CN215507078U - Efficient ball-milling pulping device for producing ceramic tiles - Google Patents

Abstract

The utility model provides a high-efficiency ball-milling pulping device for producing ceramic tiles, which belongs to the technical field of ceramic tile production equipment and comprises a base, wherein the top of the base is fixedly connected with a first supporting plate and a second supporting plate in parallel; the agitator tank, the agitator tank sets up in the upside of base, the agitator tank is located between first backup pad and the second backup pad, the one end and the second backup pad rotation of agitator tank are connected, the other end fixedly connected with inlet pipe of agitator tank, the inlet pipe rotates with first backup pad to be connected, the inlet pipe is linked together with the agitator tank, driven drive wheel drives the second axis of rotation and rotates, the second axis of rotation drives the back shaft and rotates, the rotation of back shaft drives two rotor plates and rotates in the agitator tank, two rotor plates carry out the counter rotation to a plurality of agitator plates, through the asynchronous rotation of agitator tank and a plurality of agitator plate incorgruous, strengthen the stirring to raw materials and grinding ball, and improve production efficiency, cooperate through taper sleeve and spiral hinge leaf, improve the speed of thick liquid.

Description

Efficient ball-milling pulping device for producing ceramic tiles

Technical Field

The utility model belongs to the technical field of ceramic tile production equipment, and particularly relates to a high-efficiency ball-milling pulping device for producing ceramic tiles.

Background

The ball mill is a key device for crushing materials after the materials are crushed, is widely applied to production industries of cement, silicate products, novel building materials, refractory materials, chemical fertilizers, black and non-ferrous metal ore dressing, glass ceramics and the like, carries out dry-type or wet-type grinding on various ores and other grindable materials, is suitable for grinding various ores and other materials, is widely applied to industries of ore dressing, building materials, chemical engineering and the like, and can be divided into a dry-type grinding mode and a wet-type grinding mode.

The ceramic tile is a plate-shaped or block-shaped ceramic product produced by clay and other inorganic non-metallic raw materials through processes of molding, sintering and the like, and is used for decorating and protecting walls and floors of buildings and structures.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an efficient ball-milling pulping device for producing ceramic tiles, and aims to solve the problems that the existing ball-milling pulping device is low in production efficiency and slow in pulp discharge in the using process.

In order to achieve the purpose, the utility model provides the following technical scheme:

a high-efficiency ball-milling pulping device for producing ceramic tiles comprises a base, wherein the top of the base is fixedly connected with a first supporting plate and a second supporting plate in parallel;

the stirring tank is arranged on the upper side of the base and is positioned between the first supporting plate and the second supporting plate, one end of the stirring tank is rotatably connected with the second supporting plate, the other end of the stirring tank is fixedly connected with a feeding pipe, the feeding pipe is rotatably connected with the first supporting plate, and the feeding pipe is communicated with the stirring tank;

a plurality of stirring plates are arranged, and are arranged in the stirring tank;

the driving mechanism is arranged at the top of the base and connected with the stirring tank to push the stirring tank to rotate; and

the stirring mechanism is arranged on the stirring tank and the first supporting plate and is used for reversely rotating the stirring plates.

As a preferred embodiment of the present invention, the stirring mechanism includes a reverse gear set, a transmission assembly and a rotating bracket, the reverse gear set is disposed on the first supporting plate, the reverse gear set is connected to the stirring tank, the rotating bracket is disposed in the stirring tank for rotating the plurality of stirring plates, the transmission assembly is disposed on the first supporting plate, and the transmission assembly is respectively connected to the reverse gear set and the rotating bracket for rotating the rotating bracket in a reverse direction.

As a preferable aspect of the present invention, the reverse gear set includes a third gear, a fourth gear, and a first rotating shaft, the third gear is fixedly connected to the circumferential surface of the feeding pipe, the first rotating shaft is rotatably inserted into the end surface of the first supporting plate, the fourth gear is fixedly connected to the end surface of the first rotating shaft, and the fourth gear is engaged with the third gear.

