201140213 六.發明說明: 【發明所屬之技術領域】 本發明係闕於粒子式顯示裝置,將二種相里— 粒子,置放於顯示裝置色嚢* /、電荷性質的相異色 色囊工腔早响裝置及《造方法。 【先前技術】 中華民國發明專利13⑽2號,係以 子紙之顯示部結構。 凝先性的差異做為電 中華民國發财利助似號,電 隔部間電泳的構造做顧示妓。^方法細電極及分 中華民國發公開2010136〇5號 撐膜上形成薄膜電日 ,、又面粘者帶固定電子紙支 旎之顯示層》 動0上貼合圖像顯示功 華民國發明公開公報2⑻魏 其分散體以及製造方、本 〜係電子紙用碳黑顏料及 示結構之色囊的做法1 ’而未有將該碳黑顏料置放於電子紙面板顯 為顯示 1^^略_8489⑻號,__以電泳做 為^==心~,細電泳微 膠囊構造做 叫誦爾,係_ 電泳結構做為 P3/19 201140213 中華民國發明公開公報勒7 塗覆於基板的電泳微膠_示裝置之方法墨絲;谷液液滴 子置放的裝置峨示色囊空腔料中的二種有色粒 位置及大小,絲可精雜_光板上帶電荷的潛像 此,得以控娜電荷有色=與’職吸附。因 置為電子紙顯示色囊子在感光板上的位置與數量,該相關位 電子紙的顯 不 異性相吸的極性抑制:;:的佈列位置相同,再藉著同性相斥、 色囊空腔單絲電射色粒侦财置入 【發明内容】 在黑白粒子式電子紙 子及白色有⑽子,分職糕色有色粒 性的表面塗層,以便控制其顯像;在彩色粒子式 白色^ W之色翻表中’財4組色囊單元,分別為紅色及 臼色、藍色及白色、普备β A Α m ^ n A 、 色、黑色及白色,其各組組成百分比, 則會依顏色之深度州,有獨¥分比的配置。 定的目的料絲異種電荷二财故子能射位置的及 蝴冓中,做為電 顯不裝置顏色變化機制。 $ 本發明上4目的,本發賴供二種透明結構的感光板 在感光板上分财可帶正負電躺感光層,透明的基板及凝 P4/19 201140213 二面相導通的導電層,感光層的大小匹配於電子紙顯示裝置的尺 寸;正像模板組包括透明結構的正像模基板及定義尺寸大小的正像 模,該正像模為不透光的複數個圖形記號構成,使正像模的寬度瓜 - 為電子紙顯示色囊空腔單元内寬度w的40〜70°/〇,例如:色囊空 腔單元寬度w=200微米(⑽)時,正像模寬度m=8〇〜l4〇微 米(/zm)。因此,正像膜的面與電子紙顯示色囊空腔單元面積比 約為16〜49% ;正像模組的大小匹配於電子紙顯示裝置的尺寸;各 • 正像模的間距P與電子紙顯示色囊空腔單元之間距P相同;可帶負 電荷之有色粒子匣組,包括匣殼、内部導電層與内部導電層連接的 極性控制連接線及承裝可帶負電荷之有色粒子;可帶正電荷之有色 粒子H組,包括S殼、内部導電層與内部導電層連接的極性控制連 接線及承裝可帶正電荷之有色粒子;E殼組的大小匹配於電子紙顯 示裝置的尺寸。 本發明帶電·L子置放於電子纖示秘之顯示色囊空腔單元 • 賴造方法為’在暗室+ ’正像模板組的正像模面與正電荷型感光 板組密貼合著’正電荷源提供感光板組之感光層均勾帶正電荷;由 正像模組方向點亮均勻光源’讓感光層未被正像模遮蔽之位置感 光,形成電導體,而由地釋出電荷,正像模遮蔽的位置將整齊保留 正電荷’形成正電荷之潛像;然後將可帶負電荷之粒子厘組與已整 齊佈列正電荷之感光板組對正位置,#在—起;帶負電荷有色粒子 又負電荷後’同性相斥關係浮懸於g殼巾,異性相吸,有色粒子 則整齊佈列於感光板組正像模對應之正電荷潛像位置,其它負_ P5/19 201140213 有色粒子祖_斥雜概財;將電子纟狀基板_於感光板 組之對應位置,使各色囊空腔單元對準於帶負電荷有色粒子之下 方;啟動感光板組上方的均勻光源開關,感光層全部受光,使感光 層全部械電導體,感光層上的正電荷全部由導電制地線被釋 出;在感光板之導電層施加負電壓,相斥帶負電荷的有色粒子;同 時帶負電荷的有色粒子失去感光板組上正電荷之吸引,而被驅動置 入電子紙基板之色毅料元内;進人色敎腔單元的帶電荷有色 粒子,因朗性相斥於空腔單元内,並受_的侷限而形成排斥之 間距佈列; 隨後正像模板組與貞電荷观光板組無合著,在暗室中由負 電荷源提供貞電荷賊缺之絲料均Μ電荷,由正像模組方 向點冗均句絲’讓感光層未被正像模遮蔽的位置絲,形成電導 體而由地釋出讀,正像模遮蔽的位置,將整齊保留負電荷,, 職負電荷之潛像,絲將可帶正電荷之粒子隱與已整齊佈列負 電荷之感光板崎錄置#在—起;f正電荷有色粒子受正電荷 後’同性相斥_而賴財,異性相吸,有色粒子則整齊佈 列於感光板組’正像模組對應之負電荷潛像位置,其它正電荷有色 粒子則隨她料·巾;將前—隨已完成放置貞電荷有色 粒子之電子絲板組,於貞電翻感級敗職位置 色囊空腔單域準於帶正電荷有色粒子之下方,啟動負電荷型感光 侧,細纖^綱全部成電導 體’感先層上的負電荷全部由導電層到地線被釋出,潛像消失切 P6/19 201140213 負電荷型感光板上施加正電麗,相斥帶正電荷的有色粒子,同時帶 正電荷的有色粒子失去感光板組上的負電荷吸引,而被驅動置入電 •子絲板之色纽腔單福,進人色囊錄單摘帶正電荷有色粒 子’與已置入另異色帶負電荷之有色粒子電性相反,而形成相显色 之粒子相吸形賴距_著;取把置人帶減電荷助異色粒子 的電子紙基板組,即完成了相異電荷及相異色粒子置放於電子紙顯 不色囊空腔早70的製造。在置入相異色及相異帶電荷之粒子於色囊 _ 工腔單元之後就會進行影像掃_檢查各色囊空腔單元内,各显色 粒子的數量及佈列是否符合要求,合於規定條件的電子紙基板組, 就會進入隋性氣體腔室’進行透明面板之封裝,同時相異色之粒子 -置人色囊空腔單元的數量,為色囊空腔單元投影面積的32〜98%, 因此相異色粒子在色囊空腔單元内,有足夠的上下運動裕度間隙。 為使貴審查委員對本發明之製造方法特徵及其功效有更深一 層的認識與瞭解,兹舉可行之實施例並配合圖示詳細說明如下: 【實施方式】 圖^辭粒子結構顯示面板組1是由上蓋板u及基板组m及裝 在工腔單7〇 1〇5中的正電荷有色粒子⑽及負電荷有色粒子赠 所構成上盍板1A由透明板11〇及導電層1〇4組合而成,導電層 雨為可導電的透明材料,基板組1B由基板10卜導電層102、隔 肋103所,成,隔肋103為方矩形陣列佈列,形成色囊空腔單元 I吊色囊空腔單元1〇5的高度h大約在2〇〜4〇微米(油s)} P7/19 201140213 之間,寬度W大約在100〜300微米(#m)之間,色囊空腔單元 105之間距1>在12〇〜32〇微米(_)之間’該些尺寸關係受有色 粒子大小、填粉能力、佈線間距能力等等因素所影響。 圖2顯示粒子是顯示面板有不同的顏色驅動方式,在面板視端 都得以做出不同的顏色顯示。例如:在A區下方導電層通入正電 壓’則正電荷粒子靠在上面板110上内表面,顚示為正電荷粒子的 顏色;在B區下方導電層通入負電壓,則負電荷粒子靠在上面板201140213 VI. Description of the Invention: [Technical Field] The present invention relates to a particle type display device in which two kinds of phase-particles are placed in a color-changing color chamber of a display device Early sound device and "making method. [Prior Art] The Republic of China Invention Patent No. 13 (10) No. 2 is a display structure of a paper. The difference in coagulation is used as the electricity of the Republic of China, and the structure of the electrophoresis between the electrodes is shown. ^Methods of fine electrodes and the formation of thin film electric days on the 2010136〇5th film of the Republic of China, and the display layer of the fixed electronic paper support on the surface of the adhesive. Bulletin 2 (8) Wei's dispersion and the manufacturing method, the carbon black pigment for the electronic paper and the color sac of the structure 1', and the carbon black pigment is not placed on the electronic paper panel. _8489(8), __ by electrophoresis as ^==heart~, fine electrophoresis microcapsule structure is called 诵尔, _ _ electrophoresis structure as P3/19 201140213 Republic of China invention publication Le 7 coated on the substrate electrophoresis micro The method of the glue_display device; the device for placing the droplets of the valley liquid shows the position and size of the two colored particles in the cavity of the color capsule, and the wire can be finely charged with the latent image of the charged plate Control Na charge color = with 'employment. Because of the position and quantity of the