554380 A7 B7 五、發明説明() 發明領域: (請先閲讀背面之注意事項再填寫本頁) 本發明係有關於一種電漿平面顯示器(Plasrna Display Panel,PDP),且特別是有關於一種電漿平面顯示 器之阻隔壁結構。 發明背景: 電漿平面顯示器(P D P)依照電壓驅動方式,簡單分為 直流放電型(DC型)與交流放電型(Ac型)兩種。請參照第1 圖,在傳統交流放電型電漿平面顯示器之製作技術中,主 要係在玻璃基板1 1、1 2上製作不同作用層,再將兩者之周 邊封合’並於其間之放電單元中,封入一定比例之混合氣 經濟部智慧財產局員工消費合作社印製 在第1圖中,於前基板11之内側依序佈設有複數條 平行之透明電極1 1 1、辅助(bus)電極112,以及誘電層113 與保護層1 14。對應之背基板12上則佈設有複數條平行之 定址(address)電極121,複數條平行排列之阻隔壁122,以 及螢光體123與誘電體124。上述之前基板丨丨J^之透明電 極1 1 1與背基板1 2上之定址電極丨2丨相互垂直,其交會處 構成一個放電單元,在施加電壓於特定之敌電單元時,對 應位置之誘電層113、124於對應之放電單元内放電,誘導 螢光體123放射出色光。 第2圖繪示第i圖之剖面結構示意圖。請同時參照 2 本紙張尺度適用中國國家標準(CNS)A4規格(210X 297公釐) 554380 層1 24表面,總共三個面,造成每個放電單元1 3内之 經濟部智慧財產局員工消費合作社印1 A7 B7 五、發明説明() 第1_圖&與第2圖,在傳統交流放電型電製平面顯示器1〇 中,一般先在前基板丨丨内側表面形成複數條彼此間隔且水 平排列之透明電極1 1 1,在於透明電極π 1上形成輔助電 極,藉以降低透明電極丨丨丨之線阻抗。目前技術每個 放電單7L 13中常使用三個電極,包括前基板Η上相鄰之 一平〃丁透明電極丨丨丨(χ電極與γ電極),以及背基板1 2對 應位置上之定址電極1 2 1,形成三電極結構。待施加電壓 於上it電極時,令其誘電層113、124於對應放電單元13 内進行放電,使封入之混合氣體,因放電而產生紫外光 (uv),再藉由uv光激發放電單元丨3處所塗佈之螢光體 123 ’令紅色(R)、綠色(G)、藍色(B)等三色螢光粉能產生可 見光’進而顯示影像。 在傳統父流放電型電漿平面顯示器1 〇中,阻隔壁丨2 2 之形狀係為直條狀,平行排列於背基板1 2上,而定址電極 1 2 1係設於兩條相鄰阻隔壁丨22之間的誘電層丨24底部, 與兩側相鄰之阻隔壁丨22組成放電空間! 3。在此結構中 螢光體1 23只能塗佈在阻隔壁丨22之側壁,以及底部# 一 α讀電 體1 2 3之塗佈面積較小,造成電漿平面顯示器1 〇之發& 率過低。 請參照第3圖,在傳統交流放電型電漿平面顯來 10之結構中,由於兩個相鄰之放電單元! 3間,必 、1呆 適當之距離d,以避免非放電單元13a發生誤放電之情和 然而,過大之非放電單元1 3 a,雖可避免發生誤放電文 本紙張尺度適用中國國家標準(CNS)A4規格(210Χ 297公爱) 器 轉 ..............0^.........、一叮......... (請先閱讀背面之注意事項再塡寫本頁) 554380 A7 ΒΊ 五 經濟部智慧財產局員工消費合作社印製 發明説明() 事,但卻易導致放電單元1 3過小(開口率過小),而影響發 光效率。相對地,較小之非放電單元1 3 a雖可提供較大之 放電空間1 3,獲得較佳之發光效率,但卻易造成誤放電之 情形,而且將會對相鄰之放電單元造成不良之影響。 此外,在兩個相鄰之放電區A與非放電區B之間, 旅無適當之間隔,故極易於非放電區 B產生誤放電之情 事。為解決非放電區B產生誤放電之情事,故傳統上可對 非放電區B進行額外之加工(黑紋)處理,利用黑紋遮蔽非 放電區B所產生之亮光,來提昇傳統電漿平面顯示器1〇 之亮度對比,但是如此一來又必須增加額外的製作費用。 傳統電漿平面顯示器之設計及製造者,為解決前述 問題,分別設計及發展出不同之阻隔壁結構,如將阻隔壁 之結構設計成袼子狀之密封結構,如第四圖所示,亦即將 非放電區B與放電區A間亦以阻隔壁加以隔開,如此可令 放電單元變成封閉空間,可以有效避免放電單元之間的非 放電單元發生誤放電之問題,且螢光體可以塗佈在放電單 元之五個面(前、後、左、右與底面),有效增加螢光體之 塗佈面積,提昇發光效率。然而,在電漿平面顯示器之上 下玻璃基板貼合後,會將兩玻璃基板中間抽真空並封入氣 體,但由於上下兩基板間之緊密貼合,使得每個放電翠元 呈現封閉空間,造成在柚真空與封入氣體時須耗費較長之 製成時間,為了避免如此,上破璃基板必須經過特殊嗖叶, 以造成上下玻璃基板適度的高度差異,才不鼓 没盎共不+致使封閉的放 電空間造成製程中抽氣及氣體封入的困難,作 Ί一如此增加了 本紙張尺度適用中國_家標準(CNS)A4規格(210x297公釐) ..............0^.........、耵.........岭· (請先閲讀背面之注意事項再填寫本頁) 554380 經濟部智慧財產局員工消費合作社印製 A7 B7 五、發明説明() 上玻璃基板的製程,因此急需一種新結構以改善上述之問 題。 發明目的及概沭: #於上述之發明背景中,傳統的電漿平面顯示器之 阻隔壁結構,容易發生誤放電的問題’發光效能不佳,或 是不易進行抽真空。因此,本發明提供一種電漿平面顯示 器之阻隔壁結構,可以解決誤放電問題,且可提高發光效 能。 本發明之一目的在提供一種阻隔壁結構,將水平方 向排列之阻隔壁設計成不等寬之結構,使阻隔壁於燒成時 會有不同的收縮量而產生高度差,如此可於上下基板進行 封合時,於上基板與阻隔壁間產生氣體通道以利氣體在結 構單元内流動,提供抽氣及氣體封入之通道。 本發明之另一目的在提供一種阻隔壁結構,在氣體 放電時可有效的將能量拘束在放電空間内,有利於放電效 率的提升,亦可避免對相鄰的放電單元造成不當的誘放 電,使得鄰近的結構單元受到影響,提昇每個放電空間的 發光亮度。 根據本發明之結構,於兩相鄰水平方向排列之不等 寬阻隔壁中,以垂直方向排列之阻隔壁分隔出複數個放電 空間,利用不等寬之阻隔壁於燒成時會有不同的收縮量而 產生高度差,於上下基板進行封合時,於上基板與阻隔壁 5 本紙張尺度適用中國國家標準(CNS)A4規格(210X 297公釐) — — — — — — — — — — ^ — — — — — — — — — (請先閲讀背面之注意事項再填寫本頁) 554380 A7 B7 五、發明説明() 間產生氣體通道,連通各個放電空間連,以利氣體流通。 且本發明近似密閉之放電空間,可於氣體放電時有效地網 旎I拘束在放電空間内,有利於放電效率的提昇。且與傳 統常條狀阻隔壁相比,本發明之阻隔壁可使螢光體的塗佈 面積增加到9個面,藉此增加每個放電單元内螢光體有效 的塗佈面積,如此可有效地提高螢光體的發光效率。 遏-式簡單說明: 經濟部智慧財產局員工消費合作社印製 本發明的較佳實施例將於往後之說明文字中辅以下 列圖形做更詳細的闡述,其中: 第1圖繪示一種傳統電漿平面顯示器之前基板與背 基板之組立示意圖。 第2圖繪示一種傳統電激平面顯示器之剖面結構示意圖。 第3 iM會示傳統電焚平面顯示$中非放電區之誤放 電之狀態示意圖。第4圖I會示傳統電聚平面顯示器中形成格子狀放電 空間之示意圖。第5圖緣示根據本發明之一較佳實施例,於電聚平 面顯不器’所設計之阻隔壁結構之立體示意圖。 第6圖緣示根據本發明之-較佳實施例,於背基板 内側表面上所設計之阻隔壁結構之上视圖。 第7圖繪示根據本發明之—較佳實施例之阻隔堂配 (請先閲讀背面之注意事項再塡寫本頁) 、tr. 本紙張尺度適用中國國家標準(CNS)A4規格(210X297公楚) 554380 A7 B7 五、發明説明() 合前基板之X與Y電極之上視圖。 (請先閱讀背面之注意事項再填寫本頁) 第8圖繪示根據本發明之一較佳實施例,從第7圖 ZZ ’平面看入之之剖面結構示意圖。 凰號對照說明: ί 〇電漿平面顯示器 11 月1J基板 12 背基板 111 透明電極 1 12 輔助電極 113 誘電體 1 14 保護層 121 定址電極 122 阻隔壁 123 螢光體 124 誘電體 13 放電單元 13a 非放電單元 A 放電區 B 非放電區 3 1 背基板 32 前基板 3 11 定址電極 321 透明電極 322 輔助電極 33 誘電層 34 阻隔壁 3 4a 寬結構 34b 窄結構 40阻隔壁 41 放電空間 42非放電區 44 氣體通道 經濟部智慧財產局員工消費合作社印製 發明詳細說明: 本紙張尺度適用中國國家標準(CNS)A4規格(210Χ 297公釐) 554380 五、發明説明( 在不限制本發明之精神及應用範圍之下,以下即以 一實施例,介紹本發明之實施;熟悉此領域技藝者,在瞭 解本發明之精神後,當可應用本發明之方法於各種不同之 電漿平面顯示器上,藉由本發明的阻隔壁設計,可增加螢 光粉塗佈面積,且本發明於水平方向之阻隔壁設計上,採 用不等寬之設計,利用不等寬之阻隔壁結構設計於燒成 時,會有不同的收縮量,造成高度差以利抽真空及氣體封 入製程,因此本發明之阻隔壁結構,可在不增加抽真空與 封入氣體之時間下,不僅解決誤放電問題,且能提高發光 效能。本發明之應用當不僅限於以下所述之最佳實施例。 本發明提供一種電漿平面顯示器之阻隔壁結構,本 發明係將阻隔壁設計成隔子狀,不僅可增加螢光粉塗佈面 積,由傳統阻隔壁為長條結構的3個面,增加到9個面, 大幅提高螢光體塗佈面積,提高發光效率及亮度且可令放 電單元變成封閉空間,可以有效避免放電單元之間的非放 電單元發生誤放電之問題。且本發明在水平方向之阻隔壁 係採用不等寬之設計,於每個格子狀放電單元之四個角落 佈建較寬之阻隔壁,利用佈建時不等寬之阻隔壁結構於燒 成時會有不同的收縮量,以造成上下玻璃基板適度的高度 差異,才不致使封閉的放電空間造成製程中柚氣及氣體封 入的困難,且不需改變原有上玻璃基板之設計,無需增加 額外製程成本,且水平阻隔壁寬度較寬之部份有助於結構 強度的強化。