CN104330923A

Movatterモバイル変換

Info

Publication number: CN104330923A
Application number: CN201310307901.0A
Authority: CN
Inventors: 谢涛令; 张启威; 谢正华
Original assignee: HIERSTAR (SUZHOU) Co Ltd
Current assignee: HIERSTAR (SUZHOU) Co Ltd
Priority date: 2013-07-22
Filing date: 2013-07-22
Publication date: 2015-02-04

Abstract

Translated fromChinese

本发明提供了一种可弯曲液晶显示器，其包括液晶显示组件与封框胶组件，所述封框胶组件设于所述液晶显示组件四周的边缘处并将所述液晶显示组件与外界隔开；所述封框板组件包括两层间隔设置的封框胶；本发明还提供了一种制造可弯曲液晶显示器的方法，其在第一基板与第二基板之间涂覆多层环氧树脂胶，所述各层环氧树脂胶在同一位置留有液晶灌注口，将第一基板与第二基板贴合在一起，并加压加热使环氧树脂胶固化；本发明提供的可弯曲显示器可以弯曲，可以制成各种形状，其在弯曲的同时不会吸入空气从而影响显示效果，同时本发明提供的可弯曲显示器具有较高的防震与耐压能力，能够长期使用而不易损坏,极大程度提高显示器的可靠性。

The present invention provides a flexible liquid crystal display, which includes a liquid crystal display component and a frame sealing glue component, and the frame sealing glue component is arranged at the edge around the liquid crystal display component and separates the liquid crystal display component from the outside ; The frame sealing plate assembly includes two layers of frame sealing glue arranged at intervals; the present invention also provides a method for manufacturing a flexible liquid crystal display, which coats a multi-layer epoxy resin between the first substrate and the second substrate Glue, each layer of epoxy resin glue has a liquid crystal pouring port at the same position, the first substrate and the second substrate are bonded together, and the epoxy resin glue is cured by pressing and heating; the flexible display provided by the present invention It can be bent and can be made into various shapes. It will not inhale air and affect the display effect when it is bent. At the same time, the bendable display provided by the present invention has high shockproof and pressure resistance, and can be used for a long time without being easily damaged. Maximize the reliability of the display.

Description

Translated fromChinese

一种可弯曲液晶显示器及其制作方法A flexible liquid crystal display and its manufacturing method

技术领域technical field

本发明涉及一种液晶显示器，特别是一种可以弯曲的液晶显示器。The invention relates to a liquid crystal display, in particular to a bendable liquid crystal display.

背景技术Background technique

随着技术的发展，液晶显示器件被广泛的应用，但现有的液晶显示器存在很多缺陷，比如：显示器尺寸比较厚，玻璃易碎，不耐压不抗震等；并且由于玻璃是刚性的，所以制成的液晶显示器通常也是刚性平面的，这就限制了其应用，不能制成其它具有弯曲的形状。With the development of technology, liquid crystal display devices are widely used, but there are many defects in existing liquid crystal displays, such as: the size of the display is relatively thick, the glass is fragile, not resistant to pressure or shock, etc.; and because the glass is rigid, so The fabricated liquid crystal displays are also generally rigid planar, which limits their applications and cannot be fabricated into other curved shapes.

而现有技术也开始制造可弯曲液晶显示器，液晶层容易在显示器弯曲的时候进入空气而使显示器中充满气泡，显示效果大打折扣。The prior art has also begun to manufacture bendable liquid crystal displays, and the liquid crystal layer tends to enter air when the display is bent, causing the display to be filled with air bubbles, and the display effect is greatly reduced.

发明内容Contents of the invention

本发明提供了一种可弯曲液晶显示器，其包括液晶显示组件与封框胶组件，所述封框胶组件设于所述液晶显示组件四周的边缘处并将所述液晶显示组件与外界隔开；所述封框胶组件包括两层封框胶，所述两层封框胶设有用于灌注液晶的开口，所述开口通过封口胶密封。The present invention provides a flexible liquid crystal display, which includes a liquid crystal display component and a frame sealing glue component, and the frame sealing glue component is arranged at the edges around the liquid crystal display component and separates the liquid crystal display component from the outside ; The sealant assembly includes two layers of sealant, the two layers of sealant are provided with an opening for pouring liquid crystal, and the opening is sealed by the sealant.