electronic paper to display the color capsule on the photosensitive plate, the polarity of the visible invisible attraction of the related electronic paper is suppressed:;: the arrangement position is the same, and then by the same sex, the color capsule Cavity monofilament electro-optic color particle detection and wealth placement [invention content] In black and white particle type electronic paper and white (10) sub-division, the color surface of the cake is colored to control its image; in color particles The white color of the white ^ W color table in the 'Fin 4 group of color capsules, respectively, red and ochre, blue and white, general β A Α m ^ n A, color, black and white, the composition of each group , depending on the depth of the color state, there is a separate ratio of the configuration. The purpose of the different kind of wire is different from the charge of the second generation of the scorpion, and it can be used as a mechanism for the color change of the device. According to the fourth object of the present invention, the photosensitive plate for two transparent structures can be divided into positive and negative electric light-receiving photosensitive layers on a photosensitive plate, a transparent substrate and a conductive layer which is electrically connected to the surface of the P4/19 201140213, and a photosensitive layer The size of the image is matched to the size of the electronic paper display device; the positive image template includes a transparent structure of the positive image substrate and a positive image module of a defined size, the positive image is formed by a plurality of graphic symbols that are opaque, such that the positive image The width of the mold - for the electronic paper, the width w of the color capsule cavity unit is 40~70°/〇, for example, when the color capsule cavity unit width w=200 micrometers ((10)), the positive image width m=8〇 ~l4〇 micron (/zm). Therefore, the area ratio of the face of the image film to the electronic paper display cavity unit is about 16 to 49%; the size of the positive image module matches the size of the electronic paper display device; the distance P of each positive image mode and the electron The paper shows the same distance P between the color capsule cavity units; the group of negatively charged colored particles, including the clam shell, the polarity control connecting line connecting the inner conductive layer and the inner conductive layer, and the colored particles capable of carrying negative charges; a group of positively chargeable colored particles H, including a S shell, a polarity control connecting line connecting the inner conductive layer and the inner conductive layer, and a positively charged colored particle; the size of the E shell group is matched with the electronic paper display device size. The charged and L-sub-electrode of the present invention is placed on the display color capsule cavity unit of the electronic fiber display. The method is as follows: the positive image surface of the 'dark room + ' positive image template group is closely adhered to the positive charge type photosensitive plate group. 'The positive charge source provides the photosensitive layer of the photosensitive plate group with a positive charge; the uniform light source is illuminated by the positive image module' to make the photosensitive layer not exposed by the positive image mode, forming an electrical conductor, and releasing it from the ground. The charge, just like the position of the mask, will neatly retain the positive charge, forming a positive image of the positive charge; then aligning the negatively chargeable particles with the aligned positively charged photosensitive plate set, #在起起After the negatively charged colored particles and the negative charge, the 'same-sex repulsive relationship floats on the g shell towel, and the opposite sex attracts, and the colored particles are neatly arranged in the position of the positive charge latent image corresponding to the positive mode of the photosensitive plate group, and other negative _ P5/19 201140213 Colored particles ancestor-regenerate profit; the electronic 纟-shaped substrate _ in the corresponding position of the photosensitive plate group, so that each color capsule cavity unit is aligned below the negatively charged colored particles; Uniform light source switch, all photosensitive layer