KR100710883B1 - Sag prevention apparatus of glass transfer roller for flat panel display - Google Patents

Abstract

According to the present invention, a roller shaft configured to transfer the glass to a lower portion of the glass in a flat panel display manufacturing process, a plurality of rollers inserted into the roller shaft at a predetermined interval, and a horizontal plate vertically supporting the roller shaft and the plurality of rollers In the glass transfer apparatus for a flat panel display comprising: a bearing holder bracket portion formed on one side and the other side of the roller shaft so as to be coupled to the vertical plate to form a shaft through hole through which the roller shaft can pass; A bearing holder part comprising a deep hole ball bearing for supporting the roller shaft by the glass on one side of the holder bracket part and allowing the roller shaft to rotate while supporting the weight of the roller shaft; and two magnetics on one side of the bearing holder part; Like each other On the one side of the disk-shaped magnetic and the disk-shaped magnetic to prevent the roller shaft from sagging due to the load generated on the roller shaft by the glass and the weight of the roller shaft by using the magnetic force of the magnetic, formed to face the polarity And a fixing nut which is formed to be fixed to the roller shaft to maintain the repulsive force of the disc-shaped magnetic.

Flat Panel Displays, Glass, Feed Rollers, Springs, Magnetics

Description

Sag prevention apparatus of glass transfer roller for Flat Panel Display

1 is an overall view of the deflection prevention device of the glass feed roller for a flat panel display according to the present invention.

Figure 2 is a front view and side view of the bearing holder bracket portion of the deflection prevention device of the glass feed roller for flat panel display according to the present invention.

Figure 3 is a front view and a side view of the bearing holder portion of the deflection prevention device of the glass feed roller for flat panel display according to the present invention.

Figure 4 is a view showing an embodiment of a deflection prevention device of a glass feed roller for a flat panel display according to the present invention.

** SIGNS FOR MAIN PARTS OF THE DRAWINGS **

100: roller shaft 110: roller

120: horizontal plate 130: vertical plate

140: bearing holder bracket portion 150: bearing holder portion

151: deep hole ball bearing 160: disc type magnetic

170: fixing nut 180: thrust ball bearing

181: bearing collar 190: spring

191: spring collar

The present invention relates to a conveying apparatus for conveying a glass for a flat panel display, and more particularly, a disk-shaped magnetic is formed on both sides of a roller shaft for conveying the glass, so that the load and the roller shaft are applied to the lower roller shaft. When the roller shaft sag due to its own weight, the two magnetic bodies are formed to face each other with the same polarity, so that the two magnetic members pull the sagging roller shaft by using the repulsive force to push each other, thereby preventing the sag of the roller shaft. It is possible to prevent the defect of the glass by preventing the deflection of the roller shaft, it is possible to minimize the diameter of the roller shaft relates to a deflection prevention device of the glass feed roller for flat panel display that can reduce the manufacturing cost.

In general, the practical use of flat panel displays (FPDs), which can be used as wall-mounted televisions and multimedia displays, has been recently developed. As the size of the glass for flat panel display becomes larger and larger, the self-weight of the glass increases, thereby increasing the length of the roller shaft of the conveying roller for conveying the glass.

In the manufacturing process of the glass for flat panel display, a conveying roller was used to convey the glass, and a glass conveying apparatus for a flat panel display provided with a conventional conveying roller is obtained by driving the roller after obtaining the glass on the top of the roller. It is. However, as the size of the flat panel display increases, the weight of the glass increases as the size of the glass increases, and when the weight of the glass increases, the roller shaft supporting the roller sags when the weight of the glass increases. There is a problem that the damage rate is increased by the damage.

In addition, in order to solve the problems of the prior art by increasing the diameter of the roller shaft in order to withstand the weight of the enlarged glass, or by inserting a filling material inside the roller shaft to strengthen the rigidity of the roller shaft Deflection of the roller shaft due to the load was prevented. However, as described above, the roller shaft in which the diameter of the roller shaft is increased or the filling material is inserted therein has a disadvantage in that the manufacturing cost increases accordingly.

The present invention has been made to solve the problems described above to form a disk-shaped magnetic on both sides of the roller shaft of the feed roller for transporting the glass for flat panel display during the flat panel display manufacturing process is applied to the lower roller shaft by the glass When the roller shaft sag due to the falling load and the magnetic weight of the roller shaft, the magnetic of the disc-shaped magnetics are formed to face each other with the same polarity, thereby pulling the roller shaft sag using the repulsive force of the magnetic to sag the roller shaft. And a flat panel display which can reduce the manufacturing cost by reducing the diameter of the roller shaft, thereby eliminating the need to increase the diameter of the roller shaft or insert a filler to increase rigidity inside the roller shaft. Dragon glass It is an object of the present invention to provide a sag prevention device for a song roller.