较佳地，所述封框胶包括环氧树脂胶，所述封口胶包括UV固化树脂胶。Preferably, the sealing glue includes epoxy resin glue, and the sealing glue includes UV curable resin glue.

较佳地，所述液晶显示组件包括：Preferably, the liquid crystal display component includes:

相对设置的第一基板与第二基板，所述第一基板与第二基板由PET导电膜制成，所述第一基板与第二基板通过环氧树脂胶粘贴在一起的；The first substrate and the second substrate that are arranged oppositely, the first substrate and the second substrate are made of PET conductive film, and the first substrate and the second substrate are glued together by epoxy resin;

设于所述第一基板与第二基板之间的液晶层；a liquid crystal layer disposed between the first substrate and the second substrate;

分别刻在所述第一基板与第二基板相对的表面上的第一电极与第二电极；a first electrode and a second electrode respectively engraved on the opposite surface of the first substrate and the second substrate;

所述第一电极与第二电极上涂覆有定向膜，所述定向膜为聚酯亚胺材质；The first electrode and the second electrode are coated with an alignment film, and the alignment film is made of polyesterimide;

均匀设置于所述第一基板与第二基板之间的间隔球，所述间隔球用于控制第一基板与第二基板之间的间隔。The spacer balls are evenly arranged between the first substrate and the second substrate, and the spacer balls are used to control the space between the first substrate and the second substrate.

较佳地，所述第一基板与第二基板的厚度为0.045-0.188毫米。Preferably, the thickness of the first substrate and the second substrate is 0.045-0.188 mm.

较佳地，所述定向膜厚度为400-800埃。Preferably, the thickness of the alignment film is 400-800 angstroms.

较佳地，所述第一电极与第二电极通过对第一基板与第二基板进行涂光刻胶、曝光、显影、酸刻、脱模而制成。Preferably, the first electrode and the second electrode are made by coating the first substrate and the second substrate with photoresist, exposing, developing, acid etching, and demoulding.

较佳地，所述定向膜通过加热固化、并用绒布分别对所述定向膜进行摩擦以得到所需的液晶定向方向。Preferably, the alignment film is cured by heating, and the alignment film is rubbed with flannelette to obtain the desired liquid crystal alignment direction.

较佳地，所述第一电极与/或第二电极上设有导通点，所述导通点通过丝印导电金球制成。Preferably, a conduction point is provided on the first electrode and/or the second electrode, and the conduction point is made by silk-printing conductive gold balls.

一种制造可弯曲液晶显示器的方法，其过程为：A method of manufacturing a flexible liquid crystal display, the process of which is:

分别在第一基板与第二基板上刻出所需的电极图形，以形成第一电极与第二电极；Respectively engraving required electrode patterns on the first substrate and the second substrate to form the first electrode and the second electrode;

分别在第一基板与第二基板的电极上涂覆定向膜，并使其加热固化，用绒布分别对第一电极与第二电极的定向膜进行摩擦以得到所需的液晶定向方向；Coating alignment films on the electrodes of the first substrate and the second substrate respectively, heating and curing them, and rubbing the alignment films of the first electrodes and the second electrodes with a flannelette to obtain the required liquid crystal alignment directions;

在第一电极上通过丝印导电金球设置导通点，并在第一和/或第二电极上喷洒间隔球；Set conduction points on the first electrode by screen-printing conductive gold balls, and spray spacer balls on the first and/or second electrodes;

在第一基板与第二基板之间涂覆多层环氧树脂胶，所述各层环氧树脂胶在同一位置留有液晶灌注口，将第一基板与第二基板贴合在一起，并加压加热使环氧树脂胶固化；Apply multiple layers of epoxy resin glue between the first substrate and the second substrate, each layer of epoxy resin glue leaves a liquid crystal pouring port at the same position, attach the first substrate and the second substrate together, and Pressurized and heated to cure the epoxy resin glue;

在第一基板与第二基板之间灌注液晶，所述液晶范围比所述第一基板、第二基板的范围小；Filling liquid crystal between the first substrate and the second substrate, the range of the liquid crystal is smaller than the range of the first substrate and the second substrate;

在液晶灌注结束后采用UV固化树脂胶对液晶灌注口进行封口。After the liquid crystal pouring is finished, the liquid crystal pouring port is sealed with UV curable resin glue.