Light, so that all the electrical conductors of the photosensitive layer, the positive charges on the photosensitive layer are all released by the conductive ground wire; a negative voltage is applied to the conductive layer of the photosensitive plate, and the negatively charged colored particles are repelled; and the negatively charged The colored particles lose the attraction of the positive charge on the photosensitive plate group, and are driven into the color material element of the electronic paper substrate; the charged colored particles entering the human color cavity unit are mutually refraction in the cavity unit, And by the limitation of _, the distance between the exclusions is formed; then, the template group and the 贞 charge sightseeing plate group are not co-located, and the negative charge source provides the 贞 贞 贼 之 之 Μ Μ , , , The direction of the module is verbose, and the position of the photosensitive layer is not blocked by the positive image. The electric conductor is formed and released from the ground. The position of the mask is hidden, and the negative charge is reserved neatly. The latent image, the silk will be positively charged particles hidden and the neatly arranged negative charge of the photosensitive plate is recorded in the #起起; f positive charge colored particles are positively charged after the same-sex repels _ and Lai Cai, the opposite sex attracts , colored particles are neatly arranged on the photosensitive plate 'Positive image of the negative charge image position corresponding to the module, other positive charge colored particles with her material · towel; before - the completion of the placement of 贞 charge colored particles of the electronic wire group, in the 贞 翻 感 败 败The position of the color sac cavity is just below the positively charged colored particles, and the negative charge type photosensitive side is activated, and the fine fibers are all formed into electrical conductors. The negative charges on the first layer are all released from the conductive layer to the ground. The latent image disappears and cuts P6/19 201140213 The negative charge type photosensitive plate is applied with positive electricity, and the positively charged colored particles are repelled, while the positively charged colored particles lose the negative charge attraction on the photosensitive plate group, and are driven. Into the electricity and the color of the silk plate, the single color of the color, the color of the colored particles is opposite to that of the colored particles that have been placed in the opposite color, and the phase of the color is formed. The shape of the electron-paper substrate of the person with the charge-reducing heterochromatic particles is completed, that is, the dissimilar charge and the dissimilar color particles are placed in the electronic paper to form the cavity 70. After the dissimilar color and the different charged particles are placed in the color capsule _ working chamber unit, the image scanning is performed. _ Checking the color cavity particles in each color capsule cavity unit, whether the number of the color developing particles and the arrangement are in compliance with the requirements The condition of the electronic paper substrate set will enter the inert gas chamber 'for transparent panel packaging, and the number of different colored particles - the number of color chamber cavity units, the projected area of the color capsule cavity unit 32~98 %, so the dissimilar particles in the color capsule cavity unit have sufficient up and down motion margin gaps. In order to enable the reviewing committee to have a deeper understanding and understanding of the features and functions of the manufacturing method of the present invention, the embodiments which are feasible and the detailed description are as follows: [Embodiment] The particle structure display panel group 1 is The upper plate 1 and the substrate group m and the positively charged colored particles (10) and the negatively charged colored particles contained in the working chamber 7〇1〇5 are formed by the transparent plate 11〇 and the conductive layer 1〇4. The conductive layer rain is a conductive transparent material, the substrate group 1B is formed by the substrate 10, the conductive layer 102, the barrier ribs 103, and the barrier ribs 103 are arranged in a square rectangular array to form the color capsule cavity