KR200390725Y1 - LCD glass transfer apparatus - Google Patents

Abstract

The present invention relates to an LCD glass transfer device. The present invention is a power generating unit for generating a rotational power; A plurality of feed rollers are arranged so that a predetermined feed line is formed, and the LCD glass conveying apparatus comprising a conveying unit for conveying glass while rotating by the rotational power generated in the aforementioned power generating unit, the aforementioned power generating unit A switching means provided at a portion where the rotating shaft of the motor included in the motor and the aforementioned rotating shaft intersect each other, and converting the rotational direction of the motor by 90 ° and transmitting the same to the feeding roller; It is further possible to move up and down while supporting the rotating shaft of the motor included in the above-described power generating unit, further comprising a power transmission unit including a gap adjusting means for adjusting the distance between the rotating shaft of the motor and the rotating shaft of the feed roller described above. It is composed. The present invention configured as described above can adjust the distance between the rotation axis of the motor included in the above-mentioned power generating unit and the rotation axis of the conveying roller included in the above-mentioned conveying unit, thereby generating noise and abrasion according to the power transmission and the change of the power direction. While minimizing the transmission power, while the above-mentioned rotational shaft of the motor and each of the above-described feed rollers have a power transmission structure by gear coupling, the load of the driving unit is minimized and the backlash is prevented to drive. To improve accuracy and reliability.

Description

LCD glass transfer apparatus

The present invention relates to a glass transport apparatus of a semiconductor manufacturing process, in particular, LCD glass manufacturing process.

In general, a conveying apparatus including a conveying roller is mainly used as an apparatus for conveying the glass in each process in the LCD glass manufacturing process.

Such a conveying roller is particularly suitable as an apparatus for safely conveying LCD glass in a large area trend.

Looking at the prior art of the LCD glass conveying apparatus including the above-described feed roller, the power generating unit for generating a rotational power; A plurality of conveying rollers are arranged to form a predetermined conveying line, and include a conveying part for conveying glass while rotating by the rotational power generated by the aforementioned power generating part.

The power generation unit of the conventional LCD glass transfer device is configured to include a motor, and the rotational power of the motor is transferred to the transfer roller of the transfer unit described above, so that the LCD glass is transported on the transfer roller.

Here, the timing belt and the pinion gear are used as a means for transmitting the rotational force of the motor to the feed rollers, and interlocking the plurality of feed rollers to rotate simultaneously in the same direction.

That is, the timing belt is rotated by the above-described rotational power of the motor, and the pinion gear is provided at a predetermined interval on the above-described timing belt, and the pinion gears are coupled to each other by coupling the rotation shaft of the feed roller.

In addition, gears may be provided at portions where the rotational axis of the motor and the rotational axis of the feed roller cross each other to switch the rotational direction of the motor.

However, all of the above-described conventional LCD glass transfer apparatus, there is a problem that the correct operation is not performed, such as backlash occurs due to the wear of the pinion gear and the timing belt or wear of the gear and gear in accordance with long-term use. Was.

In addition, when the pinion gear and the timing belt or the gear and the gear is not precisely coupled, for example, when the coupling between each of the above-mentioned components is stiff, the noise caused by excessive noise, extreme wear and excessive load action on the motor Many problems occur, and when the coupling between the above-described components is loose, there is a problem that the correct transfer operation is not made.

The present invention has been created in view of the above problems, and the object of pursuing is to ensure that the operation of the conveying means made up of a plurality of arrangements for conveying while directly responding to the glass is made identical and accurate while driving and power transmission. The present invention provides an LCD glass conveying apparatus which minimizes noise generated while minimizing wear due to power transmission and a corresponding operation of an interlocking means.

The present invention for achieving the above object, the power generating unit for generating a rotational power; A plurality of feed rollers are arranged so that a predetermined feed line is formed, and the LCD glass conveying apparatus comprising a conveying unit for conveying glass while rotating by the rotational power generated in the aforementioned power generating unit, the aforementioned power generating unit A switching means provided at a portion where the rotating shaft of the motor included in the motor and the rotating shaft of the above-described feed rollers intersect each other, converting the rotational direction of the motor by 90 °, and transferring the same to the feed roller; It is further possible to move up and down while supporting the rotating shaft of the motor included in the above-described power generating unit, further comprising a power transmission unit including a gap adjusting means for adjusting the distance between the rotating shaft of the motor and the rotating shaft of the feed roller described above. Characterized in that configured.