较佳地，所述第一基板与第二基板之间涂覆有两层环氧树脂胶。Preferably, two layers of epoxy glue are coated between the first substrate and the second substrate.

较佳地，所述第一电极与第二电极是的制作过程包括对第一基板与第二基板进行涂光刻胶、曝光、显影、酸刻、脱模。Preferably, the manufacturing process of the first electrode and the second electrode includes applying photoresist, exposure, development, acid etching, and demoulding to the first substrate and the second substrate.

较佳地，涂覆定向膜采用网板印刷方法用1.8-2.5wt%的PI容特对工件涂PI。Preferably, the alignment film is coated with 1.8-2.5wt% PI content by screen printing method to coat the workpiece with PI.

较佳地，灌注液晶采用真空灌注液晶的方法。Preferably, the filling of liquid crystals adopts a method of vacuum filling liquid crystals.

较佳地，所述液晶是TN型液晶或STN型液晶。Preferably, the liquid crystal is TN type liquid crystal or STN type liquid crystal.

本发明提供的可弯曲显示器可以弯曲，可以制成各种形状，其在弯曲的同时不会吸入空气从而影响显示效果，同时本发明提供的可弯曲显示器具有较高的防震与耐压能力，能够长期使用而不易损坏,极大程度提高显示器的可靠性。The bendable display provided by the present invention can be bent and can be made into various shapes, and it will not inhale air to affect the display effect while bending. Long-term use is not easy to damage, which greatly improves the reliability of the display.

当然，实施本发明的任一产品并不一定需要同时达到以上所述的所有优点。Of course, any product implementing the present invention does not necessarily need to achieve all the above-mentioned advantages at the same time.

附图说明Description of drawings

图1为本发明实施例提供的可弯曲液晶显示器结构示意图；FIG. 1 is a schematic structural diagram of a flexible liquid crystal display provided by an embodiment of the present invention;

图2为本发明实施例提供的液晶显示组件结构示意图。FIG. 2 is a schematic structural diagram of a liquid crystal display assembly provided by an embodiment of the present invention.

具体实施例specific embodiment

本发明提供了一种可弯曲液晶显示器，其包括液晶显示组件1与封框胶组件，所述封框胶组件设于所述液晶显示组件四周的边缘处并将所述液晶显示组件与外界隔开；所述封框板组件包括多层间隔设置的封框胶。The present invention provides a flexible liquid crystal display, which includes a liquid crystal display assembly 1 and a sealant assembly, the sealant assembly is arranged at the edges around the liquid crystal display assembly and isolates the liquid crystal display assembly from the outside Open; the frame sealing plate assembly includes multiple layers of frame sealing glue arranged at intervals.

实施例1Example 1

本实施例中，包括液晶显示组件1与封框胶组件，所述封框胶组件设于所述液晶显示组件四周的边缘处并将所述液晶显示组件与外界隔开；所述封框板组件包括两层间隔设置的封框胶，第一层封框胶2与第二层封框胶3，所第一层封框胶2与第二层封框胶3为树脂胶;第一层封框胶2与第二层封框胶3设有用于灌注液晶的开口4，开口4通过封口胶密封，所述封口胶包括UV固化树脂胶。In this embodiment, it includes a liquid crystal display assembly 1 and a frame sealing glue assembly, the sealing glue assembly is arranged at the edges around the liquid crystal display assembly and separates the liquid crystal display assembly from the outside; the frame sealing plate The component includes two layers of frame sealant arranged at intervals, the first layer of frame sealant 2 and the second layer of frame sealant 3, the first layer of frame sealant 2 and the second layer of frame sealant 3 are resin glue; The frame sealant 2 and the second layer of frame sealant 3 are provided with an opening 4 for pouring liquid crystals, and the opening 4 is sealed by a sealant, and the sealant includes UV curable resin glue.