unit I. The height h of the color capsule cavity unit 1〇5 is approximately between 2〇~4〇micron (oil s)} P7/19 201140213, and the width W is between 100~300 micrometers (#m), the color capsule cavity The distance between cells 105 is between 1 gt and 32 〇 micrometers (_). These dimensional relationships are affected by factors such as colored particle size, powder filling ability, wiring pitch capability, and the like. Figure 2 shows that the particles are displayed in different color modes, and different color displays can be made at the visual end of the panel. For example, a positive voltage is applied to the conductive layer below the A region, and the positively charged particles are placed on the inner surface of the upper panel 110, which is shown as the color of the positively charged particles; when the conductive layer is under the negative voltage in the lower B region, the negatively charged particles are negatively charged. Leaning on the upper panel
11〇上内表面上,顯示為負電荷粒子的顏色,在E區為常態不控制 狀態,則顯示為灰色顏色。 圖3及圖4為本發明透明結構的可帶正電荷感光層的感光板組】, 分別由不導電之透明基板迎、透明正面導電層加、背面導電層 203及穿孔204及感光層205所組成,感光層2〇5是—縣導電體 材料’在光照射下由絶緣體變成導電體,在黑暗中不會導電為電的 絶緣體,感光層205的大小匹配於電子紙顯示裝置的尺寸; 圖5及圖5A顯示為正像模板組3 :透明結構的正像模基板則及 2寸大恤娜G2 ’ 峨絲複數圖形記 號構成’使正像模的寬度m為電子紙顯示色囊空腔單元奶内寬 度w的40〜7〇%’例如:色囊空腔單元寬度㈣⑻微米 寬度m’〜140微米Um)。因此,正像膜的面 積與电子_示色囊空腔單搞觀約為16〜49% ; 3 的佈=面積大小匹配於電子紙顯柯置的尺寸,各正像模搬的間 距P與電子紙顯示色囊空腔單元105之間距?相同; [S] P8/19 201140213 二_負電荷之有色粒子_,包括咖、内部導電 曰”内#導電層連接的極性控制連接線及承裝可帶 有色粒子31 ; ' 顯示可帶正電荷之有色粒视组Η,包括n殼咖、内部導 =02與内4導電層連接的極性控制連接線及承裝可帶正電荷 =、色粒子32,· ^殼_大小匹配於電子紙顯示裝置的尺寸。 面圖6顯示在暗室4中,正像模板組3的正像模302 船祕里感光板組2〇5密貼合著;圖7顯示正電荷源S的開關 開’ k供感光板組205之感光層均勾帶正電荷2〇6,·圖8顯 不由正像模組3方向點亮均勻光源組$,讓感 =蔽之位置感光’形成電導體’而由地釋出電荷,正像: 的位置207將整保留正電荷2〇7,形成正電荷之潛像; ,顯示將可帶負電荷之粒子驗9與已整齊佈列正電荷2〇7之感 先板纽2對正位置’靠在一起;圖10顯示帶負電荷有色粒子31 受負電荷源10後,嗎目斥_有色粒子則輸^殼中,星 性相吸,有色粒子3K)2則整齊佈列於感光板組2正像模地對岸 之正電荷浙潛像位置,其它負電荷有色粒子則丨則_ 懸於匣殼901中; & 圖11顯示將電子紙之空基板組聰置域光板組2之對库位置, 使各色囊空腔單元105對準於帶負電荷有色粒子删之_^:方. 圖i2顯示啟動感光板組2上方的均句光㈣開關·,感光層 挪全較光,使感光層全部形成電導體,感光層上的正電荷^ P9/19 201140213 全部由導電層到地線8被釋出;圖13顯示在感級組2之導電層 • 2加負輕7’相斥帶負電荷的有色粒子3刚;同_電荷的有 • 粒子3KH失核光板組上正電狀刻,而被驅動置入電子紙 土板之色囊空腔早凡1〇5内’成為進入色囊空腔單元的帶電荷有色 =子31()4;圖14及圖15_魏翻有色粒子顧因為同性相 佈=色囊空腔早兀105内’並受隔肋1〇3的侷限而形成排斥之間距 • =17顯示正像模板組3與負電荷型感光板組22密貼合著;圖18 室4 + _荷源7提供_型感光組22之感光層 205 ▼均勻負電荷2206 ; _ 由轉模組3方向點亮均勾光源組5,讓感光層2205未 模避^遮敝的位置感光,形成電導體,而由地8釋出電荷;正像 輕遮敝的位置2209,將萼赢徂囟g。 囝麻 貞故㈣,軸貞電荷之潛像; • 與__荷之感光 圖21顯示帶正電鳩粒子32受正 冤麼16後,同性相斥有色粒 色粒子伽則整齊佈列付^子懸於以又中,異性相吸,有 彳佈顺Μ她’正健崎叙貞電荷潛像 、匕正電荷有色粒子32G1則隨機相斥浮懸於匿殼中; 圖2顯=前-階段已完成放置負電荷有色粒子之電子紙基板組 色於負電荷型感光板組22之對… 電荷105對準於帶正電荷有色粒子3203之下方,啟動負 Π且22上方的均勻光源11開關贈,感光層22〇ϋ] Ρ 10/19 201140213 部受光,使感光層全部成電導體,感光層22〇5上的負電荷 導電層到地線被釋出,負電荷潛像消失; 圖24顯示在負電荷型感光板22上施加正電壓6,相斥帶正 $色粒子3203 ’同時帶正電荷的有色粒子失去感光板組上的負電 荷及引,而被驅動置入電子紙基板之色囊空腔單元内; 圖25、圖%及圖27顯示進入色囊空腔單元的帶正電荷有色粒子 4 ”已置入另異色帶負電荷之有色粒子31〇4電性相反,而妒 • 成相異色之粒子間距排列著;取出已置入帶相4電荷及相異色粒^ 的電子紙基板组1聰,即完成了相異電荷及相異色粒子置放於電 子紙顯示色囊空腔單元1〇5的製造。在置入相異色及相#帶電荷之 粒子於色囊空腔單元之後,就會進行影像掃瞎檢查各空腔單元内, 各異色粒子的數量及佈列是否符合要求,合於規定條件的電子紙基 板組,就會進入隋性氣體腔室,進行透明面板之封裝,同時相異色 之粒子置人色囊空腔單元的數量,為色囊空腔單元投影面積的η # 〜’因此相異色粒子在色囊雜單摘’有找的上下運動裕 度間隙。 惟以上所勒容,僅為本發明之實補,#不朗以限定本發明 可實施之範圍’凡熟悉於本技#人士,所_可做變化與修飾,皆應 視為不悻離本發明之實質内容。 【圖示簡單說明】 圖1顯示習知粒子結構顯示面板之剖面示意圖。 圖2顯不習知粒子結構顯示面板,在不同驅動控制模式下有色粒子^ P 11/19 201140213 動狀態,以顯示不同顏色之示意圖。 圖3為本發明實施型態感光板組之剖面概略圖。 圖4為圖3本發明實施型態部分感光板組之上投影視圖。 圖5為本發明實施型態部份正像模板組之上視圖。 圖5A為本發明實施型態® 5部分正像模板組之側視圖。 圖6為本發賴造綠在暗室中,正賴板組縣歧組密貼合之實 施型態概略剖面圖。 圖7為本發明製造方法在暗室中’由正電觸、提倾光板組帶正電荷 之實施型態概略剖面圖。 圖 :發明製造方法她中’由·組方㈣均勻光源,讓 感姑未被正像模遮蔽之位職光,形成導體,而由地釋出電荷, 正像模遮蔽之位置保留正電荷潛像之實施型態概略剖面圖。 圖=發明製造方法在暗室中,可帶負電荷之有色粒子_已整 ^佈列正電荷之感光板組對正位置靠在—起之實_態概略剖面 圖川為本發明製造方法在暗室中,帶負電有色粒子受負電 係而㈣於g殼中’又異性相吸’有色粒子則整齊佈列於 感先板組正像模對應之正電荷位置,其 相斥浮懸於ϋ殼中之實施型態概略剖面圖。7 ^子則隨機 圖11 在㈣’峨之基板嶋感光板組之對 ,荷槪子之下方的實 P 12/19 201140213 圖為本發明衣造方法在暗室中,啟動感光板組上方的均句光源開 關使感光層形成電導體,正電荷由導電層到地線釋出之實施型 態概略剖面圖。 圖13=本發日月製造方法在感電板之導電層施加負電壓,同時,帶負電 的有色粒子失去感光板組上正電荷之吸引,而被驅動置入電子 、’氏基板之色囊空腔單元内的實施型態概略剖面圖。 圖Η進人雜單元帶負電射錄子,因為同性树於空腔單元内, • 域排斥之間距佈列,由上投影之示意圖。 圖15為圖14之Α-Α剖面視圖。 圖16為本發明實施型態可帶負電荷感光層之感光板組剖面圖。 圖為本發明製造方法在暗室中,正像模板組與感光板組密贴合之實 施型態概略剖面圖。 圖18為本發明製造方法在暗室中,由負電荷源提供感光板組帶負電荷 之實施型態概略剖面圖。 圖19為本發贿造方法在暗室中,感光她受光賴亮,讓感光膜未 被正像模遮蔽之位置感光,形成導體,而由地釋出電荷,正像模 遮蔽位置’保留負電荷潛像之實施型態概略剖面圖。 圖20為本發明製造料在暗室中,可帶正電荷之粒子厘組,盘整齊佈 列負電荷之感光板組對正位置靠在—起之實施型態概略剖面圖。 s] 圖21為本發明製造方法在暗室巾,帶正電躲子受正電贿,里性相 吸粒子則整齊佈列於感光板組正像模對應之負電荷位置,其它正 電何粒子,則隨機相斥浮懸於昆殼中之實施鶴概略剖面圖。[ P 13/19 201140213 圖22為本發明製造方法在暗室中’電子紙已承受負電荷粒子之基板 組’置於感光板組之對應位置,使各色囊空腔單元對準於帶正電 荷粒子之下方之實施型態概略剖面圖。 圖23為本發明製造方法在暗室中,啟動光源開關,使感光層形成電導 體,負電荷由導電層到地線被釋出之實施型態概略剖面圖。 圖24為本發明製造方法在感光板組之導電層施加正電壓,同時帶正電 荷粒子失去感光層上負電荷之吸引,而被驅動落入已承裝負電荷 回粒子的基板組空腔單元内之實施型態概略剖面圖。 、可 Θ 5為洛人空腔単朗之帶正負電荷之粒子,因為同性相斥、異性相 吸’因此形成間隔等間距佈列之空腔單元上投影示意圖。