另一方面,本發明之隔牆設計在氣體放電時 可有效的將能量拘束在放電空間内,有利於放電效率的提 本紙張尺度適用中國國家標準(CNS)A4規格(2丨0x297公釐)554380 A7 B7 V. Description of the invention () Field of invention: (Please read the notes on the back before filling this page) The present invention relates to a plasma flat panel display (Plasrna Display Panel, PDP), and particularly relates to a plasma display panel (PDP) Barrier wall structure of flat panel display. Background of the Invention: Plasma flat panel displays (P D P) are simply divided into two types: DC discharge type (DC type) and AC discharge type (Ac type) according to the voltage driving method. Please refer to Figure 1. In the manufacturing technology of the traditional AC discharge plasma flat panel display, it is mainly to make different active layers on the glass substrates 11 and 12, and then seal the periphery of the two and discharge between them. In the unit, a certain percentage of mixed gas is printed by the consumer cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs, printed in the first figure, and a plurality of parallel transparent electrodes 1 1 1 are arranged inside the front substrate 11 in sequence. Auxiliary (bus) electrodes 112, and the electromotive layer 113 and the protective layer 114. The corresponding back substrate 12 is provided with a plurality of parallel address electrodes 121, a plurality of barrier walls 122 arranged in parallel, and a phosphor 123 and an electromotive body 124. The transparent electrodes 1 1 1 of the above substrate 丨 丨 J ^ and the address electrodes 丨 2 丨 on the back substrate 12 are perpendicular to each other. The intersection of them constitutes a discharge cell. When a voltage is applied to a specific enemy unit, the corresponding position The electromotive layers 113 and 124 are discharged in the corresponding discharge cells to induce the phosphor 123 to emit excellent light. Fig. 2 is a schematic cross-sectional structure diagram of Fig. I. Please also refer to 2 This paper size applies Chinese National Standard (CNS) A4 specification (210X 297 mm) 554380 layer 1 24 surface, a total of three surfaces, resulting in the consumer co-operatives of the Intellectual Property Bureau of the Ministry of Economic Affairs within each discharge unit 13 Imprint 1 A7 B7 V. Description of the Invention (1) Figures 1 and 2 and 2, in the conventional AC discharge type electric flat display 10, generally, a plurality of spaces are formed on the inner surface of the front substrate and spaced horizontally. The arranged transparent electrodes 1 1 1 form auxiliary electrodes on the transparent electrode π 1 to reduce the line impedance of the transparent electrodes 丨 丨 丨. In the current technology, three electrodes are usually used in each discharge sheet 7L 13, including one adjacent flat electrode on the front substrate (the X electrode and the γ electrode), and the address electrode 1 at the corresponding position on the back substrate 1 2 2 1. Form a three-electrode structure. When a voltage is applied to the upper it electrode, the induced layers 113 and 124 are discharged in the corresponding discharge unit 13 so that the sealed mixed gas generates ultraviolet light (uv) due to the discharge, and then the discharge unit is excited by the uv light. The phosphors 123 coated at three places "make three-color phosphors such as red (R), green (G), and blue (B) produce visible light", and then display images. In the conventional parental discharge type plasma flat-panel display 10, the shape of the barrier wall 丨 2 2 is a straight bar, which is arranged in parallel on the back substrate 12, and the address electrodes 1 2 1 are provided on two adjacent barriers. At the bottom of the induction layer 丨 24 between the walls 丨 22, the barrier walls 丨 22 adjacent to both sides constitute a discharge space! 3. In this structure, the phosphor 1 23 can only be coated on the side wall of the barrier wall 22 and the coating area of the bottom # ααreader 1 2 3 is small, resulting in the development of the plasma flat display 10. The rate is too low. Please refer to Figure 3. In the structure of the conventional AC discharge plasma plane display, there are two adjacent discharge cells! 3, must, 1 stay an appropriate distance d, to avoid the occurrence of mis-discharge of the non-discharge unit 13a and, however, an excessively large non-discharge unit 1 3 a, although the occurrence of mis-discharge can be avoided ) A4 size (210 × 297 public love) device turn .............. 