本例中封框胶采用的是环氧树脂胶，本例仅距离说明封框胶的材质，并不限定本发明对封框胶材质的保护，封框胶也可以采用其他种类的树脂胶或者其它可用材料。In this example, the frame sealant is epoxy resin glue. This example only illustrates the material of the frame sealant, and does not limit the protection of the material of the frame sealant in the present invention. The frame sealant can also use other types of resin glue or Other available materials.

图2给出了本实施例提供的液晶显示组件1的具体结构，其主要包括第一偏光片11、第一基板12、第一电极13、定向膜14、液晶层15、第二偏光片16、第二基板17、第二电极18、定向膜19，其中Figure 2 shows the specific structure of the liquid crystal display assembly 1 provided in this embodiment, which mainly includes a first polarizer 11, a first substrate 12, a first electrode 13, an alignment film 14, a liquid crystal layer 15, and a second polarizer 16 , the second substrate 17, the second electrode 18, the alignment film 19, wherein

第一基板12与第二基板17相对设置，第一基板12与第二基板17由PET导电膜制成，第一基板12与第二基板17通过环氧树脂粘贴在一起的；The first substrate 12 and the second substrate 17 are arranged oppositely, the first substrate 12 and the second substrate 17 are made of PET conductive film, and the first substrate 12 and the second substrate 17 are pasted together by epoxy resin;

液晶层15设于第一基板12与第二基板17之间；The liquid crystal layer 15 is disposed between the first substrate 12 and the second substrate 17;

第一电极13与第二电极18分别刻在第一基板12与第二基板17相对的表面上的；The first electrode 13 and the second electrode 18 are respectively engraved on the opposite surface of the first substrate 12 and the second substrate 17;

第一电极13与第二电极18上涂覆有定向膜，所述定向膜为聚酯亚胺材质；The first electrode 13 and the second electrode 18 are coated with an alignment film, and the alignment film is made of polyesterimide;

本实施例提供的液晶显示组件1还包括有间隔球，间隔球均匀设置与第一基板12与第二基板17之间的，所述间隔球用于控制第一基板12与第二基板17之间的间隔。The liquid crystal display assembly 1 provided in this embodiment also includes spacer balls, which are evenly arranged between the first substrate 12 and the second substrate 17, and the spacer balls are used to control the distance between the first substrate 12 and the second substrate 17. interval between.

本实施例中，第一基板12与第二基板17的厚度为0.045-0.188毫米；In this embodiment, the thickness of the first substrate 12 and the second substrate 17 is 0.045-0.188 mm;

所述定向膜厚度为400-800埃；The thickness of the oriented film is 400-800 angstroms;

第一电极13与第二电极18通过对第一基板12与第二基板17进行涂光刻胶、曝光、显影、酸刻、脱模而制成；The first electrode 13 and the second electrode 18 are made by coating the first substrate 12 and the second substrate 17 with photoresist, exposing, developing, acid etching, and demoulding;

所述定向膜通过加热固化、并用绒布分别对所述定向膜进行摩擦以得到所需的液晶定向方向；The alignment film is cured by heating, and the alignment film is rubbed with a flannelette to obtain the required liquid crystal alignment direction;

第一电极13与/或第二电极18上设有导通点，所述导通点通过丝印导电金球制成。The first electrode 13 and/or the second electrode 18 are provided with conduction points, and the conduction points are made by silk-printing conductive gold balls.

实施例二Embodiment two

本实施例提供了一种制造可弯曲液晶显示器的方法，其过程为：This embodiment provides a method for manufacturing a flexible liquid crystal display, the process of which is:

在液晶灌注结束后采用UV固化树脂胶对液晶灌注口4进行封口。After the liquid crystal pouring is finished, the liquid crystal pouring port 4 is sealed with UV curable resin glue.