、 ^為己承裝正負電荷粒子之多組空腔單元之上投影示意圖。 為圖26之Β-Β剖面示意視圖。On the inner surface of the 11 〇, the color of the negatively charged particles is displayed, and in the E zone, the normal state is not controlled, and the color is displayed as a gray color. 3 and FIG. 4 are the photosensitive plate groups of the transparent structure of the positively chargeable photosensitive layer of the present invention, which are respectively covered by a non-conductive transparent substrate, a transparent front conductive layer, a back conductive layer 203, a through hole 204, and a photosensitive layer 205. The photosensitive layer 2〇5 is an insulator of the county electrical conductor material which is changed from an insulator to an electric conductor under light irradiation, and is not electrically conductive in the dark, and the size of the photosensitive layer 205 is matched with the size of the electronic paper display device. Fig. 5 and Fig. 5A show the positive image template group 3: the transparent structure of the positive image substrate and the 2 inch tatami G2 ' 峨 silk plural graphic mark constituting 'the width of the positive image mode m is the electronic paper display color sac 40~7〇% of the width w of the cavity unit milk, for example: color capsule cavity unit width (four) (8) micrometer width m'~140 micrometers Um). Therefore, the area of the positive film and the electron cavity of the color capsule are about 16 to 49%; the cloth size of 3 is matched with the size of the electronic paper, and the pitch P of each positive image is moved. Is the electronic paper showing the distance between the color capsule cavity units 105? Same; [S] P8/19 201140213 Two negatively charged colored particles _, including coffee, internal conductive 曰" inside # conductive layer connected polarity control connection line and can carry colored particles 31; ' display can be positively charged The colored granules are Η, including the n-shell coffee, the inner control =02 and the inner 4 conductive layer connected to the polarity control connection line and the support can be positively charged =, the color particles 32, · _ shell _ size matching the electronic paper display The size of the device. Fig. 6 shows that in the dark room 4, the positive image module 302 of the template group 3 is closely attached to the photosensitive plate group 2〇5; FIG. 7 shows that the positive charge source S is turned on and off. The photosensitive layer of the photosensitive plate group 205 is hooked with a positive electric charge 2〇6, and FIG. 8 is not illuminated by the positive image module 3 direction to illuminate the uniform light source group $, so that the position of the sensed cover is photosensitive 'forming an electric conductor' and is released from the ground. The discharge charge, the position 207 of the positive image: will retain the positive charge 2〇7, forming a positive image of the positive charge; , showing the positively charged particle 9 and the positively packed positive charge 2〇7 New 2 is aligned with the positive position; Figure 10 shows that the negatively charged colored particles 31 are negatively charged by the source 10, Then, in the shell, the star attracts, and the colored particles 3K) 2 are arranged neatly in the position of the positive charge of the positive plate on the opposite side of the photosensitive plate group 2, and other negatively charged colored particles are _ 悬 悬 悬In the case 901; < Figure 11 shows the position of the library of the empty substrate group of the electronic paper set to the optical plate group 2, so that each color capsule cavity unit 105 is aligned with the negatively charged colored particles. The i2 display starts the uniform light (4) switch above the photosensitive plate group 2. The photosensitive layer moves all the light, so that the photosensitive layer forms all the electrical conductors, and the positive charge on the photosensitive layer ^ P9/19 201140213 all from the conductive layer to the ground line 8 Is released; Figure 13 shows the conductive layer in the sense group 2 • 2 plus negative light 7' repulsion with negatively charged colored particles 3 just; the same _ charged with • particles 3KH lost nucleus group on the positive electric charge The color capsule cavity driven into the electronic paper board is as early as 1〇5, and becomes the charged colored color = sub 31() 4; Fig. 14 