0 ^ ........., a bite ......... (Please (Please read the precautions on the back before writing this page) 554380 A7 ΒΊ 5 The Intellectual Property Bureau of the Ministry of Economic Affairs printed a description of the invention (), but it is easy to cause the discharge unit 13 to be too small (the opening rate is too small), which affects the light emission. effectiveness. In contrast, although the smaller non-discharge cell 1 3 a can provide a larger discharge space 1 3 and obtain better luminous efficiency, it is easy to cause a misdischarge situation and will cause a bad effect on the adjacent discharge cells. influences. In addition, there is no proper interval between two adjacent discharge areas A and non-discharge areas B, so it is extremely easy for erroneous discharges to occur in non-discharge areas B. In order to solve the problem of false discharge in non-discharge area B, traditionally, additional processing (black streaks) can be performed on non-discharge area B, and the black light is used to shield the bright light generated by non-discharge area B to enhance the traditional plasma plane. The brightness of the display 10 is contrasted, but in this case, additional production costs must be added. In order to solve the aforementioned problems, the designers and manufacturers of traditional plasma flat-panel displays have designed and developed different barrier wall structures. For example, if the structure of the barrier wall is designed as a ladle-shaped sealing structure, as shown in the fourth figure, That is, the non-discharge area B and the discharge area A are also separated by a barrier wall. This can turn the discharge cells into a closed space, which can effectively avoid the problem of mis-discharge of the non-discharge cells between the discharge cells, and the phosphor can be coated. It is arranged on the five sides (front, back, left, right, and bottom) of the discharge cell, which effectively increases the coating area of the phosphor and improves the luminous efficiency. However, after bonding the glass substrates above and below the plasma flat panel display, the two glass substrates will be evacuated and sealed with gas. However, due to the close bonding between the upper and lower substrates, each discharge cell appears a closed space, resulting in It takes a long time to make the grapefruit when vacuuming and sealing the gas. In order to avoid this, the upper broken glass substrate must pass through special leaves to cause a moderate height difference between the upper and lower glass substrates. The discharge space caused difficulties in gas extraction and gas sealing during the manufacturing process. As a result, the paper size was increased in accordance with the Chinese standard (CNS) A4 (210x297 mm) ............. .0 ^ ........., 耵 ......... Ling · (Please read the notes on the back before filling out this page) 554380 Printed by A7, Consumer Cooperatives, Intellectual Property Bureau, Ministry of Economic Affairs B7 V. Description of the invention () The manufacturing process of glass substrates, so a new structure is urgently needed to improve the above problems. Object and summary of the invention: #In the above background of the invention, the barrier structure of the conventional plasma flat panel display is prone to mis-discharge problems. The luminous efficiency is not good, or it is not easy to evacuate. Therefore, the present invention provides a barrier wall structure of a plasma plane display, which can solve the problem of false discharge and can improve the light emitting performance. One object of the present invention is to provide a barrier wall structure. The barrier walls arranged in the horizontal direction are designed to have unequal widths, so that the barrier walls will have different contraction amounts during firing, resulting in a height difference. When sealing, a gas channel is generated between the upper substrate and the barrier wall to facilitate the flow of gas in the structural unit, and a channel for gas extraction and gas sealing is provided. Another object of the present invention is to provide a barrier wall structure, which can effectively confine energy in the discharge space during gas discharge, which is beneficial to the improvement of discharge efficiency, and can also avoid improper induced discharge to adjacent discharge cells. The adjacent structural units are affected, and the luminous brightness of each discharge space is improved. According to the structure of the present invention, among the unequal-width barrier ribs arranged in two adjacent horizontal directions, a plurality of discharge spaces are separated by the barrier ribs arranged in the vertical direction. The unequal-width barrier ribs are different in firing. The height difference caused by the shrinkage, when the upper and lower substrates are sealed, the paper size of the upper substrate and the barrier wall is 5 Chinese paper standard (CNS) A4 (210X 297 mm) — — — — — — — — — — ^ — — — — — — — — — — (Please