In addition, another object of the present invention is to provide a deflection prevention device for a glass feed roller for a flat panel display, which can prevent generation of particles due to no-load rotation torque by using a disk type magnetic.

In addition, using a thrust ball bearing in place of the disc-shaped magnetic to provide a deflection prevention device of the glass feed roller for flat panel display that can prevent the roller shaft from sagging under the load generated on the roller shaft of the thrust ball bearing There is another purpose.

The present invention provides a roller shaft configured to transfer the glass to a lower portion of the glass in a flat panel display manufacturing process, a plurality of rollers inserted into the roller shaft at regular intervals, and a horizontal plate to support the roller shaft and the plurality of rollers. In the glass transfer device for flat panel display consisting of a vertical plate,

A bearing holder bracket portion formed at one side and the other side of the roller shaft to form a shaft through hole through which the roller shaft can pass;

A bearing holder part including a deep hole ball bearing on one side of the bearing holder bracket part to allow the roller shaft to rotate while supporting a load applied to the roller shaft by the glass and a weight of the roller shaft;

Two magnets are formed on one side of the bearing holder to face each other with the same polarity to prevent the roller shaft from sagging due to the load generated on the roller shaft by the glass and the weight of the roller shaft by using the repulsive force of the magnetic. Disc-shaped magnetics;

A fixing nut formed on one side of the disc-shaped magnetic and fixed to the roller shaft to maintain the repulsive force of the disc-shaped magnetic; Characterized in that consists of.

In addition, the disc-shaped magnetic is characterized in that it can be used as a thrust ball bearing formed of a washer-shaped orbital wheel with a ball rolling and a retainer incorporating the ball.

The disc-shaped magnetic and thrust ball bearings are characterized in that when the deflection of the roller shaft due to the large glass is large, a spring in a state of maintaining the elastic force can be formed on one side to prevent the deflection of the roller shaft.

Hereinafter, with reference to the accompanying drawings to describe the present invention in detail.

1 is an overall view of the deflection prevention device of the glass feed roller for flat panel display according to the present invention, Figure 2 is a front view and a side view of a bearing holder bracket of the deflection prevention device of the glass feed roller for flat panel display according to the present invention, 3 is a front view and a side view of a bearing holder portion of a deflection preventing device of a glass feed roller for a flat panel display according to the present invention.

As shown in FIGS. 1, 2, and 3, the roller shaft 100 allows the glass to be transported to the lower portion of the glass in a flat panel display manufacturing process, and a plurality of rollers inserted into the roller shaft 100 at predetermined intervals. One side of the roller shaft 100 in the glass conveying apparatus for a flat panel display including a horizontal plate 120 and a vertical plate 130 to support the roller shaft 100 and the plurality of rollers 110. On the other side, the bearing holder bracket 140, the bearing holder 150, the disc-shaped magnetic 160, and the fixing nut 170 are formed to enlarge the load of the glass and the weight of the roller shaft 100. When the roller shaft 100 is drooped by the roller shaft 100 by using the repulsive force generated through two magnetically facing each other with the same polarity formed in the disk-shaped magnetic 160 by Pull that can prevent the deflection of the roller shaft 100, and reduce the manufacturing cost, it is possible to minimize the diameter of the roller shaft 100.

The roller shaft 100 is formed by forming a bearing holder bracket 140, a bearing holder 150, a disc-shaped magnetic 160 and a fixing nut 170 on both sides.

The bearing holder bracket 140 is formed to be coupled to the vertical plate 130 on both sides of the roller shaft 100 so that the roller shaft 100 can penetrate through the shaft through hole, and the bearing holder bracket The bearing holder part 150 is formed on one side of the part 140. The bearing holder part 150 formed on one side of the bearing holder bracket part 140 forms a deep hole ball bearing 151 therein to the roller shaft 100 by the weight of the roller shaft 100 and the glass. The roller shaft 100 is rotated while supporting the applied load. The bearing holder part 150 and the bearing holder bracket part 140 are fixed to the vertical plate 130 by the deep hole ball bearing 151 so that the bearing holder part 150 and the bearing holder bracket part 140 are fixed. The roller shaft 100 penetrated to rotates.

Disc-shaped magnetic 160 formed on one side of the bearing holder 140 is formed to face the two magnetic magnets with the same polarity to each other by the load applied to the roller shaft 100 by the glass and the roller shaft 100 When the roller shaft 100 is sag due to its own weight, the roller shaft 100 is attracted by the repulsive force generated by the two magnetics to prevent the roller shaft 100 from sagging. The roller shaft 100 that prevents sag by the disc-shaped magnetic 160 may minimize the diameter, and increase the diameter of the existing roller shaft 100 to prevent the sag of the roller shaft 100 or increase the diameter. There is no need to insert the filler for the rigidity reinforced inside the roller shaft 100 can reduce the manufacturing cost.

