KR100916966B1 - A LCD manufacturing apparatus - Google Patents

Abstract

The present invention is a LCD manufacturing comprising a bonding process for bonding two substrates, and a sealing material is applied to the edge portion of the bonding glass in which the two substrates are bonded, the upper stage is to be moved up and down and the lower stage is attached to the TFT array substrate An apparatus, comprising: installing an ultraviolet irradiation device which is horizontally moved on a support installed to be transported along a rail provided on an upper portion of the pedestal, and installing a shielding plate supporting frame composed of a plurality of frames between the ultraviolet irradiation device and a lower stage; It is configured by installing a plurality of shielding plate to form an exposure by moving horizontally on the shielding plate support frame and combined with each other

Immediately after the bonding glass is formed, the shielding plate may be aligned to a desired position, and then the ultraviolet ray may be irradiated to cure the sealing agent.

LCD, sealing agent, UV light, bonding, curing, multiple shielding plate, UV lamp

Description

LCD manufacturing apparatus

1 is a side view showing an example of a conventional LCD manufacturing apparatus,

2 is a side view showing an example of an LCD manufacturing apparatus according to the present invention,

3 is a plan view for explaining a curing process using the LCD manufacturing apparatus according to the present invention.

* Description of symbols on the main parts of the drawings *

10: ultraviolet irradiation device 11: external lamp

12: horizontal movement guide 13: irradiation apparatus support

14: curing device support 20: shield plate assembly

21: shield plate support frame 22, 22a ~ 22d: shield plate

The present invention relates to an LCD manufacturing apparatus, and more particularly, the present invention relates to a bonding process for bonding two substrates and an ultraviolet curing process for curing a sealing material applied to an edge portion of a bonding glass in which two substrates are bonded. It relates to an LCD manufacturing apparatus which can be performed in the apparatus.

According to the development of electric and electronic technologies, a thin plate-type display device is being developed. A flat panel display (FED), which is a display device, includes an LCD (Liquid Crystal Display), a PDP (Plasma Display Panel), and a FED (Field). Emission Display, etc. Among them, LCDs capable of high-definition and mass-produced technologies are attracting the most attention.

LCD is a display device that displays information on the screen by using the refractive anisotropy of the liquid crystal. The LCD is composed of a lower substrate serving as an array element of a driving element and an upper substrate serving as a color filter substrate. It consists of the liquid crystal substance injected in between.

These LCDs are printed around the edges of the two substrates and are joined by a sealing material to trap the liquid crystal material, and are supported by the spacing means distributed between the two substrates.

In such a liquid crystal display, liquid crystal between two substrates is injected by a liquid crystal dipping injection method or a liquid crystal dropping method.

In the manufacturing process of the liquid crystal display device configured as described above, after dropping an appropriate amount of liquid crystal on the upper portion of the lower substrate, the upper substrate is bonded to allow the liquid crystal to be dropped between the two substrates, and the sealing material is applied to the edge of the lower substrate and then formed by the sealing material. After dropping an appropriate amount of liquid crystal into the inner plane, the upper substrate is covered in the correct position, and compressed to prevent bubbles from forming between the two substrates, and then the sealing material is cured to manufacture the LCD.

The sealing material used as a means for preventing the discharge of the liquid crystal material stored between the two substrates in this manufacturing process and bonding the two substrates may be a heat curable material or an ultraviolet curable material, and using the ultraviolet curable material as a sealing material In this case, the process of adhering the two substrates while irradiating ultraviolet rays is carried out.

In this manufacturing process, the sealing material used to prevent the discharge of the liquid crystal material stored between the two substrates and to bond the two substrates, that is, the sealing material may be a heat curable material or an ultraviolet curable material, and the ultraviolet curable material may be used as the sealing material. In the case of using, the curing step of adhering the two substrates while irradiating ultraviolet rays is carried out.

In the conventional manufacturing process of the liquid crystal display device, the above process is performed in each device, namely, the bonding device and the curing device (or the ultraviolet irradiation device), so that the bonded glass is transferred to the curing device by a predetermined transfer means. After the UV irradiation to harden the sealing material, there was a problem that the two substrates are cured in the transfer process of the laminated glass is separated from each other or deviated from each other.