read the notes on the back before filling out this page) 554380 A7 B7 V. Description of the invention () Gas channels are generated between each, and connected to each discharge space to facilitate gas circulation. In addition, the approximately sealed discharge space of the present invention can effectively be trapped in the discharge space during gas discharge, which is beneficial to the improvement of discharge efficiency. And compared with the conventional strip-shaped barrier wall, the barrier wall of the present invention can increase the coating area of the phosphor to 9 sides, thereby increasing the effective coating area of the phosphor in each discharge cell. Effectively improve the luminous efficiency of the phosphor. Concise-style brief description: The preferred embodiment of the present invention printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs will be explained in more detail in the following explanatory text with the following graphics, of which: Figure 1 shows a traditional Assembly schematic diagram of front substrate and back substrate of plasma flat panel display. FIG. 2 is a schematic cross-sectional structure diagram of a conventional electro-active flat panel display. The third iM will show the schematic diagram of the state of the traditional electric incineration plane showing the mis-discharge of the Central African discharge area. FIG. 4 is a schematic diagram showing the formation of a grid-shaped discharge space in a conventional electro-focusing flat display. Fig. 5 is a schematic perspective view showing a structure of a barrier wall designed in an electro-condensing flat panel display according to a preferred embodiment of the present invention. Fig. 6 is a top view of a barrier wall structure designed on the inner surface of the back substrate according to a preferred embodiment of the present invention. Figure 7 shows the barrier layout according to the preferred embodiment of the present invention (please read the precautions on the back before writing this page), tr. This paper size is applicable to China National Standard (CNS) A4 (210X297) (Chu) 554380 A7 B7 V. Description of the invention () Close top view of X and Y electrodes on the front substrate. (Please read the precautions on the back before filling in this page.) Figure 8 shows a schematic cross-sectional structure viewed from the ZZ 'plane of Figure 7 according to a preferred embodiment of the present invention. Phoenix control comparison description: ί 〇 Plasma flat display November 1J substrate 12 Back substrate 111 Transparent electrode 1 12 Auxiliary electrode 113 Electrolyte 1 14 Protective layer 121 Addressing electrode 122 Barrier wall 123 Phosphor 124 Electrolyte 13 Discharge unit 13a Non Discharge cell A Discharge area B Non-discharge area 3 1 Back substrate 32 Front substrate 3 11 Addressing electrode 321 Transparent electrode 322 Auxiliary electrode 33 Induction layer 34 Barrier wall 3 4a Wide structure 34b Narrow structure 40 Barrier wall 41 Discharge space 42 Non-discharge area 44 Detailed description of inventions printed by employees ’cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs of the Gas: This paper size applies to China National Standard (CNS) A4 (210 × 297 mm) 554380 5. Description of the invention (without limiting the spirit and scope of the invention In the following, an embodiment is used to introduce the implementation of the present invention. Those skilled in the art can understand the spirit of the present invention and apply the method of the present invention to various plasma flat-panel displays. The barrier wall design can increase the phosphor coating area, and the barrier wall of the invention in the horizontal direction In terms of design, the unequal width design is used. When the unequal width barrier wall structure is designed during firing, there will be different shrinkage amounts, which will cause the difference in height to facilitate the vacuum and gas sealing process. Therefore, the barrier wall structure of the present invention, It can not only solve the problem of false discharge, but also improve the luminous efficiency without increasing the time of evacuating and sealing the gas. The application of the present invention is not limited to the best embodiment described below. The present invention provides a plasma flat panel display. Barrier wall structure. In the present invention, the barrier wall is designed as a spacer, which can not only increase the area of fluorescent powder coating, but also from the traditional barrier wall