CN214183387U - A multistage ball-milling device for ceramic tile production - Google Patents

Abstract

The utility model belongs to the technical field of material crushing, in particular to a multistage ball-milling device for ceramic tile production, which comprises a fixed cover plate, wherein one side of the fixed cover plate is fixedly provided with a screening component, one side of the outer wall of the screening component is fixedly provided with a supporting plate, and one side of the supporting plate is fixedly provided with a rotating motor; be equipped with one through the inside at the screening barrel and carry out pivoted mediation inner panel, material after the ball-milling can loop through the sieve mesh on the screening barrel and dredge the mediation hole on the inner panel, thereby carry the material that the ball-milling is qualified, and the accessible rotates mediation inner panel, under the cooperation of mediation hole and sieve mesh, can adjust the granule size and size that the screening barrel screened, and when the sieve mesh was blockked up, rotatable mediation inner panel, make the sieve mesh and dredge the size grow between the hole, thereby make the card drop externally at the inside material of sieve mesh, and carry and collect, thereby make things convenient for people's use more.

Description

A multistage ball-milling device for ceramic tile production

Technical Field

The utility model relates to a comminuted technical field specifically is a multistage ball-milling device for ceramic tile production.

Background

Ceramic tiles, also known as ceramic tiles, are made of refractory metal oxides and semimetal oxides by grinding, mixing, pressing, glazing and sintering to form acid and alkali resistant porcelain or stony materials, building or decorative materials, called ceramic tiles. The raw materials are mostly mixed by clay, quartz sand and the like.

Ceramic tile is in process of production, need carry out shredding to raw and other materials, chinese patent discloses a ball mill that novel technology ceramic manufacture used (the bulletin number of authorizing is CN210906408U), the device has adopted multistage crushing and multistage screening, abundant utilization the strength of iron ball, make the utilization ratio of ability improve, work efficiency has been increased, but the sieve mesh has been seted up on the section of thick bamboo wall of inner tube, when the material was screened through the sieve mesh, the large granule material of screening blocks easily inside the sieve mesh, thereby block up the sieve mesh, influence the work efficiency of ball-milling device, therefore, technical personnel in the field provide a multistage ball-milling device for ceramic tile production, in order to solve the problem that proposes in the above-mentioned background art.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a multistage ball-milling device for ceramic tile production to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a multistage ball-milling device for ceramic tile production, includes fixed apron, one side fixed mounting of fixed apron has the screening subassembly, outer wall one side fixed mounting of screening subassembly has the backup pad, the backup pad is kept away from one side fixed mounting of fixed apron has the rotation motor, rotate motor and external power source electric connection, the output fixed mounting who rotates the motor has the dwang, the screening subassembly is including screening barrel and mediation inner panel, the inside of screening barrel seted up with the chamber of placing of mediation inner panel looks adaptation, the mediation inner panel is placed place the intracavity, just the mediation inner panel passes through place chamber sliding connection the inside of screening barrel.

As a further aspect of the present invention: the screening barrel is provided with a plurality of sieve pores which are distributed at equal intervals, and the side wall of the dredging inner plate is provided with dredging holes, wherein the dredging holes are the same as the sieve pores in number and are corresponding in position.

As a further aspect of the present invention: the blade is fixedly arranged inside the dredging hole.

As a further aspect of the present invention: the outside cover of dwang is equipped with the gear, the gear with dwang fixed connection, the outer wall of mediation inner panel seted up with the meshing tooth's socket of gear looks adaptation, the gear runs through the screening barrel with mediation inner panel meshing is connected.

As a further aspect of the present invention: the screening barrel is provided with a hole matched with the gear, and the gear is clamped and rotated inside the hole.

As a further aspect of the present invention: one side fixed mounting of fixed apron has the pivot, fixed apron passes through pivot and external drive equipment fixed connection.

