KR101471821B1 - Glass plate holder for flame posihiing apparatus - Google Patents

Abstract

The present invention relates to a glass plate holder fixing a glass plate by being installed on a conveyer which supplies and discharges the glass plate in a glass plate flame polishing apparatus. More specifically, provided is a glass plate holder comprising an undersurface guide and a lateral guide which incline at regular angles and have a horizontal slope and a vertical slope which are at right angles, and automatically aligning and fixing various sizes of glass plates.

Description

Technical Field [0001] The present invention relates to a glass plate holder for a glass plate flame polishing apparatus,

The present invention relates to a glass plate flame grinding apparatus, and more particularly, to a glass plate holder which is installed on a conveyor for supplying or discharging a glass plate to fix the glass plate.

Display devices are used for electronic devices such as smart phones, tablet PCs, and televisions. Thin sheet glass is used as a substrate of an LCD display device among display devices. The thin plate glass is also used as a window panel for protecting the display portion of the display device. Also, a thin plate glass is used for the touch sensor device. In order to manufacture the thin plate glass used in various electronic devices as described above, it is necessary to cut a large glass plate.

Generally, as a method of cutting a glass plate, it is known that a scribing line is formed first to make a mechanically weak portion, and a physical or thermal impact is applied to a weak portion to break the glass rather than completely cutting the glass. In addition, a water-jet cutting method is known in which water is cut under pressure. When the glass plate is subjected to a physical or thermal impact, the glass is susceptible to mechanical impact due to its high hardness, resulting in minute cracks in the cut edges or chips. When the glass is reinforced without removing fine cracks or chips formed on the cutting edges of the glass plate, minute cracks may progress as time passes and the glass plate itself may be damaged.

In order to prevent the microscopic cracks or breakage of the glass plate due to the chips, not only the fine cracks or chips formed on the cut edges but also the edges are smoothed after the cut surfaces are cut to remove the sharp portions of the edges. Use a tool such as a diamond wheel to grind or polish the cut surface or chamfer of the corner.

However, since these methods are to process the corners using grinding or chamfering, it is inevitable that the generation of the glass powder can not be avoided, and also problems such as cracks on the corners in the grinding process, surface scratches due to glass dust, It is inevitable that various problems such as a problem of exposure are encountered. Accordingly, there is a continuing need for a new processing method and apparatus that can fundamentally prevent the generation of such glass dust.

For example, as shown in Fig. 6, a cutting edge crack removing apparatus 1 described in Korean Patent Registration No. 10-1265499 entitled " Cutting Edge Crack Removal Device of Glass Plate " A burner 10 for melting the cutting edge of the glass plate 30, a combustion gas supply means for supplying a combustion gas to the burner 10, and a burner 10 for holding the glass plate 30 in proximity to the burner 10 And a rotary vacuum suction gripper 20.

The supply conveyor 54 is provided in the frame 41, and continuously supplies the glass plate 30 to the rotary vacuum suction gripper 20. A discharge conveyor 64 is provided in the frame 41 to receive and continuously discharge the glass plate 30 provided from the rotary vacuum suction gripper 20 after the cutting edge cracks are removed from the burner 10.

Preheating means for preheating the glass plate moving on the feed conveyor and cooling means for cooling the glass plates 30 moving on the discharge conveyor 64. [

When the vacuum suction arm 22 sucks the glass plate 30 supplied by the supply conveyor 54 and the rotary shaft 21 rotates by 90 degrees, the vacuum suction arm 22 moves the glass plate 30 toward the burner 10, The glass plate 30 is transported so as to face the flame front surface of the glass plate 30. The flame radiating surface is provided with a plurality of flame emitting holes so that the flame does not come into contact with the portions other than the cutting edge and the flame directly contacts the cutting edge and the cut surface.

When a certain period of time has elapsed while the rotation of the rotary shaft 21 is stopped, the glass at the lower outer edge of the glass plate 30 contacted with the flame and the glass of the cut surface are melted and removed. Then, the rotary shaft 21 is rotated by 90 degrees, and the glass plate 30 is transferred to the discharge conveyor to finish the heating.

Upon reaching the discharge conveyor 64 side, the vacuum of the vacuum suction arm 22 is released and the glass plate 30 is separated onto the discharge conveyor 64.

As described above, the glass plate 30 having a curved shape with a cut edge and a cutting edge with a convex curved surface with all the cut edges connected thereto removes a crack or a chip, so that the glass plate 30 dissipates concentrated stress and has excellent strength.

2 shows a supply conveyor 50 provided in the frame 41 for continuously supplying the glass plate 30 to the rotary vacuum suction gripper 20. [

As shown, the supply conveyor 50 includes a pair of chains 54 installed in the frame, a plurality of glass plate holders 55 fixed to the pair of chains 54 and arranged to move together with the chain 54 . And a drive sprocket 54a and a driven sprocket 54b for driving the chain 54 are provided. The driving sprocket 54a is connected to a driving motor for driving a feed conveyor 50 (not shown).

