TW583454B - Liquid crystal display panel with isolation wall structure and its producing method - Google Patents

Abstract

The present invention provides a liquid crystal display panel with an isolation wall structure and its producing method. The method comprise: selecting one substrate from two substrates that have been put under alignment process and forming on it a plurality of closing isolation wall structure that is mutual-repulsive to liquid crystal; then forming a close seal on the substrate, the seal being located between outer edge of the substrate and the isolation wall structure; and then, combining the two substrates for confining liquid crystal in the isolation wall structure and isolating the liquid crystal from the seal.

Description

583454 V. Description of the invention (1) 1. [Technical field to which the invention belongs] The present invention relates to a process for using liquid crystal drip filling in a liquid crystal display panel, and in particular to a process for adding liquid crystal drip filling to a liquid crystal display panel. Liquid crystal wall structure with mutually exclusive properties and its manufacturing method II. [Prior art] Liquid crystal materials have the characteristics of flow, so only a small amount of force is required, and the liquid crystal molecules can move to produce different alignment conditions. The most common and common nematic type liquid crystal is an example. It can cause the liquid crystal molecules to turn by the action of an electric field. Since the optical axis of the liquid crystal is quite consistent with its molecular axis, this produces an optical effect. The arrangement direction is properly arranged at the beginning, so when the electric field applied to the liquid crystal is removed and disappeared, the liquid crystal molecules will very quickly return to the original state before the electric field is applied because of its elasticity and viscosity. In the previous technology of injecting liquid crystals, most of them used the process of vacuum injecting liquid crystals. The liquid crystal display panel (Liquid Crystal Display Panel; LCD Panel) after cutting and combining was put into a vacuum seal. In the box, the LCD Panel is fixed by the base, and the liquid crystal m provided with the liquid crystal m is provided below. Since the sealed box is evacuated, the capillarity (capi 1 1 arity) can be used to completely suck the liquid crystal. In the middle of LCDP ane 1, the liquid crystal injection operation is completed.

Page 5 583454 V. Description of the invention (2) " One --- ^ {Don't ith _ db * One Two The process of hetero-empty injection of liquid crystal requires a very long time to

The 15-inch LCD with a panel space ("11 gaP) of 3.5 micron (Um), and its process of vacuum-injecting liquid crystal takes about 40 hours: f / the time of the main LCD process will vary with the size of the LCD panel The increase in the length of the panel and the reduction of the r 1, JQ cel 1 gap between the panel chambers will make it longer. Therefore, it will cause a neck in the process. S,,,, g, the bottleneck in this process, has now developed a relatively rapid The process of injecting the night and day is called the One-Drop Fi 1 1; 〇DF) technology. This technology is based on an uncut large-size substrate, coating-a layer of ultraviolet frame adhesive ( uv seal) to form a plurality of closed areas similar to a rectangular structure, and then use a drip device to directly drop the liquid crystal on the substrate with a controllable drop amount, so the dropped liquid crystal will be limited to the frame In the closed area formed by the knee, the liquid crystal will not overflow the substrate. Then, the substrate is put in a vacuum to combine with another substrate (assemb 1 y), and after the combination is completed, the sealant is compressed and the ultraviolet rays are irradiated. Curing procedure 'before proceeding to LCD After the chamber is cut and sealed, the process of the liquid crystal cell (Cell Process) can be completed. If this 10df process technology is used in the 15 inches of panel panel spacing (ce 1 1 gap) is 3.5 microns (um) For LCD Panel, the required process time can be shortened to 1.5 hours, and the 0DF process time has nothing to do with the size of LCD Pan El's Cel 1 Gap. Therefore, ODF technology can simplify the process, reduce the process time, and simplify the process. (That is, it has nothing to do with the Ce 1 1 gap distance), reducing the waste of liquid crystal overflow, and reducing the bubbles generated when the liquid crystal is incompletely injected.

