KR20130071135A - Glass rinse apparatus - Google Patents

Abstract

PURPOSE: A glass cleaning device is provided to horizontally pass a glass through the inside of a cleaning tub and to clean both sides of the glass using ultrasonic vibration. CONSTITUTION: A glass cleaning device comprises a cleaning tub(10), an injection unit(30), and a cleaning liquid supplying device. The cleaning tub is filled with a cleaning liquid and is formed with a glass transmission slit at both sides. A moving unit horizontally passes a glass through the glass transmission slit and the inside of the cleaning tub. The injection unit injects the cleaning liquid towards the moving unit and glass transmission slit. The cleaning liquid supplying device continuously supplies the cleaning liquid into the cleaning tub. The cleaning liquid is supplied to the cleaning tub through a supply pipe. One end of the supply pipe is connected to an inlet for the cleaning liquid.

Description

Glass cleaner {GLASS RINSE APPARATUS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a glass cleaning apparatus, and in particular, to allow the glass to pass through the inside of the cleaning tank in a horizontal direction, and to clean both sides of the glass passing through the cleaning tank by ultrasonic vibration, thereby eliminating time, space and cost for glass cleaning. The present invention relates to a glass cleaning apparatus suitable for saving money.

Glass requires cleanliness to be used in manufacturing flat panel displays such as LCDs, and for this purpose, a cleaning process is generally performed using a cleaning apparatus after various processes are performed.

The cleaning process for such glass may be performed by various methods. For example, the cleaning process may be performed by immersing the glass to be cleaned in a cleaning tank filled with a cleaning liquid for a predetermined time to remove foreign substances on the glass surface.

In addition, the cleaning process may be performed by spraying air onto the surface of the glass to be cleaned, or the cleaning process may be performed by spraying a cleaning liquid on the surface of the glass to be cleaned to remove foreign substances on the surface of the glass.

In such a cleaning process, the most commonly used method is a method of cleaning by spraying the cleaning solution to the shower nozzle in the cleaning zone (ie, the cleaning zone).

In addition to the cleaning method, the cleaning method of recent interest is a glass cleaning method using ultrasonic vibration. The cleaning method using the ultrasonic vibration is a method of placing the glass inside the cleaning tank filled with the cleaning liquid and cleaning the surface of the glass through the ultrasonic vibration.

By the way, such a general cleaning method using ultrasonic vibration requires a process of placing the glass to be cleaned in a cleaning tank and taking it out again after the cleaning is completed, which takes a lot of time and effort for glass cleaning. It has a disadvantage that the total cleaning time for cleaning the very long.

The present invention has been made to solve the problems of the prior art as described above, the glass to pass through the inside of the cleaning tank in the horizontal direction, by cleaning the both sides of the glass passing through the cleaning tank through the ultrasonic vibration, glass cleaning It is an object of the present invention to provide a glass cleaning apparatus suitable for saving time, space and cost.

In addition, the glass penetrating slit by providing a spray means for injecting the injection liquid at a strong pressure toward the glass penetrating slit formed on both sides of the cleaning tank in order to allow the glass to pass through the inside of the cleaning tank in the horizontal direction, The cleaning liquid flowing out can be reduced to prevent waste of the cleaning liquid, and the cleaning liquid inside the cleaning tank can be always kept higher than the upper surface of the glass passing through the cleaning tank, thereby increasing the cleaning effect due to the ultrasonic vibration. It is an object of the present invention to provide a glass cleaning apparatus that can be used.

The construction means constituting the glass cleaning apparatus of the present invention proposed to solve the above problems, the cleaning liquid is filled in the inside, the ultrasonic diaphragm is disposed in the lower side, the upper amount to pass the glass to be cleaned in the horizontal direction A cleaning tank in which a glass passage slit is formed on a side surface, a moving means for moving the glass in a horizontal direction through the glass passage slit, and an injection unit disposed outside the cleaning tank to spray the injection liquid toward the glass passage slit Characterized in that the configuration.

The cleaning solution supply apparatus may further include a cleaning solution supply device configured to continuously supply the cleaning solution into the cleaning tank, and the cleaning solution supplied from the cleaning solution supply device may be supplied to the cleaning tank through a supply pipe having one end connected to an inlet formed in the cleaning tank. It is done.

