JP3273164B2 - Liquid crystal panel manufacturing method and manufacturing apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for manufacturing a liquid crystal panel used as a liquid crystal display device or an optical shutter, and a manufacturing apparatus therefor, and more particularly, to a method for manufacturing a liquid crystal panel called a polymer dispersion type. And the device.

[0002]

2. Description of the Related Art Since liquid crystal panels can be made thinner and lighter and can be driven at a lower voltage, they are often used for display screens of watches, electronic desk calculators, personal computers and personal word processors. It is used for However, current mainstream TN (twisted nematic) type liquid crystal panels and STN (super twisted nematic) type liquid crystal panels have a visual dependency that color and contrast are different depending on a direction in which a display screen is viewed. As a liquid crystal panel capable of improving visual dependency, a liquid crystal panel of a polymer dispersion type has been proposed.

That is, a polymer-dispersed liquid crystal panel is
A configuration in which water-drop-shaped liquid crystals are dispersed and held in a polymer resin matrix filled between a pair of glass substrates with a conductive film, or the resin matrix is present in the liquid crystal in the form of particles or a network. The mode of such a liquid crystal layer is PDLC (polymer
persed liquid crystal), PNLC (polymer network)
liquid crystal), NCAP (nematic curvilinear al
igned phase), PSCT (polymer stabilized chores)
teric texture), LCPC (liquid crystal polymer)
composite). In addition, this method
Since light scattering and transmission phenomena are used, transmittance is high and visual dependency is low.

When manufacturing this liquid crystal panel, as shown in FIG. 4 and FIG.
Transparent conductive films 1a, 2a having a desired pattern shape in advance
Are formed, and after the cleaning process, the insulating films 1b,
A pair of glass substrates 1 and 2 on which a pair of glass substrates 2b are formed are prepared, and a sealing resin having an injection port 3a formed thereon, that is, a sealing resin 3 made of a thermosetting resin or a photocurable resin, is provided on one side of the glass. After applying a spacer 4, for example, spherical SiO ₂ particles for applying a coating along the peripheral edge of the substrate 1 and securing a space between the substrates on the glass substrate 2 on the other side, the sealing resin 3 is applied. To join the glass substrates 1 and 2 face to face.

Further, the sealing resin 3 is cured by heat treatment or light irradiation treatment, and the glass substrates 1 and 2 integrated with the sealing resin 3 interposed therebetween, that is, so-called empty panels, are placed in a vacuum chamber. After the interior of the empty panel made of the glass substrates 1 and 2 is evacuated by depressurizing the inside of the vacuum chamber, the sealing resin 3 of the mixed material made of polymer and liquid crystal and stored in the storage container is removed. By injecting the mixed material 5 into the empty panel, that is, between the glass substrates 1 and 2, by bringing the vacuum chamber into normal pressure after bringing the inlet 3a into contact, the filling is performed. The method of filling the mixed material 5 between the glass substrates 1 and 2 by such a procedure is called a vacuum injection method, and is a conventionally well-known method. Subsequently, a sealing resin 6 made of a thermosetting resin or a photo-curing resin is applied to the outside of the injection port 3a, and the mixed material 5 is subjected to phase separation by heat treatment or light irradiation treatment to obtain a polymer dispersed liquid crystal 7. In other words, when the sealing resin 6 is cured by heat treatment or light irradiation treatment, a polymer-dispersed liquid crystal panel as shown in FIG.

[0006]

In the above-mentioned conventional manufacturing method, the polymer-dispersed liquid crystal 7 is obtained by phase separation of the mixed material 5, and then the sealing resin 6 is cured to fill the injection port 3a of the sealing resin 3. It has been done to occlude,
In the completed liquid crystal panel, as shown in FIG. 6, bubbles 8 formed by the intrusion of air may remain interposed between the sealing resin 6 and the polymer dispersed liquid crystal 7. If the bubbles 8 remaining between the sealing resin 6 and the polymer-dispersed liquid crystal 7 penetrate into the display pixel portion, color unevenness or the like occurs, and good display quality cannot be obtained. Gradually dissolves into the polymer-dispersed liquid crystal 7, resulting in a decrease in the reliability of the liquid crystal panel.

[0007] Such bubbles 8 remain because the polymer-dispersed liquid crystal 7 that solidifies due to the phase separation of the mixed material 5 undergoes volume shrinkage, or the injection port 3a before the application of the sealing resin 6. When the neighborhood is cleaned by wiping with a piece of cloth or the like, even the mixed material 5 in the inlet 3a is wiped off. As a result, the concave portion 9 as shown by a virtual line in FIG. It is formed on the surface of the material 5, and it is considered that the sealing resin 6 cannot be applied to the inside of the recess 9.

When the conventional manufacturing method is adopted,
Depending on the degree of injection of the mixed material 5 into the empty panel, the cell thickness, that is, the thickness between the glass substrates 1 and 2 (the thickness of the liquid crystal phase) becomes non-uniform, and the volume shrinkage during the phase separation of the mixed material 5 As a result, there may be a problem that the cell thickness becomes non-uniform. In order to cope with these problems, a method has been proposed in which sealing is performed by impregnating a sealing adhesive from the peripheral portion of the glass substrate (Japanese Patent Laid-Open No. 5-72542). Since sealing with an epoxy resin is performed after obtaining a polymer-dispersed liquid crystal, the sealing resin 6 is not applied to the inside of the recess 9 as shown in FIG.