Page 6 583454 V. Description of the invention (3)

As shown in the first picture (from 1 3 5 0 -SID 01 DIGEST 56.2 / S. Yamada), although the ODF technology has the aforementioned advantages, since the liquid crystal 4 is directly dropped onto the substrate 1 a or 1 b, The substrate 1 a or 1 b must be plated with a high-viscosity frame adhesive material 3 (sea 1 ant) as the adhesive for closing the liquid crystal 4 and as the LCD Pane 1 combination. At the same time, the frame adhesive 3 is completing the Pan After el is combined, it must be irradiated with UV 60 to be completely cured. Therefore, when the liquid crystal 4 is dropped on the substrate 1 a or 1 b with 0 DF technology, the liquid crystal 4 will contact the uncured frame adhesive 3, which will cause the epoxy resin (Epoxy Res i η) molecules diffuse into the liquid crystal 4, which in turn causes the liquid crystal 4 to be contaminated and cause damage (especially during UV 60 curing), UV 60 will also be in contact with the frame 3 Part of the liquid crystal 4 will make the liquid crystal 4 more contaminated. In addition to this defect, the liquid crystal 4 will be aligned upwards, which will degrade the image quality of the LCD panel, and will also cause the degradation of voltage retention of the liquid crystal, causing the image to flash. (f 1 i cker) and other phenomena.

In order to prevent the liquid crystal 4 from being contaminated by the adhesive tape (adhe sivefi 1 1 e) formed by the uncured epoxy resin material during the manufacturing process of the LCD Panel, that is, the pollution that the molecules of the frame material diffuse into the liquid crystal, International Business Machine (IBM) has developed a technology that uses barrier band 2 (Barrier F i 1 1 et).

Page 7 583454 V. Description of the invention (4) Two pictures. The technology is to arrange a barrier tape 2 between the adhesive tape 2ab and the liquid crystal 4 to isolate the liquid crystal 4 from contact with the uncured frame adhesive material 2ab, so as to prevent the liquid crystal 4 from being exposed to uncured epoxy. Resin contamination ', please refer to [Panel Assembly for Liquid Crystal Displays Having Barrier Fillet and an Adhesive Fillet in the Periphery] of the US patent [US 006,219,126]. The barrier tape 2 described in the IBM patent is made of a compressible mate (ria) ', such as a cured silicon elastomer. However, this process will not only increase the cost of new materials and manufacturing procedures, but also “cannot shield the ultraviolet rays during the curing process of the UV curing of the sealant.” Therefore, the ultraviolet rays will still be directly irradiated on the liquid crystal, so that the liquid crystal is generated in the upward direction Problems with defects. 3. [Content of the Invention] In order to prevent the liquid crystal from being contaminated by the uncured frame adhesive during the manufacturing process of the LCD Pane 1, in order to simplify the process and reduce the process time of the ODF technology in the LCD pane 丨 process, The advantages of simplification of the manufacturing process, reduction of liquid crystal overflow, and reduction of bubbles generated when the liquid crystal is incompletely injected can be fully demonstrated. The present invention proposes a structure in which a separating wall is added between the liquid crystal and the frame in the LCD Pane 1. In addition to using the negative characteristics and manufacturing method of the partition wall material to ensure that the liquid crystal does not contact the uncured frame adhesive at all, the structural configuration of the partition wall can also be used to prevent ultraviolet rays from directly irradiating the liquid crystal. Therefore, one of the main objects of the present invention is to provide a

583454 V. Description of the invention (5) The configuration structure and manufacturing method of the partition wall of liquid crystal generating mutually exclusive properties, the partition wall is arranged between the liquid crystal and the frame adhesive in the LCD Panel to isolate the liquid crystal from the frame adhesive. To protect the LCD from contamination. Another main object of the present invention is to provide a method for manufacturing a heat-curing frame adhesive by using the configuration on the separation wall structure, so as to use a thermal process to cure the frame adhesive. In addition to increasing yield, the effects of UV curing radiation on liquid crystals can also be ruled out. Another main object of the present invention is to use the structure of this partition wall, in combination with a mask layout (1 ayut) to shield ultraviolet rays, so as to prevent ultraviolet rays from irradiating the frame adhesive for curing (cur i ng). , The impact on the liquid crystal. Based on the above objectives, the present invention proposes a liquid crystal display panel with a separation wall structure, which includes: two substrates which are combined with each other at a pitch, wherein the alignment has been completed on the inner surface of the two substrates. A partition wall structure with a closed shape is located between the inner side surfaces of the two substrates. A frame adhesive with a closed shape is located between the inner surfaces of the two base plates and between the outer edges of the two base plates and the partition wall structure. And a liquid crystal material is located between the innermost separation wall structure, wherein the liquid crystal and the separation wall generate a mutual exclusion effect.