As a further aspect of the present invention: the outside of mediation inner panel is fixed set up with the spout of screening barrel looks adaptation, the mediation inner panel passes through the spout slides is in the inside of screening barrel.

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

the utility model discloses in, it can carry out pivoted mediation inner panel to be equipped with one through the inside at the screening barrel, material after the ball-milling can loop through the sieve mesh on the screening barrel and dredge the through-hole of dredging on the inner panel, thereby carry the material that the ball-milling is qualified, and the accessible rotates mediation inner panel, under the cooperation of dredging through-hole and sieve mesh, can adjust the granule size and size that the screening barrel screened, and when the sieve mesh is blockked up, rotatable mediation inner panel, make the sieve mesh and dredge the size grow between the through-hole, thereby make the card drop externally at the inside material of sieve mesh, and carry and collect, thereby make things convenient for people's use more.

Drawings

FIG. 1 is a schematic structural diagram of a multistage ball milling device for ceramic tile production;

FIG. 2 is a cross-sectional view of a multi-stage ball milling apparatus for ceramic tile production;

FIG. 3 is a schematic structural diagram of a screening cylinder in a multistage ball milling device for ceramic tile production;

FIG. 4 is a schematic structural diagram of an inner dredging plate in a multistage ball milling device for ceramic tile production;

fig. 5 is a schematic view of the internal structure of the through holes in the multistage ball milling device for ceramic tile production.

In the figure: 1. fixing the cover plate; 11. a rotating shaft; 2. a screening component; 21. screening the cylinder; 211. screening holes; 212. a placement chamber; 213. a hole; 22. dredging the inner plate; 221. d, dredging a through hole; 222. engaging the tooth grooves; 223. a blade; 23. a chute; 3. A support plate; 31. rotating the motor; 32. rotating the rod; 33. a gear.

Detailed Description

Please refer to fig. 1-5, in the embodiment of the utility model, a multistage ball-milling device for ceramic tile production, including fixed apron 1, one side fixed mounting of fixed apron 1 has screening subassembly 2, outer wall one side fixed mounting of screening subassembly 2 has backup pad 3, one side fixed mounting that fixed apron 1 was kept away from to backup pad 3 has rotation motor 31, rotation motor 31 and external power source electric connection, the output fixed mounting who rotates motor 31 has dwang 32, screening subassembly 2 is including screening barrel 21 and mediation inner panel 22, the chamber 212 of placing with mediation inner panel 22 looks adaptation is seted up to the inside of screening barrel 21, the mediation inner panel 22 is placed placing the intracavity 212, and mediation inner panel 22 is through placing the inside of chamber 212 sliding connection at sieve mesh 211.

In this scheme, it can carry out pivoted mediation inner panel 22 to be equipped with one through the inside at screening barrel 21, material after the ball-milling can loop through sieve mesh 211 on the screening barrel 21 and dredge the through hole 221 on the inner panel 22, thereby carry the material that the ball-milling is qualified, and accessible rotates mediation inner panel 22, under the cooperation of dredging through hole 221 and sieve mesh 211, can adjust the granule size that filters barrel 21, and when sieve mesh 211 is blockked up, rotatable mediation inner panel 22, make sieve mesh 211 and dredge the size grow between the through hole 221, thereby make the material of card in sieve mesh 211 inside drop outside, and carry and collect, thereby make things convenient for people's use more, the model that rotates motor 31 is YL-7112.

In fig. 1: including fixed cover plate 1, one side fixed mounting of fixed cover plate 1 has screening subassembly 2, outer wall one side fixed mounting of screening subassembly 2 has backup pad 3, one side fixed mounting that fixed cover plate 1 was kept away from to backup pad 3 has rotation motor 31, rotation motor 31 and external power source electric connection, the output fixed mounting who rotates motor 31 has dwang 32, one side fixed mounting of fixed cover plate 1 has pivot 11, fixed cover plate 1 is through pivot 11 and external drive equipment fixed connection, external drive equipment drives fixed cover plate 1 and screening barrel 21 through pivot 11 and rotates, thereby drive the inside iron ball of screening barrel 21 and the material rotates, thereby smash the material.

