JP3206598B2 - LCD panel - Google Patents
LCD panelInfo
- Publication number
- JP3206598B2 JP3206598B2 JP2000340029A JP2000340029A JP3206598B2 JP 3206598 B2 JP3206598 B2 JP 3206598B2 JP 2000340029 A JP2000340029 A JP 2000340029A JP 2000340029 A JP2000340029 A JP 2000340029A JP 3206598 B2 JP3206598 B2 JP 3206598B2
- Authority
- JP
- Japan
- Prior art keywords
- liquid crystal
- shielding layer
- light
- sealing resin
- crystal panel
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
Links
Landscapes
- Liquid Crystal (AREA)
- Optical Filters (AREA)
Description
【0001】[0001]
【発明の属する技術分野】本発明はブラックマトリクス
基板、カラーフィルター基板及び液晶パネルに関するも
のである。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a black matrix substrate, a color filter substrate, and a liquid crystal panel.
【0002】[0002]
【従来の技術】従来のブラックマトリクス基板及び、カ
ラーフィルター基板の概略図を図9、図10に、従来の
カラーフィルター基板を用いた液晶パネルの概略図を図
11、図12、図13に示す。2. Description of the Related Art FIGS. 9 and 10 are schematic diagrams of a conventional black matrix substrate and a color filter substrate, and FIGS. 11, 12, and 13 are schematic diagrams of a liquid crystal panel using the conventional color filter substrate. .
【0003】図9に示すように、ガラス基板1上を遮光
層2によって、画像表示部4を構成する各ドット画素部
4a以外の部分を覆うブラックマトリクス基板3を形成
する。この時、画像表示部4周辺の遮光層2を遮光層周
縁部5とし、この遮光層周縁部5の外周辺5aを直線と
する。そして、図10にはブラックマトリクス基板3上
のドット画素部4aにカラーフィルター層6、7、8を
載置したカラーフィルター基板9を示した。As shown in FIG. 9, a black matrix substrate 3 is formed on a glass substrate 1 by a light-shielding layer 2 so as to cover portions other than the dot pixel portions 4a constituting the image display portion 4. At this time, the light-shielding layer 2 around the image display unit 4 is defined as a light-shielding layer peripheral portion 5, and the outer periphery 5a of the light-shielding layer peripheral portion 5 is defined as a straight line. FIG. 10 shows a color filter substrate 9 in which color filter layers 6, 7, and 8 are mounted on the dot pixel portions 4a on the black matrix substrate 3.
【0004】従来の液晶パネルは図11、図12に示す
ように、ガラス基板10と、カラーフィルター基板9上
にオーバーコート層11と透明電極12を形成したもの
とを液晶層13とスペーサー14を挟んで張り合わせ
る。この時、シール樹脂15は遮光層周縁部5の外側に
形成する、という構成(図11)か、またはその一部が
遮光層周縁部5に重なる、という構成(図12)であっ
たが、液晶パネルのコンパクト化を図るために近年は、
図13に示すようにシール樹脂15全体を遮光層周縁部
5の上に形成し、間隔cを小さくした構成が主流となり
つつある。As shown in FIGS. 11 and 12, a conventional liquid crystal panel comprises a glass substrate 10 and a color filter substrate 9 on which an overcoat layer 11 and a transparent electrode 12 are formed. We sandwich and attach. At this time, the sealing resin 15 is formed outside the light-shielding layer peripheral edge 5 (FIG. 11), or a part thereof overlaps the light-shielding layer peripheral edge 5 (FIG. 12). In recent years, in order to reduce the size of liquid crystal panels,
As shown in FIG. 13, a configuration in which the entire sealing resin 15 is formed on the light-shielding layer peripheral portion 5 and the interval c is reduced is becoming mainstream.
【0005】[0005]
【発明が解決しようとする課題】図13に示すような構
成としたとき、遮光層周縁部5、オーバーコート層11
等の樹脂層とガラス基板との密着力は、一般にシール樹
脂15と遮光層周縁部5又はオーバーコート層11の密
着力よりも弱く、これらの樹脂層を積層すればするほ
ど、熱収縮等の影響でシール樹脂15とガラス基板1と
の密着力は更に弱くなる。このため図13にしめすよう
な樹脂遮光層周縁部5とオーバーコート層11の上にシ
ール樹脂15を配置する構成の場合、液晶パネルにかか
る応力によってシール樹脂15下のガラス基板と遮光層
周縁部5の界面での剥離が発生しやすいという問題があ
った。When the configuration shown in FIG. 13 is adopted, the periphery 5 of the light-shielding layer, the overcoat layer 11
Is generally weaker than the adhesion between the sealing resin 15 and the light-shielding layer peripheral portion 5 or the overcoat layer 11, and the more these resin layers are laminated, the more the heat shrinkage and the like. Due to the influence, the adhesion between the sealing resin 15 and the glass substrate 1 is further reduced. For this reason, in the case of a configuration in which the sealing resin 15 is disposed on the resin light-shielding layer peripheral portion 5 and the overcoat layer 11 as shown in FIG. 13, the glass substrate under the seal resin 15 and the light-shielding layer peripheral portion due to stress applied to the liquid crystal panel. There was a problem that separation at the interface of No. 5 easily occurred.
