discharge pipe to be communicated with the liquid outlet bin (5), and the T-shaped connecting pipe IV (35) is fixed on the discharge pipe.

7. The high-efficiency ball mill with the water-cooled outer cavity is characterized in that a plurality of radiating fins are uniformly distributed on the outer surface of the cooling tank (9) for radiating heat, a fan (11) is fixedly arranged outside the cooling tank (9) through a support, the fan (11) is uniformly controlled by a controller, and a waste liquid pipe is arranged at the bottom of the cooling tank (9).

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