The present invention configured as described above, by adjusting the distance between the rotation axis of the above-described motor and the rotation axis of the above-mentioned feed roller through the gap adjusting means, the switching means of the above-mentioned power transmission unit is coupled to the appropriate coupling force at the correct position. As a result, it is possible to minimize the wear and noise caused by the operation of the gap adjusting means of the power transmission unit described above, it is possible to transfer the accurate and uniform rotational power to the above-described feed roller.

Thus, the above-described switching means of the present invention may be composed of, for example, a screw gear provided on the rotation shaft of the motor described above, and a pair of screw gears provided at the end of the rotation shaft of the feed roller described above.

In addition, the switching means may be, for example, bevel gears, worm gears in addition to screw gears, and satisfies all of the switching means of the structure for changing the rotational direction.

In addition, the rotating shaft of the above-described motor can be connected by the connecting means along the length, for example, a coupler, a universal joint or the like can be applied.

On the other hand, in the present invention, the above-described spacing adjusting means, for example, while being fixed to the feeder body frame for supporting the feed roller, the support bracket is formed with a vertical guide groove; A guide block inserted into the guide groove of the above-described support bracket and slid up and down is formed on one side, and fixed to the above-described support bracket, and having a long hole formed on both sides thereof so as to be movable up and down; It may be configured to include a bearing fixing block coupled to the above-described control block upper surface, fixing the bearing for supporting the rotating shaft of the motor.

When described with reference to the accompanying drawings an embodiment of the present invention as follows.

First, the present invention, as shown in the accompanying drawings, Figures 1 to 4, the power generating unit 10 including a motor 11 for generating a rotational power; A plurality of feed rollers 21 are arranged so that a predetermined feed line is formed, and includes a feed unit 20 for conveying glass G while rotating by the rotational power generated by the above-described power generating unit 10. In the LCD glass conveying apparatus, the rotary shaft 12 of the motor 11 included in the above-described power generating unit 10 and the rotating shaft 22 of the above-described feed roller 21 intersect each other to provide a motor ( Switching means (31) for converting the rotational direction of 11) by 90 [deg.] And transferring it to the feed roller (21); It is possible to move up and down while supporting the rotating shaft 12 of the motor 11 included in the power generating unit 10, the rotating shaft 12 of the motor 11 described above and the rotating shaft of the feed roller 21 described above. It further comprises a power transmission unit 30 including a distance adjusting means 33 for adjusting the distance to (22).

Here, the above-described switching means 31 is included in the screw gear 32a provided on the rotation shaft 12 of the motor 11 included in the above-described power generating section 10, and the transfer section 20. It consists of a pair of screw gear 32b provided in the rotating shaft 22 end part of the feed roller 21. As shown in FIG.

However, in addition to the above-described screw gear, a bevel gear or a worm gear may be applied as another embodiment of the switching means 31.

On the other hand, the above-described spacing adjusting means 33 is fixed to the conveying apparatus body frame (1) for supporting the above-described conveying roller 21, the support bracket 34 is formed with a guide groove 35 vertically; Guide protrusions 37 inserted into the guide grooves 35 of the above-described support bracket 34 and slid up and down are formed on one side thereof, and bolted to the above-described support bracket 34, so that both sides are movable up and down. An adjustment block 36 in which a long hole 38 is formed; Coupled to the upper surface of the control block 36 described above, and comprises a bearing fixing block 39 for fixing the bearing (B) for supporting the rotating shaft 12 of the above-described motor (11).

Referring to the operation of the present invention configured as described above are as follows.

First, as shown in (a) and (b) of FIG. 5, a screw gear provided on the rotation shaft 12 of the motor 11 included in the aforementioned power generating unit 10, which is a switching means 31 ( 32a) and the screw gear 32b provided at the end of the rotating shaft 22 of the feed roller 21 included in the above-described feed unit 20 to adjust the play so that they can operate with a constant pressure at an accurate position. , The position of the adjustment block 36 fixed to the support bracket 34 of the gap adjusting means 33 should be adjusted up and down.

To this end, first, loosen the bolt to make the control block 36 freely flows from the support bracket 34 described above. Next, by adjusting the height of the adjustment block 36, the adjustment block 36 is bolted to the support bracket 34 at the position where the screw gears 32a and 32b are operated at a constant pressure at the correct position. Secure with.

The adjustable block 36 can be vertically flown by the long hole 36 formed in the control block 36. Here, the adjustment block 36 is formed with a guide protrusion 37 to move along the guide groove 35 of the support bracket 34, it can be moved vertically up and down exactly. At this time, the guide protrusion 37 of the adjustment block 36 and the guide groove 35 of the support bracket 34 may also have a certain degree of play.

