CN216366963U - High-precision filter particle size control device for ceramic color glaze production - Google Patents

Abstract

The utility model relates to the technical field of ceramic color glaze, in particular to a high-precision filtering particle size control device for the production of ceramic color glaze. The filter assembly has the function of moving up and down, wherein the filter assembly is located on the upper side of the inner end of the control device body, the inner end side of the control device body is provided with a first filter plate connected by a snap connection, and one end of the control device body is provided on one side. A motor shaft connected by a rotating shaft, wherein the lower end of the motor shaft is provided with a transmission gear connected by screws, and an inner slot is formed on the inner end side of the control device body, wherein the inner end side of the inner slot is evenly placed with interference blocks. Through the arrangement of the present invention, the accommodating frame and the movable top plate can be used, and the ceramic colored glaze can be prevented from entering the interior of the distance increasing groove.

Description

High-precision filter particle size control device for ceramic color glaze production

technical field

The utility model relates to the technical field of ceramic color glaze, in particular to a high-precision filtering particle size control device for the production of ceramic color glaze.

Background technique

Ceramic color glaze is an indispensable material for every ceramic product. In addition to the ceramic products with obvious glaze marks on the surface, the unglazed ceramic products also generally use the body color, so the ceramic color glaze is generally used. It is an indispensable material for a ceramic product. At the same time, the current ceramic color glaze needs to be filtered with high precision during the production process.

The high-precision filter device used in the current ceramic color glaze uses a single-layer filter screen to vibrate to achieve the purpose of filtering the ceramic color glaze, but this filtering method will cause the single-layer filter screen to filter slowly, and it is easy to Blockage occurs.

SUMMARY OF THE INVENTION

The purpose of the utility model is to provide a high-precision filter particle size control device for the production of ceramic color glazes. The utility model realizes double-type and decreasing filtering through the filter screen moving up and down with the existing vibration filter screen, so as to solve the problems proposed in the above background technology. question.

In order to achieve the above purpose, the utility model provides the following technical solutions: a high-precision filter particle size control device for the production of ceramic color glazes, the filter assembly has a function of moving up and down, wherein the filter assembly is located on the upper side of the inner end of the control device body, the One end of the control device body is provided with a first filter plate connected by a snap connection, one end of the control device body is provided with a motor shaft connected with a rotating shaft, and a drive gear connected by screws is provided at the lower end of the motor shaft, and the inner part of the control device body is provided. One side of the end is provided with an inner card slot, wherein the inner side of the inner end of the inner card slot is evenly placed with a resistance block.

Preferably, the cross-sectional shape of the interference blocks is a semicircle, wherein the number of groups of the interference blocks is four, the angle between the adjacent interference blocks is 90 degrees, and the interference blocks are connected by snaps on the control unit body.

Preferably, the filter assembly includes a distance-increasing slot, a second filter plate, and extending external teeth, wherein the distance-increasing slot is opened on the upper side of the inner end of the control device body, and the second filter plate is located at the inner end of the distance-increasing slot. On one side, the second filter plate is located below the first filter plate, the extended outer teeth are located at the outer end of the second filter plate, and the extended outer teeth and the second filter plate are integrally formed.

Preferably, an accommodating frame connected with screws is provided on the upper end side of the second filter plate, wherein the accommodating frame is arranged in a U-shape, and the accommodating frame is located outside the inner end of the distance increasing slot.

Preferably, the inner end of the accommodating frame is provided with a snap-connected elastic support rod, wherein the upper end of the elastic support rod is provided with a screw-connected movable top plate, and one end of the movable ceiling is located inside the accommodating frame.

Preferably, a rotating clamping rod is arranged through one side of the inner end of the inner clamping slot, wherein the upper end of the rotating clamping rod is provided with a second filter plate connected with screws, and one end of the rotating clamping rod is provided with an integrally formed dislocation rod, wherein the dislocation rod is disposed on one side. The rod is located on the inner end side of the inner card slot.

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

1. Through the setting of the present utility, the second filter plate can be moved up and down at the lower end of the first filter plate, so that the ceramic color glaze can be filtered by the mutual cooperation of the two filter plates. Avoid the phenomenon of slow filtration of a single filter plate, and at the same time increase the filtration quality of the ceramic color glaze;

2. Through the arrangement of the utility model, the accommodating frame and the movable top plate can be used, which can prevent the ceramic colored glaze from entering the interior of the distance increasing groove.

Description of drawings

1 is a schematic diagram of the three-dimensional structure of the present utility model;

Fig. 2 is a schematic diagram of a half-section right side view of the control device body of the present invention;

3 is a half-cut perspective schematic diagram of the second filter plate of the present invention;

FIG. 4 is an enlarged schematic diagram of the position A in FIG. 2 of the present utility model.

In the figure: 1, the control device body; 101, the distance extension slot; 102, the second filter plate; 103, the extended external teeth; 104, the accommodating frame; ; 12, motor shaft; 13, transmission gear; 14, inner card slot; 1401, rotating clamping rod; 1402, dislocation rod; 15, conflicting block.

Detailed ways

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. Obviously, the described embodiments are only a part of the embodiments of the present utility model, rather than all the implementations. example. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative work fall within the protection scope of the present invention.