在本例中，第一基板与第二基板之间涂覆有两层环氧树脂胶，第一层封框胶2与第二层封框胶3。本实施例制成的成型后的封框胶尺寸如下：实际第一层封框2的胶宽度 0.6-0.9cm左右，内层1.0-1.2cm左右，两者间距 0.3-0.5cm左右，封框胶的设置情况根据实际需要进行设置，本发明仅举例说明封框胶的数量、宽度以及间隔，本实施例对封框胶的间隔、厚度以及数量的设定并不限定本发明的范围。In this example, two layers of epoxy resin glue are coated between the first substrate and the second substrate, the first layer of sealing glue 2 and the second layer of sealing glue 3 . The size of the formed sealing glue produced in this embodiment is as follows: the actual width of the first layer of sealing frame 2 is about 0.6-0.9cm, the inner layer is about 1.0-1.2cm, and the distance between the two is about 0.3-0.5cm. The setting of the glue is set according to the actual needs. The present invention only illustrates the quantity, width and interval of the sealant. The setting of the interval, thickness and quantity of the sealant in this embodiment does not limit the scope of the present invention.

本实施例中，具体的制作流程为：In this embodiment, the specific production process is as follows:

首先，在PET透明导电膜上刻出所需的电极图形，分别对上下电极涂上定向膜，并使其加热固化，用绒毛分别对上下电极的定向膜进行摩擦以得到所需的液晶定向方向；First, engrave the required electrode pattern on the PET transparent conductive film, coat the upper and lower electrodes with an orientation film, heat and cure it, and rub the orientation films of the upper and lower electrodes with fluff to obtain the required liquid crystal orientation direction ;

然后，在上电极上印上环氧树脂粘结胶，在下电极上印上导电点（例如金属导电球），并在下电极上均匀喷洒间隔球，将上下电极贴合在一起，并在加压加热状态使环氧树脂胶固化。Then, print epoxy adhesive glue on the upper electrode, print conductive points (such as metal conductive balls) on the lower electrode, and evenly spray spacer balls on the lower electrode, stick the upper and lower electrodes together, and pressurize The heated state cures the epoxy glue.

PET的制作过程包括：The PET production process includes:

PET预烘，将裁切好的第一基板和第二基板放在130-160摄氏度温度中烘干2-3小时；PET pre-baking, drying the cut first substrate and the second substrate at a temperature of 130-160 degrees Celsius for 2-3 hours;

PET贴附清洗，将PET贴附在玻璃上，方便操作，贴附使用双面胶，贴附后将烘干的PET片材放在0.5-1.0wt.%的KOH溶液中洗5-10分钟；PET attachment cleaning, attach PET to the glass, easy to operate, use double-sided adhesive for attachment, after attachment, wash the dried PET sheet in 0.5-1.0wt.% KOH solution for 5-10 minutes ;

PET涂胶，在清洗后的第一与第二PET片材上涂胶，例如使用滚轮涂胶机在PET导电膜上均匀地涂光刻胶，厚度控制在1.0-1.5微米之间，然后在80-150摄氏度温度下烘干；PET gluing, gluing on the first and second PET sheets after cleaning, for example, using a roller gluing machine to evenly coat photoresist on the PET conductive film, the thickness is controlled between 1.0-1.5 microns, and then Dry at a temperature of 80-150 degrees Celsius;

曝光，将涂了光刻胶的PET薄膜用紫外光进行曝光，曝光时间是10-20秒；Exposure, exposing the PET film coated with photoresist with ultraviolet light, the exposure time is 10-20 seconds;

显影，将曝光后的PET片材放在0.5-0.8wt.%的KOH溶液中浸泡80-150秒进行显影；Development, put the exposed PET sheet in 0.5-0.8wt.% KOH solution for 80-150 seconds to develop;

酸刻，将显影后的工件放在0.5-0.8wt.%的HCL溶液中酸刻80-150秒；Acid etching, place the developed workpiece in 0.5-0.8wt.% HCL solution for 80-150 seconds;

曝光，在酸刻之后，再进行一次曝光，将涂了光刻胶的PET薄膜用紫外光进行曝光，曝光时间是10-20秒；Exposure, after acid etching, another exposure is performed, and the PET film coated with photoresist is exposed with ultraviolet light, and the exposure time is 10-20 seconds;

