CN213434920U - Serial-type ceramic ink system of grinding - Google Patents

Abstract

The utility model discloses a serial ceramic ink grinding system, belonging to the technical field of grinding equipment, comprising a sand mill unit, a first stirring barrel and a second stirring barrel which are respectively arranged at two sides of the sand mill unit; the sand mill unit consists of a plurality of mutually communicated sand mills arranged side by side; the device also comprises an upper conveying pipeline which is sequentially connected with the first stirring barrel, the sand mill unit and the second stirring barrel in series and a lower conveying pipeline which is sequentially connected with the second stirring barrel, the sand mill unit and the first stirring barrel in series. This grinding system can make the ceramic ink that is arranged in the agitator of one of them side of sand mill unit grind through each sand mill of sand mill unit in proper order to pump the agitator of opposite side completely after, to ceramic ink reverse pump back again and pass through each sand mill in proper order in order to accomplish next round and grind, through manifold cycles pump send and grind, can make the particle size distribution of colouring material in the ceramic ink that obtains not very wide, guaranteed ceramic ink's result of use.

Description

Serial-type ceramic ink system of grinding

Technical Field

The utility model relates to a grinding device technical field, in particular to serial-type ceramic ink grinding system.

Background

The production of the ceramic ink mainly comprises the following processes: (1) feeding; putting the pigment finished product, a dispersant for ink and a solvent (comprising an organic solvent and a water solvent) into a stirring device together; (2) after the feeding is finished, stirring and dispersing the raw materials in the stirring device; (3) pumping the stirred ceramic ink coarse sample into a sand mill for grinding treatment so as to enable the ceramic ink to meet the requirement of the optimal use fineness of the ink.

The existing ceramic ink stirring and grinding device generally comprises a one-to-one sand mill and a stirring device connected with the sand mill. The stirring device is used for stirring the dispersed ceramic ink, the ceramic ink is conveyed to the sand mill for grinding, the ceramic ink is directly conveyed to the stirring device for continuous stirring after being ground, then enters the sand mill for grinding through the stirring device, and the fineness of the ceramic ink reaches the basic requirement in the circulation mode. However, since the volume of the stirring device is generally large and the ceramic ink in the stirring device cannot be completely transferred to the polishing device for polishing, the ceramic ink in the stirring device includes the ceramic ink polished by the sand mill, and further, the fineness of the ceramic ink in the stirring device varies, and the particle size distribution of the coloring material of the ceramic ink is wide, which easily affects the use effect of the ceramic ink.

It is seen that improvements and enhancements to the prior art are needed.

SUMMERY OF THE UTILITY MODEL

In view of the foregoing prior art's weak point, an object of the utility model is to provide a serial-type ceramic ink grinding system, the ceramic ink fineness that aims at solving and using current ceramic ink stirring, grinder to obtain exists the difference, influences the result of use's of ceramic ink problem.

In order to achieve the purpose, the utility model adopts the following technical proposal:

a serial ceramic ink grinding system comprises a sand mill unit, a first stirring barrel and a second stirring barrel; the sand mill unit consists of a plurality of mutually communicated sand mills; the system also comprises an upper conveying pipeline which is sequentially connected with the first stirring barrel, the sand mill unit and the second stirring barrel in series, and a lower conveying pipeline which is sequentially connected with the second stirring barrel, the sand mill unit and the first stirring barrel in series; and pumping devices for conveying materials to the sand mill are respectively arranged on the upper conveying pipeline and the lower conveying pipeline.

In the serial ceramic ink grinding system, the upper conveying pipeline consists of a plurality of first conveying branch pipes which are respectively used for communicating a first stirring barrel and a sand mill, and adjacent sand mills in a sand mill unit and the sand mill and a second stirring barrel; the lower conveying pipeline consists of a plurality of second conveying branch pipes which are respectively used for communicating the second stirring barrel with the sand mill, and the adjacent sand mill in the sand mill unit, the sand mill and the first stirring barrel; the first conveying branch pipe and the second conveying branch pipe are connected at a feed inlet and a discharge outlet of the sand mill, and a three-way valve is arranged at the connection position; the pumping device is respectively arranged between the first conveying branch pipe and the discharge ports of the first stirring barrel and the second stirring barrel, and between the second conveying branch pipe and the discharge ports of the first stirring barrel and the second stirring barrel.

