CN214975995U - Dish brush, wiper mechanism, belt cleaning device and production facility - Google Patents

Abstract

The utility model relates to a base plate glass's cleaning equipment technical field specifically relates to a dish brush, wiper mechanism, belt cleaning device and production facility. The dish brush comprises a main body and bristles (5), wherein the main body comprises a cleaning part (3) provided with the bristles (5) and a flow channel part (4) avoiding the bristles (5), and the flow channel part (4) is of a spiral structure. The main part of dish brush has cleaning part and runner portion, through concentrating the brush hair and setting up in the cleaning part, when the dish brush is brushing the thing (for example, liquid crystal substrate glass) of treating in the rotation, the cleaning part can be treated and the thing surface of wasing is scrubbed to the high efficiency, and the surperficial dirt that brushes away and debris such as the granule that brushes away can pass through runner portion along with water in time discharge in addition, prevent that these debris from gathering in the middle of the dish brush to the cleaning performance has been optimized.

Description

Dish brush, wiper mechanism, belt cleaning device and production facility

Technical Field

The utility model relates to a base plate glass's cleaning equipment technical field specifically relates to a dish brush, wiper mechanism, belt cleaning device and production facility.

Background

In the production process of the liquid crystal substrate glass, the whole-page granularity of the liquid crystal substrate glass is a key index for measuring the quality of a product, particularly the quantity of medium and large particles directly influences the yield of a TFT-LCD (thin film transistor-liquid crystal display) manufacturing process, and specifically, the lower the medium and large particles, the higher the yield.

In order to ensure the quality of the liquid crystal substrate glass, the liquid crystal substrate glass needs to be cleaned to reduce medium and large particles. Specifically, the cleaning process of the liquid crystal substrate glass mainly adopts two physical modes of disc brushing and rolling brushing, and then the modes of spraying by a spraying pipe, leaching by two fluids and the like are used for removing surface particles of the liquid crystal substrate glass. The most important of the cleaning process is a disc brushing process, wherein large, medium and small particles and abrasive powder on the surface of the liquid crystal substrate glass are removed through the disc brushing process. However, the common disc brush usually comprises a disc brush and bristles densely arranged on the surface of the disc brush, and when the common disc brush is used for brushing the liquid crystal substrate glass in a rotating manner, the dense bristles of the disc brush are difficult to discharge dirt on the surface of the liquid crystal substrate glass in time, so that the cleaning effect is poor.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a dish brush, wiper mechanism, belt cleaning device and production facility to solve among the prior art ordinary dish brush because of the intensive not good problem of cleaning performance of brush hair.

In order to achieve the above object, a first aspect of the present invention provides a disc brush, the disc brush includes a main body and bristles, the main body includes an installation the cleaning portion of the bristles and avoids the flow channel portion of the bristles, the flow channel portion is set to be a spiral structure.

Optionally, the main body includes a plurality of the cleaning parts and a plurality of the runner parts which are alternately distributed.

Optionally, the cross-sectional area of the cleaning part is smaller than that of the runner part.

The utility model discloses the second aspect provides a wiper mechanism, wiper mechanism includes a plurality ofly the dish brush, it is a plurality of the dish brush divide into a plurality of first dish brushes and a plurality of second dish brush, the runner portion of first dish brush is spiral setting along first direction, the runner portion of second dish brush along with the second direction that first direction is opposite is spiral setting.

Optionally, a plurality of the first disc brushes and a plurality of the second disc brushes are alternately arranged.

Optionally, a space is maintained between adjacent first and second disc brushes.

Optionally, the cleaning mechanism comprises two rows of cleaning units oppositely arranged and spaced apart, each row of the cleaning units comprising a plurality of the first disc brushes and a plurality of the second disc brushes, and wherein the first disc brushes of one row of the cleaning units are oppositely arranged to the first disc brushes of the other row of the cleaning units, and wherein the second disc brushes of one row of the cleaning units are oppositely arranged to the second disc brushes of the other row of the cleaning units.

Optionally, the cleaning mechanism includes a plurality of cleaning modules, each cleaning module includes two rows of the cleaning units, and the plurality of cleaning modules are arranged at intervals along an arrangement direction perpendicular to the plurality of first disc brushes of the cleaning units.

The utility model provides a third aspect provides a cleaning device, cleaning device include motor, first drive structure, second drive mechanism and the cleaning mechanism, the driving shaft of motor passes through first drive mechanism with first dish brush transmission is connected and set up to pass through first drive mechanism drives first dish brush is followed the first direction is rotatory, the driving shaft of motor passes through second drive mechanism with second dish brush transmission is connected and set up to pass through second drive mechanism drives second dish brush is followed the second direction is rotatory.