Page 9 5834454 5. Description of the invention (6) The present invention further proposes a method for manufacturing a liquid crystal display panel with a separation wall structure, which includes: providing two pieces of substrates that have undergone the alignment process and having been cleaned; A layer of photoresist is plated on the substrate; then, exposure and development processes are performed, and a closed partition structure is formed on the substrate; and then the partition structure is cured. Then, a frame adhesive is applied on a substrate, wherein the position of the frame adhesive is located between the peripheral edge of the substrate and the cured partition structure. Next, a liquid crystal dropping process is performed, which directly drops the set liquid crystal dropping amount into the structure of the separation wall; then the two substrates are moved into a vacuum chamber, combined and compressed, so that the two The sheet substrates are glued together with a frame to form a liquid crystal display panel. Finally, the sealant is irradiated with ultraviolet rays so that the sealant can be cured. The invention further proposes another method for manufacturing a liquid crystal display panel with a separation wall structure, which includes: providing two substrates that have undergone an alignment process and having been cleaned; then selecting one of the substrates and plating the substrate with a layer of photoresist; Then, the exposure and development processes are performed, and a closed-shaped partition wall structure is formed on the substrate; then the partition wall structure is cured. Then, a piece of substrate is coated with thermal curing adhesive, where the position of the thermal curing adhesive is between the peripheral edge of the substrate and the cured partition structure. Next, a liquid crystal dropping process is performed, which directly drops the set liquid crystal dropping amount into the partition wall structure. The two substrates are then moved into a vacuum chamber, combined and compressed, so that the two substrates are bonded together with a heat-curable adhesive to form a liquid crystal display panel. Dare to show the LCD again

Page 10 583454 5. Description of the invention (7) The board is placed in an oven and baked to complete the curing of the thermosetting glue. 4. [Embodiment] The following is a detailed description of the embodiment of the present invention. In the following description, the description of the process and structure of the LCD panel does not include the complete process of manufacturing. The prior art used by the present invention is only used as a reference to help explain the present invention. Moreover, the related diagrams in the following text are not drawn according to actual scale, and their function is only to express the structural features of the present invention. The invention provides a liquid crystal display panel with a separation wall structure, which includes: two substrates, which are combined with each other at a pitch, wherein the alignment of the two substrates has been completed on the inner surface. A partition wall structure with a closed shape is located between the inner surfaces of the two substrates. A frame adhesive with a closed shape is located between the inner surfaces of the two substrates and between the outer edges of the two substrates and the separation wall structure. And a liquid crystal material 'is located between the innermost partition wall structure', wherein the liquid crystal and the partition wall generate a mutual exclusion effect. The present invention further proposes a method for manufacturing a liquid crystal display panel with a separation wall structure, which includes: providing two pieces of substrates that have undergone an alignment process and being cleaned; then selecting one of the substrates and plating a photoresist on the substrate; and then proceeding The exposure and development process, and a closed-shaped partition wall structure is formed on the substrate; then the partition wall structure is cured. then,