上述的各步骤用于在PET透明导电膜上刻出所需要的电极图形；The above steps are used to engrave the required electrode pattern on the PET transparent conductive film;

脱模，将曝光后的工件放在0.5-0.8wt.%的KOH溶液中浸泡80-150秒；Release the mold, soak the exposed workpiece in 0.5-0.8wt.% KOH solution for 80-150 seconds;

PI前清洗，采用例如超声波方法将工件放在0.5-1.0wt%的KOH溶液中清洗5-10分钟；Cleaning before PI, using, for example, ultrasonic method to clean the workpiece in 0.5-1.0wt% KOH solution for 5-10 minutes;

涂PI，此步骤中例如通过网版印刷方法用1.8-2.5wt.%PI溶液对工件涂PI，即分别对上下电极（分别为第一基板与第二基板上的电极）涂上定向膜，之后在80-150摄氏度的温度下将工件预烘1.5-2.5分钟，此步骤中定向膜的厚度优选的控制为400-800埃；Coating PI, in this step, for example, use 1.8-2.5wt.% PI solution to coat the workpiece with PI by screen printing method, that is, to coat the upper and lower electrodes (the electrodes on the first substrate and the second substrate respectively) with an alignment film, Then pre-bake the workpiece for 1.5-2.5 minutes at a temperature of 80-150 degrees Celsius. In this step, the thickness of the oriented film is preferably controlled to be 400-800 angstroms;

PI固化，将涂过PI的工件在140-160摄氏度的温度中固化，固化的时间为2-3小时，此步骤例如是在公知的固化炉中进行的，在此步骤中，优选的采用低温PI，例如PI2100，其固化温度为150摄氏度左右，而现有技术工艺采用250摄氏度；PI curing, curing the workpiece coated with PI at a temperature of 140-160 degrees Celsius, the curing time is 2-3 hours, this step is for example carried out in a known curing furnace, in this step, preferably using low temperature PI, such as PI2100, has a curing temperature of about 150 degrees Celsius, while the prior art process uses 250 degrees Celsius;

定向摩擦，在该步骤中利用例如摩擦机对定向膜进行定向摩擦，具体地说，在摩擦机上包括带有绒布的滚轮，在操作时，用绒布分别对上下电极的定向膜进行摩擦以得到所需的液晶定向方向，摩擦深度0.3-0.5毫米，转速控制在800-1000转，上述的摩擦机在现有技术中是公知的；Directional rubbing, in this step, utilize such as rubbing machine to carry out directional rubbing to oriented film, specifically, include the roller with flannelette on rubbing machine, during operation, rub the oriented film of upper and lower electrode respectively with flannelette to obtain obtained The required liquid crystal orientation direction, the rubbing depth is 0.3-0.5 mm, and the rotating speed is controlled at 800-1000 revolutions. The above-mentioned rubbing machine is known in the prior art;

丝印边框，在至少一个基板（例如第一基板）的预定部位上配设至少两层粘结材料；粘结材料代表性的是兼具放置液晶材料从一对基板间泄露的密封性能的粘结材料，密封材料通常附于基板周缘部并留有一个用于灌注液晶的口，口的宽度为1-4mm，密封材料可以采用环氧树脂粘结胶，在该步骤，采用CCD（对位用摄像头）镜头精确对位，将位置偏差控制在正负0.2mm之间；In the silk screen frame, at least two layers of bonding material are arranged on the predetermined position of at least one substrate (such as the first substrate); the bonding material is typically bonded with the sealing performance of preventing liquid crystal material from leaking from a pair of substrates Material, the sealing material is usually attached to the peripheral part of the substrate and leaves a mouth for pouring liquid crystal, the width of the mouth is 1-4mm, the sealing material can use epoxy resin adhesive, in this step, use CCD (for alignment) camera) the lens is accurately aligned, and the position deviation is controlled within plus or minus 0.2mm;

边框预烘，在70-80摄氏度的温度下将边框预烘15-30分钟；Frame pre-baking, pre-baking the frame at a temperature of 70-80 degrees Celsius for 15-30 minutes;