In the serial ceramic ink grinding system, the three-way valve is an electric control three-way valve.

In the serial ceramic ink grinding system, the discharge ports of the first stirring barrel and the second stirring barrel are respectively provided with a first electromagnetic flowmeter.

In the serial ceramic ink grinding system, a second electromagnetic flow meter is arranged at a discharge port of the sand mill.

The series ceramic ink grinding system comprises a control device, and the three-way valve, the first electromagnetic flowmeter and the second electromagnetic flowmeter are electrically connected with the control device.

In the serial ceramic ink grinding system, the pumping device is a diaphragm pump.

Has the advantages that:

the utility model provides a serial-type ceramic ink grinding system, the sand mill unit of constituteing through setting up the many sand mills of series connection each other, and be provided with the agitator of being connected with the sand mill in the both sides of sand mill unit, simultaneously with the help of circulation pipeline, can make the ceramic ink that is located the agitator of sand mill unit wherein one side grind through each sand mill of sand mill unit in proper order, and pump sending to the agitator of opposite side completely after, reverse pumpback of ceramic ink again and through each sand mill in proper order in order to accomplish next round of grinding, pump sending and grind ceramic ink through many times circulation, reduce the particle size distribution of colouring material in the ceramic ink, ceramic ink's result of use has been guaranteed.

Drawings

Fig. 1 is a schematic structural view of a serial ceramic ink polishing system provided by the present invention.

Fig. 2 is an enlarged schematic view of a portion a of fig. 1.

Fig. 3 is an enlarged schematic view of a portion B in fig. 1.

Fig. 4 is an enlarged schematic view of a portion C in fig. 1.

Fig. 5 is a schematic view of the installation of the ascending conveying pipeline.

Fig. 6 is a schematic view of the installation of the descending conveying pipeline.

Description of the main element symbols:

1-a sand mill; 2-a first mixing tank; 3-a second stirring barrel; 4-an upper conveying pipeline; 40-a first delivery leg; 5-a lower conveying pipeline; 50-a second delivery leg; 6-three-way valve; 7-pumping device; 8-a first electromagnetic flow meter; 9-second electromagnetic flowmeter.

Detailed Description

The utility model provides a serial-type ceramic ink grinding system, for making the utility model discloses a purpose, technical scheme and effect are clearer, clear and definite, and it is right that the following refers to the drawing and the embodiment is lifted the utility model discloses further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

In the description of the present invention, "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more.

Referring to fig. 1 to 6, the present invention provides a serial ceramic ink grinding system, which comprises a sand mill unit, and a first stirring barrel 2 and a second stirring barrel 3 respectively disposed at two sides of the sand mill unit; the sand mill unit consists of a plurality of mutually communicated sand mills 1 which are arranged side by side; further, the device also comprises an upper conveying pipeline 4 which is sequentially connected with the first stirring barrel 2, the sand mill unit and the second stirring barrel 3 in series, and a lower conveying pipeline 5 which is sequentially connected with the second stirring barrel 3, the sand mill unit and the first stirring barrel 2 in series; the upper conveying pipeline consists of a plurality of first conveying branch pipes 40 which are respectively used for communicating the first stirring barrel 2 with the sand mill 1, and the adjacent sand mill 1 in the sand mill unit, the sand mill 1 and the second stirring barrel 3; the lower conveying pipeline consists of a plurality of second conveying branch pipes 50 which are respectively used for communicating the second stirring barrel 3 with the sand mill 1, and the adjacent sand mill 1, the sand mill 1 and the first stirring barrel 2 in the sand mill unit; the first conveying branch pipe 40 and the second conveying branch pipe 50 are connected at a feed inlet and a discharge outlet of the sand mill 1, and a three-way valve 6 is arranged at the connection position; and pumping devices 7 are connected between the first conveying branch pipe 40 and the second conveying branch pipe 50 and the discharge ports of the first stirring barrel 2 and the second stirring barrel 3.