The glass plate holder 55 is fixed to both sides of the fixing bracket 55a and has a fixing bracket 54a having both ends fixed to a pair of chains 54. The glass plate holder 55 is fixed to the glass plate 30 And a pair of guides 55b and 55c configured to respectively support the side surfaces of the first and second support members 30 and 30, respectively. The pair of guides 55b and 55c are installed so as to be inclined with respect to the fixing bracket 55a. A plurality of glass plate holders 55 are provided adjacent to each other at regular intervals along a loop-shaped chain 54. [

The glass plate holder 55 supports the glass plate 30 by supporting the glass plate 30 only with the pair of guides 55b and 55c. Therefore, it is possible to widen the area of the glass plate 30 in contact with the air to uniformly preheat the glass plate 30 and to reduce the area of the glass plate 30 contacting the glass plate holder 55 when the glass plate 30 is transferred, Can be prevented from being damaged.

However, since the glass plate holder 55 according to the related art is installed between the pair of guides 55b and 55c, the pair of guides 55b and 55c are provided every time the model of the glass plate 30 is changed. The interval should be adjusted. That is, there is a problem that the pair of guides 55b and 55c fixed to the supply conveyor 50 and all the glass plate holders 55 provided on the discharge conveyor 60 are loosened, and the interval is adjusted again.

Korean Patent Registration No. 10-1265499

SUMMARY OF THE INVENTION The present invention has been made to solve the problems of the prior art, and it is a primary object of the present invention to provide a glass plate holder which can be fixed to a supply conveyor of a glass flame polishing apparatus and a discharge conveyor to fix various sizes of glass plates.

The present invention also provides a glass plate holder which can be automatically aligned regardless of the size of the glass plate by sliding in one direction in a state that the glass plate is raised.

The present invention also provides a glass plate holder which supports the rear surface of the glass plate and prevents the glass plate from bending due to its own weight.

As a means for achieving the object of the present invention, a glass plate holder of a glass flame polishing apparatus according to the present invention is a conveyor including a pair of chains,

A fixed bracket having both ends fixed to a pair of chains;

A lower guide fixed to the upper surface of the fixing bracket and having a horizontal inclined surface at a predetermined angle so that the glass plate slides and moves to one side in a state that the glass plate is raised;

A side guide having a vertical inclined surface orthogonal to a horizontal inclined surface of the lower guide so as to support a side surface of the glass plate slid along the horizontal inclined surface of the guide;

And a rear guide that supports part or all of the rear surface of the backwardly inclined glass plate while being supported by the guide and side guides.

In the present invention, it is supported by a pair of supports fixed on both sides of the fixing bracket and inclined rearward at a constant angle.

According to the glass plate holder of the present invention, it is possible to fix glass plates of various sizes without adjusting the interval between the bottom guide and the side guide.

The present invention is advantageous in that the position of the glass plate is automatically aligned irrespective of the size of the glass plate by sliding the glass plate in one direction in the state that the glass plate is placed on the bottom guide and contacting the side guide.

The present invention relates to a method of manufacturing a glass plate, which is capable of preheating a glass plate uniformly by enlarging an area of the glass plate contacting with the air by supporting a lower surface, a side surface and a rear surface of the glass plate, So that the glass plate can be prevented from being damaged.

Further, the present invention can prevent the glass plate from bending due to its own weight by supporting the rear surface of the glass plate.

FIG. 1 is a schematic front sectional view showing an example of a flame polishing apparatus according to the related art,
2 is a perspective view showing an example of a feed conveyor according to the prior art,
3 is a cross-sectional view of the feed conveyor shown in Fig. 4,
4 is a perspective view showing an example of a glass plate holder according to the related art,
5 is a perspective view showing an example of a glass plate holder according to the present invention,
6 is a perspective view showing another embodiment of the glass plate holder according to the present invention.

Hereinafter, a glass plate holder of a glass flame polishing apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

4 is a perspective view showing an example of a glass plate holder (hereinafter referred to as 'glass plate holder') of the glass plate flame polishing apparatus according to the present invention.

As shown in the figure, the glass plate holder 155 of the present invention is installed in the feed conveyor 50 and the discharge conveyor 60 of the glass plate flame polishing apparatus to transfer the glass plate 30 to the flame polishing unit 40, And the glass plate 30 from which cracks and chips have been removed by the flame is transferred to the outside from the flame spraying unit 40.

The feed conveyor 50 and the discharge conveyor 60 comprise a pair of chains 54 and 64 in the form of a loop and the glass plate holder 155 is mounted on a pair of chains 54 and 65 They are installed at regular intervals.

