CN219187259U - High-efficient tandem grinding dispersion device - Google Patents

Abstract

The utility model discloses a high-efficiency serial grinding and dispersing device which comprises a dispersing box, wherein a material guiding frame is arranged on the outer wall of one side of the dispersing box, a connecting rod is fixed on the inner wall of the dispersing box, a movable frame is connected to the outer wall of the connecting rod in a sliding manner, a vibrating mechanism is arranged on the outer wall of the movable frame, a screen is arranged on the outer wall of the bottom of the movable frame, a supporting partition plate is fixed on the inner wall of the bottom of the dispersing box, the outer wall of the bottom of the movable frame is connected to the outer wall of the top of the supporting partition plate in a sliding manner, a second sorting pipe and a first sorting pipe are arranged on the outer wall of one side of the dispersing box, a material guiding pipe is arranged on the outer wall of one side of the material guiding frame, a sand mill is arranged on the outer wall of one side of the material guiding pipe, a screw conveyer is arranged on the outer wall of one side of the sand mill, and a feed inlet is arranged on the outer wall of the top of the screw conveyer. The utility model can keep the granularity of the ground raw materials discharged through the second separating pipe relatively consistent, and improve the quality of the color paste prepared from the ground raw materials.

Description

High-efficient tandem grinding dispersion device

Technical Field

The utility model relates to the technical field of grinding and dispersing devices, in particular to a high-efficiency serial grinding and dispersing device.

Background

The aqueous color paste is a concentrated pigment paste which is formed by wetting and dispersing organic or inorganic pigment under the action of a surfactant and has certain fluidity or thixotropic fluidity and stronger coloring strength, and the quality of the color paste is directly determined by grinding raw materials such as pigment, resin and the like in the color paste production process.

Through retrieving, chinese patent application number is CN202221087187. X's patent discloses a high-efficient grinding dispersion devices of organic pigment, including spraying the cooling shell, the inside that sprays the cooling shell is provided with the grinding dispersion room, the upper end surface that sprays the cooling shell is provided with the feeder hopper, one side surface that grinds the dispersion room is provided with the discharge gate, but above-mentioned technical scheme is because only grind the raw materials through the lapping rod, do not set up corresponding granule and disperse selection mechanism, thereby lead to the raw materials granule particle size after grinding uneven easily, consequently still there is the raw materials particle size after can't guaranteeing grinding relatively even, thereby lead to the mill base quality problem that the raw materials that grinds out made.

Disclosure of Invention

The utility model aims to solve the defects in the prior art and provides a high-efficiency serial grinding and dispersing device.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a high-efficient tandem mill dispersing device, includes the dispersion case, dispersion case one side outer wall is provided with the guide frame, dispersion case inner wall is fixed with the connecting rod, connecting rod outer wall sliding connection has the movable frame, the movable frame outer wall is provided with vibration mechanism, movable frame bottom outer wall is provided with the screen cloth, dispersion case bottom inner wall is fixed with the support division board, movable frame bottom outer wall sliding connection is on the top outer wall that supports the division board, dispersion case one side outer wall is provided with second sorting pipe and first sorting pipe, second sorting pipe and first sorting pipe one side outer wall are provided with dispersion feeding mechanism.

As still further aspects of the utility model: the outer wall of one side of the material guiding frame is provided with a material guiding pipe, the outer wall of one side of the material guiding pipe is provided with a sand mill, the outer wall of one side of the sand mill is provided with an auger conveyor, and the outer wall of the top of the auger conveyor is provided with a feed inlet.

As still further aspects of the utility model: and a control panel is fixed on the outer wall of one side of the sand mill, and the auger conveyor and the sand mill are respectively and electrically connected with the control panel.

As still further aspects of the utility model: the vibration mechanism comprises a vibration motor and springs, wherein the vibration motor is fixed on one side inner wall of the movable frame, the springs are respectively fixed on two side outer walls of the movable frame, and the vibration motor is electrically connected with the control panel.