Further, after injecting a mixed material to be a polymer-dispersed liquid crystal, a photocurable sealing agent is applied to the inlet, and visible light is irradiated to obtain a polymer-dispersed liquid crystal and at the same time, the inlet is sealed. Although a method (JP-A-5-203928) has also been proposed, even if this method is adopted, the sealing resin 6 is not applied to the inside of the concave portion 9. Furthermore, a method of disposing a mixed solution layer composed of a liquid crystal and a polymer material on one glass substrate and sealing the layer while pressing the mixed solution layer with the glass substrate during the phase separation process (Japanese Patent Laid-Open No. Japanese Patent Application Laid-Open No. 181454) has been proposed, but this method is only intended for producing flat liquid crystal droplets. This method involves applying an adhesive and then joining the sealant and the substrate. Since this method does not perform vacuum injection, air bubbles are apt to be mixed during injection, and a uniform liquid crystal panel without air bubbles must be manufactured. Was supposed to be difficult.

The present invention has been made in view of the inconvenience of the conventional manufacturing method, and can easily prevent bubbles from remaining between the sealing resin and the polymer-dispersed liquid crystal. An object of the present invention is to provide a method of manufacturing a liquid crystal panel capable of obtaining display quality and improving reliability.

[0011]

In the method of manufacturing a liquid crystal panel according to the present invention, a polymer-dispersed liquid crystal is formed between a pair of panel substrates joined face to face via a sealing resin having an injection port. After injecting the mixed material of the polymer and the liquid crystal, the panel substrates are pressed from the outside along the joining direction. When the panel substrate is pressed from the outside, a small amount of the mixed material overflows from the injection port of the sealing resin, and the surface of the mixed material overflowing from the injection port is sealed. The resin can be applied directly.

Therefore, the applied sealing resin is in close contact with the mixed material, and the sealing resin is drawn into the injection port with the volume contraction of the polymer-dispersed liquid crystal. No bubbles are interposed between the liquid crystal and the dispersed liquid crystal. If a pressing force is applied to the panel substrate at the time of sealing and phase separation, the cell thickness can be kept constant. Therefore, when the manufacturing method according to the present invention is adopted, a polymer-dispersed liquid crystal panel having good display quality and improved reliability can be obtained.

The apparatus for manufacturing a liquid crystal panel according to the present invention is used at the time of manufacturing a liquid crystal panel, and is face-to-face bonded via a sealing resin having an injection port formed therein, and is a polymer-dispersed liquid crystal. Pressing means for pressing a pair of panel substrates into which a mixed material of molecules and liquid crystals has been injected from outside along the bonding direction; temperature setting means for setting the temperature of the panel substrate into which the mixed material has been injected; There is provided a sealing resin applying means for applying a sealing resin to the outside, and a light irradiating means for irradiating light to the panel substrate into which the mixed material has been injected. And when using the manufacturing apparatus according to the present invention,
As a result that the above-mentioned manufacturing method can be carried out extremely easily, it becomes possible to obtain a polymer-dispersed liquid crystal panel having good display quality and improved reliability.

[0014]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In a method for manufacturing a liquid crystal panel according to a first aspect of the present invention, a pair of panel substrates joined face to face via a sealing resin having an injection port is prepared, and a polymer dispersed liquid crystal is prepared. Polymer and liquid crystal mixed material between panel substrates
After injecting and pressing the panel substrate from the outside along the joining direction, apply the sealing resin to the outside of the injection port and cure the sealing resin, and then the polymer dispersed liquid crystal is separated by phase separation of the mixed material. It is characterized by obtaining . According to this manufacturing method, in the step of pressing the panel substrate filled with the mixed material from the outside, a small amount of the mixed material overflows from the injection port of the sealing resin. Thus, the sealing resin is directly applied. Further, in the step of phase-separating the mixed material, the cured sealing resin is drawn into the injection port as the volume of the polymer-dispersed liquid crystal shrinks.

According to a second aspect of the present invention, there is provided a method of manufacturing a liquid crystal panel, comprising preparing a pair of panel substrates face-to-face bonded via a sealing resin having an injection port, and forming a polymer dispersed liquid crystal. And a mixed material of liquid crystal is injected between the panel substrates,
Pressing the panel substrates from the outside along the junction towards each other tongue
After applying the sealing resin on the outside of the inlet in condition to cure the sealing resin in terms of a reduced pressure applied to the panel substrate
Then , a polymer dispersed liquid crystal can be obtained by phase separation of the mixed material.
And a method characterized by the following. According to this manufacturing method, in the step of pressing the panel substrate filled with the mixed material from the outside, the mixed material overflows from the injection port of the sealing resin, and in the step of reducing the pressing force applied to the panel substrate, the sealing is performed. The mixed resin is drawn into the injection port together with the resin. In the step of phase-separating the mixed material, the cured sealing resin is further drawn into the inlet as the volume of the polymer-dispersed liquid crystal shrinks.

According to a third aspect of the present invention, there is provided a method of manufacturing a liquid crystal panel, comprising preparing a pair of panel substrates face-to-face bonded through a sealing resin having an injection port, and forming a polymer dispersed liquid crystal. And a mixed material of liquid crystal is injected between the panel substrates,
Pressing the panel substrates from the outside along the junction towards each other tongue
After applying the sealing resin to the outside of the injection port in a state, a polymer dispersed liquid crystal is obtained by phase separation of the mixed material while maintaining the pressing force applied to the panel substrate, and then the sealing resin applied to the outside of the injection port is removed. It is a method characterized by curing . According to this manufacturing method, in the step of pressing the panel substrate filled with the mixed material from the outside, the mixed material overflows from the injection port of the sealing resin, and in the step of phase-separating the mixed material, the polymer is used. As the volume of the dispersed liquid crystal shrinks, the sealing resin is drawn into the injection port.