丝印导通点，该步骤在第一基板与第二基板的电极上丝印导电金球，并在一个基板上喷间隔粉，在此步骤中采用CCD对位用摄像头镜头精确对位，将位置偏差控制在正负0.2mm之间；Silk-screen conduction point, this step is to screen-print conductive gold balls on the electrodes of the first substrate and the second substrate, and spray spacer powder on one substrate. Control between plus and minus 0.2mm;

贴合，将经过上述处理的第一基板与第二基板进行贴合；在此步骤中，通过粘结材料使第一基板与第二基板贴合，由此使粘结材料、间隔粉配置在第一基板与第二基板之间，由间隔粉控制基板间隔，在此步骤中要求最大允许偏差小于0.05毫米，也就是采用CCD镜头精确对位，将位置偏差控制在正负0.05毫米之间；Bonding, the above-mentioned first substrate and the second substrate are bonded; in this step, the first substrate and the second substrate are bonded through the bonding material, so that the bonding material and the spacer powder are arranged on the Between the first substrate and the second substrate, the distance between the substrates is controlled by spacer powder. In this step, the maximum allowable deviation is required to be less than 0.05 mm, that is, the precise alignment of the CCD lens is used to control the position deviation within plus or minus 0.05 mm;

热压固化，用气囊对贴合的第一基板与第二基板进行加压，并将其在130-150摄氏度温度下固化3-5小时；Hot-press curing, using airbags to pressurize the laminated first and second substrates, and curing them at 130-150 degrees Celsius for 3-5 hours;

激光切割，根据产品尺寸要求，利用激光切割装置对工件进行切割，位置偏差控制在正负0.1毫米之间；Laser cutting, according to the size requirements of the product, use the laser cutting device to cut the workpiece, and the position deviation is controlled within plus or minus 0.1 mm;

灌注液晶，在真空的条件下灌注液晶，要求真空度小于2Pa；Infusion of liquid crystals, infusion of liquid crystals under vacuum conditions, the vacuum degree is required to be less than 2Pa;

UV封口，用紫外线（UV）固化树脂胶对灌注液晶的开口4进行封口，形成液晶显示器的完整封接框；UV sealing, using ultraviolet (UV) curable resin glue to seal the opening 4 filled with liquid crystal to form a complete sealing frame of the liquid crystal display;

至此整个液晶显示组件的制作已经完成，最后再对液晶显示组件四周进行多层封框，形成最后的产品。At this point, the production of the entire liquid crystal display module has been completed, and finally, multi-layer sealing is carried out around the liquid crystal display module to form the final product.

以上公开的本发明优选实施例只是用于帮助阐述本发明。优选实施例并没有详尽叙述所有的细节，也不限制该发明仅为所述的具体实施方式。显然，根据本说明书的内容，可作很多的修改和变化。本说明书选取并具体描述这些实施例，是为了更好地解释本发明的原理和实际应用，从而使所属技术领域技术人员能很好地理解和利用本发明。本发明仅受权利要求书及其全部范围和等效物的限制。The preferred embodiments of the invention disclosed above are only to help illustrate the invention. The preferred embodiments are not exhaustive in all detail, nor are the inventions limited to specific embodiments described. Obviously, many modifications and variations can be made based on the contents of this specification. This description selects and specifically describes these embodiments in order to better explain the principle and practical application of the present invention, so that those skilled in the art can well understand and utilize the present invention. The invention is to be limited only by the claims, along with their full scope and equivalents.

Claims

Translated fromChinese

1.一种可弯曲液晶显示器，其特征在于，1. A flexible liquid crystal display, characterized in that,

包括液晶显示组件与封框胶组件，所述封框胶组件设于所述液晶显示组件四周的边缘处并将所述液晶显示组件与外界隔开；所述封框胶组件包括两层封框胶，所述两层封框胶设有用于灌注液晶的开口，所述开口通过封口胶密封。It includes a liquid crystal display assembly and a sealing glue assembly, and the sealing glue assembly is arranged at the edge around the liquid crystal display assembly and separates the liquid crystal display assembly from the outside world; the sealing glue assembly includes two layers of sealing frames The two layers of sealing glue are provided with an opening for pouring liquid crystal, and the opening is sealed by the sealing glue.

