KR200412919Y1 - Cleaning equipment for LCD glass - Google Patents

Abstract

The present invention relates to an apparatus for cleaning glass used in flat panel displays, photo masks, LCD monitors, and the like.

The present invention is a transmission means for rotating the disk brush for cleaning the glass by applying a rack and pinion combination or a worm and worm wheel combination to build a two-way rotating cleaning mechanism to repeatedly operate the disk brush in both directions, Compared with the conventional disk brush rotating in only one direction, it is possible to remove foreign substances on the glass surface more effectively, thus providing an LCD glass cleaning apparatus that can further improve the cleaning efficiency for the glass.

LCD monitor, glass, cleaner, disc brush, bidirectional rotation

Description

LCD glass cleaner {Cleaning equipment for LCD glass}

1 is a schematic plan view showing a conventional LCD glass cleaning device

2 is a side view of FIG. 1

Figure 3 is a schematic plan view showing an embodiment of the LCD glass cleaning apparatus according to the present invention

4 is a side view of FIG. 3

5a and 5b are schematic plan views showing the operating state of FIG.

Figure 6 is a schematic plan view showing another embodiment of the LCD glass cleaning apparatus according to the present invention

7 is a side view of FIG. 6

Figure 8 is a schematic plan view showing another embodiment of the LCD glass cleaning apparatus according to the present invention

9 is a side view of FIG. 8

10 is a schematic plan view showing the operating state of FIG.

<Explanation of symbols for main parts of drawing>

10 Conveyor 11: Glass

12: disc brush 13: electric gear

14 belt 15 drive gear

16: drive motor 17: pinion gear

18: rack gear 19: electric wheel

20: connecting rod 21: guide device

22: worm wheel 23: worm

24: coupling 25: drive shaft

26 cam / bearing assembly 27 bearing support

The present invention relates to an LCD glass cleaning device, and more particularly, by constructing a bidirectional cleaning mechanism for repeatedly operating the disk brush for cleaning the LCD glass in the forward and reverse directions, compared to the conventional unidirectional cleaning device that rotates only on one side. It relates to an LCD glass cleaning device that can maximize the cleaning effect.

Generally, glass used for flat panel displays, photo masks, LCD monitors, and the like is manufactured through a process such as photosensitive agent coating, exposure, development, corrosion, peeling, cleaning, and drying.

In these processes, the cleaning process is a process of removing foreign matters, etc., from the glass using a cleaning liquid.

Glass is usually made of glass and is easily damaged or broken.

In particular, the surface is damaged by foreign matter such as dust and the like, and scratches are likely to occur.

Therefore, the cleaning process for removing foreign matters and the like adhering to the surface of the glass is a very important process for determining the quality of the product.

1 and 2 are schematic plan and side views showing a conventional LCD glass cleaning apparatus.

As shown in FIGS. 1 and 2, the cleaning apparatus includes at least two rows of disk brushes 12 arranged side by side at a predetermined interval along the width direction of the conveyor 10, and each of the disk brushes 12. Hook the belt 14 and the belt 14, which is mounted in a form surrounding the outer periphery of the electric gear 13 and the electric gear 13 mounted on the shaft of each disk brush 12 for rotation of the The main body is composed of a drive motor 16 having a drive gear 15 and the like.

Here, the drive motor 16 or the disk brush 12 is installed in a structure supported by a frame structure (not shown) on the conveyor, such as the installation method of the drive motor 16, disk brush 12, etc. Is not particularly limited and can be adopted as long as it is a method commonly known in the art.

Therefore, when the glass 11 passes through the work area of each of the disk brushes 12 which rotate while moving along the conveyor 10, the cleaning operation is performed on the glass 11.

At this time, each of the disk brushes 12 is unidirectionally rotated to receive power simultaneously by one belt 14 and rotate in one direction.

However, the conventional cleaning device has a disadvantage in that the foreign matter removal efficiency of the glass surface is reduced since the disk brush rotates in only one direction.

In other words, the disk brush rotates in only one direction, thereby cleaning the surface of the glass, thereby limiting the cleaning efficiency. In order to compensate for this, a method of adding a disk brush arranged in the longitudinal direction of the glass may be used. However, in this case, not only the installation cost increases but also a problem of inferior economic efficiency because a larger space is required for the cleaning process.