According to a fourth aspect of the present invention, there is provided a method for manufacturing a liquid crystal panel, comprising preparing a pair of panel substrates joined face to face via a sealing resin having an injection port, and forming a polymer dispersed liquid crystal. And a mixed material of liquid crystal is injected between the panel substrates,
Pressing the panel substrates from the outside along the junction towards each other tongue
After applying the sealing resin to the outside of the injection port in a state , after reducing the pressing force applied to the panel substrate and obtaining a polymer dispersed liquid crystal by phase separation of the mixed material, the sealing resin applied to the outside of the injection port is removed. It is a method characterized by curing . According to this manufacturing method, in the step of pressing the panel substrate filled with the mixed material from the outside, the mixed material overflows from the injection port of the sealing resin, thereby reducing the pressing force applied to the panel substrate. Then, the overflowing mixed material is drawn into the injection port together with the sealing resin. Further, in the step of phase-separating the mixed material, the sealing resin is further drawn into the injection port as the volume of the polymer-dispersed liquid crystal shrinks.

[0018]

[0019]

According to a fifth aspect of the present invention, there is provided a method of manufacturing a liquid crystal panel, comprising preparing a pair of panel substrates face-to-face bonded via a sealing resin having an injection port, and forming a polymer dispersed liquid crystal. And a mixed material of liquid crystal is injected between the panel substrates,
Pressing the panel substrates from the outside along the junction towards each other tongue
After applying the sealing resin to the outside of the injection port in a state , the polymer-dispersed liquid crystal is obtained by phase separation of the mixed material while maintaining the pressing force applied to the panel substrate, and at the same time, the sealing resin is cured.
It is characterized by According to this manufacturing method, the mixed material overflows from the injection port of the sealing resin in the step of pressing the panel substrate filled with the mixed material from the outside, and is hardening in the step of phase-separating the mixed material. The sealing resin is drawn into the injection port as the volume of the polymer-dispersed liquid crystal shrinks.

According to a sixth aspect of the present invention, there is provided a method of manufacturing a liquid crystal panel, comprising preparing a pair of panel substrates joined face to face via a sealing resin having an injection port formed therein, and forming a polymer dispersed liquid crystal. And a mixed material of liquid crystal is injected between the panel substrates,
Pressing the panel substrates from the outside along the junction towards each other tongue
After applying the sealing resin to the outside of the injection port in a state , the pressure applied to the panel substrate is reduced, and the polymer-dispersed liquid crystal is obtained by phase separation of the mixed material, and at the same time, the sealing resin is cured.
It is characterized by According to this manufacturing method, in the step of pressing the panel substrate filled with the mixed material from the outside, the mixed material overflows from the injection port of the sealing resin, and in the step of reducing the pressing force applied to the panel substrate, the overflow occurs. The mixed material that has come out is drawn into the injection port together with the sealing resin. Further, in the step of phase-separating the mixed material, the sealing resin is hardened and further drawn into the injection port as the polymer-dispersed liquid crystal shrinks in volume.

[0022]

According to a seventh aspect of the present invention, there is provided an apparatus for manufacturing a liquid crystal panel which is used at the time of manufacturing a liquid crystal panel. Pressing means for pressing a pair of panel substrates into which a mixed material of a polymer and a liquid crystal to be a liquid crystal has been injected, from the outside along the joining direction; and temperature setting means for setting the temperature of the panel substrate into which the mixed material has been injected. A sealing resin applying means for applying a sealing resin to the outside of the injection port, and a light irradiating means for irradiating light to the panel substrate into which the mixed material has been injected. According to the manufacturing apparatus according to the present invention, any of the above manufacturing methods can be performed extremely easily.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.

(Embodiment 1) FIG. 1 is a side sectional view showing a simplified structure of a main part of a liquid crystal panel in a state of being manufactured after adopting a manufacturing method according to this embodiment, and FIG. FIG. 3 is a side sectional view schematically showing a main part structure of a liquid crystal panel completed by adopting the manufacturing method according to the embodiment, and FIG. 3 schematically shows a main part structure of a manufacturing apparatus used in manufacturing the liquid crystal panel. FIG. 4 is an explanatory view. This liquid crystal panel has a structure known as a polymer dispersed type, that is, a liquid crystal in which water droplets are dispersed in a polymer resin matrix filled between a pair of glass substrates with a conductive film as a panel substrate. It has a configuration that is held. Since the entire configuration of the liquid crystal panel at this time is not fundamentally different from that of the related art, the same parts and portions in FIGS. 1 to 3 as those in FIGS. 5 and 6 are denoted by the same reference numerals. A method of manufacturing a liquid crystal panel will be described with reference to FIG.

In manufacturing a liquid crystal panel, as shown in FIGS. 1 and 4, a pair of transparent glass substrates 1 and 2 serving as panel substrates are prepared, and the surface of each of the glass substrates 1 and 2 is prepared. After forming the transparent conductive films (ITO conductive films) 1a and 2a having a desired pattern shape and performing a cleaning process, the alignment film AL5 serving as the insulating films 1b and 2b is formed.
417 (manufactured by Nippon Synthetic Rubber) was printed on the transparent conductive films 1a and 2a, heated at a temperature of 80 ° C. for 1 minute,
The insulating film 1 is heated at a temperature of 30 ° C. for 30 minutes.
b and 2b are printed. Then, as shown in FIG. 4, the sealing resin having the injection port 3a formed therein, for example, a sealing resin 3 made of a structurable bond manufactured by Mitsui Toatsu, which is a thermosetting resin, is applied to the glass substrate 1 on one side as shown in FIG. Formed along the periphery.
In addition, the sealing resin 3 contains 1.5 wt% of a glass fiber (manufactured by NEC Corporation) having a diameter of 9 μm because it is necessary to secure an interval between the glass substrates 1 and 2.