As still further aspects of the utility model: the dispersing feeding mechanism comprises a first three-way valve, a first material conveying pump, a second three-way valve, a transfer pipe, a transfer box, a second material conveying pump, a return pipe and a discharge pipe, wherein the first three-way valve is connected to one side outer wall of the second sorting pipe and one side outer wall of the first sorting pipe through pipelines, the first material conveying pump is connected to one side outer wall of the first three-way valve through pipelines, the second three-way valve is connected to one side outer wall of the first material conveying pump through pipelines, the transfer box is arranged on one side outer wall of the transfer pipe, the second material conveying pump is arranged on the top outer wall of the transfer box, the return pipe is arranged on the output end of the second material conveying pump, one side outer wall of the return pipe penetrates through one side outer wall of the feed inlet, and the second material conveying pump, the second three-way valve, the first material conveying pump and the first three-way valve are respectively electrically connected with the control panel.

As still further aspects of the utility model: and an inclined receiving plate is fixed on the inner wall of the dispersing box.

As still further aspects of the utility model: a shielding frame is fixed on the inner wall of one side of the dispersion tank.

As still further aspects of the utility model: and a sweeping brush is fixed on the outer wall of the bottom of the connecting rod.

The beneficial effects of the utility model are as follows:

1. the raw materials that the granularity is suitable or less can drop to support division board one side through the screen cloth, the great raw materials of granularity can roll to support division board opposite side from the screen cloth that shakes that returns to disperse to the raw materials of different granularities after grinding, disperse feeding mechanism and send out the raw materials that supplies the staff to retrieve through the second sorting pipe afterwards with the appropriate and less raw materials of granularity, disperse feeding mechanism sends back the feed inlet again with the raw materials that the granularity is great through first sorting pipe afterwards, let the sand mill continue to grind the raw materials that the granularity is great, through the series connection and the circulation of above-mentioned step, can let the raw materials granularity after grinding through the discharge of second sorting pipe keep unanimous relatively, thereby improve the quality that the mill is made to the raw materials after grinding.

2. The vibrating motor can drive the movable frame to shake when vibrating, and the movable frame rocks about the direction of connecting rod, and the spring of movable frame both sides can cushion the movable frame in rocking back and forth, improves the effect that the movable frame rocked back and forth simultaneously with the help of self elasticity to the screen cloth that lets movable frame bottom can be better sieves the raw materials at top.

3. When the vibrating mechanism drives the movable frame to shake back and forth, the sweeping brush positioned at the bottom of the connecting rod can retrace at the top of the screen, so that the raw materials retained on the screen are pushed, the raw materials are prevented from forming caking on the surface of the screen, or are blocked in the holes of the screen, and the screening efficiency of the dispersing device on the raw materials is improved.

Drawings

FIG. 1 is a schematic diagram of a front view of a high-efficiency tandem grinding and dispersing device according to the present utility model;

FIG. 2 is a schematic side view of a high-efficiency tandem mill dispersing device according to the present utility model;

FIG. 3 is a schematic diagram of the internal structure of a dispersing tank of the high-efficiency tandem grinding dispersing device according to the present utility model;

FIG. 4 is a schematic diagram of a movable frame structure of a high-efficiency tandem grinding and dispersing device according to the present utility model;

fig. 5 is a schematic diagram of a connecting rod structure of a high-efficiency tandem grinding and dispersing device according to the present utility model.

In the figure: 1-dispersion tank, 2-auger conveyer, 3-sand mill, 4-passage, 5-guide frame, 6-back flow, 7-feed inlet, 8-control panel, 9-transfer pipe, 10-shielding frame, 11-sweep the material brush, 12-first three-way valve, 13-first delivery pump, 14-second three-way valve, 15-discharging pipe, 16-transfer tank, 17-second delivery pump, 18-movable frame, 19-supporting division board, 20-inclined material receiving board, 21-vibrating motor, 22-connecting rod, 23-spring, 24-first sorting pipe, 25-second sorting pipe, 26-screen cloth.