583454 5. Description of the invention (8) The frame adhesive is applied on a substrate, where the position of the frame adhesive is between the peripheral edge of the substrate and the solidified barrier structure. Next, a liquid crystal dropping process is performed, which directly drops the set liquid crystal dropping amount into the structure of the separation wall; then the two substrates are moved into a vacuum chamber, combined and compressed, so that the two The sheet substrates are glued together with a frame to form a liquid crystal display panel. Finally, the sealant is irradiated with ultraviolet rays so that the sealant can be cured. Do not face the clear layer of light into a seal. Out of glue. The amount of the vacuum is placed on the plate and the washing resist is closed. Then the position is directly in the chamber—starting from the baking substrate; the connection is performed in a series of drops, and the method is to enter the box. However, the separator is proposed based on the formation of the base liquid crystal in this process, including the selection of a combination of partition wall and a liquid crystal baking system that are selected to be exposed to the structure plate on the exposed wall, and the other is to provide one of the light and Significantly: Immediately after the edge of thermal solidification, the compression of its structure and the display surface so that the heat has two substrates separated from each other. The process of chemical conversion and solidification will be completed. Missing I / ,,, make two boards. The most solidified adhesive is completed from the wall junction, and after the barrier coating is set, the two substrates will be used to complete the solid-state liquid crystal display process and the substrate is plated with a substrate-shaped structure. Curing the substrate of the liquid crystal dill film which is thermally cured from the wall structure is moved to the surface of the thermally-cured adhesive liquid crystal display. Next, the embodiments and preferred embodiments of the present invention will be described in detail through the third to sixth figures. set forth.

Page 12 583454 V. Description of the invention (9) The third figure is a schematic sectional view of the structure of the present invention. First, on one of the two substrates, such as substrate 10, on which two thin film transistors (TFTs), color filters, and alignment processes have been completed, a substrate having a thin film transistor (TFT), a color filter, and an alignment process is formed. A closed rectangular partition wall 20 that generates mutual exclusion characteristics with the liquid crystal 40. The mutual exclusion characteristics of the partition wall 20 and the liquid crystal 40 must meet the requirements shown in the fourth figure, that is, the liquid crystal 40 is on the material of the partition wall 20. The contact angle of 0 must be greater than i 0 degrees' to ensure that the partition wall 20 has the characteristics of mutual exclusion with the liquid crystal 40. The measurement method in the fourth figure is a specific material, such as acrylic material.

(PMMA) is put on a dummy wafer, and after baking and curing, the liquid crystal material to be tested is dropped on the PMMA material, and then measured with a measuring instrument, and the result must meet the "test The contact angle 0 of the liquid crystal 40 on the ρ M M a material must be greater than the specification of 0 ° ". The purpose of this specification is to prevent the liquid crystal 40 from climbing and climbing over the separation wall 20 under tension in the case of normal dripping, so that the amount of liquid crystal 40 is reduced and the filling is not complete. In addition, when the liquid crystal 40 dripping process is performed, even if a deviation in the dripping position occurs and the liquid crystal 40 cannot be dropped in the middle position of the separation wall 20, the guard can use this mutually exclusive characteristic to make the liquid crystal 4 〇 stay at the position of the merchant. ,I

Then please continue to refer to the third picture 'when the liquid crystal dripping process is being performed'. If the liquid crystal 40 drips too much, in order to avoid the liquid crystal 40 to climb over and pass through the separation wall 2 0, so the separation wall 2 The width of 0 must be greater than 5 microns (un〇

Page 13 583454 V. Description of the invention (10) ′ In order to prevent the dripping amount of the liquid crystal 40 from falling at the upper limit of the dripping specification, the shape of the overflow is generated. At the same time, the separation wall structure formed by a plurality of separation walls 20 can have different configurations depending on product requirements and manufacturing equipment. In addition, the height of the separation wall 20 must be greater than the liquid crystal display panel 100. The gap between the liquid crystal cells (cel 1 gap) g, in order to seal the liquid crystal 40 in the area of the separation wall 2 when the two substrates 10 and Η where the light-reflecting sheet is located are combined. Inside.