As a preferred scheme of the utility model, the rotating support comprises an auxiliary support frame, a feed inlet, a second rotating shaft, a support frame, rotating plates and a support shaft, the feed inlet is fixedly connected to the end face of the first support frame, the feed inlet is communicated with the feed pipe, the auxiliary support frame is fixedly connected between the circumferential inner walls of the third gears, the second rotating shaft is inserted into the end face of the feed inlet, one end of the second rotating shaft extends into the feed pipe and is rotatably connected with the auxiliary support frame, the support frame is fixedly connected to the inner wall of the stirring tank, the support shaft is connected with the end face of the second rotating shaft, the other end face of the support shaft is rotatably connected with the support frame, the two rotating plates are arranged, the two rotating plates are fixedly connected to the circumferential surface of the support shaft, and the two rotating plates are connected with the plurality of stirring plates.

As a preferable scheme of the present invention, the transmission assembly includes a driving transmission wheel, a driven transmission wheel and a transmission belt, the driven transmission wheel is fixedly connected to the other end surface of the second rotation shaft, the driving transmission wheel is fixedly connected to the other end surface of the first rotation shaft, and the transmission belt is sleeved on the circumferential surfaces of the driving transmission wheel and the driven transmission wheel.

As a preferable scheme of the present invention, the driving mechanism includes a first gear, a second gear, and a motor, the second gear is sleeved on the circumferential surface of the stirring tank, the motor is fixedly connected to the top of the base, the first gear is fixedly connected to the output end of the motor, and the first gear is engaged with the second gear.

As a preferable scheme of the utility model, a filter plate and a conical sleeve are fixedly connected between the circumferential inner walls of the stirring tank, and a spiral twisting blade is fixedly connected in the conical sleeve.

As a preferable scheme of the utility model, the top of the base is fixedly connected with a material box, and the material box corresponds to the discharge hole of the stirring tank.

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

1. in this scheme, the feed inlet is for the feeding, the feed inlet is linked together with the second axis of rotation, for the raw materials, the entering of ball and water of polishing, the auxiliary stay frame is used for carrying out the auxiliary stay to the second axis of rotation, the second axis of rotation provides power for the rotation of back shaft, support frame and auxiliary stay frame parallel fit, provide the rotation support for the back shaft, setting up of two rotor plates is convenient to be fixed a plurality of rotor plates, a plurality of stirring boards are the circumference and distribute around the back shaft in the agitator tank, it rotates to drive the back shaft through the rotation of second axis of rotation, drive two rotor plates through the back shaft, make a plurality of stirring boards carry out the antiport around the back shaft, through agitator tank and the asynchronous rotation of a plurality of stirring board incorgruous, strengthen the stirring to raw materials and grinding ball, and improve production efficiency.

2. In this scheme, the filter is the degree with the inclination of horizontal plane, and the toper cover provides the support for spiral hinge leaf, and outside the spiral hinge leaf was used for deriving the agitator tank with thick liquids, the thick liquids that make the ball-milling through the filter were screened, will fine and smooth ground thick liquids sieve out, cooperatees through toper cover and spiral hinge leaf, improves the speed of thick liquid.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a top perspective view of a high efficiency ball milling and slurrying apparatus for producing ceramic tiles in accordance with the present invention;

FIG. 2 is a perspective view of the high-efficiency ball-milling and slurrying apparatus for producing ceramic tiles of the present invention;

FIG. 3 is an exploded view of a portion of the high efficiency ball milling and slurrying apparatus for producing ceramic tiles in accordance with the present invention;

FIG. 4 is a perspective view of the internal structure of the high-efficiency ball-milling and pulping device for producing ceramic tiles of the present invention.

In the figure: 1. a base; 2. a first support plate; 3. a second support plate; 4. a magazine; 5. a stirring tank; 6. a first gear; 7. a second gear; 8. a feed pipe; 9. a third gear; 10. an auxiliary support frame; 11. a fourth gear; 13. a first rotating shaft; 14. an active driving wheel; 15. a driven transmission wheel; 16. a drive belt; 17. a feed inlet; 18. a second rotating shaft; 19. a support frame; 20. a rotating plate; 21. a stirring plate; 22. a filter plate; 23. a conical sleeve; 24. spirally twisting leaves; 25. a motor; 26. and supporting the shaft.

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.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

Referring to fig. 1-4, a high efficiency ball milling and slurrying apparatus for producing ceramic tiles, comprising:

base 1, base 1's the parallel fixedly connected with first backup pad 2 in top and second backup pad 3, agitator tank 5 sets up in base 1's upside, agitator tank 5 is located between first backup pad 2 and the second backup pad 3, the one end of agitator tank 5 rotates with second backup pad 3 to be connected, agitator tank 5's other end fixedly connected with inlet pipe 8, inlet pipe 8 rotates with first backup pad 2 to be connected, inlet pipe 8 is linked together with agitator tank 5, agitator plate 21 is provided with a plurality ofly, a plurality of agitator plate 21 all set up in agitator tank 5.