and Fig. 15_ Wei turned colored particles Gu because of homosexuality = color capsule cavity early in the 105' and limited by the barrier ribs 1〇3 to form a repulsive distance • = 17 shows the positive image template group 3 and The charge type photosensitive plate group 22 is closely adhered; FIG. 18 chamber 4 + _ source 7 provides the photosensitive layer 205 of the _ type photosensitive group 22 ▼ uniform negative charge 2206; _ illuminates the light source group 5 by the direction of the rotating module 3 The photosensitive layer 2205 is not exposed to the position of the concealer to form an electric conductor, and the electric charge is released by the ground 8; just like the position of the light concealer 2209, it will win 徂囟g. 囝麻贞故(四), the axis The latent image of the 贞 charge; • The sensitization of the __ charge Figure 21 shows that the positively charged 鸠 particles 32 are positively 冤16, the same-sex repels the colored particles, the gamma is neatly arranged, and the hang is in the middle, The opposite sex attracts, and there is a Μ布顺Μ her 'Zheng Jianqi 贞 贞 贞 贞 贞 匕 匕 匕 匕 匕 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 32 The electronic paper substrate of the particle is colored in the negative charge type photosensitive plate group 22. The charge 105 is aligned under the positively charged colored particle 3203, and the negative light source 11 is turned on and the uniform light source 11 above the 22 is turned on and off, and the photosensitive layer 22 is turned on. ] Ρ 10/19 201140213 Part of the light is received, so that the photosensitive layer is all formed into an electrical conductor, and the negatively charged conductive layer on the photosensitive layer 22〇5 is grounded. Released, the negative charge latent image disappears; FIG. 24 shows that a positive voltage 6 is applied to the negative charge type photosensitive plate 22, and the positively charged colored particles 3203' simultaneously lose the negative charge on the photosensitive plate group and And is driven into the color capsule cavity unit of the electronic paper substrate; FIG. 25, FIG. 27 and FIG. 27 show that the positively charged colored particles entering the color capsule cavity unit 4 have been placed in another negatively charged negative charge. The colored particles 31〇4 are electrically opposite, and the particles of the phased and discolored particles are arranged at intervals; the electronic paper substrate group 1 that has been charged with the phase 4 charge and the dissimilar color particles ^ is removed, and the dissimilar charge and phase are completed. The heterochromatic particles are placed on the electronic paper to display the manufacture of the color capsule cavity unit 1〇5. After placing the dissimilar color and phase-charged particles in the color capsule cavity unit, an image broom is performed to inspect each cavity unit, and the number and arrangement of the different colored particles meet the requirements, and the conditions are met. The electronic paper substrate group enters the inert gas chamber and is encapsulated by the transparent panel, and the number of the different colored particles is placed in the color capsule cavity unit, which is the η # 〜' of the projected area of the color capsule cavity unit. The heterochromatic particles are in the color capsules. However, the above is only the actual supplement of the present invention, #不朗 to limit the scope of the invention can be implemented 'everyone familiar with this technology #, can be changed and modified, should be regarded as not worthy of this The substance of the invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic cross-sectional view showing a conventional particle structure display panel. Figure 2 shows a schematic diagram of a particle structure display panel in which the colored particles are in different driving control modes to display different colors. Fig. 3 is a schematic cross-sectional view showing a photosensitive plate assembly of an embodiment of the present invention. Figure 4 is a top plan view of the portion of the photosensitive plate assembly of the embodiment of the present invention. Figure 5 is a top plan view of a partial positive image template set of an embodiment of the present invention. Figure 5A is a side elevational view of an embodiment of the present invention 5 partial positive template set. Fig. 6 is a schematic