JPH04182603A - Manufacture of color filter - Google Patents
Manufacture of color filterInfo
- Publication number
- JPH04182603A JPH04182603A JP2312295A JP31229590A JPH04182603A JP H04182603 A JPH04182603 A JP H04182603A JP 2312295 A JP2312295 A JP 2312295A JP 31229590 A JP31229590 A JP 31229590A JP H04182603 A JPH04182603 A JP H04182603A
- Authority
- JP
- Japan
- Prior art keywords
- color
- film
- color filter
- pattern
- packaged
- 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.)
- Pending
Links
- 238000004519 manufacturing process Methods 0.000 title claims description 7
- 239000000758 substrate Substances 0.000 claims abstract description 15
- 230000015572 biosynthetic process Effects 0.000 claims abstract description 11
- 239000003086 colorant Substances 0.000 claims abstract description 9
- 239000004973 liquid crystal related substance Substances 0.000 claims abstract description 6
- 238000000034 method Methods 0.000 claims description 13
- 238000005868 electrolysis reaction Methods 0.000 claims description 6
- 239000000203 mixture Substances 0.000 abstract description 2
- 238000005755 formation reaction Methods 0.000 description 8
- 239000000049 pigment Substances 0.000 description 7
- 239000000693 micelle Substances 0.000 description 5
- 239000000243 solution Substances 0.000 description 4
- 239000007864 aqueous solution Substances 0.000 description 3
- 150000003839 salts Chemical class 0.000 description 3
- 239000000084 colloidal system Substances 0.000 description 2
- 238000001035 drying Methods 0.000 description 2
- 239000000463 material Substances 0.000 description 2
- -1 Brominated copper phthalocyanine chloride Chemical class 0.000 description 1
- 239000011248 coating agent Substances 0.000 description 1
- 238000000576 coating method Methods 0.000 description 1
- OXBLHERUFWYNTN-UHFFFAOYSA-M copper(I) chloride Chemical compound [Cu]Cl OXBLHERUFWYNTN-UHFFFAOYSA-M 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
- 238000000151 deposition Methods 0.000 description 1
- 230000008021 deposition Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 239000008151 electrolyte solution Substances 0.000 description 1
- 239000001056 green pigment Substances 0.000 description 1
- 239000008267 milk Substances 0.000 description 1
- 210000004080 milk Anatomy 0.000 description 1
- 235000013336 milk Nutrition 0.000 description 1
- 230000002093 peripheral effect Effects 0.000 description 1
- 229910001220 stainless steel Inorganic materials 0.000 description 1
- 239000010935 stainless steel Substances 0.000 description 1
Landscapes
- Optical Filters (AREA)
- Liquid Crystal (AREA)
Abstract
Description
【発明の詳細な説明】
[産業上の利用分野1
本発明は、湿式電解成膜法によりカラーフィルターを形
成するための製造方法に関している。DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application 1] The present invention relates to a manufacturing method for forming a color filter by a wet electrolytic film forming method.
[従来の技術]
第1図に示すようなRGBの3原色のストライプパター
ンからなるカラーフィルターを湿式法で成膜しようとす
ると、その電極基板は、液晶パネル駆動用IC実装部(
第1図−1)を上下に設ける形状が一般的である。実装
端子は1ラインおきに上下に引き出されている形状であ
り、RC−B各色の実装端子は交互に上下に振り分けら
れている。[Prior Art] When trying to form a color filter consisting of a stripe pattern of the three primary colors of RGB as shown in Fig. 1 by a wet method, the electrode substrate is attached to the IC mounting part for driving the liquid crystal panel (
It is common to have the upper and lower sections shown in Fig. 1-1). The mounting terminals are drawn out vertically every other line, and the mounting terminals of each color of RC-B are alternately distributed vertically.
