CN211914750U - Water path communication device for cleaning substrate glass - Google Patents

Abstract

The utility model discloses a base plate glass washs and uses water route intercommunication device, it includes two or more cleaning unit, and every cleaning unit all includes flourishing water installation, water supply installation and belt cleaning device, flourishing water installation with water supply installation connects, water supply installation with belt cleaning device connects, and rivers get into belt cleaning device from flourishing water installation via water supply installation, and it still includes the intercommunication part, and first cleaning unit's belt cleaning device passes through the flourishing water installation intercommunication of intercommunication part with other at least cleaning unit, and rivers get into other at least cleaning unit's flourishing water installation from first cleaning unit's belt cleaning device via the intercommunication part. The waterway communication device realizes that each water containing device simultaneously supplements water and drains water in the cleaning process, the water supplementing is reduced to the state that only the first water containing device supplements water, the rest water containing devices do not supplement water or supplement a small amount of water and do not drain water externally, and the cleaned water can be provided for partial cooling water for grinding, which is generally equivalent to the ideal state that the cleaning process basically does not use water.

Description

Water path communication device for cleaning substrate glass

Technical Field

The utility model relates to a base plate glass technical field, concretely relates to base plate glass washs and uses water route intercommunication device.

Background

At present, in the process of processing substrate glass into a finished product, four sides of a semi-finished substrate are ground and polished, four corners of the semi-finished substrate are ground and corner-ground, and then the surface of the semi-finished substrate is cleaned. Grinding and polishing are carried out on the edge of the substrate by using a rough grinding wheel and a fine grinding wheel at a certain grinding amount and pressure and at corresponding speeds, and a large amount of heat is generated in the grinding process. Therefore, a large amount of pure water is needed for cooling in the grinding and polishing processes, and the product waste caused by the defects in the grinding and polishing processes is prevented.

In the process of grinding and cleaning the substrate glass, supplied grinding cooling water and pure water for cleaning the glass are supplied by a separate water supply device and are independently discharged and then are uniformly treated. The grinding comprises coarse grinding, fine grinding, polishing and angle grinding, the cleaning comprises pre-wetting, high-pressure washing, disc rolling brush cleaning, ultrasonic cleaning, two-fluid cleaning, spraying cleaning and other stations, and each station is independently supplied with water. The water flow rate of each station is 20-150L/min, about 1700 tons of water are needed for each line every day when the machine is normally started (24 hours), and the pure water cost and the pure water post-treatment cost are directly discharged after the water is used up, so that the production cost is greatly increased. Therefore, how to reduce the consumption of pure water in the normal grinding and cleaning process is a very critical problem.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the water consumption is great in the prior art, the pure water expense and the pure water aftertreatment expense cause manufacturing cost to rise by a wide margin, the utility model provides a base plate glass washs and uses water route intercommunication device.

The technical scheme of the utility model as follows:

the utility model provides a water path communication device for cleaning substrate glass, which comprises two or more cleaning units,

each cleaning unit comprises a water containing device, a water supply device and a cleaning device, the water containing device is connected with the water supply device, the water supply device is connected with the cleaning device, water flow enters the cleaning device from the water containing device through the water supply device,

the waterway communicating device also comprises a communicating part, the cleaning device of the first cleaning unit is communicated with the water containing device of at least one other cleaning unit through the communicating part, and water flows from the cleaning device of the first cleaning unit to the water containing device of at least one other cleaning unit through the communicating part.

Preferably, the water passage communication device for cleaning substrate glass described above includes three or more cleaning units, the water flow enters the water containing device of the second cleaning unit from the cleaning device of the first cleaning unit through the communication member, the cleaning device of the second cleaning unit is communicated with the water containing device of the at least one cleaning unit through the communication member, and the water flow enters the water containing device of the at least one cleaning unit from the cleaning device of the second cleaning unit through the communication member.

Preferably, the water passage communication device for cleaning substrate glass described above includes three or more cleaning units, the water flow enters the water containing device of the second cleaning unit from the cleaning device of the first cleaning unit via the communication member, the water containing device of the second cleaning unit communicates with the water containing device of at least one other cleaning unit via the communication member, and the water flow enters the water containing device of at least one other cleaning unit from the water containing device of the second cleaning unit via the communication member.