Wherein the pumping device 7 is a diaphragm pump.

Before the ceramic ink is ground, a main coloring material (finished coloring material) of the ceramic ink, a dispersant for ink, a solvent, and the like may be put into the first stirring tank 2 or the second stirring tank 3. In the present embodiment, the first agitating vessel 2 is introduced as an example, and the operation principle will be described. When the first stirring barrel 2 is stirred and dispersed with ceramic ink, in order to grind the ceramic ink in the first stirring barrel 2, an operator firstly adjusts the three-way valve 6 to keep the communication between each first conveying branch pipe 40 and the first stirring barrel 2, the sand mill 1 and the second stirring barrel 3. Then, the operating personnel simultaneously open the diaphragm pumps on the sand mills 1 of the sand mill unit, the first conveying branch pipe 40 communicated with the feed inlet of the sand mill 1 at the front end of the sand mill unit and the diaphragm pump on the first conveying branch pipe 40 communicated with the discharge outlet of the sand mill 1 at the rear end of the sand mill unit. At this time, the ceramic ink in the first stirring barrel 2 is pumped to the sand mill unit, and is sequentially ground by the sand mills 1, and is finally pumped to the second stirring barrel 3, and when the ceramic ink in the first stirring barrel 2 is completely ground by the sand mills 1 and is pumped to the second stirring barrel 3, the first round grinding of the ceramic ink is completed.

If the fineness of the ceramic ink reaches the use requirement after the first round of grinding is finished, the ceramic ink is not ground; if accomplish the first round and grind the back, the fineness of ceramic ink does not reach the user demand and makes, and the operation personnel adjust three-way valve 6 once more, make each first branch of carrying 40 and first agitator 2, sand mill 1 and second agitator 3 all unable intercommunication, and make second branch of carrying 50 and second agitator 3, sand mill 1 and first agitator 2 all keep the intercommunication. Then, the diaphragm pumps on the sand mills 1 of the sand mill unit, the second conveying branch pipe 50 communicated with the feed inlet of the sand mill 1 at the rear end of the sand mill unit and the diaphragm pump on the second conveying branch pipe 50 communicated with the discharge outlet of the sand mill 1 at the front end of the sand mill unit are simultaneously opened. At this time, the ceramic ink in the second stirring barrel 3 is reversely pumped back into the first stirring barrel 2, and the ceramic ink can also sequentially pass through the sand mills 1 of the sand mill unit in the pumping process. And the ceramic ink is pumped and ground for multiple times of circulation, so that the fineness of the ground ceramic ink can meet the use requirement. Meanwhile, the grinding system grinds the ceramic ink in the stirring barrel in the next round after the ceramic ink is completely ground, so that the particle size distribution of coloring substances in the ceramic ink is not wide, and the effect of the ceramic ink after use can be ensured.

In this embodiment, the number of the sand mills 1 of the sand mill unit can be set according to the fineness requirement required by the use of the ceramic ink, so that the problem that the ceramic ink is too fine to grind after passing through each grinding machine in sequence due to too many number of the sand mills 1 is avoided.

Preferably, the three-way valve 6 is an electrically controlled three-way valve 6.

Further, the discharge ports of the first stirring barrel 2 and the second stirring barrel 3 are respectively provided with a first electromagnetic flowmeter 8.

Further, a discharge hole of the sand mill 1 is provided with a second electromagnetic flow meter 9.

Further, the device comprises a control device, and the three-way valve 6, the pumping device 7, the first electromagnetic flow meter 8 and the second electromagnetic flow meter 9 are electrically connected with the control device.