In addition, the moving means is provided on the outside of the cleaning tank to the external drive rotation unit for introducing or withdrawing the glass into the cleaning tank in the horizontal direction, the inside of the cleaning tank is installed in the cleaning tank in the horizontal direction in the cleaning tank It is characterized in that it is configured to include a rotational force transmission unit for transmitting a rotational force to the rotating body is engaged with the rotating body provided at the end of the inner drive rotary part, the outer drive rotary part and the inner drive rotary part to be moved.

The injection means may include an injection inlet pipe disposed on an upper side of the glass passage slit to receive the injection liquid supplied from an external injection liquid supply means and a plurality of injection nozzles spaced apart from each other at a lower end of the injection inlet pipe. The injection inlet pipe is disposed in the longitudinal direction of the glass passage slit, the injection nozzle is characterized in that it is arranged to spray the injection liquid in an oblique direction toward the glass passage slit.

According to the glass cleaning apparatus of the present invention having the above-described problems and solving means, since the glass passes through the inside of the cleaning tank in the horizontal direction, both surfaces of the glass passing through the inside of the cleaning tank can be cleaned by ultrasonic vibration, There is an advantage to save time, space and cost for glass cleaning.

In addition, in order to allow the glass to pass through the inside of the cleaning tank in the horizontal direction, the glass transmission slit is provided because the injection means for injecting the injection liquid with a strong pressure toward the glass transmission slit formed on both sides of the cleaning tank, It can reduce the cleaning liquid flowing through to prevent waste of the cleaning liquid, and to maintain the cleaning liquid inside the cleaning tank always higher than the upper surface of the glass passing through the inside of the cleaning tank to achieve the cleaning effect according to the ultrasonic vibration There is an advantage that can be increased.

1 is a perspective view of a glass cleaning apparatus according to an embodiment of the present invention.
2 is a cross-sectional view of the glass cleaning apparatus according to the embodiment of the present invention.
3A to 3C are flowcharts illustrating a glass cleaning process using the glass cleaning apparatus according to the embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of a glass cleaning device of the present invention having the above problems, solving means and effects.

The sizes and shapes of the components shown in the drawings may be exaggerated for clarity and convenience. In addition, terms defined in consideration of the configuration and operation of the present invention may be changed according to the intention or custom of the user, the operator. Definitions of these terms should be based on the content of this specification.

1 is a perspective view of a glass cleaning apparatus according to an embodiment of the present invention, Figure 2 is a cross-sectional view of the glass cleaning apparatus according to an embodiment of the present invention.

As shown in Figure 1 and 2, the glass cleaning apparatus according to an embodiment of the present invention, the cleaning tank 10 is filled with the cleaning liquid and the glass penetrating slits 11 are formed on both sides, the glass in the horizontal direction Moving means for passing through the glass transmission slit 11 into the cleaning tank 10 and the injection means disposed in the cleaning tank 10 to spray the injection liquid toward the glass transmission slit 11 ( 30).

As shown in FIG. 2, the cleaning tank 10 is filled with a cleaning liquid. The cleaning liquid always maintains a higher water level than the upper surface of the glass 1 when the glass 1 to be cleaned passes the inside of the cleaning tank 10 in the horizontal direction. The cleaning liquid cleans the upper and lower surfaces of the glass 1 by ultrasonic vibration energy.

In order to apply ultrasonic vibration to the cleaning liquid, an ultrasonic vibration plate 20 is disposed in the lower side of the cleaning tank 10. The ultrasonic diaphragm 20 generates ultrasonic vibration when the glass 1 passes through the inside of the cleaning tank 10 in a horizontal direction to apply vibration energy to the cleaning liquid. Then, both surfaces of the glass 1 are cleaned by the wave of the cleaning liquid.

The glass 1 is not immersed in the cleaning tank 10 but passes horizontally through the cleaning tank 10. Therefore, the cleaning tank 10 has glass passage slits 11 on both upper sides thereof, as shown in FIGS. 1 and 2, to allow the glass 1 to be cleaned to pass in the horizontal direction.

As shown in FIGS. 1 and 2, the glass through slits 11 are formed on both upper wall surfaces of the cleaning tank 10, and face each other and are formed on the same horizontal surface. The horizontal length of the glass passage slit 11 is formed longer than the long side length of the glass 1, the slit width in the height direction is formed larger than the thickness of the glass.

Therefore, the glass 1 is drawn in the horizontal direction through one of the glass passage slits 11 among the glass passage slits 11 by the moving means to be described later and enters into the cleaning tank 10. And it is drawn out of the said washing tank 10 through the other glass through slit 11 by continuous horizontal movement.