Please refer to FIG. 1 to FIG. 4 , the present invention provides a technical solution: comprising a control device body 1 with dual filter assemblies, the filter assembly has a function of moving up and down, wherein the filter assembly is located on the upper side of the inner end of the control device body 1, and controls One side of the inner end of the device body 1 is provided with a first filter plate 11 connected by a snap connection, one end of the control device body 1 is provided with a motor shaft 12 connected by a rotating shaft, the motor shaft 12 is connected to an external motor, and the lower end of the motor shaft 12 is provided with a screw connection. 13. An inner card slot 14 is provided on the inner end side of the control device body 1, and a rotating clamping rod 1401 is arranged through the inner end side of the inner clamping groove 14. The upper end of the rotating clamping rod 1401 is provided with a second filter plate 102 connected by screws, and the rotation One end of the clamping rod 1401 is provided with an integrally formed dislocation rod 1402 , wherein the dislocation rod 1402 is located on the inner end side of the inner clamping slot 14 , wherein the inner clamping slot 14 is evenly placed on one side of the inner end with the interference block 15 . The cross-sectional shape is a semicircle, the number of groups of the interference blocks 15 is four, and the angle between the adjacent interference blocks 15 is 90 degrees.

A through slot is formed through the upper end of the control device body 1, and the transmission gear 13 can engage and arrange the extended external teeth 103 by means of the through slot, and then the motor shaft 12 can drive the first filter plate 102 to rotate. In addition, the height of the transmission gear 13 is greater than The external teeth 103 are extended so that the extended external teeth 103 can move up and down.

The filter holes of the first filter plate 11 are larger than those of the second filter plate 102 , wherein the diameter of the filter holes of the second filter plate 102 is 2 mm.

The filter assembly includes a distance-increasing slot 101 , a second filter plate 102 , and extending external teeth 103 , wherein the distance-increasing slot 101 is opened on the upper side of the inner end of the control device body 1 , and the second filter plate 102 is located at the inner end of the distance-increasing slot 101 . On one side, the second filter plate 102 is located below the first filter plate 11 , and the extended outer teeth 103 are located at the outer end of the second filter plate 102 , wherein the extended outer teeth 103 and the second filter plate 102 are integrally formed. , the upper end side of the second filter plate 102 is provided with a screw-connected accommodating frame 104, wherein the accommodating frame 104 is arranged in a U-shape, the accommodating frame 104 is located outside the inner end of the distance increasing slot 101, and the inner end of the accommodating frame 104 is arranged on the middle side A snap-connected elastic support rod 105 , wherein the upper end of the elastic support rod 105 is provided with a screw-connected movable top plate 106 , and one end of the movable top board 106 is located inside the accommodating frame 104 .

The dislocation rod 1402 and the interference block 15 are arranged in a dislocation position, and at the same time, the interference block 15 can interfere with the dislocation rod 1402 , so that the second filter plate 102 moves upward.

The motor shaft 12 uses the transmission gear 13 and the extended outer teeth 103 to drive the second filter plate 102 to rotate. At this time, the rotating clamping rod 1401 rotates inside the inner clamping slot 14. At this time, the contact block 15 can push the dislocation rod 1402, and then The second filter plate 102 can move upward, and at the same time, the elastic support rod 105 is deformed, and the movable top plate 106 abuts against the control device body 1 .

Although the embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes and modifications can be made to these embodiments without departing from the principles and spirit of the present invention , alternatives and modifications, the scope of the present invention is defined by the appended claims and their equivalents.

Claims (6)

1. Production of ceramic color glaze is with high accuracy filter particle size controlling means, including controlling means body (1) that has dual filter assembly, its characterized in that: the filter assembly has a vertical moving function, wherein the filter assembly is positioned at the upper side of the inner end of the control device body (1), one side of the inner end of the control device body (1) is provided with a first filter plate (11) connected by a buckle, one side of one end of the control device body (1) is provided with a motor shaft (12) connected by a rotating shaft, the lower end of the motor shaft (12) is provided with a transmission gear (13) connected by a screw, one side of the inner end of the control device body (1) is provided with an inner clamping groove (14), and one side of the inner end of the inner clamping groove (14) is uniformly provided with a contact block (15).

2. The high-precision filtering granularity control device for producing ceramic color glaze according to claim 1, wherein: the cross section of the contact blocks (15) is semicircular, the number of the groups of the contact blocks (15) is four, the angle between every two adjacent contact blocks (15) is ninety degrees, and the contact blocks (15) are connected to the control device body (1) through buckles.

3. The high-precision filtering granularity control device for producing ceramic color glaze according to claim 1, wherein: the filter assembly comprises a distance-increasing groove (101), a second filter plate (102) and extending outer teeth (103), wherein the distance-increasing groove (101) is arranged at the upper side of the inner end of the control device body (1), the second filter plate (102) is positioned at one side of the inner end of the distance-increasing groove (101), the second filter plate (102) is positioned below the first filter plate (11), the extending outer teeth (103) are positioned at the outer end of the second filter plate (102), and the extending outer teeth (103) and the second filter plate (102) are of an integrally formed structure.

4. The high-precision filtering granularity control device for producing ceramic color glaze according to claim 3, wherein: one side of the upper end of the second filter plate (102) is provided with an accommodating frame (104) connected by screws, wherein the accommodating frame (104) is arranged in a U shape, and the accommodating frame (104) is positioned outside the inner end of the distance increasing groove (101).

5. The high-precision filtering granularity control device for producing ceramic color glaze according to claim 4, wherein: the middle side of the inner end of the accommodating frame (104) is provided with an elastic supporting rod (105) in snap connection, the upper end of the elastic supporting rod (105) is provided with a movable top plate (106) in screw connection, and one end of the movable top plate (106) is located inside the accommodating frame (104).

6. The high-precision filtering granularity control device for producing ceramic color glaze according to claim 1, wherein: the inner end of the inner clamping groove (14) is provided with a rotary clamping rod (1401) in a penetrating mode, the upper end of the rotary clamping rod (1401) is provided with a second filter plate (102) which is connected through a screw, one end of the rotary clamping rod (1401) is provided with an integrally formed dislocation rod (1402), and the dislocation rod (1402) is located on one side of the inner end of the inner clamping groove (14).

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