Accordingly, the present invention has been devised in view of such a point, and the disk brush is repeatedly operated in both directions by applying a rack and pinion combination or a worm and worm wheel combination as a transmission means for rotating the disk brush for cleaning the glass. By constructing a two-way rotating cleaning mechanism, the conventional disk brush can be wiped in both directions as compared to the conventional method of rotating the disk brush in only one direction, thus removing foreign matter on the glass surface more effectively. It is an object of the present invention to provide an LCD glass cleaning apparatus which can further improve the cleaning efficiency.

Another object of the present invention is to build a two-way rotating cleaning mechanism that repeatedly operates the disk brush in both directions to improve the cleaning efficiency, so there is no need to install additional disk brushes. It is to provide an LCD glass cleaning device that is not required.

The present invention for achieving the above object is arranged side by side at a predetermined interval along the width direction of the conveyor and a plurality of disk brushes for cleaning the glass, the drive motor for providing power for the rotation of the disk brush and In the LCD glass cleaning device comprising a power transmission means for transmitting the power of the drive motor to the disk brush side, the power transmission means is characterized in that it is made in a manner to repeatedly rotate each disk brush in both directions.

In addition, the transmission means is a pinion gear mounted to the shaft of each disk brush, the rack gear is arranged in engagement with each of the pinion gears to rotate the pinion gear in both directions repeatedly while linearly reciprocating operation, and driving It is characterized by consisting of a connecting rod which is connected between one side of the electric wheel mounted on the shaft of the motor and one end of the rack gear to transfer the power of the drive motor to the rack gear.

In addition, the transmission means further comprises a guide device for guiding the linear reciprocating operation of the rack gear.

In addition, the transmission means is composed of a worm wheel mounted on the shaft of each disk brush and a worm that is arranged in engagement with each of the worm wheels to rotate the worm wheel in both directions while rotating in the forward and reverse directions, the worm Drive motor connected to one end of the power supply is characterized in that the forward and reverse motor.

In addition, the transmission means is formed on the upper end of the disk brush and a protruding bearing support having a curved bearing contact portion, connected to the axis of the drive motor is disposed across the width direction of the conveyor bearing support portion each disk brush It characterized in that it is composed of a plurality of cam / bearing assembly eccentrically bound to each other.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

3 and 4 are a schematic plan view and a side view showing an embodiment of the LCD glass cleaning apparatus according to the present invention.

As shown in Figures 3 and 4, it shows an example in which a transmission means consisting of a rack and pinion combination is applied.

A plurality of disk brushes 12 are arranged side by side at a predetermined interval along the width direction on the conveyor 10 for conveying the glass 11, the pinion gear 17 on the axis of each disk brush 12 Each is equipped.

At this time, each of the disk brushes 12 is supported as a rotatable structure on the frame structure as before.

In order to rotate each disk brush 12, one rack gear 18 is arranged between two rows of disk brushes 12 in parallel with the width direction of the conveyor 10 and simultaneously with the respective disk brushes 12. Interlocked.

One end of the rack gear 18 is thus connected is connected to the connecting rod 20 side to be described later, the other end is supported while being accommodated in the guide device 21 that can perform the local area and guide role at the same time, The rack gear 18 may have a structure in which both ends are supported as a whole.

The guide device 21 can be applied to a kind of block-type means having a groove portion that can accommodate a part of the rack gear 18 while being installed on the frame structure.

That is, during the linear reciprocation of the rack gear 18, the end of the rack gear 18 may be guided in a form in which the end of the rack gear 18 is received or drawn out in the groove of the block.

In addition, a disc-shaped electric wheel 19 is mounted on a shaft of the drive motor 16 provided on one side of the conveyor 10, and one side of the electric wheel 19, for example, one side of the edge and the rack gear. The connecting rod 20 is connected and installed between one end of the 18.

At this time, both ends of the connecting rod 20 have a pin coupling structure to accommodate the interference between the rotary motion and the linear motion.

Accordingly, when the driving motor 16 is operated, the rotation of the electric wheel 19 is transmitted to the rack gear 18 via the connecting rod 20, thereby allowing linear reciprocation of the rack gear 18.

That is, the rack gear 18 performs one linear reciprocating motion while the electric wheel 19 is rotated once.

Figures 5a and 5b is a schematic plan view showing the operating state of the cleaning device having a drive means of the rack and pinion combination as described above.

As shown in FIGS. 5A and 5B, when the glass 11 traveling along the conveyor 10 enters the working area of the disk brush 12, the glass 11 is rotated on the surface of the glass 11 by the rotation of the disk brush 12. Foreign matter can be removed.