【0006】また図12に示すようにシール樹脂15の
一部が遮光層周縁部5の上に配置されるという構成の場
合、遮光層周縁部5の厚みの影響でオーバーコート層1
1の表面が傾斜した領域にシール樹脂15が形成される
事になり、シール樹脂15近傍の液晶層13のギャップ
が均一にならないという問題があった。In the case where a part of the sealing resin 15 is disposed on the light-shielding layer peripheral portion 5 as shown in FIG. 12, the overcoat layer 1 is affected by the thickness of the light-shielding layer peripheral portion 5.
The seal resin 15 is formed in a region where the surface of the liquid crystal layer 1 is inclined, and there is a problem that the gap of the liquid crystal layer 13 near the seal resin 15 is not uniform.
【0007】[0007]
【課題を解決するための手段】上記課題を解決するため
に、本発明の透明基板上に形成された遮光層の表示領域
周縁部の外周形状を凹領域と凸領域の集合した凹凸形状
に形成し、2枚の基板を貼りあわせるためのシール樹脂
が遮光層の外周の凹凸状に重なるように備えると、液晶
層の層厚を均一に保持する事ができ、また樹脂遮光層の
ない部分の寄与により密着力を向上させる事がてきる。In order to solve the above-mentioned problems, in order to solve the above-mentioned problems, the outer peripheral shape of the periphery of the display region of the light-shielding layer formed on the transparent substrate is formed into a concavo-convex shape in which a concave region and a convex region are gathered. If the sealing resin for bonding the two substrates is provided so as to overlap the irregularities on the outer periphery of the light-shielding layer, the thickness of the liquid crystal layer can be kept uniform, and the portion without the resin light-shielding layer can be maintained. Contribution can improve the adhesion.
【0008】[0008]
【発明の実施の形態】本発明の液晶パネルは、液晶層を
保持する2枚の基板をシール樹脂により張り合わせた液
晶パネルであって、前記2枚の基板の少なくとも一方の
基板が、透明基板上に形成された樹脂性遮光層の表示領
域周縁部を凹領域と凸領域の集合した凹凸形状に形成し
たブラックマトリクス基板または、樹脂性遮光層の表示
領域周縁部を凹領域と凸領域の集合した凹凸形状に形成
したカラーフィルター基板であり、前記シール樹脂を前
記樹脂性遮光層の表示領域周縁部の凹凸形状部分に重ね
て形成したものであるため、接着性および安定性に優れ
る。DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A liquid crystal panel according to the present invention is a liquid crystal panel in which two substrates holding a liquid crystal layer are bonded with a sealing resin, wherein at least one of the two substrates is a transparent substrate. A black matrix substrate in which the display region peripheral edge of the resinous light-shielding layer formed in an uneven shape in which the concave region and the convex region are gathered, or the display region peripheral edge of the resinous light-shielding layer in which the concave region and the convex region are gathered The color filter substrate is formed in an uneven shape, and is formed by superposing the seal resin on the uneven shape portion of the peripheral area of the display area of the resinous light-shielding layer, so that it is excellent in adhesiveness and stability.
【0009】また、本発明の液晶パネルは、液晶層を保
持する2枚の基板をシール樹脂により張り合わせた液晶
パネルであって、前記2枚の基板の少なくとも一方の基
板が、透明基板上に形成された樹脂性遮光層の表示領域
周縁部を凹領域と凸領域の集合した凹凸形状に形成した
ブラックマトリクス基板または、樹脂性遮光層の表示領
域周縁部を凹領域と凸領域の集合した凹凸形状に形成し
たカラーフィルター基板であり、前記シール樹脂を前記
樹脂性遮光層の表示領域周縁部の凹凸形状部分の外周辺
を覆うように形成したものであるため、遮光層とガラス
基板の界面が外部に露出することはない。Further, the liquid crystal panel according to the present invention is a liquid crystal panel in which two substrates holding a liquid crystal layer are adhered to each other with a sealing resin, wherein at least one of the two substrates is formed on a transparent substrate. Black matrix substrate in which the periphery of the display area of the resinous light-shielding layer is formed into an uneven shape in which a concave area and a convex area are gathered, or the uneven shape in which the peripheral area of the display area of the resinous light-shielding layer is an aggregation of a recessed area and a convex area Since the sealing resin is formed so as to cover the outer periphery of the concave-convex portion of the periphery of the display area of the resinous light-shielding layer, the interface between the light-shielding layer and the glass substrate is externally formed. There is no exposure.
【0010】(実施の形態1)以下、本発明の液晶パネ
ルの一実施形態を図面を参照して説明する。なお、従来
例に対応する部分には、同一符号を付して説明する。(Embodiment 1) Hereinafter, an embodiment of a liquid crystal panel of the present invention will be described with reference to the drawings. Note that portions corresponding to the conventional example are denoted by the same reference numerals and described.