In addition, a fixing nut 170 is formed at one side of the disc-shaped magnetic 160 and fixed to the roller shaft 100 to maintain the repulsive force generated in the two magnetic bodies facing each other with the same polarity. The fixing nut 170 and the magnetic formed on the other side of the fixing nut 170 are fixed to the roller shaft 100 by the fixing nut 170 to rotate integrally with the roller shaft 100, and the bearing The magnetic formed on one side of the holder 150 is fixed to the bearing holder 150 so that a space is formed between the magnetic and the magnetic when the roller shaft 100 rotates to generate particles due to no-load rotation torque. You can prevent it.

Figure 4 is a view showing an embodiment of a deflection prevention device of a feed roller for a flat panel display according to the present invention.

As shown in FIG. 4, a thrust ball bearing 180 is formed on both sides of the roller shaft 100 in place of the disc-shaped magnetic 160 to retain a ball-type washer-shaped track wheel and a retainer incorporating the ball. The roller shaft 100 is configured to receive a load, and the bearing collar portion 181 is formed between the bearing holder portion 150 and the thrust ball bearing 180 to form the thrust ball bearing 180. ) To support the load in the direction of the roller shaft (100).

In addition, one side of the thrust ball bearing 180 formed on one side of the roller shaft 100 to form a spring 190 in the state of maintaining the elastic force to the roller shaft by the weight of the glass load and the roller shaft 100 When 100 is sag, the roller shaft 100 may be pulled through the elastic force of the spring 190 to prevent sagging of the roller shaft 100, and one side of the spring 190 may maintain the elastic force. The spring 190 in one state forms a spring collar portion 191 to support the elastic force, and to fix the spring 190 to one side of the spring collar portion 191 while the elastic force is maintained. A fixing nut 170 is fixed to the roller shaft 100.

The present invention formed in the configuration as described above of the roller shaft 100 through the repulsive force of the disk-shaped magnetic 160 when the roller shaft 100 is sagging due to the load of the enlarged glass and the weight of the roller shaft 100 It is possible to prevent sag, thereby reducing the manufacturing cost, it is possible to prevent the generation of particles due to the no-load rotational torque of the disc-shaped magnetic 160.

As described above, preferred embodiments according to the present invention have been described, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the scope of the present invention as claimed in the following claims. Anyone with knowledge of the present invention will have the technical spirit of the present invention to the extent that various modifications can be made.

As described above, the present invention forms disc-shaped magnetics on both sides of the roller shaft of the feed roller for transporting the glass for flat panel display during the flat panel display manufacturing process, so that the glass is subjected to the load applied to the lower roller shaft and the weight of the roller shaft. When the roller shaft is sag due to this, the two magnets of the disc-shaped magnetic are formed to face each other with the same polarity, thereby attracting the roller shaft to sag by using the repulsive force of the magnetic and preventing the roller shaft from sagging. Thereby, there is no need to increase the diameter of the roller shaft or insert a filler for enhancing rigidity in the roller shaft, thereby reducing the diameter of the roller shaft, thereby reducing the manufacturing cost. Disc type magnetic With the use of the no-load rotation torque there is an effect that can prevent the generation of particles.

In addition, by using a thrust ball bearing instead of the disc-shaped magnetic there is an effect that can prevent the roller shaft from sagging under the load generated in the roller shaft of the thrust ball bearing.

Claims (3)

In the manufacturing process of the flat panel display, a roller shaft configured to transfer the glass to the lower part of the glass, a plurality of rollers inserted into the roller shaft at regular intervals, a horizontal plate and a vertical plate to support the roller shaft and the plurality of rollers. In the glass transfer device for a flat panel display, A bearing holder bracket portion formed at one side and the other side of the roller shaft to form a shaft through hole through which the roller shaft can pass; A bearing holder part including a deep hole ball bearing on one side of the bearing holder bracket part to allow the roller shaft to rotate while supporting a load applied to the roller shaft by the glass and a weight of the roller shaft; Two magnets are formed on one side of the bearing holder to face each other with the same polarity to prevent the roller shaft from sagging due to the load generated on the roller shaft by the glass and the weight of the roller shaft by using the repulsive force of the magnetic. Disc-shaped magnetics; A fixing nut formed on one side of the disc-shaped magnetic and fixed to the roller shaft to maintain the repulsive force of the disc-shaped magnetic; Sagging prevention device of the glass feed roller for a flat panel display, characterized in that consisting of. The method of claim 1, The disc-shaped magnetic deflection prevention device for a flat panel display glass feed roller, characterized in that it can be used as a thrust ball bearing formed with a ball-shaped washer-shaped wheel wheel and a retainer incorporating the ball. The method of claim 2, The disc-shaped magnetic and thrust ball bearings may form a spring in a state in which elastic force is maintained on one side when the deflection of the roller shaft by the large glass is large, thereby preventing the deflection of the roller shaft. Deflection device of feed roller.

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