In the process in which the glass 1 is drawn into the one glass passing slit 11 and drawn out through the other glass passing slit 11, a predetermined portion of the glass 1 is the cleaning tank 10. The predetermined portion of the glass 1 is cleaned by a cleaning liquid which is located inside and is pulsated according to the vibration energy of the ultrasonic diaphragm 20. As a result, since the glass 1 continuously passes through the inside of the cleaning tank 10, all parts of the glass 1 may be cleaned by the cleaning liquid.

The horizontal movement of the glass 1 is made by moving means composed of a structure such as a roller disposed inside and outside the cleaning tank 10. That is, the moving means performs an operation of moving the glass 1 in the horizontal direction through the glass passage slit 11. An exemplary configuration for such a vehicle will be described later.

The glass 1 is moved horizontally through the glass passing slit 11 by the moving means, and in this process, all parts of the glass 1 are ultrasonically cleaned by a cleaning liquid.

However, the cleaning liquid should always maintain a higher level than the upper surface of the glass 1 in the process of moving the glass 1 in the horizontal direction through the glass passage slit 11. Therefore, the cleaning liquid is forced to flow out through the glass passage slit 11. In addition, when the level of the cleaning liquid is lower than the upper surface of the glass 1 due to the outflow of the cleaning liquid, it may easily occur, the external control for maintaining a continuous water level may be difficult and complicated problems.

Therefore, in the present invention, the injection means 30 is disposed outside the cleaning tank 10 to reduce the amount of the cleaning liquid flowing out through the glass passage slit 11. That is, the injection means 30 is disposed outside the cleaning tank 10 to strongly spray the injection liquid toward the glass passage slit 11. Such injection liquid may be the same liquid as the cleaning liquid, or may be another liquid capable of producing a cleaning effect.

Since the injection means 30 has two glass passage slits 11, the injection means 30 is composed of two correspondingly. That is, disposed so as to face each other on the outer upper side of the cleaning tank 10 so as to strongly spray the injection liquid toward the respective glass passage slit 11.

The glass cleaning apparatus having such a configuration cleans all the surfaces of the glass by ultrasonic vibration while transferring the glass 1 in the horizontal direction, so that the cleaning can be performed quickly, and the cleaning effect can be increased, and the continuous There is an advantage that it can be cleaned and can be configured inline with other processes.

Hereinafter, more specific structural features and operations will be described with respect to each component according to the present invention.

As described above, the cleaning liquid inside the cleaning tank 10 should always maintain a higher water level than the upper surface of the glass in the cleaning process for the glass. Therefore, the present invention further includes a cleaning liquid supply device (not shown) for continuously supplying the cleaning liquid into the cleaning tank 10.

An inlet 13 for receiving the cleaning liquid from the cleaning liquid supply device is formed on the lower sidewall of the cleaning tank 10. One end of the supply pipe 15 is connected to the inlet 13, the other end of which is connected to the cleaning solution supply device. Therefore, the cleaning liquid supplied from the cleaning liquid supply device is continuously supplied to the cleaning tank 10 through a supply pipe 15 having one end connected to the inlet 13 formed in the cleaning tank 10.

The cleaning liquid supply device is controlled by a control means (not shown), thereby supplying the cleaning liquid into the cleaning tank 10. For example, a level sensor (not shown) is provided inside the cleaning tank 10, and the control unit receives a detection value of the water level sensor in real time so that the cleaning liquid in the cleaning tank 10 is stored in the cleaning tank 10. The operation of the cleaning liquid supply device is controlled so that the water level higher than the upper surface of the glass 1 moving in the horizontal direction of the cleaning tank is always maintained.

For example, when the detected value of the water level sensor is higher than a reference value (a value set in advance as a level value of a position higher than the upper surface of the glass), the control means is moved from the cleaning liquid supply device into the cleaning tank. The cleaning solution supply device is controlled to reduce the amount of cleaning solution supplied. When the detection value of the level sensor is equal to or less than the reference value, the cleaning solution supply device is controlled to increase the amount of the cleaning solution supplied from the cleaning solution supply device to the inside of the cleaning tank. do.