At this time, the electric wheel 19 and the connecting rod 20 is operated by the operation of the drive motor 16, and the rack gear 18 is to repeat the linear reciprocating motion along the width direction of the conveyor 10 Each of the pinion gears 17 engaged with the rack gear 18 is repeatedly rotated in both directions, for example, clockwise and counterclockwise, in accordance with the linear reciprocation of the rack gear 18.

As a result, the disk brush 12 integrally rotating with the pinion gear 17 also rotates in both directions to remove foreign matters on the surface of the glass 11.

For example, as shown in FIG. 5A, when the rack gear 18 moves upward in the direction of the arrow, the first row of disk brushes 12 rotate counterclockwise while the second row of disk brushes 12 are clockwise. Direction, and on the contrary, when the rack gear 18 moves downward in the direction of the arrow as shown in FIG. 5B, the first row of disk brushes 12 rotate clockwise and the second row of disk brushes 12 half. Since it rotates in a clockwise direction, each of the disc brushes 12 is repeatedly rotated in both directions.

Thus, since the disk brush 12 rubs the glass 11 repeatedly in both directions, it is possible to clean the glass 11 more effectively than the conventional wiping in only one direction.

6 and 7 are schematic plan and side views showing another embodiment of the LCD glass cleaning apparatus according to the present invention.

As shown in Figures 6 and 7, here shows an example of applying a transmission means consisting of a combination of a worm and a worm wheel.

A plurality of disk brushes 12 are arranged side by side at a predetermined interval along the width direction on the conveyor 10 for the transfer of the glass 11, the worm wheel 22 on the axis of each disk brush 12, respectively Is mounted.

At this time, the respective disk brushes 12 are also supported in a rotatable structure on the frame structure as above.

In order to rotate each disk brush 12, a single worm 23 is disposed between two disk brushes 12 in parallel with the width direction of the conveyor 10 to be engaged with the respective disk brushes 12 simultaneously. do.

One end of the worm 23 arranged in this way is connected via the coupling 24 and the shaft of the drive motor 16 installed in a horizontal position, the other end is supported by a bearing or the like on the frame structure, the worm 23 ) Can be installed as a structure that is supported at both ends as a whole.

In particular, the worm 23 can rotate each worm wheel 22 engaged in both directions repeatedly while rotating in the forward and reverse directions, and for this purpose, a drive for providing power for the operation of the worm 23 is performed. The motor 16 is applied to the forward and reverse motor capable of forward and reverse operation.

Accordingly, when the driving motor 16 operates in the forward direction, the worm 23 also rotates in the forward direction (clockwise), while the worm wheels 22 in the first front row rotate in the reverse direction (counterclockwise) and at the same time in the rear second row. The worm wheels 22 rotate in the forward direction (clockwise). When the driving motor 16 operates in the reverse direction, the worm 23 also rotates in the reverse direction (counterclockwise), and the respective worm wheels 22 rotate in opposite directions. It turns into the rotation.

Therefore, the disk brush 12 which is integrally rotated with the worm wheel 22 also removes foreign substances, etc., deposited on the surface of the glass 11 while repeatedly rotating in both directions, and thus the disk brush 12 repeatedly scans in both directions. 11), the more effective glass cleaning can be done.

8 and 9 are a schematic plan view and a side view showing another embodiment of the LCD glass cleaning apparatus according to the present invention.

As shown in Figs. 8 and 9, an example in which a transmission means composed of a combination of a cam and a bearing is applied is shown.

At least two rows of the disc brushes 12 are arranged at the top of the conveyor 10 for conveying the glass 11 side by side at a predetermined interval along the width direction, and each disc brush 12 has a protruding shape. Bearing support 27 is formed.

At this time, the bearing support 27 is formed in the form of four protruding pillars of the four edges arranged in a square structure while forming a groove of the "+" shape inward, these four bearing support (27) facing each other The side surface is curved so that it is in contact with the cam / bearing assembly 26 side, which will be described later, to receive the force provided from the cam / bearing assembly 26 side.

In addition, a drive shaft 25 disposed long across the width direction of the conveyor 10 is connected to the shaft of the drive motor 16 installed at one side of the conveyor 10 via a coupling 24. Accordingly, the drive shaft 25 can also be rotated along with the operation of the drive motor 16.

The other end of the drive shaft 25 at this time can be supported by a bearing or the like.