In the above embodiment, the operator can adjust the three-way valve 6 through the control device without manual adjustment, thereby improving the production efficiency. Meanwhile, a control program is pre-programmed in the control device, when the first electromagnetic flowmeter 8 detects that the flow is zero, the ceramic ink in the stirring barrel is completely pumped, at the moment, the first electromagnetic flowmeter feeds back the detection result to the control device, and the control device closes the stirring barrel through the control program, so that the no-load condition of the stirring barrel is avoided for a long time. Simultaneously, ceramic ink in the agitator is pumped and is sent the back that finishes, and the no material condition can appear in proper order in the sand mill 1 of sand mill unit, sets up second electromagnetic flowmeter 9 through the discharge gate at sand mill 1, can appear the condition of no material in sand mill 1 and in time close sand mill 1, avoids the high-speed collision grinding storehouse body of grinding medium to produce huge heat and influences the problem of 1 normal use of sand mill.

To sum up, the utility model discloses a set up the sand mill unit that many sand mills of series connection each other constitute to be provided with the agitator of being connected with the sand mill in the both sides of sand mill unit, simultaneously with the help of circulation pipeline, can make the ceramic ink that is located the agitator of one of them side of sand mill unit grind through each sand mill of sand mill unit in proper order, and take out completely behind the agitator of opposite side, take out ceramic ink backward again and pass through each sand mill in proper order in order to accomplish next round and grind, take out and grind ceramic ink through many times circulation, can make the particle size distribution of colouring material in the ceramic ink that obtains can not be very wide, ceramic ink's result of use has been guaranteed.

It should be understood that equivalent alterations and modifications can be made by those skilled in the art according to the technical solution of the present invention and the inventive concept thereof, and all such alterations and modifications should fall within the scope of the appended claims.

Claims (7)

1. A serial ceramic ink grinding system comprises a sand mill unit, a first stirring barrel and a second stirring barrel; the sand mill unit consists of a plurality of mutually communicated sand mills; the device is characterized by also comprising an upper conveying pipeline which is sequentially connected with the first stirring barrel, the sand mill unit and the second stirring barrel in series and a lower conveying pipeline which is sequentially connected with the second stirring barrel, the sand mill unit and the first stirring barrel in series; and pumping devices for conveying materials to the sand mill are respectively arranged on the upper conveying pipeline and the lower conveying pipeline.

2. The in-line ceramic ink grinding system of claim 1, wherein the feeding pipeline is composed of a plurality of first conveying branch pipes for communicating the first mixing tank and the sand mill, the adjacent sand mill in the sand mill unit and the sand mill and the second mixing tank, respectively; the lower conveying pipeline consists of a plurality of second conveying branch pipes which are respectively used for communicating the second stirring barrel with the sand mill, and the adjacent sand mill in the sand mill unit, the sand mill and the first stirring barrel; the first conveying branch pipe and the second conveying branch pipe are connected at a feed inlet and a discharge outlet of the sand mill, and a three-way valve is arranged at the connection position; the pumping device is respectively arranged between the first conveying branch pipe and the discharge ports of the first stirring barrel and the second stirring barrel, and between the second conveying branch pipe and the discharge ports of the first stirring barrel and the second stirring barrel.

3. The in-line ceramic ink grinding system of claim 2, wherein the three-way valve is an electrically controlled three-way valve.

4. The in-line ceramic ink grinding system of claim 3, wherein the discharge ports of the first and second mixing barrels are each provided with a first electromagnetic flow meter.

5. The in-line ceramic ink grinding system of claim 4, wherein the discharge port of the sander is provided with a second electromagnetic flow meter.

6. The in-line ceramic ink mill system of claim 5 further comprising a control device, the three-way valve, the first electromagnetic flow meter, and the second electromagnetic flow meter being electrically connected to the control device.

7. The in-line ceramic ink grinding system of claim 1, wherein the pumping device is a diaphragm pump.

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