The sealing resin 3 is not limited to a thermosetting resin, but may be Loctite 352A (manufactured by Nippon Loctite), World Rock 752 (manufactured by Kyoritsu Chemical Sangyo Co., Ltd.), XNR5612 (Nagase Sangyo Co., Ltd.) )) And Photo-Rec (manufactured by Sekisui Chemical Co., Ltd.). Then, after forming the sealing resin 3, the sealing resin 3 is temporarily cured by heating at a temperature of 85 ° C. for 10 minutes, and a conductive paste is formed on the conductive portion surrounded by the sealing resin 3. Everyohm 800PL (manufactured by Nippon Graphite Industry Co., Ltd.) is applied. Further, on the other glass substrate 2, about 100 spacers 4, for example, Epostar-GP-HC90 (manufactured by Nippon Shokubai Co., Ltd.) having a diameter of 9 μm, which are spherical resin particles, are provided. after spraying so that / mm ^2, it is made to face joining the glass substrates 1 and 2 to each other upon through the sealing resin 3.

Further, a mixed material of a polymer and a liquid crystal to be a polymer dispersed liquid crystal, for example, polyester acrylate 1.
8% by weight and 18% by weight of 2-ethylhexyl acrylate
% Of polymer resin and 80 wt% of liquid crystal E-7 (manufactured by BDH), 0.2 wt% of Darocur 1173 (manufactured by Merck) as a photo-curing initiator and Irgacure 184 as a polymerization initiator. (Ciba Geigy Co., Ltd.) was prepared, and an empty panel composed of a pair of glass substrates 1 and 2 was formed by curing the sealing resin 3 by heating or light irradiation treatment. Thereafter, by adopting the vacuum injection method described in the conventional form, the mixed material 5 is injected and filled into the inside of the empty panel integrated with the sealing resin 3, that is, between the glass substrates 1 and 2. Do what you want to do. As a result, a liquid crystal panel which is a semi-finished product in the middle of manufacture, that is, a glass substrate (panel substrate) in which the mixed material 5 is merely injected.
Thus, the liquid crystal panel semi-finished product 10 composed of 1 and 2 is configured.

Next, a liquid crystal panel manufacturing apparatus 11 having a structure schematically shown in FIG. 3 is used, and a glass substrate 1 forming a liquid crystal panel semi-finished product 10 filled with a mixed material 5 is used. , 2 are pressed from the outside to the inside along the joining direction of each other. That is,
In this case, the manufacturing apparatus 11 introduces N ₂ gas into the bag-shaped silicon rubber 12 which is disposed at the upper position and inflates it like a balloon, and further, on the panel mounting table 13 located at the lower side. The liquid crystal panel semi-finished product 10 placed on the liquid crystal panel semi-finished product 10 is pressed by the expanded silicon rubber 12, and each of the glass substrates 1 and 2 of the liquid crystal panel semi-finished product 10 has 0.8 kg / cm ^2. Pressure for 1 minute. In FIG. 3, reference numeral 14 denotes a light source, 15 denotes a frame, and the frame 15 positions and supports the silicon rubber 12 and the panel mounting table 13.

In FIG. 3, the pressing operation of the liquid crystal panel semi-finished product 10 by the silicon rubber 12 is performed while expanding from the central portion of the substrate to the outer portion of the substrate. For example, the semi-finished liquid crystal panel 10 is pressed with the silicon rubber 12 while moving from one end where the injection port 3a is not provided to the other end where the injection port 3a is provided. Of course, it is good. Also,
Here, the pressure at the time of pressing the glass substrates 1 and 2 in which the liquid crystal panel blank 10 is provided is assumed to be 0.8 Kg / cm ^2, does not mean the required pressure of 0.8 Kg / cm ^2, It has also been confirmed that at least 0.1 kg / cm ² is practically acceptable.

Then, when the liquid crystal panel semi-finished product 10 is pressed by using the manufacturing apparatus 11, that is, the glass substrates 1 and 2 constituting the liquid crystal panel semi-finished product 10 filled with the mixed material 5 are pressed from the outside. In this case, a small amount of the mixed material 5 overflows from the injection port 3a of the sealing resin 3 which is cured by joining the glass substrates 1 and 2 face-to-face. Note that whether or not the mixed material 5 has overflowed is detected using an optical sensor or the like. Also,
At this time, since the glass substrates 1 and 2 are pressed from the outside, the glass substrates 1 and 2 are joined via the sealing resin 3 and the spacing between the glass substrates 1 and 2 with the spacers 4 interposed therebetween, The so-called panel gap is made uniform.

Subsequently, when a sealing resin 6 such as Loctite 352A (manufactured by Nippon Loctite) is applied to the outside of the injection port 3a formed in the sealing resin 3, the sealing resin 6 is sealed. This means that the resin 3 is applied in close contact with the surface of the mixed material 5 overflowing from the injection port 3a. Thereafter, the pressing force applied from the silicon rubber 12 of the manufacturing apparatus 11 to the glass substrates 1 and ² is reduced to 0.6 kg / cm ² , and the glass substrate 1 is left for one minute. Then, the sealing resin 6 becomes the injection port 3
As a result, the mixed material 5 that has overflowed from a is drawn into the injection port 3a, and enters the injection port 3a of the sealing resin 3.