In fig. 2: set up a plurality of equidistant distribution's sieve mesh 211 on the screening barrel 21, seted up on the lateral wall of mediation inner panel 22 and dredged hole 221, it is the same with sieve mesh 211's quantity to dredge hole 221, and the position is corresponding, the material after the ball-milling is qualified loops through sieve mesh 211 on the screening barrel 21 and dredges the hole 221 on the inner panel 22 and carry the outside, when the material of other sizes needs are carried, the accessible rotates mediation inner panel 22, make sieve mesh 211 and dredge take place the dislocation between the hole 221, thereby adjust the size of the granule that this device screened.

In fig. 3: the screening component 2 comprises a screening cylinder 21 and a dredging inner plate 22, a placing cavity 212 matched with the dredging inner plate 22 is formed in the screening cylinder 21, the dredging inner plate 22 is placed in the placing cavity 212, and the dredging inner plate 22 is slidably connected inside the sieve holes 211 through the placing cavity 212, the placing cavity 212 is used for placing the dredging inner plate 22, so that the screening cylinder 21 and the dredging inner plate 22 are tightly attached, the rotating motor 31 is started to drive the rotating rod 32 to rotate, since the gear 33 is fixedly installed on the outer portion of the rotating rod 32, thereby driving the gear 33 to rotate, because the screening cylinder 21 is provided with the hole 213 adapted to the gear 33, the gear 33 is engaged and rotated inside the hole 213, so that the gear 33 penetrates through the screening cylinder 21 through the hole 213 and is meshed with the dredging inner plate 22, during the rotation of the gear 33, the dredging inner plate 22 is driven to rotate inside the screening cylinder 21.

In fig. 4: the gear 33 is sleeved outside the rotating rod 32, the gear 33 is fixedly connected with the rotating rod 32, the outer wall of the dredging inner plate 22 is provided with a meshing tooth groove 222 matched with the gear 33, the gear 33 penetrates through the screening cylinder 21 to be meshed with the dredging inner plate 22, the outer part of the dredging inner plate 22 is fixedly provided with a sliding groove 23 matched with the screening cylinder 21, the dredging inner plate 22 slides inside the screening cylinder 21 through the sliding groove 23, the meshing tooth groove 222 is arranged on the dredging inner plate 22, the occupied area of the dredging inner plate 22 can be further reduced, the connection between the dredging inner plate 22 and the screening cylinder 21 is tighter, the large gap between the dredging inner plate 22 and the screening cylinder 21 is effectively prevented, the accumulation of materials is caused, meanwhile, when the screen hole 211 is blocked, the dredging inner plate 22 can be reversely rotated, the size between the screen hole 211 and the dredging hole 221 is increased, and the materials in the screen hole card fall outside, and carrying out conveying and collecting.

In fig. 5: dredge the inside fixed mounting of hole 221 and have blade 223, and when sieve mesh 211 is inside glues glutinous material, the accessible rotates mediation inner panel 22, mediation inner panel 22 rotates in the inside of screening barrel 21, then cut the inside material of sieve mesh 211 through dredging the inside blade 223 of hole 221, make the inside glutinous material of gluing of sieve mesh 211 cut into the tiny particle, then at the ball-milling in-process of ball mill, utilize the vibration of ball-milling, shake off the inside glutinous tiny particle material of gluing of sieve mesh 211, thereby eliminate.