【0011】図1、図2に示すように、本発明のブラッ
クマトリクス基板20はガラス基板1上を遮光層2によ
って、各ドット画素部4a以外の部分を覆い形成する。
この時、遮光層2の遮光層周縁部21、22の外周辺2
1a、22aの形状は直線になっておらず、図1に示す
ように三角形状が連続的につながっている遮光層周縁部
21や、図2に示すように櫛状になった遮光層周縁部2
2のような凹凸形状等がある。本発明の実施の形態で
は、図2に示す櫛状の凹凸形状のブラックマトリクス基
板について述べる。この時、画像表示部4の端辺4b
と、遮光層2の凹凸形状部の内辺22bとの間隔Eは
2.00mm、櫛状の凹凸形状である凸部の長さFを
1.5mm、凸部の幅Gを10〜100μm好ましくは
30μmていど、凸部と隣接する凸部の間隔Hを10〜
100μm好ましくは80μmていどに設定する。この
ようなブラックマトリクス基板20を得るために、黒色
顔料を含有した樹脂遮光材料を1.0〜1.5μmの膜
厚でガラス基板に塗布した後、プリベーク、露光、ポス
トエクスポージャーベーク、現像、ポストペークを行っ
て作成した。この時、露光工程では、本発明の遮光層周
縁部21、22が凹凸状になるようにパターンのマスク
を作成した。As shown in FIGS. 1 and 2, a black matrix substrate 20 according to the present invention is formed by covering a glass substrate 1 with a light-shielding layer 2 so as to cover portions other than the dot pixel portions 4a.
At this time, the outer periphery 2 of the light shielding layer peripheral portions 21 and 22 of the light shielding layer 2
The shapes of the light-shielding layers 1a and 22a are not linear, and the light-shielding layer peripheral portion 21 has a continuous triangular shape as shown in FIG. 1 and the light-shielding layer peripheral portion has a comb shape as shown in FIG. 2
And the like. In the embodiment of the present invention, a comb-like uneven black matrix substrate shown in FIG. 2 will be described. At this time, the edge 4b of the image display unit 4
And the distance E between the inner side 22b of the uneven portion of the light shielding layer 2 is 2.00 mm, the length F of the convex portion which is a comb-like uneven shape is 1.5 mm, and the width G of the convex portion is preferably 10 to 100 μm. Is 30 μm, and the interval H between the convex portion and the adjacent convex portion is 10 to 10 μm.
The thickness is set to 100 μm, preferably 80 μm. In order to obtain such a black matrix substrate 20, a resin light-shielding material containing a black pigment is applied to a glass substrate in a thickness of 1.0 to 1.5 μm, and then prebaking, exposure, post-exposure baking, development, and postbaking are performed. Was created. At this time, in the exposure step, a pattern mask was formed so that the light-shielding layer peripheral portions 21 and 22 of the present invention became uneven.
【0012】そして、図3、図4に示すように、ブラッ
クマトリクス基板20上にカラーフィルターを構成する
赤色、緑色、青色のカラーフィルター層6、7、8を形
成しカラーフィルター基板20bとする。更に図5には
カラーフィルター層6、7、8上から全体をオーバーコ
ート膜11で覆い、更にこのオーバーコート膜11上の
表示領域に透明電極12を形成する。Then, as shown in FIGS. 3 and 4, red, green, and blue color filter layers 6, 7, and 8 constituting a color filter are formed on a black matrix substrate 20 to form a color filter substrate 20b. In FIG. 5, the color filter layers 6, 7, and 8 are entirely covered with an overcoat film 11, and a transparent electrode 12 is formed in a display region on the overcoat film 11.
【0013】そして、この透明電極12を設けたカラー
フィルター基板20bとガラス基板10の間に液晶層1
3と平均粒径5.0μmのスペーサ14を挟むためにカ
ラーフィルター基板20bとガラス基板10をシール樹
脂15によって固定する。この時、シール樹脂15は遮
光層周縁部22の上に重なるように配置する。The liquid crystal layer 1 is disposed between the glass substrate 10 and the color filter substrate 20b provided with the transparent electrode 12.
The color filter substrate 20b and the glass substrate 10 are fixed with a sealing resin 15 so as to sandwich the spacer 3 and the spacer 14 having an average particle size of 5.0 μm. At this time, the sealing resin 15 is disposed so as to overlap the light-shielding layer peripheral portion 22.
【0014】この時、シール樹脂15は図4、図5に示
すように櫛状の内辺22bを中心線として、この中心線
がシール樹脂15を3:8で分割するような位置にシー
ル樹脂15を載置する。このような構成にすることによ
り、従来の液晶パネルが有する遮光層周縁部と同じだけ
の遮光部を有することができる。At this time, as shown in FIG. 4 and FIG. 5, the sealing resin 15 is located at a position where the center line is the center line of the comb-like inner side 22b and the center line divides the sealing resin 15 by 3: 8. 15 is placed. With such a configuration, it is possible to have the same number of light-shielding portions as the light-shielding layer peripheral portion of the conventional liquid crystal panel.