cross-sectional view showing the implementation of the greening in the dark room in the dark room. Fig. 7 is a schematic cross-sectional view showing an embodiment in which a manufacturing method of the present invention is positively charged by a positive electric contact and a tilting plate group in a dark room. Figure: Inventive manufacturing method in her 'by the group side (four) uniform light source, so that the sense of aunt is not masked by the positive image of the position of the light, forming a conductor, and the release of charge from the ground, just like the position of the mask to retain the positive charge potential A schematic cross-sectional view of the implementation type. Figure = Inventive manufacturing method in a dark room, a negatively chargeable colored particle _ has been positively charged, the positive plate position of the photosensitive plate group is aligned with the positive position, the schematic view is the manufacturing method of the invention in the dark room In the negatively charged colored particles, the negatively charged system is used. (4) In the g shell, the 'isotropic absorption' colored particles are arranged neatly in the positive charge position corresponding to the positive mode of the first plate group, and the repulsion is suspended in the clam shell. A schematic cross-sectional view of the implementation. 7 ^ 子 random Figure 11 In the (four) '峨 substrate 嶋 photosensitive plate pair, the real P 12/19 201140213 below the lotus seeds, the figure is the method of making the invention in the dark room, starting above the photosensitive plate set The schematic light source switch makes the photosensitive layer form an electrical conductor, and the positive charge is discharged from the conductive layer to the ground line. Figure 13: The manufacturing method of the present invention applies a negative voltage to the conductive layer of the galvanic plate. At the same time, the negatively charged colored particles lose the attraction of the positive charge on the photographic plate group, and are driven into the electron, the color sac of the 'substrate. A schematic cross-sectional view of an embodiment of the cavity unit. Figure Η 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人Figure 15 is a cross-sectional view of the Α-Α of Figure 14. Figure 16 is a cross-sectional view showing a photosensitive plate assembly of a negatively chargeable photosensitive layer according to an embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic cross-sectional view showing an embodiment of a manufacturing method of the present invention in which a positive image template group and a photosensitive plate group are adhered to each other in a dark room. Figure 18 is a schematic cross-sectional view showing an embodiment in which a photosensitive resin group is negatively charged by a negative charge source in a dark room in the manufacturing method of the present invention. Figure 19 shows that the bribery method in the dark room is sensitive to the light, and the photosensitive film is not exposed to the position of the positive image mask to form a conductor, and the charge is released from the ground, and the image is shielded to retain the negative charge. A schematic cross-sectional view of the implementation of the latent image. Fig. 20 is a schematic cross-sectional view showing the embodiment in which the photosensitive material of the positive-charged photosensitive sheet group is aligned with the positive position in the dark room. s] Fig. 21 is a manufacturing method of the present invention in a dark room towel, with positive electric escaping being subjected to positive bribery, and the absorbing particles of the neutral phase are arranged neatly in the negative charge position corresponding to the positive mode of the photosensitive plate group, and other positively charged particles , the random cross-section of the implementation crane that is suspended in the Kunming shell. [P 13/19 201140213 Figure 22 is a manufacturing method of the present invention in a dark room where the 'substrate group of electron paper having been subjected to negatively charged particles' is placed at a corresponding position of the photosensitive plate group, and the color cavity unit is aligned with the positively charged particles. A schematic cross-sectional view of the implementation form below. Figure 23 is a schematic