Therefore, the cleaning liquid supply device always has a level of the cleaning liquid inside the cleaning tank 10 higher than the upper surface of the glass 1 under the control of the control means. Specifically, in the state in which the injection means 30 injects the injection liquid toward the glass passage slit 11, the glass 1 in the horizontal direction to the glass passage slit 11 of the cleaning tank 10 In the process of passing (in the glass cleaning process), the cleaning liquid supply device is controlled by the control means so that the cleaning liquid inside the cleaning tank is filled higher than the upper surface of the glass 1.

As described above, the cleaning liquid in the cleaning bath is always kept higher than the upper surface of the glass during the cleaning process. As such, while the level of the washing liquid is controlled, the glass 1 moves in the washing tank in the horizontal direction.

The transfer of the glass 1 is made by a moving means, as described above. Such moving means can be configured using a horizontal moving means such as a roller. Referring to Figures 1 and 2 will be described an exemplary configuration for the moving means as follows.

The moving means 40 is installed outside the cleaning tank 10 to drive the glass 1 into or out of the cleaning tank 10 in the horizontal direction, the external drive rotary part 43, the cleaning tank An internal drive rotary part 41, the external drive rotary part 43, and an internal drive rotary part installed inside the 10 to rotate the glass 1 so as to move in the horizontal direction in the cleaning tank 10. It may be configured to include a rotational force transmission unit 61 is engaged with the rotary bodies (41c, 43c) provided at the end of the 41 to transmit the rotational force to the rotary bodies (41c, 43c).

As shown in FIG. 1, the external driving rotary part 43 is disposed to be spaced apart from the external rotating bar 43a on which both ends are seated on a fixed frame F of a predetermined shape, and spaced apart from the external rotating bar 43a by a predetermined interval. It is configured to include an outer rotary roller 43b and an outer rotary body 43c provided at one end of the outer rotary bar 43a. The external rotor 43c may be exemplified as a helical gear.

On the other hand, the internal drive rotary portion 41 also has a similar configuration to the external drive rotary portion 43. That is, as shown in Figure 1, the inner rotary bar 41a, both ends of which are seated on a fixed frame (F) of a predetermined shape, the inner rotary roller is coupled to be spaced apart by a predetermined interval to the inner rotary bar (41a) (not shown) C) and an inner rotating body 41c provided at one end of the inner rotating bar 41a. The internal rotating body 41c may be exemplified as a helical gear.

The internal drive rotary part 41 and the external drive rotary part 43 may be rotated by receiving a rotational force by the rotational force transmitting unit 61. The rotation force transmitting unit 61 may be composed of a motor (61a) for generating a rotational force and a rotating screw (61b) connected to the motor to rotate. The rotating screw 61b, the inner rotating body 41c and the outer rotating body 43c are connected in a helical gear coupling structure.

Therefore, when the rotating screw 61b is rotated according to the rotational force of the motor 61a, the rotational force is transmitted to the inner and outer rotors connected to the rotating screw in a helical gear coupling structure. Then, while the inner rotating bar and the outer rotating bar is rotated, the inner rotating roller and the outer rotating roller is rotated. As a result, the slab 1 seated on the inner rotating roller or (and) the outer rotating roller can be conveyed in the horizontal direction.

According to the operation of the moving means 40 having the above structure, the glass 1 may pass through the inside of the cleaning tank 10 in the horizontal direction through the glass passage slit 11. As such, the ultrasonic vibrating plate is operated while the glass passes through the inside of the cleaning tank in a horizontal direction, thereby cleaning both surfaces of the glass.

In this process, the cleaning liquid inside the cleaning tank may flow out through the glass passage slit 11. When a large amount of the cleaning liquid flows out in an instant, the level of the cleaning liquid in the cleaning tank may be formed to be lower than that of the glass upper surface. As a result, ultrasonic cleaning of the upper surface of the glass may not be performed.

Therefore, in the present invention, in order to prevent a large amount of the cleaning liquid inside the cleaning tank flows out instantaneously through the glass passage slit, the injection means 30 is provided as described above.

1 and 2, the injection means 30 is disposed above the glass passage slit 11 to receive the injection liquid supplied from an external injection liquid supply means (not shown). It comprises a plurality of injection nozzles 33 which are spaced apart from each other in the inlet pipe 31 and the lower end of the injection inlet pipe 31, the injection inlet pipe 31 is the longitudinal direction of the glass passage slit 11 The injection nozzle 33 is disposed to inject the injection liquid in an oblique direction toward the glass passage slit 11.