According to the utility model, the first support plate 2 and the second support plate 3 are arranged to provide rotary support for the stirring tank 5, the stirring tank 5 is used to provide a space for grinding raw materials, one end of the stirring tank 5, which is rotatably connected with the second support plate 3, is a discharge hole, the feeding pipe 8 is used to guide materials into the stirring tank 5 while providing support for the rotation of the stirring tank 5, and the plurality of stirring plates 21 are used to push grinding balls and raw materials.

Actuating mechanism, actuating mechanism sets up in the top of base 1, and actuating mechanism is connected with agitator tank 5 and is used for promoting the rotation of agitator tank 5, and actuating mechanism includes first gear 6, second gear 7 and motor 25, and the circumferential surface of agitator tank 5 is located to the 7 covers of second gear, and motor 25 fixed connection is in the top of base 1, and first gear 6 fixed connection is in the output of motor 25, and first gear 6 meshes with second gear 7 mutually.

In the utility model, the motor 25 provides power for the rotation of the first gear 6, the first gear 6 is used for guiding out the torsion generated by the motor 25, and the first gear 6 is meshed with the second gear 7 to realize the forward rotation for pushing the stirring tank 5.

Rabbling mechanism, the rabbling mechanism sets up on agitator tank 5 and first backup pad 2, the rabbling mechanism is used for carrying out the antiport to a plurality of stirring boards 21, the rabbling mechanism includes reversing gear group, drive assembly and rotating support, reversing gear group sets up on first backup pad 2, reversing gear group is connected with agitator tank 5, rotating support sets up in agitator tank 5, be used for rotating a plurality of stirring boards 21, drive assembly sets up on first backup pad 2, drive assembly respectively with reversing gear group with rotate the leg joint, be used for rotating support's antiport.

In the utility model, the reverse gear set is used for converting the rotating force of the stirring tank 5 into the power of the rotating bracket rotating reversely, the rotating bracket is used for driving the stirring plates 21 to rotate, and the transmission assembly is used for linking the reverse gear set and the rotating bracket and transmitting the torque.

The reverse gear set comprises a third gear 9, a fourth gear 11 and a first rotating shaft 13, the third gear 9 is fixedly connected to the circumferential surface of the feeding pipe 8, the first rotating shaft 13 is rotatably inserted on the end surface of the first supporting plate 2, the fourth gear 11 is fixedly connected to the end surface of the first rotating shaft 13, and the fourth gear 11 is meshed with the third gear 9.

In the utility model, the feeding pipe 8 drives the third gear 9 to rotate asynchronously and equidirectionally, the third gear 9 is meshed with the fourth gear 11, the third gear 9 drives the fourth gear 11 to rotate synchronously and equidirectionally to change the rotation direction of the torsion, the fourth gear 11 drives the first rotating shaft 13 to rotate synchronously and equidirectionally, and the rotation of the torsion is performed reversely by the meshing between the third gear 9 and the fourth gear 11, so that the power for rotating the rotary support in the reverse direction is provided.

The rotating support includes auxiliary stay frame 10, feed inlet 17, second axis of rotation 18, support frame 19, rotor plate 20 and back shaft 26, feed inlet 17 fixed connection is in the terminal surface of first backup pad 2, feed inlet 17 is linked together with inlet pipe 8, auxiliary stay frame 10 fixed connection is between the circumference inner wall of third gear 9, the terminal surface of locating feed inlet 17 is inserted to second axis of rotation 18, 18 one end of second axis of rotation extends to and rotates with auxiliary stay frame 10 in the inlet pipe 8 and is connected, support frame 19 fixed connection is in the inner wall of agitator tank 5, back shaft 26 is connected with the terminal surface of second axis of rotation 18, another terminal surface and the support frame 19 of back shaft 26 rotate and be connected, rotor plate 20 is provided with two, two equal fixed connection in the circumferential surface of back shaft 26 of rotor plate 20, two rotor plates 20 all are connected with a plurality of stirring boards 21.