In addition, the conventional curing apparatus is to cover the mask so that the ultraviolet ray is irradiated only to a predetermined mask, that is, a portion except the portion where the liquid crystal is stored, and then irradiated with ultraviolet rays to cure the sealing material, but when curing the sealing material in this way Since the two substrates as well as the mask must be aligned with the sealing material application area, there is a problem that the process of curing the sealing material is complicated and time-consuming.

The present invention has been invented to solve the problems of the prior art as described above, so that the bonding process of bonding two substrates and the curing process of curing the sealing material applied to the edge of the bonded glass can be performed in one apparatus. It is intended to provide an LCD manufacturing apparatus that can simplify the apparatus and simplify the manufacturing process of the LCD by not having to move the laminated glass.

Furthermore, in the present invention, when curing the sealing material applied to the edge of the laminated glass to form the exposed portion made by the combination of a plurality of shielding plate without using the mask glass, the hassle of having to manufacture the mask glass by irradiating ultraviolet rays one by one. It is an object to provide an LCD manufacturing apparatus that has been eliminated.

An object of the present invention is an LCD manufacturing apparatus comprising an upper stage to which a color filter substrate is attached and a lower stage to which a TFT array substrate is attached to the inside of a chamber installed to have a predetermined space on the pedestal. It is provided with an ultraviolet irradiation device for irradiating ultraviolet rays to the substrate, between the ultraviolet irradiation device and the lower stage to install a shielding plate support frame composed of a plurality of frames, the horizontal movement on the shielding plate support frame is combined with each other LCD manufacturing apparatus, characterized in that it is configured by providing a plurality of shielding plate to form an exposure portion

Or an upper stage on which a color filter substrate is attached and lifted up and down and a lower stage on which a TFT array substrate is attached to an inside of a chamber installed to have a predetermined space on the pedestal, the LCD manufacturing apparatus comprising: an upper portion of the pedestal; Install a UV irradiation device that is horizontally moved on the support installed to be transported along the rail installed in the installation, and install a shielding plate support frame consisting of a plurality of frames between the ultraviolet irradiation device and the lower stage, and horizontally above the shielding plate support frame It is made by the LCD manufacturing apparatus characterized in that it is configured by installing a plurality of shielding plate to be moved and combined with each other to form an exposure portion.

Hereinafter, an example of an LCD manufacturing apparatus according to the present invention as described above will be described in detail with reference to the accompanying drawings.

2 is a side view showing an example of an LCD manufacturing apparatus according to the present invention, Figure 3 is a plan view for explaining a curing process using the LCD manufacturing apparatus according to the present invention.

As shown, the LCD manufacturing apparatus according to the present invention is applied to the bonding means for bonding two substrates, that is, the color filter substrate 4 and the TFT array substrate 5 and the edge of the bonding glass bonded by the bonding means. The hardening means which hardens a sealing material is provided.

The bonding means has the same configuration as in the prior art, and the upper stage 1 to which the color filter substrate 4 is attached and the lower stage 2 to which the TFT array substrate 5 is attached are provided inside the chamber 3. The chamber 30 is installed on the pedestal 6 so as to be movable.

In addition, as a means for attaching the substrates 4 and 5 to the upper stage 1 and the lower stage 20, a vacuum chuck is used, and each stage 1, 2 is lifted by a driving means to be different from each other. The distance from the stage can be adjusted.

The bonding means configured as described above has the same configuration as the conventional one as described above, and a detailed description thereof will be omitted.

The bonding means configured as described above is provided with the curing means inside the chamber provided therein.

The curing means comprises a shield plate assembly 20 comprising an ultraviolet irradiation device 10 for irradiating ultraviolet rays and a plurality of shield plates 22a to 22d.

The ultraviolet irradiation device 10 may be formed in a long lamp shape (not shown) for irradiating ultraviolet light toward the surface of the substrate from one side of the chamber as used in the conventional bonding device, but as described below It is preferred to be movable between the lower stages, and this embodiment does not limit the claims of the present invention.