cross-sectional view showing the embodiment of the manufacturing method of the present invention in which a light source switch is activated in a dark room to form an electrically conductive layer, and a negative charge is discharged from the conductive layer to the ground. Figure 24 is a manufacturing method of the present invention, in which a positive voltage is applied to a conductive layer of a photosensitive plate group, and positively charged particles lose the attraction of a negative charge on the photosensitive layer, and are driven to fall into a substrate group cavity unit that has been loaded with negative charge back particles. A schematic cross-sectional view of the implementation type within.可 5 is a positive and negative charge of the Luo people cavity, because the same-sex repellent, the opposite-sex attracts, thus forming a schematic diagram of the projection on the cavity unit arranged at equal intervals. , ^ is a schematic diagram of the projection above the multiple sets of cavity units that are loaded with positive and negative charged particles. Figure 26 is a schematic view of the Β-Β section.
Ρ 14/19 201140213 【圖示中主要元件符號說明】 1. 粒子結構顯示面板剖面示意圖 1A上蓋板組 1B基板組 1B02已承裝負電荷粒子之基板組 1B03帶相異電荷及相異有色粒子的電子紙基板組 101基板 102導電層 103隔肋 104透明導電層 105色囊空腔單元 108正電荷有色粒子 2. 可帶正電荷感光層之感光板組 201透明基板 202正面導電層 203背面導電層 204穿孔 205感光層 206感光板上帶的正電荷 207感光板上指定位置排列的正電荷潛像 3. 透明正像模板組 301透明基板 P 15/19 201140213 302正像模 4.暗室 - 5.光源組 - 6.正電荷源 601開關 7. 負電何源 8. 接地 φ 9.可帶負電荷有色粒子匣組 901匣殼 902導電層 10. 負電荷源 11. 光源組 12. 正電荷源 13. 負電荷源 φ 14.接地 15. 可帶正電荷之有色粒子匣組 1501匣殼 1502導電層 16. 正電荷源 ' 22.可帶負電荷感光層之感光板組 • 2201透明基板 2202正面導電層 P 16/19 201140213 2203背面導電層 2204穿孔 • 2205感光層 2206感光板上帶的負電荷 22〇9感光板上指定位置排列的負電荷潛像 31_可帶負電荷之有色粒子 負電荷有色粒子,雜互相排斥,賴浮懸於匡殼中 • 選帶負電荷有色粒子,異性相吸附著於感光板整齊排列之 正電荷位置 3103帶負電荷整齊佈列的有色粒子 3104帶負電荷之有色粒子 32.可帶正電荷之有色粒子 3201帶正電荷有色粒子,同性相斥,隨機浮懸於£殼中 3202帶正電荷有色粒子,異性相吸,附著於感光板整齊排列之 φ 負電荷位置 32〇3帶正電荷整齊佈列的有色粒子 遞落入空腔單元内之帶正電荷之有色粒子 P 17/19Ρ 14/19 201140213 [Explanation of main component symbols in the illustration] 1. Schematic diagram of particle structure display panel 1A Upper cover group 1B Substrate group 1B02 Substrate group 1B03 with negatively charged particles with dissimilar charge and dissimilar colored particles Electronic paper substrate set 101 substrate 102 conductive layer 103 rib 104 transparent conductive layer 105 color capsule cavity unit 108 positively charged colored particles 2. photosensitive plate group 201 with positive charge photosensitive layer transparent substrate 202 front conductive layer 203 back conductive Layer 204 perforation 205 photosensitive layer 206 positive charge on the photosensitive plate 207 positive charge latent image arranged at a specified position on the photosensitive plate 3. transparent positive image template group 301 transparent substrate P 15/19 201140213 302 positive image mode 4. dark room - 5 Light source group - 6. Positive charge source 601 switch 7. Negative charge source 8. Ground φ 9. Negatively chargeable colored particles 匣 Group 901 匣 902 conductive layer 10. Negative charge source 11. Light source group 12. Positive charge source 13. Negative charge source φ 14. Ground 15. Can be positively charged colored particles 匣 group 1501 匣 shell 1502 conductive layer 16. Positive charge source ' 22. Photosensitive plate set with negative charge photosensitive layer • 2201 transparent substrate 2202 front Conductive layer P 16/19 2 01140213 2203 back conductive layer 2204 perforated • 2205 photosensitive layer 2206 negative charge on the photosensitive plate 22〇9 negative charge latent image arranged at the specified position on the photosensitive plate 31_ negatively charged colored particles negatively charged colored particles, mutually exclusive Laifu is suspended in the clam shell. • Negatively charged colored particles are selected. The opposite phase is attached to the positively charged position of the photosensitive plate. 3103 Negatively charged colored particles are arranged. 3104 Negatively charged colored particles 32. Positively charged colored particles 3201 with positively charged colored particles, homosexually repulsive, randomly suspended in the shell of 3202 with positively charged colored particles, oppositely attracted, attached to the photosensitive plate neatly arranged φ negative charge position 32〇3 with positive Positively charged colored particles P 17/19 with colored particles arranged in a neatly arranged charge