In the present embodiment, the injection port 3a
The pressing force applied to the glass substrates 1 and 2 coated with the sealing resin 6 on the outside is reduced to 0.6 kg / cm ² and then left for only 1 minute. Is determined by the reduced pressure state and the time required for the sealing resin 6 to enter the injection port 3a, and the sealing resin 6 that has entered the injection port 3a together with the mixed material 5 generates bubbles 8 Instead, it plays a role of completely closing the injection port 3a in close contact with the mixed material 5. Further, in this embodiment, the pressing force applied to the glass substrates 1 and 2 is reduced, but it is not necessary to make the sealing resin 6 enter the injection port 3a by reducing the pressing force. While maintaining the pressing force applied to the substrates 1 and 2 at 0.8 kg / cm ² , the sealing resin 6 is applied in close contact with the surface of the mixed material 5 overflowing from the injection port 3 a of the sealing resin 3. You may keep it.

Further, by removing the semi-finished liquid crystal panel 10 from the manufacturing apparatus 11, the pressing force applied to the glass substrates 1 and 2 is released, and the injection port 3a of the sealing resin 3 in the semi-finished liquid crystal panel 10 is removed. After covering the entire area of the display area with a light-shielding film,
The sealing resin 6 is cured by irradiating light of 0 mW / cm ² for 3 minutes. After that, the light-shielding film is removed from the liquid crystal panel semi-finished product 10 and the display area of the liquid crystal panel semi-finished product 10 is adjusted to 50 mW / cm ^2.
Is irradiated for 5 minutes, and the polymer-dispersed liquid crystal 7 is obtained by phase-separating the mixed material 5 composed of the polymer and the liquid crystal. 2 is drawn into the inlet 3a with the volume contraction of the polymer dispersed liquid crystal 7, and FIG.
Thus, a polymer-dispersed liquid crystal panel having the structure shown in FIG.

In this case, the liquid crystal panel semi-finished product 10 is removed from the manufacturing apparatus 11 and the sealing resin 6 is cured. The sealing resin 6 may be cured while the pressing force of 0.6 kg / cm ² or 0.8 kg / cm ² is being applied to the glass substrates 1 and 2. Light source 1 provided by
4 is used to cure the sealing resin 6 and obtain the polymer-dispersed liquid crystal 7. However, in this case,
It is necessary that the manufacturing apparatus 11 itself be manufactured using a material such as glass that transmits light. further,
In this case, the sealing resin 6 is not limited to the photo-curable resin, but may be a thermosetting resin such as Struct Bond (manufactured by Mitsui Toatsu) or a room temperature-curable resin. In the case of a curable resin, the sealing resin 6 is cured by a heat treatment. Here, pressure is applied to the glass substrates 1 and 2 at the time of sealing, but pressure may be applied to the glass substrates 1 and 2 at the time of phase separation of the mixed material 5. .

On the other hand, a procedure similar to the conventional embodiment different from the procedure described above, that is, a mixed material 5 composed of a polymer and a liquid crystal is injected and filled between the glass substrates 1 and 2, and the sealing resin is filled. After applying the sealing resin 6 to the outside of the injection port 3a of No. 3, the liquid crystal panel was constructed according to the procedure of curing the sealing resin 6. When compared with the liquid crystal panel manufactured by the manufacturing method according to the present embodiment, bubbles are generated in the liquid crystal panel according to the conventional embodiment, and display quality is degraded. On the other hand, in the liquid crystal panel according to the present embodiment, the panel gap was made uniform without generating bubbles, and it was confirmed that the display quality was good and the reliability was improved.

(Embodiment 2) In the manufacturing method according to Embodiment 1, the glass substrates 1 and 2 filled with the mixed material 5 are pressed from the outside along the joining direction, and the glass substrates 1 and 2 are sealed outside the inlet 3a. After the resin 6 is applied, the pressing force applied to the glass substrates 1 and 2 is released or reduced, or the sealing material 6 is cured while maintaining the pressing force, and then the mixed material 5 is phase-separated to polymer dispersed liquid crystal. Although the liquid crystal panel is formed by obtaining No. 7, it is also possible to adopt each of the manufacturing methods including the following procedures.

First, in the first manufacturing method according to the second embodiment, as in the first embodiment, the mixed material 5 of the polymer and the liquid crystal which becomes the polymer dispersed liquid crystal 7 is filled with the sealing resin 3. The glass substrates 1 and 2 filled and filled from the inlet 3a are pressed from the outside along the joining direction, and the sealing resin 6 is applied to the outside of the inlet 3a. Then, the liquid crystal panel semi-finished product 10 is removed from the manufacturing apparatus 11, the pressing force applied to the glass substrates 1 and 2 is released, and 50 mW / cm ² of light is applied to the display area of the liquid crystal panel semi-finished product 5 for 5 minutes.
After irradiating the mixture for 5 minutes to obtain a polymer-dispersed liquid crystal 7 by phase-separating the mixed material 5 comprising the polymer and the liquid crystal, the sealing resin 3 in which the glass substrates 1 and 2 are joined face to face.
A liquid crystal panel is formed by curing the sealing resin 6 by irradiating the sealing resin 6 applied to the outside of the injection port 3a with light of 40 mW / cm ² for 3 minutes.