In particular, the drive shaft 25 is provided with a member of the cam / bearing assembly 26, for example, the bearing is assembled to the outer peripheral surface of the cam integrally formed on the shaft, such a cam / bearing assembly 26 2 is doubled to one disc blush 12 and two cam / bearing assemblies 26 are eccentrically assigned to each other so that the cam / bearing assembly 26 rotates integrally with the drive shaft 25. This allows the disc brush 12 to be rotated repeatedly in both directions.

For example, the two cam / bearing assemblies 26 of the drive shaft 25 are sandwiched between each pair of bearing supports 27 on the front and back sides (up and down in the drawing) of the disc brush 12, In particular, the front and rear cam / bearing assembly 26 at this time is eccentrically fitted with a phase difference of 180 ° from each other, so that the disk is driven by the two cam / bearing assemblies 26 that are eccentrically fitted when the drive shaft 25 is rotated. Brush 12 is to be rotated repeatedly in both directions.

More specifically, as shown in FIG. 10, when the glass 11 traveling along the conveyor 10 enters the working area of the disk brush 12, the glass 11 is rotated by the rotation of the disk brush 12. Foreign matter on the surface of the can be removed.

That is, the drive shaft 25 is rotated by the operation of the drive motor 16, and the disc brush 12 by the operation of the two cam / bearing assembly 26 disposed on one disc brush 12 together. ) Is repeatedly rotated in the clockwise and counterclockwise directions as shown by the arrow direction in each rotation of the shaft to remove foreign matters and the like on the surface of the glass (11).

Like the above two embodiments, since the disk brush 12 wipes the glass 11 repeatedly in both directions, the glass brush 11 can be cleaned more effectively than the conventional brushing in only one direction.

The above contents are described by taking the present invention as an example, and the present invention is not limited to the above-described example, and the rights of the present invention are determined according to the attached utility model registration claims. In addition, various modifications of the present invention can be carried out by those skilled in the art, but it is obvious that all belong to the scope of the present invention.

As described above, the present invention provides a cleaning device including a bidirectional rotating cleaning mechanism for repeatedly operating the disc brush in both directions using a rack and pinion combination, a worm and worm wheel combination, and the glass surface in both directions. Since it can be wiped with a scrubbing brush, there is an advantage of removing foreign matters more effectively.

In addition, since the cleaning efficiency can be improved by the bidirectional cleaning process, there is no need to install additional disk brushes, and thus no additional installation cost or additional installation space is required, and therefore, it is also excellent in terms of economy.

Claims (5)

A plurality of disk brushes 12 disposed side by side at a predetermined interval along the width direction of the conveyor 10 and performing the cleaning operation on the glass 11, and to provide power for the rotation of the disk brush 12 In the LCD glass cleaning device comprising a drive motor 16 and a transmission means for transmitting the power of the drive motor 16 to the disk brush 12 side, The transmission means is an LCD glass cleaning apparatus, characterized in that made in a manner to repeatedly rotate each disk brush (12) in both directions. The pinion gear according to claim 1, wherein the transmission means is arranged in engagement with the pinion gear 17 mounted on the shaft of each disc brush 12 and the pinion gears 17 to perform linear reciprocating operation. (17) is repeatedly installed between the rack gear 18 and one side of the electric wheel 19 mounted on the shaft of the drive motor 16 and one end of the rack gear 18, the drive motor LCD glass cleaning apparatus, characterized in that consisting of a connecting rod (20) for transmitting the power of the (16) to the rack gear (18). 3. The LCD glass cleaning apparatus according to claim 2, wherein the transmission means further comprises a guide device (21) for guiding linear reciprocation of the rack gear (18). The worm wheel (22) according to claim 1, wherein the transmission means has a worm wheel (22) mounted on the shaft of each disc brush (12), and a structure engaged with each of the worm wheels (22) to rotate in the forward and reverse directions. ) Is made of a worm 23 repeatedly rotating in both directions, and the driving motor 16 connected to one end of the worm 23 to provide power is an LCD capable of operating in reverse direction. The method according to claim 1, wherein the transmission means is formed on the upper end of the disc brush 12 and is connected to the bearing of the protruding bearing support 27 having a curved bearing contact, the shaft of the drive motor 16, the conveyor 10 And a plurality of cam / bearing assemblies (26) disposed across the width direction of the disk brush (12) and eccentrically fastened to the bearing support (27) of each disk brush (12).

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