Preferably, in the substrate glass cleaning water passage communication device, the cleaning device of the second cleaning unit is communicated with the water container of the second cleaning unit via the communication member, and water flows from the cleaning device of the second cleaning unit into the water container of the second cleaning unit via the communication member.

Preferably, the water path communication device for cleaning any substrate glass described above, wherein the water containing device comprises a water containing tank.

Preferably, the cleaning apparatus for any of the above substrate glass cleaning water passage communication apparatuses includes a cleaning vessel and a shower pipe.

Preferably, the water path communication device for cleaning any substrate glass is characterized in that the water supply device comprises a communication pipe, a water pump and a filtering device.

Preferably, in the aforementioned arbitrary substrate glass cleaning water passage communication device, the communication member includes a communication pipe and a water pump.

Preferably, in the aforementioned arbitrary substrate glass cleaning water passage communication device, the cleaning container is connected to the communication member.

Preferably, in the aforementioned arbitrary substrate glass cleaning water passage communication device, the water containing device of the first cleaning unit includes a water replenishing pipe, and water is supplied to the water passage communication device through the water replenishing pipe.

Effect of the utility model

The utility model provides a base plate glass washs and uses water route intercommunication device, realized that the cleaning process is by the flourishing water installation moisturizing drainage simultaneously of each cleaning unit, reduce the flourishing water installation moisturizing of only first cleaning unit, all the other cleaning unit's flourishing water installation need not mend or a small amount of moisturizing and not outer drainage, the hydroenergy after wasing simultaneously provides the partial cooling water of grinding usefulness, the totality is equivalent to the cleaning process does not basically have the ideal state of water, manufacturing cost greatly reduced.

Drawings

Fig. 1 shows a water passage communication device for cleaning a substrate glass in the prior art.

Fig. 2 is a water path connection device for cleaning substrate glass according to an embodiment of the present invention.

Description of the symbols

1-9 cleaning container 11 spray pipe 12 straight pipe

13 overflow pipe 14 bypass device 15 water containing tank

16 box cover 17 water supply pipe 18 high liquid level inductive switch

19 low liquid level inductive switch 20 drain pipe 21 valve

22 filter device 23 water pump 24 water return pipe

25 self-return pipe 26 box body communicating pipe

Detailed Description

Specific embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While specific embodiments of the invention are shown in the drawings, it will be understood that the invention may be embodied in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Fig. 1 shows a water passage communication device for cleaning a substrate glass in the prior art.

As shown in the figure, the waterway communication device comprises two or more cleaning units, each cleaning unit comprises a water containing device, a water supply device and a cleaning device, the water containing device is connected with the water supply device, the water supply device is connected with the cleaning device, and water flow enters the cleaning device from the water containing device through the water supply device.

The cleaning device comprises a spray pipe 11 and cleaning containers 1-9, wherein a straight pipe 12 is arranged on one side of each cleaning container, so that the cleaning water can be directly discharged.

The water containing device comprises a water tank 15 and a tank cover 16, wherein one side of the water tank 15 is provided with an overflow pipe 13 and a drain pipe 20 for discharging water, the other side of the water tank 15 is provided with a high liquid level inductive switch 18 and a low liquid level inductive switch 19 for sensing the height of the water level in the water tank 15, the water tank 15 is provided with a water supplementing pipe 17 for supplementing water, and a bypass device 14 connected with a water supply device is arranged on the water tank 15.

The water supply device comprises a water pump 23 and a filtering device 22, and further comprises a valve 21, and water can be pumped into the spray pipe 11 of the cleaning device by using the water pump 23 and the filtering device 22, so that the substrate glass is cleaned.

However, in the case of cleaning the substrate glass, a separate water supply device is required for each cleaning unit used in fig. 1, and the used water is directly discharged, that is, in the case of cleaning the substrate glass, each cleaning process is separately performed, the amount of water used is greatly increased, and the water use cost and the discharged water treatment cost significantly increase the production cost.