【0015】このようにして、シール樹脂15をカラー
フィルター基板20bの凹凸形状となす遮光層周縁部2
2の上に重なるように配置したことにより、同じ幅のシ
ール樹脂15を載置した従来のカラーフィルター基板と
比較して、本発明の液晶パネルはシール樹脂15がオー
バーコート膜11とガラス基板1が重なる領域と、オー
バーコート膜11、遮光層2とガラス基板1が重なる領
域とが交互に繰り返す部分に密着する。このような状態
では、界面形状が複雑なために、熱収縮による歪みや、
パネルにかかる応力が分散され、その結果密着強度を増
強することができる。更に、シール樹脂の一部が遮光層
の役割をしているために遮光部としては十分に得られ
る。In this manner, the sealing resin 15 is formed into the irregular shape of the color filter substrate 20b.
2, the liquid crystal panel of the present invention has the sealing resin 15 formed of the overcoat film 11 and the glass substrate 1 as compared with the conventional color filter substrate on which the sealing resin 15 of the same width is mounted. Are adhered to a portion where the overlaid film and the region where the overcoat film 11, the light shielding layer 2 and the glass substrate 1 overlap alternately repeat. In such a state, since the interface shape is complicated, distortion due to heat shrinkage,
The stress applied to the panel is dispersed, so that the adhesion strength can be enhanced. Further, since a part of the sealing resin plays a role of a light shielding layer, a sufficient light shielding portion can be obtained.
【0016】つぎに(表1)に示すような上記液晶パネ
ルと従来の液晶パネルについて、シール樹脂15の近傍
の液晶ギャップの均一性を、測定と黙視により比較し
た。Next, the uniformity of the liquid crystal gap in the vicinity of the sealing resin 15 was compared between the above liquid crystal panel as shown in Table 1 and the conventional liquid crystal panel by measurement and silent observation.
【0017】表1に示すように、本発明の遮光層周縁を
凹凸状である櫛状とした遮光層周縁部22にシール樹脂
15が重なるように配置した液晶パネルをパネルA、従
来の遮光層周縁が直線となるカラーフィルター基板にお
いて、シール樹脂15を遮光層周縁部の外部に配置した
液晶パネルをパネルB、シール樹脂15を遮光層周縁部
上に配置したパネルをパネルDとした。また、遮光層周
縁が直線となり、シール樹脂15の一部だけが遮光層周
縁部に重なるものをパネルC−1、C−2、C−3とす
る。そして、液晶パネルの液晶ギャップを一定とするた
めに、シール樹脂の厚さであるスペーサ径をそれぞれで
変えている。このとき、C−1、C−2、C−3におい
てはシール樹脂の一部だけが重なるために、異なるスペ
ーサ径を3種類用いた。As shown in Table 1, the liquid crystal panel according to the present invention, in which the sealing resin 15 is disposed so as to overlap the light-shielding layer peripheral portion 22 in which the light-shielding layer of the present invention has an irregular shape in a comb shape, is a panel A and a conventional light-shielding layer. In the color filter substrate having a straight peripheral edge, a liquid crystal panel in which the sealing resin 15 was disposed outside the peripheral edge of the light-shielding layer was referred to as panel B, and a panel in which the sealing resin 15 was disposed on the peripheral edge of the light-shielding layer was referred to as panel D. Panels C-1, C-2, and C-3 are those in which the periphery of the light shielding layer is straight and only a part of the sealing resin 15 overlaps the periphery of the light shielding layer. In order to keep the liquid crystal gap of the liquid crystal panel constant, the spacer diameter, which is the thickness of the sealing resin, is changed. At this time, in C-1, C-2, and C-3, three types of different spacer diameters were used because only a part of the sealing resin overlapped.
【0018】[0018]
【表1】 [Table 1]
【0019】これらのパネルについてシール近傍の液晶
層ギャップの均一性を、測定と目視により比較した。こ
の時の検査方法としては、測定器を用いた光学的測定に
よって行い、液晶ギャップのバラツキの大きさを標準偏
差によって現した。また、目視評価としては、液晶パネ
ルは基本的にはB/W表示であるが、偏光板角度を正規
の位置にずらした場合、複屈折性の為に青〜赤の着色が
見られる場合があり、この時の青〜赤の色目は液晶層厚
の違いによって生じ、微妙なギャップの違いも色目によ
って良く判別できる。今回の目視評価としては、従来製
品であるパネルB、Dと比較して、ギャップの違いが同
等以上なら○、やや劣るなら△、かなり劣るなら×とし
た。The uniformity of the gap of the liquid crystal layer near the seal was measured and visually compared for these panels. The inspection method at this time was performed by optical measurement using a measuring instrument, and the magnitude of the variation in the liquid crystal gap was represented by the standard deviation. As a visual evaluation, a liquid crystal panel is basically in a B / W display, but when the polarizing plate angle is shifted to a regular position, blue to red coloring due to birefringence may be observed. At this time, the blue to red colors are caused by a difference in the thickness of the liquid crystal layer, and a subtle difference in the gap can be well distinguished by the colors. Compared to the conventional products, Panels B and D, the visual evaluation was evaluated as ○ when the difference in gap was equal to or more than the above, Δ when the gap was slightly inferior, and × when the gap was considerably inferior.
