KR100703070B1 - Large area substrate drooping prevention device for organic EL - Google Patents

Abstract

The present invention relates to a holding device for effectively supporting a substrate even when moving as well as preventing and fixing flat substrates such as glass substrates when manufacturing flat panel displays such as PDP, LCD, organic EL, and the like. In constructing an apparatus for holding the substrate 3 on the substrate, the substrate holders 4, which allow horizontal movement around the substrate holder plate, are positioned at both ends of the major and minor axes of the substrate, and the substrate is held by the substrate holder plate inside the substrate holder. By providing a substrate drooping prevention and holding device for moving the substrate holder in the horizontal direction, the structure is simple and can be used even in a vacuum, as well as has the effect of easily holding a large area flat substrate.

Organic EL, substrate, glass substrate, substrate holder, substrate holder

Description

Large area substrate drooping prevention device for organic EL {Apparatus for holding and stretching of flat panel}             

      1 is a schematic view showing an example of a small area substrate deposition method of a point evaporation source for a conventional deposition process

2 is a schematic view showing an example of a method for depositing a large area substrate of a point evaporation source for a conventional deposition process;

Figure 3 is a schematic diagram showing an example before the longitudinal longitudinal pressing of the large-area substrate sagging prevention device for organic EL of the present invention

4 is a schematic view showing an example after the substrate longitudinal compression of the large-area substrate sagging prevention device for organic EL of the present invention.

Fig. 5 is a schematic view showing an example when the large area substrate deflection prevention apparatus for organic EL of the present invention is pulled in the transverse direction after the substrate longitudinal compression.

Figure 6 is a partially enlarged cross-sectional view showing a substrate fixing plate of the present invention.

Figure 7 is a cross-sectional view showing the configuration of the present invention after longitudinal compression

Fig. 8 is a cross-sectional view of the configuration of the present invention when pulled in the transverse direction after longitudinal compression.

9 is a conceptual diagram when an example of the present invention is expanded in the longitudinal and lateral directions

10 is a conceptual diagram when an example of the present invention is extended in a diagonal direction;

<Explanation of symbols for the main parts of the drawings>

1: small area glass substrate 2: crucible (evaporator)

3: large area glass substrate 4: substrate holder

5: substrate holding plate of high friction and soft material

6: oblique substrate holding plate of high friction and soft material

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sagging prevention and holding device of a flat panel, and more particularly, to effectively fix a flat substrate such as a glass substrate used as a base material in the manufacture of a flat panel display such as LCD, PDP or organic EL. The present invention relates to a holding device for firmly supporting a substrate even during movement between processes.

In general, a liquid crystal display (LCD), a PDP, or an organic electroluminescence (EL) is widely used as a flat panel display. As LCDs require a separate light source and technical limitations in brightness, contrast, viewing angle, and large area, research on organic ELs has been actively conducted in recent years. The organic EL can be driven at low voltage, is self-luminous, light and thin, can provide a wide viewing angle, and above all, has fast response.

Such a flat panel display is manufactured by passing a series of processes including a deposition process and the like mainly made of glass and the like.
1 is a schematic view showing a method of depositing a point evaporation source for a conventional small area substrate deposition process. Since the deposition method has a small size of the substrate, no significant problem arises in the deposition without considering the deflection of the substrate. However, when the size of the substrate is large, the drooping phenomenon of the substrate is remarkable, which may cause a decrease in mass productivity.
2 is a schematic view showing a deposition method of a point evaporation source for a large area substrate deposition process.
The flat substrate must be subjected to various deposition processes in a state of being fixed to the substrate holder, where the substrate holder must support the substrate with the deposition surface facing down. This holding operation is an important factor in the precision of the deposition process. For example, in the holding state, the substrate is required to maintain a good plan view. In addition, the substrate is required to be easily removable for workability and work time shortening.

Conventionally, a method using a vacuum chuck or an electrostatic chuck has been used as a method for holding a flat substrate.

A vacuum chuck is a method of holding a flat plate substrate by using an air pressure difference by holding a sucker plate on a substrate and sucking air from the sucker plate from the back of the flat plate substrate. there was. In other words, flat panel displays require foreign matters such as dust, water vapor, and oxygen to increase the defective rate, and thus require work in a vacuum state. The vacuum chuck cannot be applied to such vacuum equipment. will be.

In addition, the electrostatic chuck flows a current to the back of the flat plate substrate, thereby electrifying the flat plate substrate made of a material such as glass by the electric field formed by the current, and holding the flat plate substrate by electrostatic force ( This method can be used even in vacuum, but has some disadvantages described below. In other words, the electrostatic chuck requires a large electric field to hold a flat plate substrate having a large area, thus increasing power consumption, and requiring a complicated mechanism to continuously supply current during various deposition processes. Of course, the electric field formed on the substrate by the current affects the material to be placed on the flat substrate, such as a deposition chemical, and thus has a problem of causing performance degradation.

In particular, in order to separate the substrate to cut off the current supply, at this time, the charge (charge) formed in the charged flat substrate is not immediately removed, it is continuously remaining, it was accompanied with a problem that is difficult to separate.

      The present invention has been invented to solve the above problems, an object of the present invention is to provide a flat plate drooping prevention and handling apparatus that is simple in structure and can be used in a vacuum.

Another object of the present invention is to provide a holding device for a flat substrate that can easily handle a flat substrate having a large area while maintaining a good plan view.

