CN213854882U - Ceramic tile blank raw material mixing ball-milling equipment - Google Patents

Abstract

The utility model discloses a pottery tile base raw materials mixes ball-milling equipment. The utility model discloses a pottery tile base raw materials mixes ball-milling equipment, include the mixing arrangement who mixes to the raw materials, carry out the first sieving mechanism of prescreening, carry out the ball-milling device of ball-milling and the second sieving mechanism that sieves to the raw materials after the ball-milling to the raw materials after prescreening to the raw materials after mixing. The utility model discloses a mixed ball-milling equipment of pottery tile base raw materials carries out the prescreening through the raw materials of first sieving mechanism after mixing to mixing arrangement, and the raw material granule that prevents to get into the ball-milling device is too big, influences the final grinding effect.

Description

Ceramic tile blank raw material mixing ball-milling equipment

Technical Field

The utility model relates to a pottery tile preparation technical field especially relates to a pottery tile base raw materials mixes ball-milling equipment.

Background

Prepare ceramic tile base among the prior art and need mix the stirring with the multiple powdery raw materials of certain ratio earlier, then directly drop into the ball mill and grind, screen out the raw materials that satisfy the fineness at last again, even the stirring in the raw materials after mixing the stirring, but still can contain the material of big granule, the material of too big granule gets into the ball mill in, influence final grinding effect, and among the prior art, above-mentioned process often needs the manual work to shift the raw materials to another device from a device and operates, a large amount of manpower and materials are all wasted to the operation flow.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a simple structure, ceramic tile base raw materials mixing ball-milling equipment that grinding efficiency is high to the above-mentioned not enough of prior art.

The utility model discloses a pottery tile base raw materials mixes ball-milling equipment, include the mixing arrangement who mixes to the raw materials, carry out the first sieving mechanism of prescreening, carry out the ball-milling device of ball-milling and the second sieving mechanism that sieves to the raw materials after the ball-milling to the raw materials after prescreening to the raw materials after mixing.

Further, mixing arrangement includes the blending tank and is used for the stirring subassembly of material in the blending tank, the blending tank is equipped with rather than inside communicating first feed inlet and first discharge gate, first discharge gate is located the bottom of blending tank, be equipped with the valve of opening or closing it on the first discharge gate.

Furthermore, first sieving mechanism includes the screening case, establish first screening net in the screening case, the screening incasement has rather than inside communicating second feed inlet and second discharge gate, the second discharge gate is equipped with opens or closes its valve, the screening case is located the below of blending tank, the second feed inlet with first discharge gate communicates with each other.

Further, the ball milling device comprises a support, an outer roller, an inner milling drum and a first driving piece, wherein the inner milling drum is arranged in the outer roller, two ends of the outer roller are rotatably arranged on the support, and the first driving piece is in transmission connection with the outer roller so as to drive the outer roller to rotate; a third feeding port and a third discharging port which are communicated with the interior of the outer roller are arranged on the side wall of the outer roller, and valves for opening or closing the third feeding port and the third discharging port are arranged on the third feeding port and the third discharging port; the outer roller is located under the screening box.

Further, the second screening device comprises a second screening net, and the second screening net is arranged on the third discharge hole.

Furthermore, the outer drum is rotatably arranged on the support through a driving shaft and a driven shaft respectively, one end of the driving shaft and one end of the driven shaft are fixed at one end of the outer drum, the other end of the driving shaft and the other end of the driven shaft are rotatably arranged on the support, and the first driving piece is in transmission connection with the driving shaft.

Furthermore, the first driving part comprises a motor, and a driving end of the motor is in transmission connection with the driving shaft.

Further, a telescopic cylinder is vertically arranged on the second discharge hole, one end of the telescopic cylinder is fixed on the second discharge hole, and the other end of the telescopic cylinder faces downwards vertically.

Further, the stirring subassembly includes stirring rake and second driving piece, the one end of stirring rake is located in the blending tank, the other end passes the blending tank extends its outside with the transmission of second driving piece is connected, the drive of second driving piece the stirring rake rotates.

The utility model discloses a mixed ball-milling equipment of pottery tile base raw materials carries out the prescreening through the raw materials of first sieving mechanism after mixing to mixing arrangement, and the raw material granule that prevents to get into the ball-milling device is too big, influences the final grinding effect.

Drawings

Fig. 1 is a schematic structural diagram of the ceramic tile blank raw material mixing ball-milling device of the utility model.