【0020】上記の評価方法によって得られた、評価結
果を表2に示す。Table 2 shows the evaluation results obtained by the above evaluation method.
【0021】[0021]
【表2】 [Table 2]
【0022】次にこれらの液晶パネルをシール部分を含
む個片に切り出して、図6に示す様に剥離試験を行って
その密着強度を測定すると同時に剥離箇所を観察した。Next, these liquid crystal panels were cut into individual pieces including a sealing portion, and a peeling test was performed as shown in FIG. 6 to measure the adhesion strength, and at the same time, the peeled portions were observed.
【0023】この剥離試験の方法は以下のようなもので
ある。シール樹脂15上方に、かつ、ガラス基板10上
に接着剤23によってハリガネ24を取り付ける。そし
てこのハリガネ24をバネ計25を介して引っ張る。そ
して、ある一定以上の力で引っ張った時に、上側基板は
下側基板から剥がれる。この剥がれた時の力を記載する
と供に、剥離箇所を観察してどこでどのように剥がれて
いるかを観察した。The method of the peel test is as follows. The adhesive 24 is attached above the sealing resin 15 and on the glass substrate 10 with an adhesive 23. Then, the gripper 24 is pulled through the spring meter 25. Then, when the upper substrate is pulled by a certain force or more, the upper substrate is separated from the lower substrate. The force at the time of peeling was described, and at the same time, the peeled portion was observed to observe where and how the film was peeled.
【0024】[0024]
【表3】 [Table 3]
【0025】(表3)に示すように、本発明のカラーフ
ィルター基板パネルAは、シール樹脂15が遮光層周縁
部上に形成されているパネルDよりもシール部分の密着
強度が強固である。これはシール領域において、パネル
Dの場合は、シール樹脂が樹脂遮光層とオーバーコート
層との2層の樹脂層上に形成されているが、パネルAの
場合は、シール樹脂が樹脂遮光層とオーバーコート層と
の2層の樹脂層上と、オーバーコート層1層のみの上と
に形成されているためと考えられる。As shown in Table 3, in the color filter substrate panel A of the present invention, the sealing strength of the sealing portion is stronger than that of the panel D in which the sealing resin 15 is formed on the periphery of the light shielding layer. This is because, in the sealing area, in the case of panel D, the sealing resin is formed on two resin layers of a resin light-shielding layer and an overcoat layer, but in the case of panel A, the sealing resin is formed of a resin light-shielding layer. It is considered that the overcoat layer was formed on the two resin layers and the overcoat layer was formed on only one layer.
【0026】しかしながらパネルAは、このシール領域
の2層構造部分の面積が同程度であるパネルCや、2層
構造部分のないパネルBよりも更に強固である。剥離箇
所の観察をしてみると、パネルB,C,D,では全て各
樹脂層とガラス基板の界面であるのに対して、パネルA
の場合、剥離箇所はオーバーコート層でオーバーコート
層バルク又は、遮光層バルクとして剥がれる。(バルク
とは界面でなく、その層の内部で破壊している、つまり
層が引きちぎられている状態である。)これらの事から
パネルAの場合、各層の界面形状が複雑なために熱収縮
による歪やパネルにかかる応力か分散され、その結果と
して密着強度が増したと考えられる。However, the panel A is stronger than the panel C in which the area of the two-layer structure portion of the seal region is substantially the same as the panel C and the panel B without the two-layer structure portion. When observing the peeled portion, the panels B, C, and D all have the interface between each resin layer and the glass substrate, whereas the panel A has
In this case, the peeled portion is peeled off as the overcoat layer bulk or the light shielding layer bulk in the overcoat layer. (It is not the interface with the bulk, but is broken inside the layer, that is, the layer is torn.) From these things, in the case of panel A, the interface shape of each layer is complicated, so that heat shrinkage occurs. It is considered that the distortion caused by the stress and the stress applied to the panel were dispersed, and as a result, the adhesion strength was increased.
【0027】また、シール樹脂15の近傍の液晶層のギ
ャップ均一性についても(表2)に示すように、本発明
の構成であるパネルAは良好な結果を得た。パネルCで
はオーバーコート表面が樹脂遮光層の影響により傾斜し
た領域にシール樹脂が形成されているために、液晶層厚
の均一性が低下している。これに対して、パネルAでは
オーバーコート層表面の平坦性が向上して、シール樹脂
が平坦な層上に形成されたパネルB,Dと同等の均一性
を得ることができた。As shown in Table 2, the uniformity of the gap of the liquid crystal layer in the vicinity of the seal resin 15 was good for the panel A according to the present invention. In panel C, the uniformity of the liquid crystal layer thickness is reduced because the seal resin is formed in a region where the overcoat surface is inclined due to the effect of the resin light-shielding layer. On the other hand, in the panel A, the flatness of the surface of the overcoat layer was improved, and uniformity equivalent to that of the panels B and D in which the sealing resin was formed on the flat layer could be obtained.
【0028】このように、本発明のカラーフィルター基
板を用いた液晶パネルは液晶ギャップが均一かつ、密着
強度が高いものとなる。As described above, the liquid crystal panel using the color filter substrate of the present invention has a uniform liquid crystal gap and a high adhesion strength.