The utility model discloses the fourth aspect provides a production facility, production facility includes belt cleaning device.

Through the technical scheme, the main part of dish brush has cleaning part and runner portion, through concentrating the brush hair and setting up in the cleaning part, when the dish brush is brushing the thing of treating to wash (for example, liquid crystal substrate glass) in the rotation, the cleaning part can be treated and wash the thing surface and carry out high-efficient the scrubbing, and the surperficial dirt that brushes off and debris such as the granule that brushes off can in time discharge through runner portion along with water in addition, prevent that these debris from gathering in the middle of the dish brush to the cleaning performance has been optimized.

Drawings

Fig. 1 is a schematic structural diagram of a cleaning mechanism according to the present invention, wherein a diagram of the operation of the cleaning mechanism during cleaning of liquid crystal substrate glass is shown;

FIG. 2 is a schematic view of the first disk brush shown in FIG. 1;

fig. 3 is a schematic structural view of the second disc brush shown in fig. 1.

Description of the reference numerals

1. A first disc brush; 2. a second disc brush; 3. a cleaning section; 4. a flow channel part; 5. brushing; 6. a rotating shaft; 7. a cleaning unit; 8. liquid crystal substrate glass; a. a first direction; b. a second direction.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

The utility model discloses a first aspect provides a dish brush, as shown in fig. 2 and 3, dish brush includes main part and brush hair 5, the main part is including the installation the washing portion 3 of brush hair 5 and avoid the runner portion 4 of brush hair 5, runner portion 4 sets up to helical structure.

Through the technical scheme, the main part of dish brush has cleaning part 3 and runner portion 4, through concentrating the brush hair 5 and setting up at cleaning part 3, when the dish brush is scrubbing in the rotation and treat that the washing thing (for example, liquid crystal substrate glass 8), cleaning part 3 can treat and wash the thing surface and carry out high-efficient scrubbing, and the surperficial dirt that brushes off and debris such as the granule that brushes off can in time discharge through runner portion 4 along with water, prevent that these debris aggregations are in the middle of the dish brush, and the cleaning performance is more excellent, has improved the cleaning performance of dish brush.

It is worth mentioning that the disc brush may be configured as a specific structure as follows: the main body of the disc brush is of a disc-shaped structure, and a mounting hole is formed in the circle center of the disc-shaped structure and used for assembling the rotating shaft 6. During the use, the main part of dish brush can carry out high-speed rotation around the axis direction of rotation 6 to brush the dirty and granule on liquid crystal substrate glass 8 surface through the brush hair 5 of cleaning part 3, and the hydroenergy of mixing with this part dirty and granule can be thrown away along runner portion 4, has prevented that these debris gathers in the middle of the dish brush, thereby has accomplished and has carried out high-efficient washing to liquid crystal substrate glass 8, has still prolonged the life of dish brush. Preferably, the runner part 4 may be arranged to gradually spread outward in a spiral manner from the rotation shaft 6 in a radial direction of the body 1.

In order to optimize the cleaning effect of the disc brush, as shown in fig. 2 and 3, the main body includes a plurality of cleaning parts 3 and a plurality of runner parts 4 which are alternately distributed, and simultaneously, the scrubbing effect and the pollution discharge effect of the disc brush are improved, which is beneficial to efficiently cleaning the liquid crystal substrate glass 8.

Furthermore, the cross-sectional area of the cleaning part 3 is smaller than that of the flow channel part 4, so that the disc brush can improve the scrubbing effect to the maximum extent on the premise of meeting the pollution discharge requirement of the disc brush, and the cleaning effect of the disc brush is further optimized.

The utility model discloses a second aspect provides a wiper mechanism, as shown in fig. 1-3, wiper mechanism includes a plurality ofly the dish brush, it is a plurality of the dish brush is divided into a plurality of first dish brushes 1 and a plurality of second dish brush 2, the runner portion 4 of first dish brush 1 is spiral setting along first direction an, the runner portion 4 of second dish brush 2 along with the second direction b opposite to first direction an is spiral setting. The first direction a may be a clockwise direction shown in fig. 1, and the second direction b is a counterclockwise direction shown in fig. 1.