The utility model discloses a theory of operation is: the external driving device drives the fixed cover plate 1 and the screening cylinder 21 to rotate through the rotating shaft 11, thereby driving the iron balls and the materials inside the screening cylinder 21 to rotate, thereby crushing the materials, the qualified materials after ball milling sequentially pass through the sieve holes 211 on the screening cylinder 21 and the dredging holes 221 on the dredging inner plate 22 to be conveyed outside, when the materials with other sizes need to be conveyed, only the rotating motor 31 needs to be started, the rotating rod 32 is driven to rotate, because the gear 33 is fixedly arranged outside the rotating rod 32, thereby driving the gear 33 to rotate, in the rotating process of the gear 33, under the action of the meshing tooth socket 222, the dredging inner plate 22 is driven to rotate inside the screening cylinder 21, so that the dislocation occurs between the sieve holes 211 and the dredging holes 221, thereby adjusting the size of the particles screened by the device, and under the condition of no shutdown, adjust the size of required screening material, and when sieve mesh 211 is blockked up, but reverse rotation mediation inner panel 22, make sieve mesh 211 and dredge the size grow between the hole 221, under the vibration effect of ball-milling in-process, thereby make the card drop outside at the inside material of sieve mesh 211, and carry and collect, or the inside glutinous material that glues of sieve mesh 211, when being difficult for shaking off, accessible rotation mediation inner panel 22, mediation inner panel 22 rotates in the inside of screening barrel 21, then cut the inside material of sieve mesh 211 through dredging the inside blade 223 of hole 221, make the inside glutinous material of sieve mesh 211 cut into the tiny particle, then at the ball-milling in-process of ball mill, utilize the vibration of ball-milling, shake off the inside glutinous tiny particle material that glues of sieve mesh 211, thereby eliminate.

The above-mentioned, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A multi-stage ball milling device for ceramic tile production is characterized by comprising a fixed cover plate (1), a screening component (2) is fixedly arranged on one side of the fixed cover plate (1), a supporting plate (3) is fixedly arranged on one side of the outer wall of the screening component (2), a rotating motor (31) is fixedly arranged on one side of the supporting plate (3) far away from the fixed cover plate (1), the rotating motor (31) is electrically connected with an external power supply, the output end of the rotating motor (31) is fixedly provided with a rotating rod (32), the screening component (2) comprises a screening cylinder body (21) and a dredging inner plate (22), a placing cavity (212) matched with the dredging inner plate (22) is formed in the screening cylinder (21), the dredging inner plate (22) is placed in the placing cavity (212), and the dredging inner plate (22) is connected to the interior of the screening cylinder (21) in a sliding manner through the placing cavity (212).

2. The multistage ball milling device for ceramic tile production according to claim 1, wherein a plurality of sieve holes (211) are formed in the screening cylinder (21) and are distributed at equal intervals, and the side wall of the dredging inner plate (22) is provided with dredging holes (221), and the number of the dredging holes (221) is the same as that of the sieve holes (211) and the positions of the dredging holes correspond to that of the sieve holes (211).

3. The multistage ball milling apparatus for ceramic tile production according to claim 2, wherein the inner portion of the dredging hole (221) is fixedly installed with the blade (223).

4. The multistage ball milling device for ceramic tile production according to claim 1, wherein a gear (33) is sleeved outside the rotating rod (32), the gear (33) is fixedly connected with the rotating rod (32), an engaging tooth groove (222) matched with the gear (33) is formed in the outer wall of the inner dredging plate (22), and the gear (33) penetrates through the screening cylinder (21) and is engaged with the inner dredging plate (22).

5. The multistage ball milling device for ceramic tile production according to claim 4, wherein the screening cylinder (21) is provided with a hole (213) matched with the gear (33), and the gear (33) is clamped and rotated inside the hole (213).

6. The multistage ball milling device for ceramic tile production according to claim 1, wherein a rotating shaft (11) is fixedly installed at one side of the fixed cover plate (1), and the fixed cover plate (1) is fixedly connected with an external driving device through the rotating shaft (11).

7. The multistage ball milling device for ceramic tile production according to claim 1, wherein a chute (23) matched with the screening cylinder (21) is fixedly formed outside the dredging inner plate (22), and the dredging inner plate (22) slides inside the screening cylinder (21) through the chute (23).

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