In order to reduce the production cost, fig. 2 provides a water path communication device for cleaning substrate glass according to an embodiment of the present invention. As shown in the drawings, the provided water path communication device for cleaning substrate glass includes two or more cleaning units, for example, the water path communication device may include 2 cleaning units, 3 cleaning units, 4 cleaning units, 5 cleaning units, 6 cleaning units, 7 cleaning units, 8 cleaning units or 9 cleaning units, preferably 9 cleaning units.

Every the cleaning unit all includes water containing device, water supply installation and belt cleaning device, water containing device with water supply installation connects, water supply installation with belt cleaning device connects, rivers follow water containing device via the water supply installation gets into belt cleaning device, water route intercommunication device still includes the communicating part, and the belt cleaning device of first cleaning unit passes through the communicating part and at least one other belt cleaning unit's water containing device intercommunication, rivers follow belt cleaning device of first cleaning unit via the communicating part gets into the water containing device of at least one other belt cleaning unit, for example the belt cleaning device of first cleaning unit passes through wet return 24 and the water containing device intercommunication of second cleaning unit, and rivers follow belt cleaning device of first cleaning unit gets into the water containing device of second cleaning unit via wet return 24.

The waterway communicating device may include more than three cleaning units, for example, 3 cleaning units, 4 cleaning units, 5 cleaning units, 6 cleaning units, 7 cleaning units, 8 cleaning units or 9 cleaning units, preferably 9 cleaning units, water flow enters the water containing device of the second cleaning unit from the communicating part from the cleaning device of the first cleaning unit, the cleaning device of the second cleaning unit is communicated with the water containing device of at least one cleaning unit through the communicating part, and water flow enters the water containing device of at least one cleaning unit from the cleaning device of the second cleaning unit through the communicating part.

In a preferred embodiment of the present invention, the waterway connection device comprises more than three cleaning units, for example, 3 cleaning units, 4 cleaning units, 5 cleaning units, 6 cleaning units, 7 cleaning units, 8 cleaning units or 9 cleaning units, preferably 9 cleaning units.

The water flow enters the water containing device of the second cleaning unit from the cleaning device of the first cleaning unit through the communication part, the water containing device of the second cleaning unit is communicated with the water containing device of at least one other cleaning unit through the communication part, the water flow enters the water containing device of at least one other cleaning unit from the water containing device of the second cleaning unit through the communication part, for example, the water flow enters the water containing device of the second cleaning unit from the cleaning device of the first cleaning unit through the water return pipe 24, the water containing device of the second cleaning unit is communicated with the water containing device of the third cleaning unit through the box communication pipe 26, and the water flow enters the water containing device of the third cleaning unit from the water containing device of the second cleaning unit through the box communication pipe 26.

The cleaning device of the second cleaning unit is communicated with the water containing device of the second cleaning unit through the communicating part, and water flow enters the water containing device of the second cleaning unit from the cleaning device of the second cleaning unit through the communicating part. For example, the cleaning device of the second cleaning unit communicates with the water container of the second cleaning unit via a self-return pipe 25, and the flow of water from the cleaning device of the second cleaning unit enters the water container of the second cleaning unit via the self-return pipe 25.

The water containing device comprises a water containing tank 15.

The cleaning device comprises a cleaning container (1-9 cleaning containers in the figure) and a spray pipe 11.

The water supply device includes a communication pipe (not shown in the drawings), a water pump 23, and a filtering device 22.

The communication means includes a communication pipe, which may be a self-return pipe 25, a return pipe 24 or a tank communication pipe 26, and a water pump (not shown).

The cleaning container is connected with the communicating part.

The height of the tank communicating pipe 26 is lower than the height of the water return pipe 24 and the position of the self-water return pipe 25, so as to ensure that the liquid level in the water tank is kept balanced.

The water tank of the ninth cleaning unit water container is provided with an overflow pipe 13, the height of the overflow pipe 13 is the same as that of the tank communicating pipe 26, and the overflow pipe 13 is used for leading cleaning water into the grinding process device for cooling.

The water cleanliness ranking sequence in the cleaning device of the waterway communicating device is gradually reduced from the first cleaning unit to the ninth cleaning unit, and in order to ensure that the substrate glass is not polluted in the first cleaning unit, the cleanliness of the water in the cleaning device of the first cleaning unit is ensured, 10 parts of pure water, preferably the pure water with the resistivity of more than 10 megohms, is supplemented into the spray pipe 11 through the water supplementing pipe 17, and the pure water is sprayed into the spray pipe 11 by using the water pump 23 and the filtering device 22 of the water supply device in the first cleaning unit, so that the substrate glass is ensured not to be polluted in the first cleaning device.