In the present invention, the feed inlet 17 is used for feeding, the feed inlet 17 is communicated with the second rotating shaft 18, the auxiliary support frame 10 is used for auxiliary support of a second rotating shaft 18 when raw materials, grinding balls and water enter, the second rotating shaft 18 provides power for rotation of a support shaft 26, the support frame 19 is in parallel fit with the auxiliary support frame 10 and provides rotary support for the support shaft 26, the two rotating plates 20 are arranged to fix the rotating plates 20 conveniently, the stirring plates 21 are distributed in the stirring tank 5 in a circumferential mode around the support shaft 26, the support shaft 26 is rotated by the rotation of the second rotating shaft 18, the two rotating plates 20 are rotated by the support shaft 26, the plurality of agitating plates 21 are rotated in opposite directions around the support shaft 26, through agitator tank 5 and the asynchronous rotation of a plurality of stirring board 21 syntropys, strengthen the stirring to raw materials and grinding ball, improve production efficiency.

The transmission assembly comprises a driving transmission wheel 14, a driven transmission wheel 15 and a transmission belt 16, the driven transmission wheel 15 is fixedly connected to the other end face of the second rotating shaft 18, the driving transmission wheel 14 is fixedly connected to the other end face of the first rotating shaft 13, and the transmission belt 16 is sleeved on the circumferential surfaces of the driving transmission wheel 14 and the driven transmission wheel 15.

In the utility model, taking fig. 2 as an example, the driven transmission wheel 15 is fixedly connected to the left end of the second rotating shaft 18, the driven transmission wheel 15 is used for driving the second rotating shaft 18 to rotate, the driving transmission wheel 14 is fixedly connected to the left end of the first rotating shaft 13, the transmission belt 16 is used for linking the driving transmission wheel 14 and the driven transmission wheel 15, the driven transmission wheel 15 is driven to rotate by pulling the transmission belt 16 through the driving transmission wheel 14, the rapid power transmission between the homodromous asynchronous rotation between the first rotating shaft 13 and the second rotating shaft 18 is completed, and the torque loss in the transmission process is reduced.

Specifically, referring to fig. 2 and 4, a filter plate 22 and a conical sleeve 23 are fixedly connected between the circumferential inner walls of the stirring tank 5, and a spiral twisting blade 24 is fixedly connected in the conical sleeve 23.

In the utility model, the inclination angle of the filter plate 22 and the horizontal plane is 60 degrees, the conical sleeve 23 supports the spiral twisting blade 24, the spiral twisting blade 24 is used for guiding slurry out of the stirring tank 5, slurry prepared by ball milling is screened through the filter plate 22, fine slurry is screened out, and the conical sleeve 23 is matched with the spiral twisting blade 24, so that the slurry discharging speed is improved.

Specifically, referring to fig. 1, 2 and 4, a material box 4 is fixedly connected to the top of the base 1, and the material box 4 corresponds to a discharge port of the stirring tank 5.

In the utility model, the material box 4 is used for containing the prepared slurry, thereby avoiding the waste of the slurry due to scattering.

The working principle or the working process of the high-efficiency ball-milling pulping device for producing the ceramic tile provided by the utility model is as follows:

the device is arranged on a horizontal ground and connected with a power supply, a starting motor 25 is used for driving a first gear 6 to rotate, the first gear 6 and a second gear 7 are meshed with each other to drive a stirring tank 5 to rotate, the stirring tank 5 rotates to drive a feeding pipe 8 to rotate, the feeding pipe 8 rotates to drive a third gear 9 to rotate, the third gear 9 and a fourth gear 11 are meshed with each other to drive a fourth gear 11 to rotate in the reverse direction, the fourth gear 11 rotates to drive a first rotating shaft 13 to rotate, the first rotating shaft 13 drives a driving transmission wheel 14 to rotate, a transmission belt 16 is used for pulling a driven transmission wheel 15 to rotate in the same direction, the driven transmission wheel 15 drives a second rotating shaft 18 to rotate, the second rotating shaft 18 drives a supporting shaft 26 to rotate, the supporting shaft 26 rotates to drive two rotating plates 20 to rotate in the stirring tank 5, and the two rotating plates 20 rotate in the reverse direction to the stirring plates 21, through agitator tank 5 and the asynchronous rotation of a plurality of stirring board 21 syntropys, strengthen the stirring to raw materials and grinding ball, improve production efficiency, cooperate through toper cover 23 and spiral hinge 24, improve out the speed of thick liquid.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. A high-efficiency ball milling and pulping device for producing ceramic tiles is characterized by comprising;

the device comprises a base (1), wherein the top of the base (1) is fixedly connected with a first supporting plate (2) and a second supporting plate (3) in parallel;