with a long structure of 3 sides to 9 sides, which greatly improves the phosphor. The coating area can improve the luminous efficiency and brightness and can make the discharge cells become a closed space, which can effectively avoid the problem of incorrect discharge of non-discharge cells between the discharge cells. In addition, the barrier wall in the horizontal direction of the present invention adopts an unequal width Design, the wider barrier walls are arranged at the four corners of each grid-shaped discharge cell. The same amount of shrinkage causes a moderate height difference between the upper and lower glass substrates, so that the closed discharge space does not cause difficulties in encapsulation of pomegranate and gas during the manufacturing process, and does not need to change the design of the original upper glass substrate without adding additional process costs. Moreover, the wider width of the horizontal barrier wall helps to strengthen the structural strength. On the other hand, the barrier wall design of the present invention can effectively confine energy in the discharge space during gas discharge, which is beneficial to the improvement of discharge efficiency. This paper size applies to China National Standard (CNS) A4 (2 丨 0x297 mm)
(請先閲讀背面之注意事項再填寫本頁) 554380 五 經濟部智慧財產局員工消費合作社印製 A7 B7 發明説明() '、可避免鄰近的結構單元受到影響。 阻隔壁照帛5圖,其繪示本發明之電^平面顯示器之 勺括乂 的立體不意圖。本發明之電漿平面顯示器至少 製作# 土板^2與背基板3 1 ’在背基板3 1的内側表面上, if複數條彼此間隔且於垂直方向(如圖所示之y方 卜廿制彼此排列之定址(addreSS)電極31 1。在定址電極31 1 平方向 磚電層3j。在誘電層33上設有複數條於水 此。,(如圖所示之x方向)上彼此排列之阻隔壁34 ,且 7平排列之阻隔壁34係採用不等寬之設計。而在相鄰兩 二^平排列之阻隔壁34間,另以複數條垂直排列(如圖所 之y方向)之阻隔壁40分別連接水平排列阻隔壁34之 較寬結構,以八阳山,& y 以分隔出禝數個格子狀放電空間41,且在每個 pa . 二9 4 1之四個角落均為阻隔壁3 4之較寬結構。而在 相鄰兩條 7fC -it tjL s t / 你不十棑列(x方向上)之阻隔壁34所形成之放電 工門4 1間為非放電區4 2,亦即放電空間41於水平方向上 (x方向上)係兩兩相連,而於垂直方向上(y方向上)係 以非放電區42加以隔離,因此其非放電區42於水平方向 上(X方向上)並不存在任何之阻隔壁,所以可行成製成 時之排氣進氣孔道。且這些垂直排列(y方向上)之阻隔 壁40恰與定址電極3丨!彼此平行且間隔排列,所以兩條相 鄰的阻隔壁40之間即有一條定址電極3 1 1。 在前基板3 2之内側表面上設有複數條平行排列之透 明電極3 2 1 (即本發明所稱之X及γ電極)’在每一條透明 電極321上設有輔助(bus)電極322。在上述電極上製作一 本紙張尺度適用中國國家標準(CNS)A4規格(2⑴X297公釐) 554380 A7 B7 五、發明說明() (請先閱讀背面之注意事項再填寫本頁) 誘電層3 3 ’並於誘電層3 3上形成一保護層3 5。如此兩個 3 -被封合成一體’並完成抽真空及封入一定比例 之混合氣體(例如氦(He)、氖(Ne)、氬(Ar)、氙(Xe))程序時, 月基板3 1上定址電極3 1 1與前基板3 2上之透明電極 3 2 1 (包括X電極與γ電極)相互垂直排列,以交錯形成對應 的放電單元。 請參照第6圖,係為本發明背基板3丨之上視圖,本 發明在電製平面顯示器之背基板3 1的内側表面上,設置有 複數條水平方向上(如圖所示之X方向)彼此排列之阻隔 壁34 ’此阻隔壁34係採用不等寬之設計分為寬結構34a 與窄結構34b,這些阻隔壁34恰與定址電極31 1彼此垂直。 另兩相鄰阻隔壁3 4間,以複數條垂直排列(如圖所示之y 方向)之阻隔壁40分別連接水平排列阻隔壁34之較寬結 構’如圖中所示之34a部分,以分隔出複數個格子狀放電 玉間4 1 ’且在每個放電空間41之四個角落均為阻隔壁3 4 之車父寬結構34a。而這些垂直排列之阻隔壁4〇恰與定址電 極3 1 1·彼此平行且間隔排列,所以兩條相鄰的阻隔壁34之 間即有一條定址電極3丨丨(如第5圖所示)。而於放電空間4 1 間為非放電區42,此非放電區42於水平方向上(x方向上) 經濟部智慧財產局員工消費合作社印製 並不存在任何之阻隔壁,所以可行成製成時之排氣與進氣 孔道。 請參閱第七圖為本發明之隔牆設計與傳統上板組合 示意圖,在透明電極321(包括X電極與Y電極)處為放電 區,而在放電區之間則為非放電區42,且在每一條透明電 本紙張尺度適用中國國家標準(CNS)A4規格(210X297公釐) 554380 其中 之比例關 經濟部智慧財產局員工消費合作社印製 A7 B7 五、發明説明() 極3 2 1上設有辅助電極3 22。阻隔璧3 4均為不等寬之長條 狀,呈水平方向(X方向)平行排列。在兩相鄰阻隔壁3 4 間,以垂直方向(y方向)排列之卩且隔壁40加以分隔出複 數個放電空間4 1 ’而且每一個放電玄間41均成獨立狀’ 也就是放電空間4 1彼此間並無任何連通開口相通’因此當 氣體在各個放電單元之放電空間4 1内進行放電時’每一個 放電空間41均為近似密閉的空間’如此有助於氣體放電 時,將能量侷限於放電空間41内,減少能量損失’藉以提 昇發光效能,而且可以有效抑制誤放電。且由於不必擔心 誤放電的問題發生,因此在設計時’可將非放電區的寬度 縮小,相對地增加放電區内每個放電空間41的使用面積, 因此可大幅地增加開口率。 但是這種結構可能會造成放電空間4 1無對外之氣μ 通道,使得在電漿平面顯示器之上下基板貼合後,各 1使得 每個放電空間4 1呈現封閉狀態,造成在柚真空與封人氣體 時須耗費較長之製程時間。但是,在本發明中為了、拽立 ^避免上 述狀況發生’因此將阻隔壁3 4設計成不等寬之尺寸, 將寬結構34a與窄結構34b之寬度設計成如下 係,窄結構34b /寬結構34a之寬度比為: 0.25 S 寬度比 S 0.85 如此可使阻隔璧34於燒成時,因為不同的收縮量 造成阻隔壁34之寬結構34a高於窄結構34b,而平 /成而度 差,以本最佳實施例而言,此燒成溫度約在5 5 0公 L ,而所 造成之高度差約在3 # m〜1 5 # m之間。 π 本紙張尺度適用中國國家標準(CNS)A4規格(210X297公釐) ............. (請先閲讀背面之注意事項再場寫本頁> 、一 Hcr 554380 A7 B7 五、發明説明() ..............I (請先閲讀背面之注意事項再填寫本頁} 參閱第8圖所示為從第7圖z Z,部分看入之側視圖 如此在上下基板進行貼合後,由於阻隔壁3 4之而度差 使 得上基板在貼合時僅與阻隔壁3 4之寬結構3 4 a進行貼e ’ 因此會在阻隔壁34之窄結構34b,和垂直排列之卩且隔壁4〇 間形成氣體通道4 4,以利氣體在各個放電空間4 1内動 因此,本發明之阻隔壁結構,可配合使用傳統上基板32, 不需額外設計。於此實施例中,由於放電空間4 1係於水平 方向上(X方向上)兩兩相連,因此位於兩相鄰放電空間 4 1間之阻隔壁40與上基板間之氣體通道44亦町連通彼此 相鄰之放電空間4 1。 而另一方面,再次參閱第7圖,放電空間41於垂直 方向上(y方向上)係以非放電區42加以隔離,真其非放 電區42於水平方向上(X方向上)並不存在任何之陣隔壁’ 經濟部智慧財產局員工消費合作社印製 因此位於阻隔壁34b與上基板間之氣體通道44亦 < 連通放 電空間41與非放電區4 2。因此本發明之設計,於上下兩 基板封合時,可藉由氣體通道4 4將各個放電空間4 1與非 放電區4 2彼此連通,因此於抽氣及氣體封入之製程中並不 會造成困難。且本發明近似封閉之放電空間,於氣體放電 時可有效的將能量拘束在放電空間内,有利於放電效率的 提升,亦可避免對相鄰的放電單元造成不當的誘放電,使 得鄰近的結構單元受到影響,因此本發明之結構< Λ幅縮 短非放電區42之寬度。 根據本發明之較佳實施例,每個放電空間4 1之結構 形狀近似八角形,而其放電空間4 1彼此間,和放電空間4 1 12 "1 1 一 本紙張尺度適用中國國家標準(CNS)A4規格(210x297公釐) 554380 A7 _-__B7 五、發明説明() 與非放電區42間係以氣體通道44加以連通,因此本發明 結構之營光粉塗佈面積可由傳統長條結構的3個面,增加 到9個面。請參閱第7與第8圖,當施加電壓於透明電極 3 2 1與疋址電極j 1 1時,令前基板3 2與背基板3 1上誘電 層3 3於對應之放電空間4 1内進行放電,使封入之混合氣 體因放電而產生紫外光(uv),再藉由紫外光激發放電空間 41内所塗佈之螢光體,而令螢光體發光,由於螢光體之塗 佈面積大幅增加’因此可有效提高發光效率及亮度。 且另一方面,本發明於水平排列之阻隔壁設計上係 採用不等寬之設計,因此於水平阻隔壁寬度較寬之部份可 有助於結構強度的強化,亦可避免噴砂製程時,光阻乾祺 的異常剝離,大幅提昇產品之良率。 