Detailed Description

The technical scheme of the patent is further described in detail below with reference to the specific embodiments.

Embodiments of the present patent are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for explaining the present patent and are not to be construed as limiting the present patent.

Example 1

1-5, including dispersion tank 1, dispersion tank 1 one side outer wall is provided with guide frame 5, dispersion tank 1 inner wall has connecting rod 22 through the screw fixation, connecting rod 22 outer wall sliding connection has movable frame 18, movable frame 18 outer wall is provided with vibration mechanism, movable frame 18 bottom outer wall is provided with screen cloth 26, dispersion tank 1 bottom inner wall is fixed with support division board 19, movable frame 18 bottom outer wall sliding connection is on support division board 19's top outer wall, dispersion tank 1 one side outer wall is provided with second sorting pipe 25 and first sorting pipe 24, second sorting pipe 25 and first sorting pipe 24 one side outer wall are provided with dispersion feeding mechanism; the outer wall of one side of the material guiding frame 5 is provided with a material guiding pipe 4, the outer wall of one side of the material guiding pipe 4 is provided with a sand mill 3, the outer wall of one side of the sand mill 3 is provided with an auger conveyor 2, and the outer wall of the top of the auger conveyor 2 is provided with a feed inlet 7; the outer wall of one side of the sand mill 3 is fixed with a control panel 8 through screws, and the auger conveyor 2 and the sand mill 3 are respectively and electrically connected with the control panel 8.

The raw materials with proper or smaller granularity can fall to one side of the supporting partition plate 19 through the screen 26, the raw materials with larger granularity can fall to the other side of the supporting partition plate 19 from the back-shaking screen 26, so that the raw materials with different granularities after grinding are dispersed, then the raw materials with proper granularity and smaller granularity are sent out by the dispersing feeding mechanism through the second sorting pipe 25 for being recycled by workers, and then the raw materials with larger granularity are sent back to the feed inlet 7 again by the dispersing feeding mechanism through the first sorting pipe 24, so that the sand mill 3 can continuously grind the raw materials with larger granularity, and the granularity of the ground raw materials discharged through the second sorting pipe 25 can be relatively consistent through the series connection and circulation of the steps, so that the quality of color paste made from the ground raw materials is improved.

As shown in fig. 3-5, the vibration mechanism includes a vibration motor 21 and a spring 23, the vibration motor 21 is fixed on one side inner wall of the movable frame 18 by a screw, the spring 23 is respectively fixed on two side outer walls of the movable frame 18, and the vibration motor 21 is electrically connected with the control panel 8; the control panel 8 controls the vibration motor 21 to run, and the vibration motor 21 can drive the movable frame 18 to rock when vibrating, and the movable frame 18 rocks about under the direction of connecting rod 22, and the spring 23 of movable frame 18 both sides can cushion the movable frame 18 in rocking back and forth, improves the effect that the movable frame 18 rocked back and forth simultaneously with the help of self elasticity to the screen cloth 26 that lets the movable frame 18 bottom can be better carries out the screening to the raw materials at top.