That is, in this manufacturing method, the injection port 3 of the sealing resin 3 is formed in the step of pressing the glass substrates 1 and 2 from the outside.
a sealing resin 6 on the surface of the mixed material 5 overflowing from
Is applied in a state where the mixed material 5 is phase-separated. In the step of phase separation of the mixed material 5, the sealing resin 6 is drawn into the inlet 3a as the polymer-dispersed liquid crystal 7 contracts in volume. Therefore, even with the first manufacturing method, the panel gap is made uniform without generating air bubbles,
Moreover, a liquid crystal panel similar to that of the first embodiment having good display quality and improved reliability is configured.

At this time, the mixed material 5 may be phase-separated while the pressing force applied to the glass substrates 1 and 2 is reduced or maintained, and overflow occurs in the step of reducing the pressing force applied to the glass substrates 1 and 2. Sealing resin 6 coated with mixed material 5
At the same time, in the step of phase-separating the mixed material 5, the sealing resin 6 is further drawn into the injection port 3a with the volume shrinkage of the polymer-dispersed liquid crystal 7. The inlet 3a is completely closed.

Further, in the second manufacturing method according to the second embodiment, a pair of glass substrates 1 and 2 joined face to face via a sealing resin 3 having an injection port 3a are prepared.
By injecting and filling the mixed material 5 of the polymer and the liquid crystal to be the polymer dispersed liquid crystal 7 between the glass substrates 1 and 2 from the injection port 3a of the sealing resin 3, and by using the manufacturing apparatus 11, The glass substrates 1 and 2 provided in the liquid crystal panel semi-finished product 10 are pressed from the outside along the joining direction. Then, after removing the liquid crystal panel semi-finished product 10 from the manufacturing apparatus 11, the display area of the liquid crystal panel semi-finished product 10 is irradiated with light of 50 mW / cm ² for 5 minutes to remove the mixed material 5 composed of polymer and liquid crystal. After obtaining the polymer dispersed liquid crystal 7 by phase separation, the sealing resin 3
A liquid crystal panel is completed by applying a sealing resin 6 to the outside of the injection port 3a formed in the above, and irradiating light of 40 mW / cm ² for only 3 minutes to cure the sealing resin 6.

By the way, in the second manufacturing method, the first
Is different from the method described in the above, in which a polymer-dispersed liquid crystal 7 is obtained, and a sealing resin 6 is applied to the outside of the injection port 3a.
However, even when such a procedure is adopted, no bubbles are generated between the sealing resin 6 and the polymer-dispersed liquid crystal 7, and the display has good display quality, and It has been confirmed that a liquid crystal panel with improved reliability can be formed. According to this manufacturing method, when the glass substrates 1 and 2 filled with the mixed material 5 are pressed from the outside, the mixed material 5 overflows from the injection port 3a of the sealing resin 3, so that the injection port The sealing resin 6 is applied on the surface of the polymer dispersed liquid crystal 7 overflowing from 3a and phase-separated, and then cured.

In this manufacturing method, the pressing force applied to the glass substrates 1 and 2 is released by removing the liquid crystal panel semi-finished product 10 on which the glass substrates 1 and 2 are pressed from the manufacturing apparatus 11. It is a matter of course that the mixed material 5 may be phase-separated by irradiating the display area of the liquid crystal panel semi-finished product 10 kept pressed by the device 11 with light. However, in this case, it is necessary that the manufacturing apparatus 11 itself is made of a material such as glass that can transmit light.

(Embodiment 3) In each of the manufacturing methods according to Embodiments 1 and 2, a sealing resin 6 is applied to the outside of an injection port 3a formed in the sealing resin 3, and the sealing resin 6 And the step of phase-separating the mixed material 5 to obtain the polymer-dispersed liquid crystal 7 are separately performed. However, after adopting a manufacturing method including the following procedures, It is also possible to configure a liquid crystal panel.

In the method of manufacturing a liquid crystal panel according to this embodiment, a liquid crystal panel half filled with a mixed material 5 of a polymer and a liquid crystal to be a polymer dispersed liquid crystal 7 is injected from an injection port 3 a of a sealing resin 3. After pressing the glass substrates 1 and 2 of the product 10 from the outside to the inside along the joining direction of each other and applying the sealing resin 6 to the outside of the injection port 3a, the liquid crystal panel semi-finished product 50mW for the entire surface of 10
/ Cm ² for 5 minutes to phase-separate the mixed material 5 composed of polymer and liquid crystal to obtain polymer-dispersed liquid crystal 7 and simultaneously remove the sealing resin 6 applied outside the injection port 3a. The liquid crystal panel is completed by curing.

In this manufacturing method, the mixed material 5 overflows from the injection port 3a of the sealing resin 3 in the step of pressing the glass substrates 1 and 2 filled with the mixed material 5.
The sealing resin 6 applied on the surface of the overflowing mixed material 5 is drawn into the inlet 3a with the volume contraction of the polymer-dispersed liquid crystal 7 while the mixed material 5 is cured along with phase separation. Become. Therefore, even when the manufacturing method according to the third embodiment is adopted, a liquid crystal having a uniform panel gap without generating air bubbles, and having good display quality and improved reliability. The panel is now configured.

Further, in the above-described manufacturing method, the glass substrates 1 and 2 filled with the mixed material 5 are pressed, and the mixed material 5 is separated while the sealing resin is applied to the outside of the injection port 3a. And curing of the sealing resin 6 are simultaneously performed, but the present invention is not limited to such a procedure.
After reducing or releasing the pressing force applied to the glass substrates 1 and 2 filled with the mixed material 5, the phase separation of the mixed material 5 and the curing of the sealing resin 6 can be simultaneously performed. That is, in this manufacturing method, the mixed material 5 overflows from the injection port 3a of the sealing resin 3 in the step of pressing the glass substrates 1 and 2 filled with the mixed material 5 from the outside. In the step of reducing or canceling the pressing force applied to the sealing material 6, the overflowing mixed material 5 is drawn into the injection port 3a together with the sealing resin 6.