A seal is formed between the outer edge of the substrate 10 and the partition wall 20 to form a 2-shaped frame adhesive 30. The frame adhesive 30 surrounds the partition wall 20, and several of them are better. The distance is approximately 5 millimeters (mm). This distance can be used to form the space required for the structure of the south wall of the display surface. In addition, this distance can also be used as the separation wall 20 and the frame shot in the process of ordering and compressing the liquid crystal display gel 3 ^ 00. ® material can also be used as a buffer area for shielding ultraviolet rays during the UV curing process. The fifth figure of the surface kt is a schematic cross-sectional view of a liquid crystal display panel 100 having a separation wall 20 structure and a completed assembly. The manufacturing process is described as follows:) One of the first length 17 and two completed alignment process (soil plate) 1 〇 and 1 1 ′ After cleaning (c 1 eaning), Pl / df can be selected, for example, the substrate 1 〇, a layer of acrylic (photoresist) photoresist, After going through the exposure (P0Sng) and development (development) processes,

Page 14 5834454 V. Description of the invention (11) — ^-f forms a closed shape partition wall 20, and then the substrate is sent to the oven for post curing, so that the acrylic material Photoresist curing. This photoresist with acrylic material has the property of repelling liquid crystal 40 after curing. Next, a coating of the sealant is performed on the substrate 10, which uses a nozzle (nozzle) to apply a high viscosity acrylic resin (PMMA), such as epoxy resin, according to a predetermined shape. And the position 'on the peripheral edge of the substrate 10, a closed frame adhesive 30 is formed, and the position of the frame adhesive 30 needs to be located between the outer edge of the substrate 10 and the cured separation wall 20' The preferred distance between the cured acrylic frame adhesive 30 and the cured partition wall 20 is maintained at about 5 millimeters (mm). Next, a process of liquid crystal dropping (One Drop F i 1 1; 0DF) is performed, which directly drops the set amount of liquid crystal dropping through a nozzle into a separation wall 200; and then two substrates Move to a vacuum chamber, perform assembly and compression processes, align the substrates 10 and 11 and stick them together with a frame to form a liquid crystal display panel 100. Then, the liquid crystal display panel 1⑽ is sent out of the vacuum chamber and a process of curing the sealant 30 with ultraviolet light 60 is performed, so that the sealant 30 can be cured. Since sufficient space has been reserved between the frame adhesive 30 and the partition wall 20, the ultraviolet light 60 will not be irradiated to the liquid crystal 4 when curing and irradiated through the photomask 50, so that the liquid crystal 4 can be ensured. 0 quality, please refer to the sixth figure. In the process of coating the sealant 30 described above, of course, it is also possible to choose to apply the sealant 30 to the substrate 11 ', but the relative position must be the same as the position coated on the substrate. In addition, you can also choose to form a separation wall 2 on the substrate 丨 丨, and then

Page 15 583454 V. Description of the invention (12) '-The foregoing steps form the liquid crystal display panel 100. Next, the following describes the manufacturing method of the first preferred embodiment of the present invention: As shown in the fifth figure, first, two pieces of substrates 10 and u that have completed an alignment process are provided, and cleaned. After ', one of the substrates can be selected, for example, substrate 10, and two g layers of a photoresist (ph〇t〇resist) made of acrylic resin (PMMA) are plated thereon, and exposed and developed (devel) 〇pment) After the manufacturing process, a plurality of closed partition walls of the same shape are formed on the substrate 10, wherein the width of each partition wall 20 is 5 micrometers, and the distance between each partition wall 2q can be in accordance with the emitted ultraviolet light. 6 The wavelength is designed appropriately, and generally its spacing can be varied between 5 and 50 microns. Then, the substrate 10 is sent to an oven for curing (potential curing) to cure the photoresist. Next, coating the frame adhesive on the substrate, which uses a nozzle (nozzz) to apply a high viscosity acrylic resin (PMMA), such as epoxy resin (Epoxy Resin). ) According to the predetermined shape and position, a closed frame 30 is formed on the peripheral edge of the substrate 丨 〇, and the position of the frame glue 30 must be located on the outer edge of the substrate 丨 〇 and the cured partition wall 2 0 The preferred distance between the uncured frame adhesive 30 and the cured partition wall 20 is maintained at about 5 millimeters (mm). Immediately followed by ′, = the process of liquid crystal dripping (〇DF), which is to drop the set liquid crystal / quotient drop directly into the innermost partition wall in reverse of spraying; then