綜上所述,本發明提供一種電漿平面顯示器之阻隔 壁結構’將水平方向排列之阻隔壁設計成不等寬之結構, 使阻隔壁於燒成時會有不同的收縮量而產生高度差,如此 可於上下基板進行封合時,於上基板與阻隔壁間產生氣體 通道以利氣體在結構單元内流動,提供抽氣及氣體封入之 通道。另一方面,本發明之阻隔壁設計在氣體放電時可有 效的將能量拘束在放電空間内,有利於放電效率的提升, 亦可避免鄰近的結構單元受到影響,提昇每個放電空間的 發光亮度。 如熟悉此技術之人員所暸解的,以上所述僅為本發 明之較佳實施例而已,並非用以限定本發明之申請專利範 圍;凡其它未脫離本發明所揭示之精神下所完成之等效改 本紙張尺度適用中國國家標準(CNS)A4規格(210X297公釐) .............· f請先閱讀背面之注意事項再填寫本頁) -訂· 經濟部智慧財產局員工消費合作社印製 554380 A7 B7 五、發明説明() 變或修飾,均應包含在下述之申請專利範圍内。 (請先閲讀背面之注意事項再填寫本頁) 經濟部智慧財產局員工消費合作社印製 14 本紙張尺度適用中國國家標準(CNS)A4規格(210X 297公釐)(Please read the notes on the back before filling out this page) 554380 5 Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs A7 B7 Invention Description () 'It can avoid the adjacent structural units from being affected. Fig. 5 of the barrier wall shows the three-dimensional intention of the brackets of the electric flat panel display of the present invention. The plasma flat display of the present invention is made of at least # 土 板 ^ 2 and the back substrate 3 1 'on the inner surface of the back substrate 31, if a plurality of spaces are spaced from each other and are in a vertical direction (as shown in the y square) AddreSS electrodes 31 1 arranged on top of each other. The brick electrode layer 3j is located in the flat direction of the address electrodes 31 1. A plurality of electrodes are arranged on the electromotive layer 33. (As shown in the x direction) The barrier walls 34, and the 7-arranged barrier walls 34 are designed with unequal widths. Among the adjacent barrier walls 34 arranged in two or two planes, a plurality of vertical barriers are arranged (as shown in the y direction in the figure). The barrier walls 40 are connected to the wider structure of the horizontally arranged barrier walls 34, respectively, with Bayangshan, & y to separate several grid-shaped discharge spaces 41, and in each of the four corners of each pa. 2 9 4 1 It is a wider structure of the barrier wall 34. The discharge gate 4 formed by two adjacent barrier walls 34 of 7fC -it tjL st / you are not in the queue (in the x direction) is a non-discharge area 4 2, that is, the discharge space 41 is connected in pairs in the horizontal direction (in the x direction), and in the vertical direction (in the y direction) It is isolated by the non-discharge area 42. Therefore, the non-discharge area 42 does not have any barrier wall in the horizontal direction (in the X direction), so it can be made into an exhaust gas inlet channel at the time of manufacture. And these vertical arrangements (y In the direction), the barrier wall 40 is exactly parallel to the address electrode 3 !! They are arranged parallel to each other and spaced apart, so there is an address electrode 3 1 1 between two adjacent barrier walls 40. The inner surface of the front substrate 32 is provided There are a plurality of transparent electrodes 3 2 1 arranged in parallel (the X and γ electrodes referred to in the present invention). Each of the transparent electrodes 321 is provided with an auxiliary (bus) electrode 322. On the above electrodes, a paper size is applicable. China National Standard (CNS) A4 specification (2⑴X297 mm) 554380 A7 B7 V. Description of the invention () (Please read the notes on the back before filling this page) Induction layer 3 3 ′ and form a protection on the induction layer 3 3 Layer 3 5. When the two 3 -sealed are integrated into one and complete the procedure of evacuating and sealing a certain proportion of mixed gas (such as helium (He), neon (Ne), argon (Ar), xenon (Xe)), Addressing electrode 3 1 1 on moon substrate 3 1 and front electrode 3 2 The bright electrodes 3 2 1 (including the X electrode and the γ electrode) are arranged perpendicular to each other to form corresponding discharge cells. Please refer to FIG. 6, which is a top view of the back substrate 3 丨 of the present invention. On the inner surface of the back substrate 31, a plurality of barrier walls 34 are arranged in a horizontal direction (X direction as shown in the figure). The barrier walls 34 are divided into wide structures 34a and Narrow structures 34b, these barrier walls 34 are just perpendicular to the address electrodes 31 1. Between the other two adjacent barrier walls 34, a plurality of barrier walls 40 arranged vertically (as shown in the y direction) are connected to the wider structure of the horizontally arranged barrier walls 34, respectively, as shown in part 34a of the figure. A plurality of grid-shaped discharge jade rooms 4 1 ′ are separated, and the driver's wide structure 34 a with barrier walls 3 4 at the