しかしながら、このパターンを使用してミでルミ解法に
よりカラーフィルターを作製する場合、第2図に示した
基板を用い、1色巨は最外周の導通部(第2図−3)を
通じ1回で成膜できるが、2色巨及び3色目はそれぞれ
上下にある、2色巨及び3色目の成膜用引圧し線をそれ
ぞれ導通した上で(第1図−4,5)成膜するため、最
低5凹の電解を必要とし、工数的にも多く、歩留りが低
下するという間麗点があった。すなわち、ミセル電解法
では2色巨または3色目の成膜ラインを導通する隙、生
産技術的に面倒な選択的通電を行わずに、容易な通電法
として、1色目または2色目のラインも同時に導通させ
てしまう方法を用いると、1色目または2色口の!I料
膜が導電性を有していた場合、1色目または2色目の顔
料膜の上に、2色目または3色目の顔料膜が成膜されて
しまい、色が混色してしまうとし・う問題点を有してい
た。However, when manufacturing a color filter using this pattern using the Lumi solution method, one color filter can be printed at once through the outermost conductive part (Figure 2-3) using the substrate shown in Figure 2. However, since the two-color giant and third-color film are formed after connecting the two-color giant and third-color film-forming pressure lines located above and below, respectively (Fig. 1-4, 5), This method requires electrolysis of at least 5 cavities, requires a large number of man-hours, and has the drawback of decreasing yield. In other words, in the micelle electrolysis method, the first or second color line can be simultaneously energized as an easy energization method without conducting selective energization, which is troublesome in terms of production technology. If you use the method of making it conductive, the first or second color! If the I material film has conductivity, a second or third color pigment film is formed on top of the first or second color pigment film, resulting in color mixing. It had a point.
一方、混色させない成膜の方法は皆無ではないが、二種
が複雑になったり、成膜用にデザインした電極にそのま
ま液晶駆動用ICが実装できないなどのデメリットがあ
った。On the other hand, although there are some methods of film formation that do not mix colors, they have disadvantages such as the complexity of the two methods and the inability to directly mount a liquid crystal driving IC on the electrode designed for film formation.
[発明が解決しようとする帽1
従来のミセル電解法に用いる電極基板では、1色目は最
外周の導通部(第2面一3)を通じ1回で成膜できるが
、2色目及び3色目はそれぞれ上下にある、2色目及び
3色目の成膜用引出し線をそれぞれ導通した上で(第1
ffl −4,5)成膜するため、最低5回の電解を
必要とし、工数的にも多く、歩留りが低下するという問
題点があった。[Cap 1 to be solved by the invention In the electrode substrate used in the conventional micelle electrolysis method, the first color can be formed in one step through the outermost conductive part (second surface 3), but the second and third colors can be formed in one step. After connecting the lead wires for film formation of the second and third colors, which are located above and below, respectively (the first
ffl -4,5) In order to form a film, electrolysis is required at least five times, which requires a large number of man-hours, and there is a problem that the yield is reduced.
またこの方法では2色目または3色目の成膜端子を導通
する際、1色目または2色目のラインも同時に導通させ
てしまうため、 1色目または2色目の顔料膜が導電性
を有していた場合、1色目または2色目の顔料膜の上に
、2色目または3色目の顔料膜が成膜されてしまい、色
が混色してしまい、混色対策も2・要であるという大き
な問題点を有していた。Also, in this method, when the second or third color film forming terminal is made conductive, the first or second color line is also made conductive at the same time, so if the first or second color pigment film has conductivity. , the second or third color pigment film is formed on top of the first or second color pigment film, resulting in color mixing, and there is a major problem in that color mixing countermeasures are also required. was.
本発明の目的はこの問題を解決するものであり、すなわ
ち混色が起こらずに、またRGB各パターンに成膜する
ための通電端子をつけかえることなく、色ごとの電解液
をかえるだけで、RGB3色が成膜できる製造方法を提
供することにある。The purpose of the present invention is to solve this problem. That is, by simply changing the electrolyte solution for each color, RGB The object of the present invention is to provide a manufacturing method that can form a colored film.
[課運を解決するための手段]
大発明のカラーフィルター用電極基板及びそれを用いた
カラーフィルターは、
RGB3色のストライプ状パターンからなるカラーフィ
ルターを、湿式電解成膜法により形成するための電解装
置において、該カラーフィルター用74極基板への成膜
のための通電部分が、液晶駆動用IC実装端子部で異方
性導電フィルム(COF)を用いて駆動回路が実装され
、この駆動回路を使用して1選択的に必要なパターンの
みに電圧を印加することにより成膜することを特徴とす
る。[Means for solving problems] The color filter electrode substrate of the great invention and the color filter using the same are electrolytic methods for forming a color filter consisting of a striped pattern of three colors of RGB by a wet electrolytic film formation method. In the device, the current-carrying part for film formation on the 74-pole substrate for the color filter is the IC mounting terminal part for driving the liquid crystal, and a drive circuit is mounted using an anisotropic conductive film (COF). The film is formed by selectively applying a voltage to only one required pattern.