Page 16 583454 V. Description of the invention (13) The two substrates are moved into a vacuum chamber, and the assembly and compression processes and 11 are aligned and bonded together with a frame adhesive to form a liquid crystal display. 1 0 〇, and then, send the liquid crystal display panel 〇〇 out of the vacuum chamber 60 to irradiate the frame rubber 30 process, so that the frame rubber 3 〇 can complete the process of coating the frame rubber 30, of course, can also It is selected to be coated on the substrate 11 except that its relative position must be the same as that on the substrate. In addition, it is also possible to form a partition wall on the substrate 丨 and the aforementioned steps to form the liquid crystal display panel 100. The present invention then proposes a second preferred embodiment, such as the fifth configuration, which is after the process of curing the wall 20 in the first preferred embodiment and curing has been completed. The glue material can be selected from the thermosetting acrylic resin that can interact with the liquid crystal. The material of this heat curing glue can be the epoxy resin process. The outer edge of the shape and position of the nozzle is also used to form a closed heat. The position of the frame adhesive 30 formed by the curing adhesive is between the outer edge of the substrate 10 and the cured, and the distance between the framed partition wall 20 formed by the uncured thermal curing adhesive is approximately maintained. In the process of 5 millimeters (mm) of liquid crystal dripping (0 DF), the dripping amount of the used cargo is directly dropped into the separation wall 20 through a nozzle; then the plate is moved to a vacuum chamber (vacuum In a chamber), grouping / combining are performed to make the substrate 10 display the panel, and perform purple curing. Choose to place the frame adhesive 30 on the board 10 at the position 20, and then complete several isolations as shown in the figure to completely isolate, and replace the grease with glue. Heat-cured, frame adhesive 30 on the substrate 10, adhesive wall 20 and adhesive 30. Immediately after-a good LCD, two assemb

583454 V. Description of Invention (14)

) f Compressing process, so that the substrates 10 and u are adhered together with a thermosetting adhesive 'to form a liquid crystal display panel 100. The LCD panel 100 is sent to an oven for curing ^ ^ curing 'to complete the LCD display panel 〇 〇 process. In the present embodiment, since the ultraviolet irradiation process is not required, in addition to ensuring the quality of the liquid D 40 to improve the reliability of the liquid crystal display panel i 00, the cost of a mask and an ultraviolet exposure machine can be saved. advantage. ^ The cured adhesive 30 coated on the above-mentioned thermosetting adhesive 30 is coated on the substrate 丨, except that the position of 10 is the same. In addition, it is also optional to use the process of forming the liquid crystal according to the foregoing steps. Of course, it is also possible to choose to apply heat to its relative position and coat it on the substrate. Alternatively, form a partition wall 20 display panel 100 on the substrate 11.

From the above, the configuration structure of the partition wall provided by the present invention and the contact of the glue to prevent the liquid crystal from being subjected to the structure of the wall, and when the cloth of the photomask is used to prevent ultraviolet rays from being irradiated, a thermal curing glue is provided for the liquid crystal The thermal curing process is used to cure the sealant. The reliability of the panel process due to the ultraviolet radiation on the liquid crystal. It provides a manufacturing method of mutual exclusion with liquid crystal, which can be used to isolate liquid crystal and frame pollution. At the same time, this isolator can be used to further shield ultraviolet rays to cause adverse effects. In addition, the manufacturing method of the frame-forming adhesive of the present invention is not only used to increase the output, but also to eliminate the influence, which can greatly improve the liquid crystal display surface.

P.18 534554 V. Description of the invention (15) The invention patent right shall be determined; meanwhile, the above description should be clarified and implemented by those skilled in the technical field, so others can be completed without departing from the spirit disclosed by the invention. All equivalent changes or modifications should be included in the scope of patent application described below.