2.如权利要求1所述的可弯曲液晶显示器，其特征在于，所述封框胶包括环氧树脂胶，所述封口胶包括UV固化树脂胶。2 . The flexible liquid crystal display according to claim 1 , wherein the frame sealant comprises epoxy resin glue, and the sealing glue comprises UV curable resin glue. 3 .

3.如权利要求1所述的可弯曲液晶显示器，其特征在于，所述液晶显示组件包括：3. The flexible liquid crystal display according to claim 1, wherein the liquid crystal display assembly comprises:

4.如权利要求3所述的柔性液晶显示器，其特征在于，所述第一基板与第二基板的厚度为0.045-0.188毫米。4. The flexible liquid crystal display according to claim 3, wherein the thickness of the first substrate and the second substrate is 0.045-0.188 mm.

5. 如权利要求3所述的柔性液晶显示器，其特征在于，所述定向膜厚度为400-800埃。5. The flexible liquid crystal display according to claim 3, wherein the thickness of the alignment film is 400-800 angstroms.

6. 如权利要求3所述的柔性液晶显示器，其特征在于，所述第一电极与第二电极通过对第一基板与第二基板进行涂光刻胶、曝光、显影、酸刻、脱模而制成。6. The flexible liquid crystal display according to claim 3, wherein the first electrode and the second electrode are coated with photoresist, exposed, developed, acid etched, and demolded on the first substrate and the second substrate. and made.

7. 如权利要求3所述的柔性液晶显示器，其特征在于，所述定向膜通过加热固化、并用绒布分别对所述定向膜进行摩擦以得到所需的液晶定向方向。7. The flexible liquid crystal display according to claim 3, wherein the alignment film is cured by heating, and the alignment film is rubbed with a flannelette to obtain the desired alignment direction of the liquid crystal.

8. 如权利要求3所述的柔性液晶显示器，其特征在于，所述第一电极与/或第二电极上设有导通点，所述导通点通过丝印导电金球制成。8. The flexible liquid crystal display according to claim 3, wherein a conduction point is provided on the first electrode and/or the second electrode, and the conduction point is made of silk-printed conductive gold balls.

9.一种制造可弯曲液晶显示器的方法，其特征在于，其过程为：9. A method for manufacturing a flexible liquid crystal display, characterized in that the process is:

10.如权利要求9所述的制造可弯曲液晶显示器的方法，其特征在于，所述第一基板与第二基板之间涂覆有两层环氧树脂胶。10. The method for manufacturing a flexible liquid crystal display according to claim 9, wherein two layers of epoxy glue are coated between the first substrate and the second substrate.

11. 如权利要求10所述的制造柔性液晶显示器的方法，其特征在于，所述第一电极与第二电极是的制作过程包括对第一基板与第二基板进行涂光刻胶、曝光、显影、酸刻、脱模。11. The method for manufacturing a flexible liquid crystal display according to claim 10, wherein the manufacturing process of the first electrode and the second electrode includes applying photoresist to the first substrate and the second substrate, exposing, Developing, acid engraving, demolding.

12. 如权利要求10所述的制造柔性液晶显示器的方法，其特征在于，涂覆定向膜采用网板印刷方法用1.8-2.5wt%的PI容特对工件涂PI。12. The method for manufacturing a flexible liquid crystal display as claimed in claim 10, wherein the coating alignment film adopts a screen printing method to apply PI to the workpiece with 1.8-2.5wt% PI content.

13. 如权利要求10所述的制造柔性液晶显示器的方法，其特征在于，灌注液晶采用真空灌注液晶的方法。13. The method for manufacturing a flexible liquid crystal display as claimed in claim 10, wherein the filling of the liquid crystal adopts the method of vacuum filling the liquid crystal.

14.如权利要求10所述的制造柔性液晶显示器的方法，其特征在于，所述液晶是TN型液晶或STN型液晶。14. The method for manufacturing a flexible liquid crystal display according to claim 10, wherein the liquid crystal is a TN type liquid crystal or an STN type liquid crystal.