In the step of phase-separating the mixed material 5,
The sealing resin 6 applied on the surface of the mixed material 5 overflowing from the inlet 3a is further drawn into the inlet 3a as the volume of the polymer-dispersed liquid crystal 7 shrinks while hardening. Therefore, the liquid crystal panel completed by adopting such a manufacturing method also has a uniform panel gap without generating air bubbles, and has good display quality and improved reliability.

Incidentally, the embodiment of the manufacturing method of the present invention is not limited to the above-described contents, and it goes without saying that various changes as described below may be made.

The polymer material in the mixed material 5 which becomes the polymer dispersed liquid crystal 7 is not limited to polyester acrylate and 2-ethylhexyl acrylate which are photocurable resins, but includes 2-hydroxyethyl acrylate and trimethylolpropane triacrylate. However, the present invention is not limited to the photo-curing resin, and a thermosetting resin, a thermoplastic resin, or the like can be used.

The liquid crystal material in the mixed material 5 is not limited to E-7, but may be E-8 (manufactured by BDH), ZLI4792 or TL202 (both manufactured by Merck), and a polymerization initiator. Is not limited to Irgacure 184, but may be Irgacure 651 (manufactured by Ciba Geigy).

In this embodiment, the transparent conductive films 1a, 2a and the insulating films 1b, 2b are formed on the surfaces of the glass substrates 1, 2, but the insulating films 1b, 2b are not formed. However, one of the glass substrates 1 and 2 may be an active matrix substrate provided with active elements.

The spacer 4 is not limited to resin particles, but may be made of SiO ₂ or glass fiber, or a spacer having a glue adhered on the surface (fixed spacer) can be used. .

In the present embodiment, a vacuum injection method is employed when the mixed material 5 is injected between the pair of glass substrates 1 and 2, but the present invention is not limited to this method. Injection method (a method in which two or more holes are formed in an empty panel and a mixed material is injected into the inside of the empty panel from one hole) or two holes are opened in the empty panel. A method of injecting the mixed material into the empty panel from one hole while applying pressure, or a method of sucking the inside of the empty panel from the other hole at this time, and a method of previously mixing the mixed material on one glass substrate. It is conceivable to employ a method of dropping and then bonding the other glass substrate.

(Embodiment 4) Next, a configuration of a manufacturing apparatus 11 used for manufacturing a polymer-dispersed liquid crystal panel will be described as Embodiment 4 with reference to FIG. That is, the liquid crystal panel manufacturing apparatus 11 according to the present embodiment is used when manufacturing a liquid crystal panel by employing the manufacturing method described in Embodiments 1 to 3, and is shown in FIG. As shown, a pair of glass substrates 1 and 2 which are face-to-face bonded via a sealing resin 3 having an injection port 3 a formed therein and into which a mixed material 5 of a polymer and a liquid crystal to be a polymer dispersed liquid crystal 7 is injected. Pressing means for pressing the liquid crystal panel semi-finished product 10 mounted on the panel mounting table 13, and supplying N ₂ gas into the silicon rubber 12. Compressor 16 is provided. The pressing means is not limited to the one provided with the silicon rubber 12, but may be any structure that can press the pair of glass substrates 1 and 2 joined face to face from the outside to the inside. Needless to say, fools.

At this time, the panel mounting table 13
Is to adjust the temperature of the liquid crystal panel semi-finished product 10 by functioning as a cooler or a heater. A temperature setting means 17 and a temperature measuring means (not shown) for maintaining the temperature at about ° C. are provided. Also, this manufacturing apparatus 11
A sealing resin applying means 18 for applying the sealing resin 6 to the outside of the injection port 3a formed in the sealing resin 3 constituting the liquid crystal panel semi-finished product 10, and irradiating the liquid crystal panel semi-finished product 10 with light And a light irradiating means 19 for adjusting the operation of the light source 14 to be controlled. These pressing means and temperature setting means 17, sealing resin coating means 18 and light irradiating means 19 use a microcomputer which is a control means 20. After that, it is to be coordinated and controlled collectively. In addition,
Specific operations performed by the manufacturing apparatus 11 are described in Embodiment 1.
As described above, the detailed description is omitted here.

Further, in the liquid crystal panel manufacturing apparatus 11 according to the present embodiment, the following configuration can be adopted. That is, the irradiation light from the light source 14 contains a wavelength component (infrared light) of 800 nm or more, and depending on such a wavelength component, the liquid crystal panel semi-finished product 1
0 is heated, so that an IR cut filter 21, for example, HAF-50S-30H manufactured by Sigma Koki Co., Ltd. is arranged between the panel mounting table 13 and the light source 14. Liquid crystal panel semi-finished product 1 whose light component is removed and whose temperature is controlled by temperature setting means 17
It is preferable that the temperature at the time of zero light irradiation does not change. Further, 3 included in the irradiation light from the light source 14
Since the polymer-dispersed liquid crystal 7 is adversely affected by a wavelength component (ultraviolet light) of 50 nm or less, for example, UV-35 (UV-35) is provided between the panel mounting table 13 and the light source 14 so that such a wavelength component is not transmitted. It is also desirable to arrange a UV cut filter 22 such as Toshiba Corporation in advance.