P.19 53454 Brief description of the drawings 5. [Simplified description of the drawings] The first picture is a schematic diagram of the prior art using ultraviolet light to irradiate the frame adhesive for curing; the second picture is a schematic diagram of the prior art; the third picture is the present invention A schematic cross-sectional view of the structure; a fourth diagram is a schematic diagram of the definition of the liquid crystal contact angle in the present invention; a fifth diagram is a schematic diagram of the structure of the liquid crystal display panel process completed by the present invention; and a sixth diagram is a schematic diagram when the ultraviolet irradiation process is used in the present invention. The main part of the symbol: Θ g la, lb 210, 11 20 LCD contact angle LCD cell spacing substrate barrier tape substrate barrier cell gap) # 2 a b, 3, 3 0 frame adhesive 4, 4 0 liquid crystal

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Claims (1)

V v application for patent specification — 1. A liquid crystal display panel with a partition structure, comprising: two substrates, which are combined at a pitch, and the alignment of the two substrates has been completed on the inside surface; a partition structure , The structure is a closed shape and is located between the inside surfaces of the two substrates; a frame glue is a closed shape, which is located between the inside surfaces of the two substrates, and is located on the outside edge of the two substrates and is isolated from the Between the wall structures, and a liquid crystal material 'located between the partition walls', wherein the liquid crystal and the partition wall structure create a mutual exclusion effect. 2. The liquid crystal display panel with a partition structure as described in item 1 of the scope of patent application, wherein the material of the partition structure is acrylic resin. 3. The liquid crystal display panel with a partition structure as described in item 2 of the scope of patent application, wherein the acrylic resin material of the partition structure may be epoxy resin 0 4. As described in item 1 of the scope of patent application For a liquid crystal display panel with a separation wall structure, the material of the frame adhesive may be an acrylic resin or a mixture of an acrylic resin and an epoxy resin. 5. The liquid crystal display panel with a partition structure as described in item 4 of the scope of patent application, wherein the acrylic resin material of the frame adhesive may be epoxy resin. 583454 6. Scope of patent application 6. The liquid crystal display panel with a partition structure as described in item 1 of the scope of patent application, wherein the material of the frame adhesive is a heat curing adhesive. 7. The liquid crystal display panel with a partition structure as described in item 6 of the scope of patent application, wherein the material of the heat-curing adhesive of the frame adhesive may be epoxy resin. 8. The liquid crystal display panel with a partition wall structure as described in item 1 of the scope of patent application, wherein the partition wall structure may be further formed by a plurality of closed shape partition walls. 9. A method for manufacturing a liquid crystal display panel with a separation wall structure, comprising: · providing two substrates which have been aligned and manufactured and cleaned; plating a layer of photoresist on one of the substrates; exposing and developing the photoresist layer to Forming a closed shape partition wall structure on the substrate; curing the partition wall; coating a frame adhesive material on one of the substrates, wherein the frame adhesive material is located on the outer edge of the substrate and the closed shape partition wall structure Dropping liquid crystal between the partition wall structure is to drop the set amount of liquid crystal directly into the closed shape of the partition wall structure. Align and press the two substrates. In a vacuum chamber, make the Page 23 583454 6. Scope of patent application To form a liquid, that is, align and adhere the frame adhesive material on the two substrates to the display panel; and cure the frame adhesive material. 10. The method for manufacturing a liquid crystal display panel with a partition structure according to item 9 of the scope of the patent application, wherein the partition structure may be further formed by a plurality of closed-shaped partition walls. B said 1 1. The method for manufacturing a liquid crystal display panel with a partition structure as described in item 9 of the scope of the patent application, wherein the material of the partition structure may be epoxy resin. 1 2. The method for manufacturing a liquid crystal display panel with a partition structure as described in item 9 of the scope of the patent application, wherein the material of the frame adhesive material may be an acrylic resin or an acrylic resin and an epoxy resin Of a mixture. 1 3. The method for manufacturing a liquid crystal display panel with a partition wall structure as described in item 9 of the scope of the patent application, wherein the material of the frame adhesive material may be a thermosetting adhesive. 