By providing the injection means 30 having such a configuration, in the process of the glass is drawn in / out through the glass through slit 11 and the process of moving the inside of the cleaning tank in the horizontal direction, the glass through slit ( It is possible to reduce the amount of the cleaning liquid flowing out through 11), and to prevent a large amount of the instantaneous outflow. Therefore, the level of the cleaning liquid inside the cleaning tank can be prevented from lowering abruptly than the upper surface of the glass, thereby ensuring the cleaning effect on both surfaces of the glass.

The glass cleaning process using the glass cleaning device having the above-described structural features and operating functions will be briefly described with reference to FIGS. 3A to 3C.

First, as shown in FIG. 3A, the glass 1 to be cleaned is driven by an external driving rotation part 43 to introduce the glass into the cleaning tank 10 through one glass passing slit 11.

In this process, since the cleaning liquid inside the cleaning tank flows out through the glass passage slit 11, the injection means 30 is driven to spray the strong injection liquid toward the glass passage slit 11. In addition, the cleaning liquid supply device (not shown) continuously supplies the cleaning liquid into the cleaning tank so that the level of the cleaning liquid is higher than the upper surface of the glass.

When the external drive rotary part 43 and the internal drive rotary part 41 are continuously driven, the glass 1 reaches the state shown in FIG. 3B. In this way, the ultrasonic diaphragm 20 is driven while the glass is introduced into the cleaning tank so as to perform ultrasonic cleaning on both surfaces of the glass. Then, when the internal drive rotary part 41 and the external drive rotary part 43 are continuously driven, as shown in FIG. 3C, the glass is drawn out of the cleaning tank through the other glass passing slit 11.

Of course, while proceeding to the process of Figures 3b and 3c, the injection means 30 is continuously operated, the cleaning solution air raid also continuously supplies the cleaning liquid to the cleaning tank. When the process of Figure 3c is finished, the glass may be drawn out while the cleaning is performed on all surfaces while passing through the cleaning tank.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. Accordingly, the true scope of the present invention should be determined by the following claims.

1: glass 10: washing tank
11: glass slit 13: inlet
15: supply pipe 20: ultrasonic diaphragm
30: injection means 31: injection inlet pipe
33: injection nozzle 40: moving means
41: internal drive rotation portion 41a: internal rotation bar
41b: internal rotating roller 41c: internal rotating body
43: external drive rotation portion 43a: external rotation bar
43c: external rotor 60: torque transmission unit
61a: motor 61b: rotating screw

Claims (5)

A cleaning tank filled with a cleaning liquid therein, and an ultrasonic diaphragm disposed at an inner lower side thereof, and glass passing slits formed on both sides of the upper surface such that the glass to be cleaned passes in the horizontal direction;
Moving means for moving the glass in a horizontal direction through the glass passing slit;
And a dispensing means disposed outside the washing tank and spraying the spray liquid toward the glass passage slit.
The method according to claim 1,
A cleaning liquid supply device for continuously supplying the cleaning liquid into the cleaning tank is further included, and the cleaning liquid supplied from the cleaning liquid supply device is supplied to the cleaning tank through a supply pipe having one end connected to an inlet formed in the cleaning tank. Glass cleaning device.
The method according to claim 1,
The moving unit may be installed outside the cleaning tank to move the glass into or out of the cleaning tank in the horizontal direction, and may be installed inside the cleaning tank to move the glass in the cleaning tank in the horizontal direction. Glass driving apparatus comprising a rotational force transmission unit for transmitting a rotational force to the rotating body by engaging the rotating body provided at the end of the inner drive rotary part, the outer drive rotary part and the inner drive rotary part to be rotated.
The method according to claim 1,
The injection means comprises an injection inlet pipe disposed above the glass slit to receive the injection liquid supplied from an external injection liquid supply means and a plurality of injection nozzles spaced apart from each other at a lower end of the injection inlet pipe. Wherein, the injection inlet pipe is disposed in the longitudinal direction of the glass passage slit, the injection nozzle is glass cleaning apparatus, characterized in that arranged to spray the injection liquid in the diagonal direction toward the glass passage slit.
The method according to claim 2,
In the process of the glass passing the glass through the slit of the cleaning tank in the horizontal direction in the state in which the spray means for spraying toward the glass passage slit, the cleaning liquid supply device is the cleaning liquid inside the cleaning tank is the glass Glass cleaning device, characterized in that controlled to be higher than the top surface of the.

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