【0029】(実施の形態2)図7に示すように、ガラ
ス基板上に遮光層をその周縁部が図2に示すような櫛状
になるようにパターニングし、次に赤、緑、青のカラー
フィルター層を順次形成し、さらに表面に透明電極12
を積層してカラーフィルター基板20bを作成した。(Embodiment 2) As shown in FIG. 7, a light-shielding layer is patterned on a glass substrate so that the periphery thereof becomes a comb shape as shown in FIG. A color filter layer is sequentially formed, and a transparent electrode 12 is formed on the surface.
Were laminated to form a color filter substrate 20b.
【0030】そして、透明電極12を設けたカラーフィ
ルター基板20bとガラス基板10の間に液晶層13と
平均粒径5.0μmのスペーサ14を挟むためにガラス
基板10をシール樹脂15によって固定する。この時、
シール樹脂15はカラーフィルター基板20bの遮光層
周縁部22の外周辺を覆うように配置している。このよ
うに遮光層周縁部22の外周辺をシール樹脂15で覆っ
ているために、液晶層13中にガラス基板が露出するこ
とはなく、また、液晶層13以外に遮光層周縁部22を
露出することもない。Then, the glass substrate 10 is fixed with a sealing resin 15 so as to sandwich the liquid crystal layer 13 and the spacer 14 having an average particle size of 5.0 μm between the color filter substrate 20 b provided with the transparent electrode 12 and the glass substrate 10. At this time,
The sealing resin 15 is disposed so as to cover the outer periphery of the light-shielding layer peripheral portion 22 of the color filter substrate 20b. Since the outer periphery of the light-shielding layer peripheral portion 22 is thus covered with the sealing resin 15, the glass substrate is not exposed in the liquid crystal layer 13. Nothing to do.
【0031】このように、本実施の形態のカラーフィル
ター基板20bによれば、オーバーコートを必要としな
い、液晶パネルを構成することができる。As described above, according to the color filter substrate 20b of the present embodiment, a liquid crystal panel that does not require an overcoat can be formed.
【0032】なお、上記記載の液晶パネルはTFT方式
の液晶パネルであるが、TFT方式でなくとも、他のS
TN方式などにおいても使用可能である。また、カラー
フィルターを用いない、単色の液晶パネルにおいてもこ
の技術を用いることはできる。Although the liquid crystal panel described above is a TFT type liquid crystal panel, other liquid crystal panels may be used instead of the TFT type.
It can also be used in the TN method and the like. This technique can also be used for a single-color liquid crystal panel that does not use a color filter.
【0033】ここで、オーバーコートを必要としない液
晶パネルにおいて、シール樹脂を遮光層周縁部22の外
周辺の一部に重ねたパネルEと遮光層周縁部22の外周
辺を全体的に覆ったパネルFとを比較した。Here, in the liquid crystal panel which does not require an overcoat, the panel E in which the sealing resin is overlapped with a part of the outer periphery of the light-shielding layer peripheral portion 22 and the outer periphery of the light-shielding layer peripheral portion 22 are entirely covered. Panel F was compared.
【0034】カラーフィルター基板20bの遮光層周縁
部22が櫛状パターンの刃部の長さが、長いパターンと
短いパターンの2種類のブラックマトリクス基板20を
準備し、これらのブラックマトリクス基板20上にカラ
ーフィルター層6、7、8を形成し、図7、図8に示す
ようにシール樹脂15が遮光層周縁部22の外周辺の一
部しか覆わない液晶パネルE(図8)と、外周辺を完全
に覆う液晶パネルF(図7)を組み立てた。The light-shielding layer peripheral portion 22 of the color filter substrate 20b is prepared with two types of black matrix substrates 20 having a long pattern and a short pattern in which the length of the comb-shaped pattern is long. A liquid crystal panel E (FIG. 8) in which the color filter layers 6, 7, 8 are formed and the sealing resin 15 covers only a part of the outer periphery of the light-shielding layer peripheral portion 22 as shown in FIGS. A liquid crystal panel F (FIG. 7) that completely covers the substrate was assembled.
【0035】この2種類の液晶パネルE,Fを図6に示
す方法で密着強度を測定した後に、85℃、85%の高
温高湿層内に200時間放置して、放置後の密着強度を
再び測定した。高温高湿層に放置した前後の密着強度を
(表4)に示す。After measuring the adhesion strength of the two types of liquid crystal panels E and F by the method shown in FIG. 6, the liquid crystal panels E and F were allowed to stand in a high-temperature and high-humidity layer of 85 ° C. and 85% for 200 hours, and the adhesion strength after the standing was measured. It was measured again. Table 4 shows the adhesion strength before and after being left in the high-temperature and high-humidity layer.