1 4. The method for manufacturing a liquid crystal display panel with a partition structure as described in item 12 of the scope of the patent application, wherein the frame adhesive material is cured by ultraviolet irradiation. Page 24 583454 6. Scope of patent application 1 5. The method for manufacturing a liquid crystal display panel with a partition structure as described in item 13 of the scope of patent application, wherein the frame adhesive material is baked and cured using an oven. 16. A liquid crystal display panel with a plurality of partition walls, the structure of which includes two substrates, which are integrated with each other at a distance, wherein the alignment has been completed on the inner surface of the two substrates; It is a closed shape and is located between the inside surfaces of the two substrates; a frame glue is a closed shape, which is located between the inside surfaces of the two substrates, and is located on the outside edge of the two substrates and is isolated from the plurality Between the outermost walls of the wall; and a liquid crystal material located between the innermost walls of the plurality of partition walls, wherein the liquid crystal and the plurality of partition walls generate a mutual exclusion effect. 1 7. The liquid crystal display panel having a plurality of partition walls as described in item 16 of the scope of patent application, wherein the material of the plurality of partition walls is an acrylic resin 1 8. As described in item 17 of the scope of patent application The liquid crystal display panel having a plurality of partition walls is described. The acrylic resin material of the plurality of partition walls may be formed of epoxy resin. Page 25 583454 VI. Application scope of patent 19. The liquid crystal display panel with a plurality of partition walls as described in item 16 of the scope of application for patent, wherein the material of the frame adhesive can be an acrylic resin or an acrylic resin. Mixture of acrylic resin and epoxy resin. . 20. The liquid crystal display panel with a plurality of partition walls as described in item 19 of the scope of patent application, wherein the acrylic resin material of the frame adhesive may be epoxy resin 2 1. as item 16 of the scope of patent application The liquid crystal display panel with a plurality of partition walls, wherein the material of the frame adhesive is a heat curing adhesive. 2 2. The liquid crystal display panel having a plurality of partition walls as described in item 16 of the scope of the patent application, wherein the material of the heat curing adhesive of the frame adhesive may be epoxy resin. 2 3. —A method for manufacturing a liquid crystal display panel with a plurality of partition walls, including: providing two substrates that have been aligned and manufactured and washed; plating a layer of photoresist on one of the substrates; 曝光 exposing and developing the light A barrier layer to form a plurality of closed-shaped partition walls on the substrate; curing the partition wall; coating a frame adhesive material on one of the substrates, wherein the frame adhesive material is located on an outer edge of the substrate and the plurality of substrates Between the outermost walls of the wall; Page 26 583454 VI. The scope of patent application Dropping liquid crystal in the partition wall is to drop the set liquid crystal dripping amount directly between the inner walls of the plurality of partition walls; alignment and pressing The two substrates are placed in a vacuum chamber to align and adhere the frame adhesive material on the two substrates to form a liquid crystal display panel; and curing the frame adhesive material. 24. The method for manufacturing a liquid crystal display panel having a plurality of partition walls as described in item 23 of the scope of patent application, wherein the material of the plurality of partition walls may be epoxy resin. 25. The method for manufacturing a liquid crystal display panel having a plurality of partition walls as described in item 24 of the scope of patent application, wherein the material of the frame adhesive material may be an acrylic resin or an acrylic resin and a ring A mixture of oxygen resins. 26. The method for manufacturing a liquid crystal display panel having a plurality of partition walls as described in item 23 of the scope of patent application, wherein the material of the frame adhesive material may be a heat-curable adhesive. 2 7. The method for manufacturing a liquid crystal display panel having a plurality of partition walls as described in item 25 of the scope of patent application, wherein the frame adhesive material is cured by using ultraviolet radiation. 2 8. The liquid having a plurality of partition walls as described in item 26 of the scope of patent application 583454 6. Scope of patent application The manufacturing method of the crystal display panel, wherein the frame adhesive material is baked and cured by using an oven. # 11111 Page 28