As described above, in the state where the above-described screw gears 32a and 32b are adjusted to operate at a constant pressure at the correct position, as shown in FIG. 6, when the power generating unit 10 rotates, the rotating shaft of the motor (12) and the switching means 31 provided at the intersection of the rotating shaft of the feed roller 21 is to change the rotation direction of the power generating section 10 by 90 ㅀ to transmit to the feed roller 21 to rotate.

When the glass G is supplied to the conveying roller 21 rotated as described above, the glass G is conveyed by the rotating conveying roller 21.

For reference, in the present invention, the control block 36 is configured to flow up and down with respect to the support bracket 34, but the bearing fixing block 39 itself is screwed to the upper surface of the support bracket 34, the screw The height may be adjusted according to the position of the coupling.

In addition, the present invention is designed to allow the control block 36 to flow vertically with respect to the support bracket 34, but if the coupling and flow structure according to the present invention is applied, it can also be made to flow horizontally, horizontal and vertical The flow structure can also be applied in parallel.

For example, the lower surface of the support bracket 34 may form a long hole like the control block 36 to flow left and right with respect to the transfer device body frame (1).

In addition, based on the structure of the present invention can be obtained by a simple design change a variety of flowable structure, can be selectively used as needed.

The present invention as described above, by adjusting the distance between the rotary shaft of the motor included in the above-mentioned power generating unit and the rotary shaft of the feed roller included in the above-mentioned transfer unit, noise and wear caused by power transmission and the change of the power direction. While minimizing the occurrence of power transmission, while the above-described rotational axis of the motor and each of the above-described transfer rollers have a power transmission structure by gear coupling, the load of the drive unit is minimized, and the backlash is prevented and driven. The effect of improving accuracy and reliability is obtained.

1 is a plan view briefly showing the overall configuration of the present invention.

Figure 2 is a perspective view showing the main configuration of the present invention.

Figure 3 is a partially separated perspective view showing the main configuration of the present invention.

Figure 4 is a side cross-sectional view showing the configuration of the present invention.

5, a, b is a front cross-sectional view (part) showing the height adjustment state of the present invention.

Figure 6 is a sectional view showing a glass conveying state of the present invention.

<Description of Signs of Major Parts of Drawings>

10: power generating unit 11: motor

12: rotating shaft 20: transfer unit

21: feed roller 22: rotating shaft

30: fixing bracket 31: switching means

32a, b: screw gear 33: gap adjusting means

34: support bracket 35: guide groove

36: adjustment block 37: guide projection

38: long hole 39: bearing fixing block

Claims (3)

A power generator 10 including a motor 11 for generating rotational power; A plurality of conveying rollers 21 are arranged to form a predetermined conveying line, the LCD configured to include a conveying unit 20 for conveying the glass G while rotating by the rotational power generated in the power generating unit 10 In the glass feed apparatus, the rotary shaft 12 of the motor 11 included in the power generating unit 10 and the rotary shaft 22 of the feed roller 21 are provided at the intersection portion of the motor 11, Switching means (31) for switching the rotational direction by 90 ° and transferring it to the feed roller (21); The rotating shaft 12 of the motor 11 and the rotating shaft 22 of the feed roller 21 are made to be movable upward and downward while supporting the rotating shaft 12 of the motor 11 included in the power generating unit 10. Transfer device of the LCD glass, characterized in that it further comprises a power transmission unit 30 including a spacing adjusting means 33 for adjusting the distance to. The method of claim 1, wherein the switching means 31 is included in the screw gear (32a) provided on the rotating shaft 12 of the motor 11 included in the power generating section 10, and the transfer section 20 The transfer device of the LCD glass, characterized in that consisting of a pair of screw gear (32b) provided at the end of the rotary shaft 22 of the transfer roller (21). The method according to claim 1, wherein the gap adjusting means 33 is fixed to the feeder body frame (1) for supporting the feed roller 21, the support bracket 34 is formed with a vertical guide groove (35); A guide protrusion 37 is inserted into the guide groove 35 of the support bracket 34 and slides up and down, and is formed on one side, and is fixed to the support bracket 34 by bolts, and is provided on both sides so as to be movable up and down. An adjustment block 36 formed with 38; It is coupled to the upper surface of the control block 36, the transfer of the LCD glass characterized in that it comprises a bearing fixing block 39 for fixing the bearing (B) for supporting the rotating shaft 12 of the motor (11) Device.