[実施例]
第1ズのようなパターンをもつカラーフィルター用電極
基板のIC駆動用実装端子邦(第1図−1)に異方性導
電フィルム(COF)をもちいて駆動回路を実装した。[Example] A drive circuit was mounted using an anisotropic conductive film (COF) on the IC drive mounting terminals (FIG. 1-1) of a color filter electrode substrate having a pattern like the one shown in FIG.
基板に駆動回路を実装した状態を第31!Iに示す。実
装端子を介して駆動回路(第3図−6)が基板の上下に
接続されている。No. 31 shows the state in which the drive circuit is mounted on the board! Shown in I. Drive circuits (FIG. 3-6) are connected to the top and bottom of the board via mounting terminals.
したがってカラーフィルターとして使用する11極(第
111−2)には、いずれのtpiルミパターン選択的
に駆動回路を作動させることにより、自由に電位を印加
することができる。この駆動回路を使用し、電極パター
ン部(第21ffl−2)に、以下の順にRGB3色ス
トライプのカラーフィルターを作成した。Therefore, a potential can be freely applied to the 11 poles (111-2) used as a color filter by selectively operating the drive circuit for any TPI luminance pattern. Using this drive circuit, a color filter with RGB three-color stripes was created in the electrode pattern section (21st ffl-2) in the following order.
■ 1色目として、Radii料膜を形成する目的で、
以下のB斜ココイド水溶液を500コ1調整した。■ As the first color, for the purpose of forming a Radii coating,
500 copies of the following B oblique cocoid aqueous solution were prepared.
ジアントラキノリルレット 10 m Mフェロセ
ニルPEG 2mMLiBr (支持塩
) 0.1Mカソードとしてステンレス
基板を使用し、このミでル溶液中に駆#′1回路ごと基
板を浸漬し、1色目としてRedを成膜しようとする1
i極パターン(第2x−2のうちのR[極)のすべてに
電圧が印加されるように駆動回路を作動させる。+0.
8Vの定電位を20分間印加させることにより、成膜し
たいパターンにのみ電圧が印加され、この結果1色目の
パターンとしてReciの膜が形成ざ九た。Dianthraquinolyl 10mM Ferrocenyl PEG 2mMLiBr (supporting salt) 0.1M Using a stainless steel substrate as a cathode, immerse the substrate together with #'1 circuit in this milk solution, and form a film of Red as the first color. try to 1
The drive circuit is operated so that voltage is applied to all of the i-pole patterns (R [poles of the 2x-2). +0.
By applying a constant potential of 8V for 20 minutes, voltage was applied only to the pattern desired to be formed, and as a result, a Reci film was formed as the first color pattern.
60℃で1時間乾燥させたのち、
■ 2色目として、Bluefl料膜を形成する目的で
、以下の顔料コロイド水溶液を500m1調整した。After drying at 60° C. for 1 hour, (1) 500 ml of the following pigment colloid aqueous solution was prepared for the purpose of forming a Bluefl pigment film as a second color.
モノクロロ銅フタロンアニン 10HMフェロてニル
P三q 2二MLiBr(支持塩)0.
二M
このミセル溶液中で、■と同様に2色目としてB2 u
eを成膜しようとする@極パターン(第2ズー2のうち
のBlt極)のすべてに電圧が印加されるように駆動回
路を作動させる。+0.3■の定電位を10分間印加さ
せることにより、成膜したいパターンにのみ電圧が印加
され、この結果2色目のパターンとしてBlaeの膜が
形成された。Monochlorocopper phthalonanine 10HM ferrotenyl P3q 22MLiBr (supporting salt) 0.
2M In this micelle solution, use B2 u as the second color in the same way as in ■.
The drive circuit is operated so that a voltage is applied to all of the @ pole patterns (Blt poles of the second zoom 2) on which film e is to be formed. By applying a constant potential of +0.3■ for 10 minutes, voltage was applied only to the pattern desired to be formed, and as a result, a Blae film was formed as the second color pattern.
60℃で1時間乾燥させたのち、
■ 3色目として、Green顔料膜を形成する目的で
以下のM料コロイド水溶液を500r1調整した。After drying at 60° C. for 1 hour, (1) 500 ml of the following M material colloid aqueous solution was prepared for the purpose of forming a green pigment film as a third color.