The ultraviolet irradiation device 10 and the shield plate assembly 20 are installed to be moved horizontally in the space between the stages (1, 2), for this purpose to be moved along the rail installed in the pedestal (6) It is installed on the device support 14.

The curing apparatus support 14 is installed on the rail fixed to the pedestal 6, as shown in Figure 2 is horizontally movable.

The curing apparatus supporters 14 are installed on both sides of the lower stage 2, respectively, and are installed at positions spaced apart from the lower stage 2 by a predetermined distance to avoid collision with the lower stage 2.

A shielding plate support frame 21 on which the shielding plates 22a to 22d are supported is installed at an upper end of the curing apparatus supporter 14, and a plurality of shielding plates 22a to the upper portion of the shielding plate support frame 21 is provided. 22d) are provided so that they can overlap each other or be adjacent to each other.

At the upper end of each curing apparatus support 14 is another rail is provided, the irradiation apparatus support 13 which can be moved along the rail is provided.

The upper end of each of the irradiating device support 13 is provided with a horizontal movement guide 12, the ultraviolet lamp 11 is installed on the horizontal movement guide 12 to be movable.

As such, as shown in FIG. 2, the ultraviolet lamp 11 may be moved back and forth according to the moving direction of the irradiator support 13, and may be moved left and right along the horizontal movement guide 1.

In addition, the curing apparatus support 14 may be further provided by the hydraulic cylinder (not shown) that is stretched by the hydraulic pressure in the lower portion to allow the curing apparatus to be moved up and down.

The shielding plates 22a to 22d constituting the shielding plate assembly 22 may be formed of at least two pairs and a combination thereof to form an exposure part. Since it may be inconvenient to be able to be able to be able to be, as shown in FIG. In this way, the four pieces are configured in pairs so that they can be overlapped or aligned adjacent to each other so that the exposed portions 222 can be formed in the non-overlapping portions.

That is, as shown in FIG. 4, four shielding plates 22a to 22d are moved to one side of a desired portion of the entire glass 5, that is, one side of the portion 5b of the edge of the desired LCD portion 5a. After the lower portion 222 is formed, the ultraviolet ray lamp 11 is moved to the exposure portion 222 to irradiate ultraviolet rays to cure the sealing portion to which the sealing member is applied.

Since the shielding plates 22a to 22d can form the exposure unit 222 only by horizontally moving, the articulated robot for horizontal movement can be used, and the shielding plate transfer means can be variously modified. Detailed description thereof will be omitted.

The LCD manufacturing apparatus according to the present invention configured as described above can simplify the apparatus by configuring a bonding apparatus for bonding two substrates and a curing apparatus for curing the sealing material applied to the edge of the bonding glass in one apparatus. Since there is no need to move the laminated glass, there is an effect that can simplify the manufacturing process of the LCD.

In addition, by forming the exposed portion by combining a plurality of shielding plate can not only manufacture LCD of various shapes and sizes, but also has the effect of eliminating the trouble of having to manufacture the mask glass one by one.

Claims (5)

delete An LCD manufacturing apparatus comprising an upper stage to which a color filter substrate is attached and a lower stage to which a TFT array substrate is attached in a chamber provided to have a predetermined space on a pedestal, Install a UV irradiation device that is horizontally moved on the support installed to be transported along the rail installed on the upper portion of the pedestal, and install a shielding plate support frame consisting of a plurality of frames between the UV irradiation device and the lower stage, the shielding plate And a plurality of shielding plates arranged on the support frame and combined with each other to form an exposure part. 3. The apparatus of claim 2, wherein the ultraviolet irradiation device comprises: at least one curing apparatus support carried along rails provided on both sides of the lower stage above the pedestal; At least one irradiator support movably installed along a rail provided on an upper portion of each cure unit support; A horizontal moving guide installed to connect both ends of the irradiating device supports to each other; LCD manufacturing apparatus comprising a UV lamp to move horizontally along the guide groove formed in the horizontal movement guide. The LCD manufacturing apparatus of claim 2, wherein at least two shielding plates are paired in one pair. The LCD manufacturing apparatus according to claim 2, wherein the hardening apparatus support is further provided with a lifting means, and the lifting means is a hydraulic cylinder driven by hydraulic pressure.

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