the stirring tank (5) is arranged on the upper side of the base (1), the stirring tank (5) is positioned between the first supporting plate (2) and the second supporting plate (3), one end of the stirring tank (5) is rotatably connected with the second supporting plate (3), the other end of the stirring tank (5) is fixedly connected with a feeding pipe (8), the feeding pipe (8) is rotatably connected with the first supporting plate (2), and the feeding pipe (8) is communicated with the stirring tank (5);

a plurality of stirring plates (21), wherein the stirring plates (21) are arranged, and the plurality of stirring plates (21) are all arranged in the stirring tank (5);

the driving mechanism is arranged at the top of the base (1) and is connected with the stirring tank (5) to push the stirring tank (5) to rotate; and

the stirring mechanism is arranged on the stirring tank (5) and the first supporting plate (2), and is used for reversely rotating the stirring plates (21).

2. The efficient ball-milling and pulping device for producing ceramic tiles according to claim 1, wherein the stirring mechanism comprises a reversing gear set, a transmission assembly and a rotating bracket, the reversing gear set is arranged on the first support plate (2), the reversing gear set is connected with the stirring tank (5), the rotating bracket is arranged in the stirring tank (5) and used for rotating the stirring plates (21), the transmission assembly is arranged on the first support plate (2), and the transmission assembly is respectively connected with the reversing gear set and the rotating bracket and used for reversely rotating the rotating bracket.

3. The high-efficiency ball milling and pulping device for producing the ceramic tiles according to claim 2, wherein the reverse gear set comprises a third gear (9), a fourth gear (11) and a first rotating shaft (13), the third gear (9) is fixedly connected to the circumferential surface of the feeding pipe (8), the first rotating shaft (13) is rotatably inserted on the end surface of the first supporting plate (2), the fourth gear (11) is fixedly connected to the end surface of the first rotating shaft (13), and the fourth gear (11) is meshed with the third gear (9).

4. The efficient ball-milling and pulping device for producing the ceramic tiles according to claim 3, wherein the rotating support comprises an auxiliary support frame (10), a feeding port (17), a second rotating shaft (18), a support frame (19), a rotating plate (20) and a support shaft (26), the feeding port (17) is fixedly connected to the end face of the first support plate (2), the feeding port (17) is communicated with the feeding pipe (8), the auxiliary support frame (10) is fixedly connected between the circumferential inner walls of the third gear (9), the second rotating shaft (18) is inserted into the end face of the feeding port (17), one end of the second rotating shaft (18) extends into the feeding pipe (8) and is rotatably connected with the auxiliary support frame (10), the support frame (19) is fixedly connected to the inner wall of the stirring tank (5), and the support shaft (26) is connected with the end face of the second rotating shaft (18), another terminal surface and support frame (19) of back shaft (26) rotate to be connected, rotating plate (20) are provided with two, two rotating plate (20) equal fixed connection in the circumferential surface of back shaft (26), two rotating plate (20) all are connected with a plurality of stirring boards (21).

5. The high-efficiency ball-milling pulping device for producing the ceramic tile according to claim 4, wherein the transmission assembly comprises a driving transmission wheel (14), a driven transmission wheel (15) and a transmission belt (16), the driven transmission wheel (15) is fixedly connected to the other end surface of the second rotating shaft (18), the driving transmission wheel (14) is fixedly connected to the other end surface of the first rotating shaft (13), and the transmission belt (16) is sleeved on the circumferential surfaces of the driving transmission wheel (14) and the driven transmission wheel (15).

6. The efficient ball-milling and pulping device for producing the ceramic tiles according to claim 5, wherein the driving mechanism comprises a first gear (6), a second gear (7) and a motor (25), the second gear (7) is sleeved on the circumferential surface of the stirring tank (5), the motor (25) is fixedly connected to the top of the base (1), the first gear (6) is fixedly connected to the output end of the motor (25), and the first gear (6) is meshed with the second gear (7).

7. The efficient ball milling and pulping device for producing the ceramic tiles according to claim 6, wherein a filter plate (22) and a conical sleeve (23) are fixedly connected between the circumferential inner walls of the stirring tank (5), and a spiral twisting blade (24) is fixedly connected in the conical sleeve (23).

8. The efficient ball-milling and pulping device for producing the ceramic tiles according to claim 7, wherein a material box (4) is fixedly connected to the top of the base (1), and the material box (4) corresponds to a discharge hole of the stirring tank (5).

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