       An embodiment of the present invention will be described in detail with reference to the accompanying drawings.

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Figure 3 is a schematic diagram showing an example before the longitudinal longitudinal pressing of the large area substrate sagging prevention device for organic EL of the present invention, the flat panel holding apparatus according to the present invention includes a substrate holder (4) for holding the edge of the substrate Is done. The substrate holder 4 includes a lower holder 4c for supporting a lower surface of the substrate 3, an upper holder 4a for pressing an upper surface of the edge of the substrate 3, and an upper holder 4a and a lower part. And an elevating means 4b interposed between the fixing rods 4c, and the upper fixing rod 4a is elevated by the elevating means 4b to hold the substrate 3. In addition, it can be seen that the substrate fixing plate 5 having a high frictional force and a softness is provided at the upper portion of the lower fixing stand 4c and the lower portion of the upper fixing stand 4a.
When the size of the substrate is large, the deflection of the substrate is remarkable, and when the deposition is performed by the evaporation method of the point evaporation source for the deposition process, the productivity decreases in terms of thin film uniformity, material usage rate, and precision of the deposition process. Is concerned.

Fig. 4 is a schematic view showing an example after the substrate longitudinal compression of the large area substrate deflection prevention device for organic EL of the present invention, and the substrate deflection can be reduced by the longitudinal compression of the substrate holder 4.

FIG. 5 is a schematic view showing a case in which the substrate holder 4 is longitudinally compressed and then pulled back in the lateral direction (see arrow). In this case, the substrate deflection can be further reduced.

Fig. 6 is a partially enlarged cross-sectional view of oblique substrate fixing plates 6a and 6b of a large friction soft material. By providing longitudinal substrate holding plates 6a and 6b in addition to longitudinal compression and transverse pulling, the substrate sag can be compensated for even more, thereby restoring the near-plane substrate state.

You can find the optimum angle by changing the oblique angle from 0 ^o to 90 ^o .

It is sectional drawing which shows the structure of this invention after longitudinal crimping. When the substrate holder 4 which is controlled to be lifted and lowered in the longitudinal direction by a constant strength can be clearly compensated for the substrate sagging, the lifting means for controlling the substrate holder 4 to lift is controlled by a slew flow method and an air cylinder method. It can be easily produced by the application, etc., its utilization is indescribable.

8 is a cross-sectional view showing the configuration of the present invention when pulled in the transverse direction after the longitudinal compression, the substrate holding plate 5 is a substrate (5) by the substrate holding table 4 when the upper substrate holder 4 is compressed in the longitudinal direction. 3) by distributing a certain force to 3) to compensate for the phenomenon of substrate deflection, and by pulling the substrate fixing plate 4 in the transverse direction (see arrow) at a constant strength, the substrate deflection is almost completely compensated for. Can be.
In this embodiment, the horizontal movement means of the screw system for pulling in the transverse direction is provided. As shown, an extension member 4d is formed on the upper side of any one of the substrate holders 4 facing each other, and the substrate holder 4 is horizontally moved outwardly (arrow direction) by the rotation of the screw. The substrate 3 is thereby pulled in the transverse direction.
As described above, the horizontal moving means for tensioning the substrate by horizontally moving the substrate holder 4 may be any method that can provide a constant force such as a scoop type, an air cylinder type, and is also easy to apply.

Fig. 9 is a conceptual view when an example of the present invention is extended in the longitudinal and lateral directions, and after the substrate holders hold the edges on the left and right sides and the front and rear sides of the rectangular substrate, respectively, the substrate holders are moved outwardly by horizontal moving means. By horizontally moving in the direction (see arrow), the substrate can be transversely pulled (b) or longitudinally pulled (c).
It can be applied not only to the conventional hard-to-bent and broken substrates such as glass substrates, but also to well-flexible and flexible substrates such as plastic substrates and stainless steel substrates.

10 is a conceptual diagram when an example of the present invention is extended in a diagonal direction. To this end, the substrate holder should hold the edges of the four corners of the rectangular substrate.
As described above, the present invention can be said to be very wide because it can be applied to extend the concept in any direction.

The present invention as described above provides a substrate holder consisting of a substrate holding plate made of a large friction material and a soft material and a substrate holding member capable of horizontal movement control, so that the structure is simple and can be used even in a vacuum, as well as a large-area flat substrate. It will have an effect that can be easily held without.

Claims (9)

A plurality of substrate holders having lower and upper holders that are relatively elevated to hold both edges of the substrate facing each other; A soft substrate fixing plate provided on an upper surface of the lower fixing stand and a lower surface of the upper fixing stand, respectively; And And horizontal movement means for tensioning the substrate by horizontally moving the substrate holder in a direction opposite to the center direction of the substrate. Flat substrate holding device, characterized in that the surface is in contact with the substrate fixing plate provided on the lower fixing plate, and the substrate fixing plate provided on the upper fixing inclined to form a predetermined angle with a virtual horizontal line. delete delete delete delete delete The method of claim 1, The substrate is a flat substrate holding device, characterized in that any one of a glass substrate, a plastic substrate and a stainless steel substrate. The method of claim 1, The horizontal movement means is a flat board holding device, characterized in that the screw interlocking so that the substrate fixing table facing each other or approach. The method of claim 1, The horizontal movement means is a flat substrate holding device, characterized in that the air cylinder for interlocking the substrate fixing table facing each other or approach.

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