As shown in fig. 2 and 5, the dispersion feeding mechanism includes a first three-way valve 12, a first feeding pump 13, a second three-way valve 14, a transfer tube 9, a transfer box 16, a second feeding pump 17, a return tube 6 and a discharge tube 15, wherein the first three-way valve 12 is connected to one side outer wall of the second sorting tube 25 and the first sorting tube 24 through a pipeline, the first feeding pump 13 is connected to one side outer wall of the first three-way valve 12 through a pipeline, the second three-way valve 14 is connected to one side outer wall of the first feeding pump 13 through a pipeline, the transfer tube 9 and the discharge tube 15 are respectively connected to one side outer wall of the second three-way valve 14, the transfer box 16 is arranged on one side outer wall of the transfer box 9, the second feeding pump 17 is arranged on the top outer wall of the transfer box 16, the return tube 6 is arranged on the output end of the second feeding pump 17, one side outer wall of the return tube 6 penetrates one side outer wall of the feed inlet 7, and the second feeding pump 17, the second feeding pump 14, the second three-way valve 14, the first feeding pump 13 and the first three-way valve 12 are respectively electrically connected to the control panel 8; the operator controls the first three-way valve 12 and the second three-way valve 14 to close the valve port connecting the transfer tube 9 and the first sorting tube 24 through the control panel 8, then controls the first material conveying pump 13 to operate, so that raw materials with proper granularity and smaller granularity on one side of the supporting partition plate 19 are pumped out through the discharging tube 15, then controls the first three-way valve 12 and the second three-way valve 14 to close the valve port connecting the second sorting tube 25 and the discharging tube 15, controls the valve port connecting the transfer tube 9 and the first sorting tube 24 to open, then controls the first material conveying pump 13 and the second material conveying pump 17 to operate, the first material conveying pump 13 conveys raw materials with larger granularity into the transfer box 16 through the transfer tube 9 for temporary storage, and then the second material conveying pump 17 conveys raw materials with smaller granularity inside the transfer box 16 into the feed port 7 through the return tube 6, so that the raw materials with larger granularity return to the inside the sand mill 3 for grinding again.

As shown in fig. 3-4, an inclined receiving plate 20 is fixed on the inner wall of the dispersion tank 1; the inclined receiving plate 20 guides the raw materials screened through the screen 26 so that the raw materials can be gathered at one side of the supporting partition plate 19, and thus can be conveniently drawn out of the dispersing tank 1 through the second separation pipe 25.

As shown in fig. 3-4, a shielding frame 10 is fixed on the inner wall of one side of the dispersion tank 1; the shielding frame 10 can shield the material guiding frame 5 extending into the inner wall of the dispersing box 1, so that the raw materials discharged through the material guiding frame 5 can accurately fall on the top of the screen 26.

Working principle: the staff pours the raw materials that need grind into auger conveyer 2 inside through feed inlet 7, then auger conveyer 2 carries these raw materials to the inside grinding of sand mill 3, the raw materials that grind out is sent into guide frame 5 inside through guide pipe 4, then drop into dispersion case 1 inside through guide frame 5, this moment control panel 8 control movable frame 18 outer wall's vibration mechanism operation, drive movable frame 18 whole and make a round trip to rock about connecting rod 22 outer wall, the raw materials that drop onto screen cloth 26 through guide frame 5 sieves, the raw materials that the granularity is suitable or less can drop to one side of supporting division board 19 through screen cloth 26, and the raw materials that the granularity is great can roll from back on the screen cloth 26 that rocks and support division board 19 opposite side, then dispersion feeding mechanism is through second sorting pipe 25 with the raw materials that the granularity is suitable and the granularity is less send out for the staff to retrieve, then dispersion feeding mechanism is again sent back feed inlet 7 through first sorting pipe 24 with the raw materials that the granularity is great, thereby let sand mill 3 continue grinding the raw materials that the granularity is great.

The control panel 8 controls the vibration motor 21 to run, and the vibration motor 21 drives the movable frame 18 to shake when vibrating, the movable frame 18 shakes left and right under the guide of the connecting rod 22, and springs 23 on two sides of the movable frame 18 can buffer the movable frame 18 in shaking back and forth.

Example 2

As shown in fig. 4-5, the following modifications were made on the basis of example 1: the outer wall of the bottom of the connecting rod 22 is fixed with a sweeping brush 11 through screws; when the vibration mechanism drives the movable frame 18 to shake back and forth, the sweeping brush 11 positioned at the bottom of the connecting rod 22 can retrace at the top of the screen 26, so that raw materials retained on the screen 26 are pushed, caking of the raw materials on the surface of the screen 26 is avoided, or the raw materials are blocked in the holes of the screen 26, and the screening efficiency of the dispersing device on the raw materials is improved.