four corners of each discharge space 41. And these vertically arranged barrier ribs 40 are exactly parallel to and spaced from the address electrodes 3 1 1 ·, so there is an address electrode 3 between two adjacent barrier ribs 34 (as shown in FIG. 5). . In the discharge space 41, there is a non-discharge area 42. This non-discharge area 42 is in the horizontal direction (in the x direction). It is printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs without any barriers, so it can be made into Exhaust and Intake Ports at the Time. Please refer to the seventh figure for a schematic diagram of the partition wall design and the traditional upper plate combination of the present invention. The transparent electrode 321 (including the X electrode and the Y electrode) is a discharge area, and the non-discharge area 42 is between the discharge areas. China National Standard (CNS) A4 specifications (210X297 mm) 554380 are applied to each transparent paper size. The proportion is printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs and printed by A7 B7 V. Description of the invention () Pole 3 2 1 There are auxiliary electrodes 3 to 22. The barriers 43 4 are all strips of unequal width, arranged in parallel in the horizontal direction (X direction). Between two adjacent barrier walls 3 4, a plurality of discharge spaces 4 1 ′ are arranged in a vertical direction (y direction) and partition walls 40 are separated, and each discharge space 41 is independent. That is, the discharge space 4 1 There is no communication opening between each other '. Therefore, when the gas is discharged in the discharge space 4 of each discharge cell,' each discharge space 41 is an approximately closed space '. This helps to limit the energy when the gas is discharged. In the discharge space 41, the energy loss is reduced, thereby improving the light emitting efficiency, and the false discharge can be effectively suppressed. And because there is no need to worry about the problem of erroneous discharge, the width of the non-discharge area can be reduced at the time of design, and the use area of each discharge space 41 in the discharge area can be relatively increased, so the aperture ratio can be greatly increased. However, this structure may cause the discharge space 41 to have no external air μ channel, so that after the substrates on the plasma flat display are bonded together, each 1 makes each discharge space 41 appear closed, causing the vacuum and sealing of the grapefruit. It takes a long time to process gas. However, in the present invention, in order to avoid the above-mentioned situation, the barrier ribs 34 are designed to have unequal widths, and the widths of the wide structures 34a and the narrow structures 34b are designed as follows. The narrow structures 34b / width The width ratio of the structure 34a is: 0.25 S width ratio S 0.85. This allows the barrier ridge 34 to have a wider structure 34a than that of the narrow structure 34b due to different shrinkages during firing. According to the present preferred embodiment, the firing temperature is about 550 mm, and the resulting height difference is about 3 # m to 1 5 # m. π The size of this paper is applicable to China National Standard (CNS) A4 (210X297mm) ......... (Please read the precautions on the back before writing this page > 、 Hcr 554380 A7 B7 V. Description of the invention () .............. I (Please read the precautions on the back before filling out this page} Refer to Figure 8 for details from Figure 7 Z Z, The side view of the partial view is such that after the upper and lower substrates are bonded, due to the difference in degree of the barrier ribs 34, the upper substrate is only bonded to the wide structure 3 4a of the barrier ribs 3 during bonding, so it will The narrow structure 34b of the barrier wall 34 forms a gas channel 44 between the vertically arranged rafters and the barrier wall 40 to facilitate gas movement in each discharge space 41. Therefore, the barrier wall structure of the present invention can be used in conjunction with a conventional substrate 32. No additional design is required. In this embodiment, since the discharge spaces 41 are connected to each other in the horizontal direction (in the X direction), the barrier wall 40 between two adjacent discharge spaces 41 and the upper substrate are connected. The gas passage 44 also connects the discharge spaces 41 adjacent to each other. On the other hand, referring to FIG. 7 again, the discharge space 41 is vertical. The direction (in the y direction) is isolated by the