[0058]

As described above, according to the method of manufacturing a liquid crystal panel according to the present invention, air bubbles remain between the sealing resin and the polymer dispersed liquid crystal in the completed liquid crystal panel. Does not occur, and an excellent effect of obtaining good display quality and improving reliability can be obtained. If a pressing force is applied to the panel substrate at the time of sealing and phase separation, an effect that the cell thickness can be kept constant can be obtained. Further, according to the liquid crystal panel manufacturing apparatus according to the present invention, the above manufacturing method can be performed very easily, and an effect that a liquid crystal panel with improved quality can be obtained can be obtained.

[Brief description of the drawings]

FIG. 1 is a simplified side cross-sectional view showing a main part structure of a liquid crystal panel in the course of manufacturing after adopting a manufacturing method according to the present embodiment.

FIG. 2 is a simplified side cross-sectional view showing a main structure of a liquid crystal panel completed by employing the manufacturing method according to the present embodiment.

FIG. 3 is an explanatory diagram schematically illustrating a main configuration of a manufacturing apparatus used in manufacturing the liquid crystal panel according to the present embodiment.

FIG. 4 is an external perspective view showing a glass substrate constituting a liquid crystal panel according to the present embodiment and a conventional mode separately.

FIG. 5 is a side sectional view showing a simplified structure of a main part of a liquid crystal panel in the course of manufacturing after adopting a manufacturing method according to a conventional embodiment.

FIG. 6 is a side sectional view schematically showing a main part structure of a liquid crystal panel completed by adopting a manufacturing method according to a conventional embodiment.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Panel substrate 2 Panel substrate 3 Sealing resin 3a Injection 5 Mixed material 7 Polymer-dispersed liquid crystal 11 Manufacturing apparatus 12 Silicon rubber (pressing means) 16 Compressor (pressing means) 17 Temperature setting means 18 Sealing resin applying means 19 Light irradiation means

Continuation of front page (58) Field surveyed (Int.Cl. ⁷ , DB name) G02F 1/1341 G02F 1/13

Claims (7)

(57) [Claims] 1. A prepared pair of panel substrates which are facing bonded via the sealing resin injection port is formed, note a mixed material of a polymer and liquid crystal which is a polymer dispersed liquid crystal between panel substrates
And press the panel substrates from outside along the joining direction
With the sealing resin applied to the outside of the injection port
A method for producing a liquid crystal panel, comprising obtaining a polymer-dispersed liquid crystal by phase separation of a mixed material after curing a sealing resin . 2. A prepared pair of panel substrates which are facing bonded via the sealing resin injection port is formed, note a mixed material of a polymer and liquid crystal which is a polymer dispersed liquid crystal between panel substrates
And press the panel substrates from outside along the joining direction
After applying the sealing resin to the outside of the injection port in a state where it is set , the sealing resin is cured after reducing the pressing force applied to the panel substrate
After that , polymer dispersed liquid crystal is formed by phase separation of the mixed material.
A method for manufacturing a liquid crystal panel, comprising: 3. providing a pair of panel substrates which are facing bonded via the sealing resin injection port is formed, note a mixed material of a polymer and liquid crystal which is a polymer dispersed liquid crystal between panel substrates
And press the panel substrates from outside along the joining direction
After the sealing resin is applied to the outside of the injection port in a state where the polymer is dispersed, a polymer-dispersed liquid crystal is obtained by phase separation of the mixed material while maintaining the pressing force applied to the panel substrate. A method for manufacturing a liquid crystal panel, comprising: curing a liquid crystal panel. 4. providing a pair of panel substrates which are facing bonded via the sealing resin injection port is formed, note a mixed material of a polymer and liquid crystal which is a polymer dispersed liquid crystal between panel substrates
And press the panel substrates from outside along the joining direction
After applying the sealing resin to the outside of the injection port in a state where it has been made, after reducing the pressing force applied to the panel substrate, obtaining a polymer dispersed liquid crystal by phase separation of the mixed material, the sealing resin applied to the outside of the injection port A method for manufacturing a liquid crystal panel, comprising: curing a liquid crystal panel. 5. providing a pair of panel substrates which are facing bonded via the sealing resin injection port is formed, note a mixed material of a polymer and liquid crystal which is a polymer dispersed liquid crystal between panel substrates
And press the panel substrates from outside along the joining direction
After the sealing resin is applied to the outside of the injection port in a state where the sealing resin is applied, the polymer-dispersed liquid crystal is obtained by phase separation of the mixed material while maintaining the pressing force applied to the panel substrate.
Method of manufacturing a liquid crystal panel, wherein Rukoto cured. 6. Prepare a pair of panel substrates which are facing bonded via the sealing resin injection port is formed, note a mixed material of a polymer and liquid crystal which is a polymer dispersed liquid crystal between panel substrates
And press the panel substrates from outside along the joining direction
After the sealing resin is applied to the outside of the injection port in a state where the sealing resin is applied , the pressing force applied to the panel substrate is reduced, and the polymer-dispersed liquid crystal is obtained by phase separation of the mixed material.
A method for manufacturing a liquid crystal panel, comprising curing the liquid crystal panel. 7. A manufacturing apparatus used in manufacturing the liquid crystal panel according to claim 1, wherein the liquid crystal panel is face-to-face bonded via a sealing resin having an inlet formed therein, and Pressing means for pressing a pair of panel substrates into which a mixed material of a polymer and a liquid crystal to be a polymer-dispersed liquid crystal has been injected, from the outside along the joining direction; and a temperature for setting the temperature of the panel substrate into which the mixed material has been injected. A liquid crystal panel comprising: setting means; sealing resin application means for applying a sealing resin to the outside of the injection port; and light irradiation means for irradiating the panel substrate with the mixed material injected with light. Manufacturing equipment.