The glass plate holder 155 has a glass plate on the conveyor so that the glass plate 30 can be easily adsorbed by the rotary vacuum adsorption gripper 20 by widening the area of the glass plate in contact with air to reduce preheating and cooling time To be supplied.

The glass plate holder 155 includes a fixing bracket 155a having both ends fixed to a pair of chains 54 and 64 and a glass plate 30 fixed to the upper surface of the fixing bracket 155a, A lower surface guide 155c formed with a horizontal inclined surface 155c-1 inclined at a predetermined angle so that the glass plate 30 can be slid and moved to one side while the lower surface guide 155c is lifted, A side guide 155d having a vertical inclined surface 155d-1 orthogonal to the horizontal inclined surface 155c-1 of the lower surface guide 155c so as to support one side of the slidable glass plate 30 along the guide surface 155c, And a rear guide 155e that supports part or all of the rear surface of the backwardly inclined glass plate 30 while being supported by the guide 155c and the side guide 155d.

As described above, the glass plate holder 155 according to the present invention is configured such that when the glass plate 30 is placed on the horizontal inclined surface 155c-1 of the lower surface guide 155c inclined at a predetermined angle, As shown in FIG. The glass plate 30 slid to one side is supported by a side guide 155d provided with a vertical inclined surface 155d-1 orthogonal to the horizontal inclined surface 155c-1 of the lower surface guide 155c. Therefore, even when the glass plate 30 is placed on the lower surface of the guide 155c, it always moves to the same position and is automatically aligned.

The lower surface guide 155c and the side surface guide 155d are supported by two supporting members 155f provided on both sides of the fixing bracket 155a. The two supports 155f are installed to be inclined rearward with respect to the fixing bracket 155a at a predetermined angle.

The guide 155c and the side guide 155d are provided with a rear guide 155e for supporting all or a part of the rear surface of the glass plate 30 inclined rearward. For example, the rear guide 155c may protrude with a predetermined width along the bottom guide 155c and the side guide 155d, or may be installed in a rectangular plate shape on the two supports 155f. Further, the rear guide 155c may be formed with a through hole (not shown) for reducing the contact area with the glass plate 30.

5 is a perspective view showing another embodiment of the glass plate holder according to the present invention. As shown in the drawing, one end of the lower surface guide 155c and the side surface guide 155d of the glass plate holder 155 of this embodiment is opened. Accordingly, the glass plates 30 of various sizes can be automatically aligned and transferred to the glass plate 30 having a size exceeding the length of the guide 155c and the side guides 155d.

As described above, the glass plate holder 155 according to the present invention can automatically align and fix glass plates of various sizes by forming the horizontal inclined surface 155c-1 and the vertical inclined surface 155d-1 orthogonal to each other. That is, when the glass plate 30 is placed on the horizontal inclined surface 155c-1 of the lower surface of the guide 155c, the glass plate is slid to one side so that one side of the glass plate 30 is inclined to the vertical inclined surface 155d- It can be aligned and fixed regardless of the size of the glass plate.

Since the glass plate holder 155 of the present invention supports a part of or all of the rear surface of the glass plate 30 tilted backward, the glass plate 30 in the high temperature atmosphere is bent by its own load Can be prevented.

Although the glass plate holder 155 installed in the supply conveyor 50 has been described above, it is obvious that the present invention can be similarly applied to the glass plate holder 155 installed in the discharge conveyor 60.

10: Burner 20: Vacuum suction gripper
30: glass plate 40: flame polishing part
50: feed conveyor 54: chain
60: Discharge conveyor 155: Glass plate holder
155a: Fixing bracket 155c: Lower guide
155c-1: horizontal inclined surface 155d :: side guide
155d-1: vertical inclined surface 155e: rear guide
155f: support

Claims (5)

A fixed bracket having both ends fixed to a pair of chains;
A lower guide fixed to the upper surface of the fixing bracket and having a horizontal inclined surface inclined at a predetermined angle so that the glass plate slides and moves to one side in a state that the glass plate is raised;
A side guide having a vertical inclined surface orthogonal to a horizontal inclined surface of the lower guide so as to support a side surface of the glass sheet slid along the horizontal inclined surface of the guide;
And a rear guide which supports part or all of the rear surface of the glass plate which is inclined backward while being supported by the guide and side guides.
The method according to claim 1,
Wherein the guide and the side guide are supported by a pair of supports fixed to both sides of the fixing bracket and inclined rearward at a predetermined angle.
3. The method of claim 2,
Wherein the rear guide extends at a predetermined width from one side of the bottom guide and the side guide.
3. The method of claim 2,
Wherein the rear guide has a rectangular shape between the pair of supports.
5. The method according to any one of claims 1 to 4,
Wherein the guide and the side guide are open at one side to fix a glass plate having a width larger than the length of the lower guide and the side guide.

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