non-discharge area 42. The non-discharge area 42 does not exist in the horizontal direction (in the X direction). It is printed by the Consumer Cooperative of the Intellectual Property Bureau of the Ministry of Economic Affairs. The gas channel 44 located between the barrier wall 34b and the upper substrate also communicates the discharge space 41 and the non-discharge area 42. Therefore, when the upper and lower substrates are sealed by the design of the present invention, each gas can be discharged through the gas channel 44. The space 41 and the non-discharge area 42 are connected to each other, so there is no difficulty in the process of pumping and gas sealing. Moreover, the approximately closed discharge space of the present invention can effectively restrain the energy in the discharge space when the gas is discharged. In addition, it is conducive to the improvement of discharge efficiency, and it can also avoid improper induced discharge to the adjacent discharge cells and affect the adjacent structural units. Therefore, the structure of the present invention < Λ width shortens the width of the non-discharge region 42. According to In a preferred embodiment of the present invention, the structural shape of each of the discharge spaces 41 is approximately octagonal, and the discharge spaces 41 thereof are between each other, and the discharge spaces 4 1 12 " 1 1 a paper The scale is applicable to the Chinese National Standard (CNS) A4 specification (210x297 mm) 554380 A7 _-__ B7 V. Description of the invention () The non-discharge area 42 is connected by a gas channel 44. Therefore, the structure of the present invention is light powder coated. The cloth area can be increased from 3 sides to 9 sides of the traditional long structure. Please refer to Fig. 7 and Fig. 8. When a voltage is applied to the transparent electrode 3 2 1 and the address electrode j 1 1, the front substrate 3 2 The electric induction layer 3 3 on the back substrate 31 is discharged in the corresponding discharge space 41, so that the sealed mixed gas generates ultraviolet light (uv) due to the discharge, and the coated light in the discharge space 41 is excited by the ultraviolet light. Phosphor, which makes the phosphor emit light, because the coating area of the phosphor is greatly increased, so the luminous efficiency and brightness can be effectively improved. On the other hand, the present invention adopts a design of unequal width in the design of the horizontally arranged barrier ribs. Therefore, the wider width of the barrier ribs can help strengthen the structural strength and avoid the sandblasting process. The abnormal peeling of the photoresist has greatly improved the yield of the product. In summary, the present invention provides a barrier wall structure of a plasma flat panel display. The barrier walls arranged in the horizontal direction are designed to have unequal widths, so that the barrier walls will have different shrinkage amounts during firing, resulting in height differences. In this way, when the upper and lower substrates are sealed, a gas channel is generated between the upper substrate and the barrier wall to facilitate gas flow in the structural unit and provide a channel for pumping and gas sealing. On the other hand, the barrier wall design of the present invention can effectively confine energy in the discharge space during gas discharge, which is beneficial to the improvement of discharge efficiency, and can also prevent adjacent structural units from being affected, and improve the luminous brightness of each discharge space. . As will be understood by those familiar with this technology, the above is only a preferred embodiment of the present invention, and is not intended to limit the scope of the patent application for the present invention; all others completed without departing from the spirit disclosed by the present invention, etc. Effectively modify the paper size to the Chinese National Standard (CNS) A4 specification (210X297 mm) ............. f Please read the precautions on the back before filling this page)-Order · Economy Printed by the Consumer Cooperatives of the Ministry of Intellectual Property Bureau 554380 A7 B7 V. Description of invention () Changes or modifications shall be included in the scope of patent application as described below. (Please read the notes on the back before filling out this page) Printed by the Consumer Cooperatives of the Intellectual Property Bureau of the Ministry of Economic Affairs 14 This paper size applies to China National Standard (CNS) A4 (210X 297 mm)