KR20000000542A - Production method of liquid crystal display device - Google Patents

Abstract

PURPOSE: A production method of a liquid crystal display device is provided to realize a low temperature hardening of ultraviolet ray in a short time and to obtain a production having a uniform cell gel. CONSTITUTION: A liquid crystal display element is produced in the process; coating an ultraviolet sealant(12) on t he upper and lower substrate(2); providing combined liquid crystal cell(14) to the lower transparent plate(18) and fixing the upper transparent plate(24) which is down pressed by the power source(20) and a clamp(22) to have a uniform cell gap; irradiating ultraviolet lamps(26)(28) from above and below the upper and lower transparent plate and adhere a liquid crystal cell by means of low temperature hardening.

Description

Manufacturing method of liquid crystal display device

The present invention relates to a method for manufacturing a liquid crystal display (LCD) that can be suitably used to implement a liquid crystal cell by low temperature curing of a sealant by ultraviolet light in bonding upper and lower substrates.

The liquid crystal display uses a dielectric anisotropy in which the twist angle of the liquid crystal is changed by a voltage applied from the outside to selectively transmit or reverse the light irradiated from the backlight to display letters, numbers, and images. It is a display device.

In order to maintain various demands on visual information and a role as a future display, such liquid crystal display devices have been pursued to be ultra light and ultra slim.

As a result of such efforts, recently, a plastic liquid crystal display device (PLCD) including upper and lower substrates is introduced using a flexible plastic film such as polycarbonate, polyester support, polyarylate, and the like. Since the transparent electrode 4, the insulating film 6 and the alignment film 8 are formed on the two transparent plastic substrates 2, and the upper and lower substrates 2 are bonded to each other using the sealant 10, It is a structure which comprises a cell, and inject | poured and sealed the liquid crystal substance inside.

The PLCD structured as described above has a low heat-resistance temperature due to the characteristics of plastics in bonding the upper and lower substrates with a sealant. Therefore, it is difficult to use a thermosetting agent and a low temperature curing agent using ultraviolet rays is required.

However, since the PLCD is known to absorb the ultraviolet wavelength range of 400 nm or less due to the multi-interference effect of the light between the plastic film and the metal multilayer conductive film used as the ITO transparent electrode or the electrode, the actual application of the sealant applied on the electrode There is a problem that the degree of hardening is impossible to implement the product.

In particular, in the related art, since the irradiation of the ultraviolet light is made only on one substrate, a part of the sealant 10 may not be cured.

In order to solve the problems of the prior art described above, the present invention is a method of using a low-temperature curing agent by ultraviolet rays, an LCD that allows easy adhesion of the upper and lower plastic substrates and implement a liquid crystal cell Its purpose is to provide a method of manufacturing.

In order to realize the above object, the present invention applies an ultraviolet sealant to upper and lower substrates to be bonded to each other, and supplies the liquid crystal cell thus formed to the lower transparent plate, and then uses an upper transparent plate that is pressed down by a power source and a clamp. The liquid crystal cell is fixed to have a uniform cell gap, and the UV lamp is irradiated simultaneously on the upper and lower portions of the upper and lower transparent plates so that the adhesion of the liquid crystal cell by low temperature curing is realized. We propose a manufacturing method for obtaining the target LCD.

In addition, the liquid crystal cell according to the present invention may be sequentially rotated by 180 degrees using a separate power source, and on the contrary, one UV lamp may be sequentially rotated or reversed by 180 degrees using a rotating rod and a power source.

According to this configuration, the present invention is capable of realizing low-temperature curing of the ultraviolet sealant and achieving the degree of curing quickly by allowing the ultraviolet lamp to be irradiated simultaneously on the upper and lower portions of the upper and lower substrates, and ultimately a uniform cell. A product having a gap can be obtained.

1 is a cross-sectional view showing a manufacturing method of a plastic liquid crystal display device according to a first embodiment of the present invention.

Figure 2 is a cross-sectional view showing a manufacturing method of a plastic liquid crystal display device according to a second embodiment of the present invention.

Figure 3 is a cross-sectional view showing a manufacturing method of a plastic liquid crystal display device according to a third embodiment of the present invention.

4 is a cross-sectional view showing the structure of a conventional liquid crystal display device.

Explanation of symbols on the main parts of the drawings

2-Plastic Substrate 12-UV Sealant

14-liquid cell 16-base plate

18-bottom transparent plate 20,30,34-power source

22-Clamp 24-Top Clear Plate

26,28-UV Lamp 32-Rotating Rod

Hereinafter, preferred embodiments for realizing the present invention will be described with reference to the accompanying drawings.

Example 1

1 shows the irradiation position of the apparatus of Example 1 and the ultraviolet lamp for low temperature curing of the ultraviolet sealant of the LCD which is the object of the present invention. For reference, in describing the present embodiment, the same reference numerals will be given to the same configurations as the drawings cited in the related art for clarity of description.

As shown in the figure, the LCD according to the present embodiment forms a transparent electrode, an insulating film, and an alignment film on opposite surfaces of the upper and lower plastic substrates 2, and bonds them with the ultraviolet sealant 12 to form a liquid crystal cell 14, and then It consists of PLCD which injects and seals liquid crystal material inside.

The ultraviolet sealant 12 is used as both a main sealant for protecting the liquid crystal material injected into the liquid crystal cell 14 and creating an inner space, and an end sealant for sealing the injection hole of the liquid crystal material. After the formed upper and lower plastic substrates 2 are coated on one side, the two substrates are bonded to each other.