【0036】[0036]
【表4】 [Table 4]
【0037】(表4)より、シール樹脂15が遮光層周
縁部22の外周辺を完全に覆うパネルFでは、高温高湿
放置前後であまり密着強度に変化は見られないが、シー
ル樹脂15が凹凸状の遮光層周縁部22の外周辺を完全
に覆わない液晶パネルEでは密着力が著しく低下するこ
とがわかる。これは、パネルEではシール樹脂15と樹
脂遮光層の界面と、樹脂遮光層とガラス基板の界面がパ
ネルの外に露出しており、これらの界面から水がパネル
内に浸透して密着強度を低下させているものと考えられ
る。According to Table 4, in the panel F in which the sealing resin 15 completely covers the outer periphery of the light-shielding layer peripheral portion 22, there is not much change in the adhesion strength before and after leaving at high temperature and high humidity. It can be seen that in the liquid crystal panel E that does not completely cover the outer periphery of the uneven light-shielding layer peripheral portion 22, the adhesion is significantly reduced. This is because in the panel E, the interface between the sealing resin 15 and the resin light-shielding layer and the interface between the resin light-shielding layer and the glass substrate are exposed outside the panel, and water permeates into the panel from these interfaces to reduce the adhesion strength. It is thought to have been reduced.
【0038】このようにオーバーコート層を形成しない
ブラックマトリクス基板またはカラーフィルター基板を
用いる場合でも、シール樹脂が樹脂遮光層を完全に覆う
構成にすることによって湿中でも強固な液晶パネルを作
成することができた。Even in the case of using a black matrix substrate or a color filter substrate on which an overcoat layer is not formed as described above, a liquid crystal panel that is robust even in wet conditions can be produced by using a configuration in which the sealing resin completely covers the resin light-shielding layer. did it.
【0039】[0039]
【発明の効果】以上のように本発明によれば、シール部
分でのパネル強度が強く、また液晶層厚が均一な表示品
位の高い液晶パネルを得ることができる。As described above, according to the present invention, it is possible to obtain a liquid crystal panel having a high display quality in which the panel strength at the sealing portion is high and the liquid crystal layer thickness is uniform.
【図1】本発明の一実施の形態のブラックマトリクス基
板の主要部分のパターン図FIG. 1 is a pattern diagram of a main part of a black matrix substrate according to an embodiment of the present invention.
【図2】本発明の一実施の形態のブラックマトリクス基
板の主要部分のパターン図FIG. 2 is a pattern diagram of a main part of a black matrix substrate according to one embodiment of the present invention;
【図3】本発明の一実施の形態のカラーフィルター基板
の主要部分のパターン図FIG. 3 is a pattern diagram of a main part of a color filter substrate according to an embodiment of the present invention.
【図4】本発明の一実施の形態のカラーフィルター基板
の主要部分のパターン図FIG. 4 is a pattern diagram of a main part of a color filter substrate according to an embodiment of the present invention.
【図5】本発明の一実施の形態の液晶パネルの主要部分
の断面図FIG. 5 is a sectional view of a main part of a liquid crystal panel according to an embodiment of the present invention.
【図6】シール領域の剥離強度の測定方法の概念図FIG. 6 is a conceptual diagram of a method for measuring the peel strength of a seal region.
【図7】本発明の一実施の形態の液晶パネルの主要部分
の断面図FIG. 7 is a sectional view of a main part of a liquid crystal panel according to an embodiment of the present invention.
【図8】本発明の一実施の形態の液晶パネルの主要部分
の断面図FIG. 8 is a sectional view of a main part of a liquid crystal panel according to an embodiment of the present invention.
【図9】従来のブラックマトリクス基板の主要部分のパ
ターン図FIG. 9 is a pattern diagram of a main part of a conventional black matrix substrate.
【図10】従来のカラーフィルター基板の主要部分のパ
ターン図FIG. 10 is a pattern diagram of a main part of a conventional color filter substrate.
【図11】従来の液晶パネルの主要部分の断面図FIG. 11 is a sectional view of a main part of a conventional liquid crystal panel.
【図12】従来の液晶パネルの主要部分の断面図FIG. 12 is a sectional view of a main part of a conventional liquid crystal panel.
【図13】従来の液晶パネルの主要部分の断面図FIG. 13 is a sectional view of a main part of a conventional liquid crystal panel.
1、10 ガラス基板 2 遮光層 3、20 ブラックマトリックス基板 4 画像表示部 5、21、22 遮光層周縁部 9、20b カラーフィルター基板 11 オーバーコート層 12 透明電極 15 シール樹脂 DESCRIPTION OF SYMBOLS 1, 10 Glass substrate 2 Light shielding layer 3, 20 Black matrix substrate 4 Image display part 5, 21, 22 Light shielding layer peripheral part 9, 20b Color filter substrate 11 Overcoat layer 12 Transparent electrode 15 Seal resin
───────────────────────────────────────────────────── フロントページの続き (72)発明者 山岸 庸恭 大阪府門真市大字門真1006番地 松下電 器産業株式会社内 (58)調査した分野(Int.Cl.7,DB名) G02F 1/1335 500 G02B 5/20 101 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Yasuyasu Yamagishi 1006 Kadoma, Kadoma, Osaka Prefecture Matsushita Electric Industrial Co., Ltd. (58) Field surveyed (Int. Cl. 7 , DB name) G02F 1/1335 500 G02B 5/20 101
Claims (4)
により張り合わせた液晶パネルであって、前記2枚の基
板の少なくとも一方の基板が、透明基板上に形成された
樹脂性遮光層の表示領域周縁部を凹領域と凸領域の集合
した凹凸形状に形成したブラックマトリクス基板であ
り、前記シール樹脂を前記樹脂性遮光層の表示領域周縁
部の凹凸形状部分に重ねて形成したことを特徴とする液
晶パネル。1. A liquid crystal panel in which two substrates holding a liquid crystal layer are bonded to each other with a sealing resin, wherein at least one of the two substrates is formed of a resinous light-shielding layer formed on a transparent substrate. A black matrix substrate in which a peripheral portion of a display region is formed in a concavo-convex shape in which a concave region and a convex region are gathered, wherein the sealing resin is formed by overlapping the concavo-convex portion of the display region peripheral portion of the resinous light-shielding layer. LCD panel.