Working principle: when the vibration mechanism drives the movable frame 18 to shake back and forth, the sweeping brush 11 positioned at the bottom of the connecting rod 22 can retrace on the top of the screen 26.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (8)

1. The utility model provides a high-efficient tandem mill dispersing device, includes dispersion case (1), a serial communication port, dispersion case (1) one side outer wall is provided with guide frame (5), dispersion case (1) inner wall is fixed with connecting rod (22), connecting rod (22) outer wall sliding connection has movable frame (18), movable frame (18) outer wall is provided with vibration mechanism, movable frame (18) bottom outer wall is provided with screen cloth (26), dispersion case (1) bottom inner wall is fixed with supports division board (19), movable frame (18) bottom outer wall sliding connection is on the top outer wall that supports division board (19), dispersion case (1) one side outer wall is provided with second sorting pipe (25) and first sorting pipe (24), second sorting pipe (25) and first sorting pipe (24) one side outer wall are provided with dispersion feeding mechanism.

2. The efficient serial grinding and dispersing device according to claim 1, wherein a material guiding pipe (4) is arranged on the outer wall of one side of the material guiding frame (5), a sand mill (3) is arranged on the outer wall of one side of the material guiding pipe (4), an auger conveyor (2) is arranged on the outer wall of one side of the sand mill (3), and a feeding port (7) is arranged on the outer wall of the top of the auger conveyor (2).

3. The efficient serial grinding and dispersing device according to claim 2, wherein a control panel (8) is fixed on the outer wall of one side of the sand mill (3), and the auger conveyor (2) and the sand mill (3) are respectively and electrically connected with the control panel (8).

4. The efficient serial grinding and dispersing device according to claim 1, wherein the vibration mechanism comprises a vibration motor (21) and springs (23), the vibration motor (21) is fixed on one side inner wall of the movable frame (18), the springs (23) are respectively fixed on two side outer walls of the movable frame (18), and the vibration motor (21) is electrically connected with the control panel (8).

5. The efficient serial grinding and dispersing device according to claim 1, wherein the dispersing and feeding mechanism comprises a first three-way valve (12), a first material conveying pump (13), a second three-way valve (14), a transfer pipe (9), a transfer box (16), a second material conveying pump (17), a return pipe (6) and a discharge pipe (15), the first three-way valve (12) is connected to one side outer wall of the second sorting pipe (25) and the first sorting pipe (24) through pipelines, the first material conveying pump (13) is connected to one side outer wall of the first three-way valve (12) through pipelines, the second three-way valve (14) is connected to one side outer wall of the first material conveying pump (13) through pipelines, the transfer pipe (9) and the discharge pipe (15) are respectively connected to one side outer wall of the second three-way valve (14), the transfer box (16) is arranged on one side outer wall of the transfer pipe (9), the second material conveying pump (17) is arranged on the top outer wall of the transfer box (16), the second material conveying pump (6) is arranged on one side outer wall of the second material conveying pump (17), the return pipe (17) is connected to one side outer wall of the first three-way valve (8) through pipelines, and the first three-way valve (7) is connected to one side outer wall of the second material conveying pump (7) through pipelines.

6. The efficient serial grinding and dispersing device according to claim 1, wherein an inclined material connecting plate (20) is fixed on the inner wall of the dispersing box (1).

7. The efficient serial grinding and dispersing device according to claim 6, wherein a shielding frame (10) is fixed on the inner wall of one side of the dispersing box (1).

8. The efficient serial grinding and dispersing device according to claim 1, wherein a sweeping brush (11) is fixed on the outer wall of the bottom of the connecting rod (22).

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