Through the technical scheme, the cleaning mechanism is provided with the plurality of first disc brushes 1 and the plurality of second disc brushes 2, so that the cleaning mechanism can meet the scrubbing requirement and the pollution discharge requirement of an object to be cleaned (such as the liquid crystal substrate glass 8), and the cleaning effect is good; and, runner portion 4 of first dish brush 1 and runner portion 4 of second dish brush 2 are reverse setting, when first dish brush 1 and second dish brush 2 counter-rotation are in order to wash the thing (for example, liquid crystal substrate glass 8) of waiting to wash, make the rotational effort of first dish brush 1 and the rotational effort of second dish brush 2 offset each other, and then weakened a plurality of dish brushes and brought the rotational effect for the thing (for example, liquid crystal substrate glass 8) of waiting to wash because of respective rotary motion, thereby guaranteed that the thing (for example, liquid crystal substrate glass 8) of waiting to wash can accomplish the cleaning process safely and smoothly.

As shown in fig. 1, the first disc brushes 1 and the second disc brushes 2 are alternately arranged, so that the rotational acting force between the adjacent first disc brushes 1 and the second disc brushes 2 can be offset, the rotational action of the plurality of disc brushes on an object to be cleaned (for example, the liquid crystal substrate glass 8) due to the respective rotational movement is prevented, and a powerful guarantee is provided for the liquid crystal substrate glass 8 to safely and smoothly complete the cleaning process.

Furthermore, an interval is kept between the adjacent first disc brush 1 and the second disc brush 2, so that the adjacent first disc brush 1 and the second disc brush 2 are prevented from being influenced with each other during cleaning, and the cleaning effect of each disc brush of the cleaning mechanism is ensured.

In general, the liquid crystal substrate glass 8 has two cleaning surfaces which are oppositely arranged in the thickness direction, and in order to simultaneously perform a cleaning operation on the two cleaning surfaces of the liquid crystal substrate glass 8, the cleaning mechanism includes two rows of cleaning units 7 which are oppositely arranged and maintained at an interval, each row of the cleaning units 7 includes a plurality of the first disk brushes 1 and a plurality of the second disk brushes 2, and the first disk brushes 1 of one row of the cleaning units 7 are oppositely arranged with the first disk brushes 1 of the other row of the cleaning units 7, and the second disk brushes 2 of one row of the cleaning units 7 are oppositely arranged with the second disk brushes 2 of the other row of the cleaning units 7, so that the cleaning efficiency of the cleaning mechanism is improved, and the cleanliness of the liquid crystal substrate glass 8 is also ensured.

Furthermore, the cleaning mechanism comprises a plurality of cleaning modules, each cleaning module comprises two rows of cleaning units 7, the cleaning modules are arranged at intervals along the arrangement direction of the first disc brushes 1 perpendicular to the cleaning units 7, the cleaning area of the same cleaning surface of the liquid crystal substrate glass 8 by the cleaning mechanism is obviously enlarged, and therefore the cleaning efficiency of the cleaning mechanism is improved.

It can be seen that each cleaning module includes two rows of cleaning units 7 located on both sides in the thickness direction of the liquid crystal substrate glass 8, that is, the cleaning mechanism includes a plurality of cleaning units 7 located on the same side of the liquid crystal substrate glass 8. In order to optimize the cleaning effect of the liquid crystal substrate glass 8, in the arrangement direction of the plurality of cleaning modules (i.e., in the arrangement direction of the plurality of cleaning units 7 located on the same side of the liquid crystal substrate glass 8), in two adjacent cleaning units 7 located on the same side of the liquid crystal substrate glass 8, the disk brush of one cleaning unit 7 is located at the gap between two adjacent disk brushes of the other cleaning unit 7, and the gap (which may be 5mm to 15mm, for example) between two adjacent disk brushes in each cleaning unit 7 is set to be smaller than the diameter of the body of the first disk brush 1 and smaller than the diameter of the body of the second disk brush 2. In use, the liquid crystal substrate glass 8 moves in the arrangement direction of the plurality of cleaning modules, that is, in the left side shown in fig. 1, and two adjacent cleaning modules can cover both cleaning surfaces of the liquid crystal substrate glass 8 in the arrangement direction of the plurality of disc brushes of the cleaning unit 7 (that is, in the up-down direction shown in fig. 1), so that the cleaning mechanism can efficiently clean the liquid crystal substrate glass 8.

The utility model provides a third aspect provides a cleaning device, cleaning device include motor, first drive structure, second drive mechanism and the wiper mechanism, the driving shaft of motor passes through first drive mechanism with 1 transmission of first dish brush is connected and sets up to passing through first drive mechanism drives first dish brush 1 is followed the first direction is rotatory, the driving shaft of motor passes through second drive mechanism with 2 transmissions of second dish brush are connected and set up to passing through second drive mechanism drives second dish brush 2 is followed the second direction is rotatory.