臭素化塩化銅フタロシアニン 10mMフェロセニル
P E G 2 m MLiBr(支持
塩) 0.1Mこのミセル溶液中で、■と
同様に3色目としてGreenを成膜しようとする電極
パターン(第2−図−2のうちのG電極)のすべてに電
圧が印加されるように駆動回路を作動させる。+0.4
■の定電位を10分間印加させることにより、成膜し・
たいパターンにのみ電圧が印加され、この結果3色目の
パターンとしてGreenの膜が形成さ九た。Brominated copper phthalocyanine chloride 10mM Ferrocenyl PEG 2m MLiBr (supporting salt) 0.1M In this micelle solution, the electrode pattern for forming a film of Green as the third color (see Figure 2-2) Activate the drive circuit so that voltage is applied to all of the G electrodes. +0.4
A film is formed by applying the constant potential of (2) for 10 minutes.
A voltage was applied only to the desired pattern, and as a result, a green film was formed as the third color pattern.
以上の工程でRGB 3色を有するカラーフィルターが
、3回の成膜で形成され、従来問題となっていた混色も
、選択的に成膜したいパターンにのみ電圧が印加できる
ことから、回避が可能となった。In the above process, a color filter with three colors of RGB is formed by three film depositions, and the conventional problem of color mixing can be avoided because voltage can be applied only to the pattern that is desired to be selectively deposited. became.
[発明の効果]
以上のように、本発明の電極基板をミてルミ解法を用い
たカラーフィルターに適用したところ、従来では5回の
成膜が必要であったが、成膜通電端子を付けかえること
なく、3回の成膜でRGB3原色を有するカラーフィル
ターが形成でき、さらに従来基板では大きな開運となっ
ていた混色が起こらずにカラーフィルターが形成できた
。[Effects of the Invention] As described above, when the electrode substrate of the present invention was applied to a color filter using the luminescent method, film formation was required five times in the past, but it was possible to A color filter having the three primary colors of RGB could be formed in three film formations without changing, and furthermore, the color filter could be formed without color mixing, which was a big problem with conventional substrates.
第1面 湿式電解成膜により作成するカラーフィルター
の電極パターンを示すZ
第2面 従来のミセル電解法により作成するためのカラ
ーフィルター用基板
第3図 実施例に示した成膜を行うために駆動回路を実
装した状態の基板の図
1、液晶駆動用IC実装部
2、カラーフィルターの顔斜膜成膜部
3.1色目成膜用最外周部導通部分
4.2色目成膜用引出し線部分
5.3色目成膜用引出し線部分
6、駆動回路
7、カラーフィルター用電極基板
覧 1 m
第3 ■1st page Z showing the electrode pattern of a color filter created by wet electrolytic film formation 2nd page A substrate for a color filter to be created by conventional micelle electrolysis method Figure 1 of the board with the circuit mounted, IC mounting part 2 for liquid crystal drive, face diagonal film forming part of color filter 3. Outermost peripheral conductive part for first color film forming 4. Leading line part for second color film forming 5.3rd color film forming leader line part 6, drive circuit 7, color filter electrode substrate list 1 m 3rd ■
Claims (1)
ィルターを、湿式電解成膜法により形成するための電解
装置において、該カラーフィルター用電極基板への成膜
のための通電部分が、液晶駆動用IC実装端子部で異方
性導電フィルム(COF)を用いて駆動回路が実装され
、この駆動回路を使用して、選択的に必要なパターンの
みに電圧を印加することにより成膜することを特徴とす
るカラーフィルターの製造方法。In an electrolysis device for forming a color filter consisting of a striped pattern of three colors of RGB by a wet electrolytic film formation method, the current-carrying part for film formation on the electrode substrate for the color filter is the IC mounting terminal part for driving the liquid crystal. A color filter characterized in that a driving circuit is implemented using an anisotropic conductive film (COF), and a film is formed by selectively applying voltage only to necessary patterns using this driving circuit. manufacturing method.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2312295A JPH04182603A (en) | 1990-11-17 | 1990-11-17 | Manufacture of color filter |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| JP2312295A JPH04182603A (en) | 1990-11-17 | 1990-11-17 | Manufacture of color filter |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| JPH04182603A true JPH04182603A (en) | 1992-06-30 |
Family
ID=18027531
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| JP2312295A Pending JPH04182603A (en) | 1990-11-17 | 1990-11-17 | Manufacture of color filter |
Country Status (1)
| Country | Link |
|---|---|
| JP (1) | JPH04182603A (en) |
-
1990
- 1990-11-17 JP JP2312295A patent/JPH04182603A/en active Pending
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