により張り合わせた液晶パネルであって、前記2枚の基
板の少なくとも一方の基板が、透明基板上に形成された
樹脂性遮光層の表示領域周縁部を櫛型の凹凸形状とした
ブラックマトリクス基板であり、前記シール樹脂を前記
樹脂性遮光層の表示領域周縁部の凹凸形状部分に重ねて
形成したことを特徴とする液晶パネル。2. A liquid crystal panel in which two substrates holding a liquid crystal layer are adhered to each other with a sealing resin, wherein at least one of the two substrates is formed of a resinous light shielding layer formed on a transparent substrate. A liquid crystal panel, comprising: a black matrix substrate having a display region peripheral portion having a comb-shaped uneven shape, wherein the sealing resin is formed on the resin light-shielding layer so as to overlap the uneven portion of the display region peripheral portion.
により張り合わせた液晶パネルであって、前記2枚の基
板の少なくとも一方の基板が、透明基板上に形成された
樹脂性遮光層の表示領域周縁部を凹領域と凸領域の集合
した凹凸形状に形成したカラーフィルター基板であり、
前記シール樹脂を前記樹脂性遮光層の表示領域周縁部の
凹凸形状部分に重ねて形成したことを特徴とする液晶パ
ネル。3. A liquid crystal panel in which two substrates holding a liquid crystal layer are adhered to each other with a sealing resin, wherein at least one of the two substrates is formed of a resinous light shielding layer formed on a transparent substrate. A color filter substrate in which the periphery of the display area is formed in a concavo-convex shape in which a concave area and a convex area are gathered,
A liquid crystal panel, wherein the sealing resin is formed on the resin light-shielding layer so as to overlap with a concave-convex portion at a peripheral portion of a display area.
により張り合わせた液晶パネルであって、前記2枚の基
板の少なくとも一方の基板が、透明基板上に形成された
樹脂性遮光層の表示領域周縁部を櫛型の凹凸形状とした
カラーフィルター基板であり、前記シール樹脂を前記樹
脂性遮光層の表示領域周縁部の凹凸形状部分に重ねて形
成したことを特徴とする液晶パネル。4. A liquid crystal panel in which two substrates holding a liquid crystal layer are bonded with a sealing resin, wherein at least one of the two substrates is formed of a resinous light shielding layer formed on a transparent substrate. What is claimed is: 1. A liquid crystal panel, comprising: a color filter substrate having a display region peripheral portion having a comb-shaped uneven shape, wherein the sealing resin is formed on the resin light-shielding layer so as to overlap the uneven portion of the display region peripheral portion.
Priority Applications (1)
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JP2000340029A JP3206598B2 (en) | 2000-11-08 | 2000-11-08 | LCD panel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000340029A JP3206598B2 (en) | 2000-11-08 | 2000-11-08 | LCD panel |
Related Parent Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP13804996A Division JP3149788B2 (en) | 1996-05-31 | 1996-05-31 | Black matrix substrate and color filter substrate |
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JP2001147439A JP2001147439A (en) | 2001-05-29 |
JP3206598B2 true JP3206598B2 (en) | 2001-09-10 |
Family
ID=18815008
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JP2000340029A Expired - Fee Related JP3206598B2 (en) | 2000-11-08 | 2000-11-08 | LCD panel |
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JP4603310B2 (en) * | 2004-07-15 | 2010-12-22 | オプトレックス株式会社 | Liquid crystal display element |
JP4910296B2 (en) * | 2005-03-16 | 2012-04-04 | 大日本印刷株式会社 | Color filter substrate and liquid crystal display panel |
US8125602B2 (en) | 2007-08-22 | 2012-02-28 | Sony Corporation | Liquid crystal display panel, electronic apparatus equipped with the same, and method for manufacturing liquid crystal display panel |
JP5178327B2 (en) * | 2007-08-22 | 2013-04-10 | 株式会社ジャパンディスプレイウェスト | LIQUID CRYSTAL DISPLAY PANEL, ELECTRONIC DEVICE HAVING LIQUID CRYSTAL DISPLAY PANEL, AND METHOD FOR PRODUCING LIQUID CRYSTAL DISPLAY |
KR102204976B1 (en) | 2013-11-13 | 2021-01-20 | 삼성디스플레이 주식회사 | Display apparatus and fabrication method thereof |
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2000
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