The liquid crystal cell 14 thus formed is supplied to the upper portion of the lower transparent plate 18 fixed to the base plate 16 by an automatic transfer device, and then is supported by the power source 20 and the clamp 22 to be compressed downward. It is fixed to have a uniform cell gap by the transparent plate 24. The base plate 16 is provided with a central opening 16a to expose the lower transparent plate 18.

The liquid crystal cell 14 fixed as described above is subjected to ultraviolet rays in a state in which a cell gap is maintained at a uniform pressure, and thus the ultraviolet sealant 12 is cured at low temperatures, which is the upper and lower transparent plates 18 and 24. And ultraviolet lamps 26 and 28 provided at the same time in the lower part. At this time, even if the wavelength sealant of the ultraviolet sealant 12 is absorbed by the plastic substrate, the transparent electrode, and the metal multilayer conductive film used as the electrode, at least one of the upper and lower substrates 2 is the electrode in the entire region where the sealant is applied. Designed so that it is irradiated to the upper and lower at the same time in a state exposed to ultraviolet rays, it is possible to achieve curing at all regions as well as low-temperature curing at room temperature.

Example 2

Fig. 2 shows the irradiation position of the apparatus of Example 2 and the ultraviolet lamp for realizing the present invention.

As shown in the figure, the structure of the PLCD and the ultraviolet sealant curing apparatus according to the present embodiment are similar to those of the first embodiment. However, in the present embodiment, the liquid crystal cell 14 is rotated while the liquid crystal cell 14 is turned upside down instead of one ultraviolet lamp 26 for curing the ultraviolet sealant 12.

More specifically, the liquid crystal cell 14 is supplied to the upper portion of the lower transparent plate 18 fixed to the base plate 16 by an automatic transfer device, and then supported by the power source 20 and the clamp 22 to be pressed down. The upper transparent plate 24 is fixed to have a uniform cell gap.

The liquid crystal cell 14 fixed as described above receives ultraviolet rays in a state in which a cell gap is maintained at a uniform pressure. In this case, the liquid crystal cell 14 supports a base plate for supporting upper and lower transparent plates 18 and 24. It is rotated by 180 degrees by the power source 30 together with the 16, and is adhere | attached by the ultraviolet sealant 12 hardened at low temperature by the ultraviolet lamp 26 fixed to the upper part.

Example 3

Fig. 3 shows the irradiation position of the apparatus of Example 3 and the ultraviolet lamp for realizing the present invention.

As shown in the figure, the structure of the PLCD and the ultraviolet sealant curing apparatus according to the present embodiment are similar to those of the first embodiment. However, in the present embodiment, instead of providing one ultraviolet lamp 26 for curing the ultraviolet sealant 12, the lamp is configured to be rotated sequentially and repeatedly up and down of the liquid crystal cell 14.

More specifically, the liquid crystal cell 14 is supplied to the upper portion of the lower transparent plate 18 fixed to the base plate 16 by an automatic transfer device, and then supported by the power source 20 and the clamp 22 to be pressed down. The upper transparent plate 24 is fixed to have a uniform cell gap.

The liquid crystal cell 14 fixed as described above is subjected to ultraviolet rays in a state where the cell gap is maintained at a uniform pressure. At this time, the ultraviolet lamp 26 is rotated by the rotating rod 32 to form the upper and lower transparent plates 18 ( 24, the rotary rod 32 is sequentially rotated or inverted by 180 degrees by the power source 34, thereby curing the ultraviolet sealant 12 at low temperature and adhering the liquid crystal cell 14. will be.

As described above, the hardened and bonded liquid crystal cell 14 is ejected after the upper transparent plate 24 driven by the power source 20 and the clamp 22, and then transferred to the next process to Injection and sealing will take place.

As can be seen from the embodiments described above, the manufacturing method of the plastic liquid crystal display device according to the present invention substantially solves the problems of the prior art.

That is, according to the present invention, by irradiating an ultraviolet lamp from the upper and lower portions of the upper and lower substrates at the same time, even if some wavelength region is absorbed by the plastic substrate, the transparent electrode and the metal multilayer conductive film used as the electrode, the low temperature of the ultraviolet sealant Curing can be realized, and the degree of curing can be achieved quickly, and ultimately, the effect of obtaining an LCD having a uniform cell gap is obtained.

Claims (3)

In the liquid crystal display device obtained by bonding the upper and lower substrates on which the transparent electrode and the alignment film are formed to each other with ultraviolet sealant and injecting and sealing a liquid crystal material therebetween, UV sealant is applied to the upper and lower substrates, the liquid crystal cell thus formed is supplied to the lower transparent plate, and then the liquid crystal cell is fixed to have a uniform cell gap by using an upper transparent plate which is pressed down by a power source and a clamp. And irradiating ultraviolet lamps simultaneously on the upper and lower portions of the upper and lower transparent plates to realize adhesion of the liquid crystal cell by low temperature curing. The upper and lower transparent plates fixing the liquid crystal cell are supported by a base plate, and the base plates are rotated together by being sequentially rotated by 180 degrees by a power source, wherein the ultraviolet sealant is ultraviolet light fixed at the top. A low temperature curing method by a lamp, characterized in that the manufacturing method of the liquid crystal display device. According to claim 1, wherein the ultraviolet lamp is installed on the upper or lower portion of the upper, lower transparent plate by the rotating rod, characterized in that the low temperature curing the ultraviolet sealant while the rotating rod is rotated or inverted by 180 degrees by a power source. Method of manufacturing a liquid crystal display device.