In the using process, the substrate glass sequentially passes through the cleaning container in the ninth cleaning unit cleaning device, the cleaning container in the eighth cleaning unit cleaning device, the cleaning container in the seventh cleaning unit cleaning device, the cleaning container in the sixth cleaning unit cleaning device, the cleaning container in the fifth cleaning unit cleaning device, the cleaning container in the fourth cleaning unit cleaning device, the cleaning container in the third cleaning unit cleaning device, the cleaning container in the second cleaning unit cleaning device and the cleaning container in the first cleaning unit cleaning device, and when passing through each cleaning container, the first group of spray pipes and the second group of spray pipes are used for spraying, so that the surface of the substrate glass is cleaned.

By using the water path communication device for cleaning the substrate glass, the water containing devices of all the cleaning units can be used for simultaneously supplementing water and draining water in the cleaning process, the water supplementing effect is reduced to that of the water containing device of only the first cleaning unit, the water containing devices of the rest cleaning units are not used for supplementing water or supplementing a small amount of water and do not drain water externally, meanwhile, the water energy after cleaning is provided for partial cooling water for grinding, the whole process is equivalent to an ideal state that the cleaning process basically does not use water, and the production cost of the water path communication device can be greatly reduced.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. However, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention still belong to the protection scope of the technical solution of the present invention.

Claims (10)

1. A water path communication device for cleaning substrate glass is characterized in that the water path communication device comprises two or more cleaning units,

each cleaning unit comprises a water containing device, a water supply device and a cleaning device, the water containing device is connected with the water supply device, the water supply device is connected with the cleaning device, water flow enters the cleaning device from the water containing device through the water supply device,

the waterway communicating device also comprises a communicating part, the cleaning device of the first cleaning unit is communicated with the water containing device of at least one other cleaning unit through the communicating part, and water flows from the cleaning device of the first cleaning unit to the water containing device of at least one other cleaning unit through the communicating part.

2. The substrate glass cleaning water path communication device according to claim 1, wherein the water path communication device includes three or more cleaning units, wherein the water flow enters the water containing device of the second cleaning unit from the cleaning device of the first cleaning unit through the communication member, the cleaning device of the second cleaning unit communicates with the water containing device of the at least one cleaning unit through the communication member, and the water flow enters the water containing device of the at least one cleaning unit from the cleaning device of the second cleaning unit through the communication member.

3. The substrate glass cleaning water path communication device according to claim 1, wherein the water path communication device includes three or more cleaning units, wherein the water flow enters the water containing device of the second cleaning unit from the cleaning device of the first cleaning unit via the communication member, the water containing device of the second cleaning unit communicates with the water containing device of at least one other cleaning unit via the communication member, and the water flow enters the water containing device of at least one other cleaning unit from the water containing device of the second cleaning unit via the communication member.

4. The substrate glass cleaning water path communication device according to claim 3, wherein the cleaning device of the second cleaning unit is communicated with the water containing device of the second cleaning unit via the communication member, and water flows from the cleaning device of the second cleaning unit into the water containing device of the second cleaning unit via the communication member.

5. The substrate glass cleaning water passage communication device according to any one of claims 1 to 4, wherein the water containing device includes a water containing tank.

6. The substrate glass cleaning water passage communication device according to any one of claims 1 to 4, wherein the cleaning device includes a cleaning container and a shower pipe.

7. The substrate glass cleaning water path communication device according to any one of claims 1 to 4, wherein the water supply device comprises a communication pipe, a water pump and a filtering device.

8. The substrate glass cleaning water path communication device according to any one of claims 1 to 4, wherein the communication member includes a communication pipe and a water pump.

9. The substrate glass cleaning water passage communication device according to claim 6, wherein the cleaning container is connected to the communication member.

10. The substrate glass cleaning water passage communication device according to claim 1, wherein the water containing device of the first cleaning unit includes a water replenishing pipe through which water is supplied to the water passage communication device.

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