Through the technical scheme, the cleaning device controls the first disc brush 1 and the second disc brush 2 to rotate reversely through the motor, the flow channel part 4 of the first disc brush 1 and the flow channel part 4 of the second disc brush 2 are arranged reversely, when the first disc brush 1 and the second disc brush 2 rotate reversely to clean an object to be cleaned (for example, liquid crystal substrate glass 8), the rotating acting force of the first disc brush 1 and the rotating acting force of the second disc brush 2 can be mutually offset, the rotating action of the plurality of disc brushes on the object to be cleaned (for example, liquid crystal substrate glass 8) due to respective rotating motion is weakened, and therefore the object to be cleaned (for example, liquid crystal substrate glass 8) can be safely and stably cleaned.

It should be noted that the cleaning device may be configured as the following specific structure: in the cleaning device, the first transmission mechanism and the second transmission mechanism are both gear transmission structures, a driving shaft of the motor can be arranged along the extending direction (i.e., the up-down direction shown in fig. 1) of the plurality of disc brushes in the cleaning unit 7, a driving gear of the first transmission mechanism and a driving gear of the second transmission mechanism are both arranged on the driving shaft of the motor, and a driven gear of the first transmission mechanism is in transmission connection with a rotating shaft of the first disc brush 1 to drive the first disc brush 1 to rotate along the first direction a, and a driven gear of the second transmission mechanism is in transmission connection with a rotating shaft of the second disc brush 2 to drive the second disc brush 2 to rotate along the second direction b. The driving gear of the first transmission mechanism and the driving gear of the second transmission mechanism are both arranged to be bevel gears, and the bevel gear of the driving gear of the first transmission mechanism and the bevel gear of the driving gear of the second transmission mechanism are arranged in a reverse direction. The first transmission mechanism and the second transmission mechanism are conventional in the art and will not be described in detail herein.

The utility model discloses the fourth aspect provides a production facility, production facility includes belt cleaning device.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto. In the technical idea scope of the present invention, it is possible to provide a solution of the present invention with a plurality of simple modifications to avoid unnecessary repetition, and the present invention is not described separately for various possible combinations. These simple variations and combinations should also be considered as disclosed in the present invention, all falling within the scope of protection of the present invention.

Claims (10)

1. A disc brush is characterized by comprising a main body and bristles (5), wherein the main body comprises a cleaning part (3) for installing the bristles (5) and a flow channel part (4) avoiding the bristles (5), and the flow channel part (4) is of a spiral structure.

2. A disc brush according to claim 1, characterized in that the main body comprises a plurality of the washing sections (3) and a plurality of the runner sections (4) which are alternately distributed.

3. A disc brush according to claim 2, characterized in that the cross-sectional area of the washing section (3) is smaller than the cross-sectional area of the flow path section (4).

4. A washing arrangement, characterized in that the washing arrangement comprises a number of disc brushes according to any one of claims 1-3, which are divided into a number of first disc brushes (1) and a number of second disc brushes (2), the flow channel parts (4) of the first disc brushes (1) being arranged helically in a first direction (a), and the flow channel parts (4) of the second disc brushes (2) being arranged helically in a second direction (b) opposite to the first direction (a).

5. The washing mechanism according to claim 4, characterized in that a plurality of the first disc brushes (1) are arranged alternately with a plurality of the second disc brushes (2).

6. A washing mechanism according to claim 5, characterized in that a spacing is maintained between adjacent first (1) and second (2) disc brushes.

7. The washing mechanism according to any of claims 4-6, characterized in that it comprises two rows of washing units (7) arranged opposite and maintained spaced apart, each row of washing units (7) comprising a plurality of the first disc brushes (1) and a plurality of the second disc brushes (2), and wherein the first disc brushes (1) of one row of washing units (7) are arranged opposite the first disc brushes (1) of the other row of washing units (7), and wherein the second disc brushes (2) of one row of washing units (7) are arranged opposite the second disc brushes (2) of the other row of washing units (7).

8. The washing mechanism according to claim 7, characterized in that it comprises a plurality of washing modules, each of which comprises two rows of washing units (7), the washing modules being arranged at intervals in a direction perpendicular to the direction of arrangement of the first disc brushes (1) of the washing units (7).

9. A cleaning device, characterized in that the cleaning device comprises a motor, a first transmission mechanism, a second transmission mechanism and the cleaning mechanism of any one of claims 4-8, wherein the driving shaft of the motor is in transmission connection with the first disc brush (1) through the first transmission mechanism and is arranged to be able to drive the first disc brush (1) to rotate in the first direction (a) through the first transmission mechanism, and the driving shaft of the motor is in transmission connection with the second disc brush (2) through the second transmission mechanism and is arranged to be able to drive the second disc brush (2) to rotate in the second direction (b) through the second transmission mechanism.

10. A production facility, characterized in that it comprises a cleaning device according to claim 9.

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