1. A mixing device; 11. a mixing tank; 111. a first feed port; 112. a first discharge port; 12. a stirring assembly; 121. a stirring paddle; 122. a second driving member; 2. a first screening device; 21. a screening box; 211. a second feed port; 212. a second discharge port; 22. a first screening net; 3. a ball milling device; 31. a support; 32. an outer drum; 321. a third feed inlet; 322. a third discharge port; 33. an inner grinding cylinder; 34. a first driving member; 341. a motor; 4. a second screening device; 41. a second screening net; 5. a drive shaft; 6. a driven shaft; 7. a telescopic cylinder.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1, the utility model discloses a ceramic tile base raw materials mixes ball-milling equipment, include mixing arrangement 1 that mixes the raw materials, carry out the first sieving mechanism 2 of prescreening, the ball-milling device 3 that carries out the ball-milling to the raw materials after prescreening and the second sieving mechanism 4 that sieves the raw materials after the ball-milling to the raw materials after mixing.

The utility model discloses a mixed ball-milling equipment of pottery tile base raw materials carries out the prescreening through the raw materials of first sieving mechanism 2 after mixing arrangement 1, and the raw material granule that prevents to get into ball-milling device 3 is too big, influences the final grinding effect.

The mixing device 1 has various structures, which are not limited herein, in this embodiment, the mixing device 1 may include a mixing tank 11 and a stirring assembly 12 for stirring the materials in the mixing tank 11, the mixing tank 11 is provided with a first feeding hole 111 and a first discharging hole 112 communicated with the interior of the mixing tank 11, the first discharging hole 112 is located at the bottom end of the mixing tank 11, the first discharging hole 112 is provided with a valve for opening or closing the first discharging hole, and after the stirring assembly 12 finishes mixing the materials in the mixing tank 11, the valve is opened to discharge the materials in the mixing tank 11.

The stirring assembly 12 has various structures, which are not limited herein, in this embodiment, the stirring assembly 12 may include a stirring paddle 121 and a second driving member 122, one end of the stirring paddle 121 is located in the mixing tank 11, and the other end of the stirring paddle 121 extends through the mixing tank 11 to the outside thereof and is in transmission connection with the second driving member 122, and the second driving member 122 drives the stirring paddle 121 to rotate. The second driving member 122 may be a motor.

The first screening device 2 has various structures, which are not limited herein, in this embodiment, the first screening device 2 may include a screening box 21, a first screening mesh 22 is disposed in the screening box 21, a second inlet 211 and a second outlet 212 are disposed in the screening box 21 and communicate with the interior of the screening box, the second outlet 212 is provided with a valve for opening or closing the second outlet, the screening box 21 is disposed below the mixing tank 11, and the second inlet 211 communicates with the first outlet 112. After the stirring assembly 12 completely mixes the raw materials in the mixing tank 11, the raw materials are discharged from the first discharge port 112, enter the screening box 21 through the second feed port 211, are primarily screened through the first screening net 22, have a particle size smaller than the pore size of the first screening net 22, and are discharged through the second discharge port 212.

The ball milling device 3 has various structures, which are not limited herein, in this embodiment, the ball milling device 3 may include a bracket 31, an outer roller 32, an inner milling drum 33 and a first driving member 34, the inner milling drum 33 is disposed in the outer roller 32, two ends of the outer roller 32 are rotatably disposed on the bracket 31, and the first driving member 34 is in transmission connection with the outer roller 32 to drive the outer roller 32 to rotate; a third feeding port 321 and a third discharging port 322 communicated with the inside of the outer roller 32 are arranged on the side wall of the outer roller, and valves for opening or closing the third feeding port 321 and the third discharging port 322 are arranged on the third feeding port 321 and the third discharging port 322; the outer drum 32 is located directly below the screen box 21. In the initial state, the third feed port 321 faces upward, and the raw material discharged from the second discharge port 212 enters the outer drum 32 through the third feed port 321, and then the third feed port 321 is closed. The first driving member 34 drives the outer roller 32 to rotate, and the inner grinding drum 33 rolls in the outer roller 32 to grind the raw material. For convenience, the raw material can directly enter the third feeding port 321 from the second discharging port 212, a telescopic cylinder 7 can be vertically arranged on the second discharging port 212, one end of the telescopic cylinder 7 is fixed on the second discharging port 212, and the other end of the telescopic cylinder is vertically downward, so that the second discharging port 212 and the third feeding port 321 can be butted together through the telescopic cylinder 7.

The second screening device 4 can have various configurations, not limited herein, and in an implementable manner, the second screening device 4 can comprise a second screening mesh 41, the second screening mesh 41 being arranged at the third discharge outlet 322. Thus, the valve of the third discharge port 322 may be opened all the time, and after the ball milling device 3 operates for a period of time, the raw material having a particle size smaller than that of the second sieve mesh 41 is discharged from the third discharge port 322.

Wherein, outer cylinder 32 can be respectively through the rotatable setting of driving shaft 5 and driven shaft 6 on support 31, the one end at outer cylinder 32 is fixed to the one end of driving shaft 5 and driven shaft 6, the rotatable setting of the other end is on support 31, first driving piece 34 is connected with the transmission of driving shaft 5, wherein, first driving piece 34 can include motor 341, the drive end and the driving shaft 5 transmission of motor 341 are connected, motor 341 drive driving shaft 5 drives outer cylinder 32 and rotates.

The above is not relevant and is applicable to the prior art.

Although certain specific embodiments of the present invention have been described in detail by way of illustration, it will be understood by those skilled in the art that the foregoing examples are for purposes of illustration only and are not intended to limit the scope of the invention, which is to be construed as broadly as the present invention will suggest themselves to those skilled in the art to which the invention pertains and which is susceptible to various modifications or additions and similar arrangements to the specific embodiments described herein without departing from the scope of the invention as defined in the appended claims. It should be understood by those skilled in the art that any modifications, equivalent substitutions, improvements and the like made to the above embodiments according to the technical spirit of the present invention should be included in the scope of the present invention.

Claims (8)

1. The utility model provides a ceramic tile base raw materials ball-milling equipment that mixes which characterized in that: the device comprises a mixing device (1) for mixing raw materials, a first screening device (2) for primary screening of the mixed raw materials, a ball milling device (3) for ball milling of the primary screened raw materials and a second screening device (4) for screening of the ball milled raw materials; mixing arrangement (1) is including blending tank (11) and be used for the stirring subassembly (12) of material in blending tank (11), blending tank (11) are equipped with rather than inside communicating first feed inlet (111) and first discharge gate (112), first discharge gate (112) are located the bottom of blending tank (11), be equipped with the valve of opening or closing it on first discharge gate (112).

2. The ceramic tile blank raw material mixing ball-milling apparatus according to claim 1, wherein: first sieving mechanism (2) are including screening case (21), establish first screening net (22) in screening case (21), screening case (21) are interior to have rather than communicating second feed inlet (211) of inside and second discharge gate (212), second discharge gate (212) are equipped with the valve of opening or closing it, screening case (21) are located the below of blending tank (11), second feed inlet (211) with first discharge gate (112) communicate with each other.

3. The ceramic tile blank raw material mixing ball-milling apparatus according to claim 2, wherein: the ball milling device (3) comprises a support (31), an outer roller (32), an inner milling drum (33) and a first driving piece (34), wherein the inner milling drum (33) is arranged in the outer roller (32), two ends of the outer roller (32) are rotatably arranged on the support (31), and the first driving piece (34) is in transmission connection with the outer roller (32) to drive the outer roller (32) to rotate; a third feeding port (321) and a third discharging port (322) communicated with the interior of the outer roller (32) are arranged on the side wall of the outer roller, and valves for opening or closing the third feeding port (321) and the third discharging port (322) are arranged on the third feeding port (321) and the third discharging port; the outer drum (32) is located directly below the screening box (21).

4. The ceramic tile blank raw material mixing ball-milling apparatus of claim 3, wherein: the second screening device (4) comprises a second screening net (41), and the second screening net (41) is arranged on the third discharge hole (322).

5. The ceramic tile blank raw material mixing ball-milling apparatus of claim 4, wherein: the outer drum (32) is rotatably arranged on the support (31) through a driving shaft (5) and a driven shaft (6) respectively, one end of the driving shaft (5) and one end of the driven shaft (6) are fixed at one end of the outer drum (32), the other end of the driving shaft is rotatably arranged on the support (31), and the first driving piece (34) is in transmission connection with the driving shaft (5).

6. The ceramic tile blank raw material mixing ball-milling apparatus of claim 5, wherein: the first driving piece (34) comprises a motor (341), and the driving end of the motor (341) is in transmission connection with the driving shaft (5).

7. The ceramic tile blank raw material mixing ball-milling apparatus of claim 3, wherein: and a telescopic cylinder (7) is vertically arranged on the second discharge hole (212), one end of the telescopic cylinder (7) is fixed on the second discharge hole (212), and the other end of the telescopic cylinder is vertically downward.

8. The ceramic tile blank raw material mixing ball-milling apparatus according to any one of claims 1 to 7, wherein: stirring subassembly (12) are including stirring rake (121) and second drive piece (122), the one end of stirring rake (121) is located in blending tank (11), the other end passes blending tank (11) extend its outside with second drive piece (122) transmission is connected, second drive piece (122) drive stirring rake (121) rotate.

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