M366149 五、新型說明: 【新型所屬之技術領域】 種強化上基板與下基板之 本創作係有關於一種顯示裝置,特別是指— 硬度的顯示面板。 【先前技術】 隨著經濟提昇及產業結構改變,現今科技曰新月異,對於產業 生很大的改變,也造成衝擊’為符合世界潮流,使企業能永树營,D 降低生產成本,提高㈣經魏效’柯触讀辭力。近年來薄膜液 晶顯示器«發展迅速,也是繼半導體之後帶動台雜濟成長的重要產 業。液晶面板的生產過程需歷經數百道複雜製程,加上各家面板製造商皆 有不同專纖減生產祕賴’因此所需製程設備種織雜且客製化程 度高。隨著每-世代面板產品尺寸的日益獻,生翻設備機台尺寸也相 對暴增,更突顯液晶生產設備少量多樣的產業特性。 目前一般薄化的面板,無法有效的增加其面板強度,一般玻璃之強度 的增加方«兩種,-種是物理強化’另—種是化學強化,這兩種強化^ 度方法皆無法有效地使祕雜面板。例如若賴刀輪的方式切割顯示面 板之玻璃基板時,其在切紐之玻摘面,會有應力殘留與玻璃不良的現 象產生,這樣一來玻璃基板的斷面上就會產生小裂縫,而這些都會影響面 板強度,有些機的非常线,應力射·力非常強,使得玻璃在^受 小應力時,超鮮紐τ卩贼舰,雜賴基板破t。賴基板表面 的微J、裂紋’在載街時,產生應力集中(Stress c〇ncentrati㈤),導致玻 璃基板的破裂。因而’產生破裂的應力取決於裂紋的密度和分佈形狀。 在玻璃基板的加工、搬運、安裝過程中,玻璃基板表面及玻璃邊緣, 還會出現「刮傷」等現象’都會影響其強度^如果在這細,裂紋到達應 力Ε»界長度4 ’將產自發性的龍過程。這種在應力制某段時間後玻璃 則會破裂,_基板的破娜會影響職晶顯示⑽生產品f與信雛。 3 M366149 因此,本創作即在針對上述問題而提出一種顯示面板,不僅可改盖上述習 用缺點,又可提咼顯示畫面的顯示品質,以解決上述問題。 - 【新型内容】 本創作之目的之一,在於提供一種顯示面板,其藉由磨削上基板與下 基板之邊緣,產生複數導角,以強化顯示面板之硬度,進而提高顯示畫面 的顯示品質。 本創作之目的之一,在於提供一種顯示面板,其藉由一補強體設置於 基板之邊緣,以強化顯示面板之硬度’進而提高顯示畫_顯示品質。 本創作係有麵示面板,其包含—上基板與—下基板。上基板 具有複數雜,該些邊緣分別具有—導角。下基板位於上基板之一側,並 具有複數邊緣,該些邊緣分別有導角,該些導角可增加顯示面板之強度, 進而增加液晶面板的生產品質與信賴性。 此外,本翁更包含-觀體,設置於上基板之邊緣,並位於下基板 之表面以增力σ上基板之強度,而使顯示面板強度的增加,進而增加液晶 面板的生產品貲與信賴性。 【實施方式】 故為使貴審查委員對本創作之技術特徵及所達成之功效更有進一步 之瞭解與認$ ’謹佐哺佳之實施姻及配合詳細之制,說明如後: 月參閱第圖與苐—圖,其係本創作之一較佳實施例之顯示面 板的上視圖與剖關。如贿示,本創作之顯示面板包含—上基板^、一 ^基^ 22與複數導角14、16、Η、19、26、27。上基板12具有複數邊緣, :上土板包合—第—邊緣3()、—第二邊緣犯、—第三邊緣與一第四 其緣36 ’遠些邊緣30 ’ 32 ’ 34,36分別設置有導角,例如第二圖所示,上 土板12之第-邊緣3〇與第三邊緣&分別設置有導角期,同理,上 M366149 基板12之第二邊緣32與第四邊緣36分別亦設有導角(圖中未示)。下基板 . 22亦具有複數邊緣,即下基板22包含一第五邊緣4〇、一第六邊緣42、一 第七邊緣44與一第八邊緣46。該些邊緣30,32,34,36分別設置有導角, 例如第二圖所示’下基板22之第五邊緣4〇與第七邊緣44分別設置有導角 400 ’ 440 ’ 442,同理,下基板22之第六邊緣42與第八邊緣46分別亦設 有導角(圖中未示)。其中,上基板12的面積小於下基板22的面積,此僅 為本發明之一較佳實施例,並不侷限於上基板丨2的面積小於下基板22的 面積,於特殊設計時,亦可設計上基板12的面積大於下基板22的面積, 此為本領域具有通常知識者所皆知的技術,故在此不再多加贊述。再者, • 上基板12與下基板22之一較佳實施例為一玻璃基板。如此,本創作藉由 設置該些導角,而消除顯示面板上基板12與下基板22於切割時,於玻璃 基板之邊緣的斷面所產生之裂痕,以強化顯示面板之硬度,進而提高顯示 畫面的顯示品質。 由上述可知,由於在切割顯示面板之上基板與下基板22時,容易 因為應力殘留而於玻璃基板之邊緣的斷面產生裂痕,此裂痕容易因為外力 而使裂痕擴張造成玻璃基板破裂,為了避免此現象發生,本創作係設置導 角於上基板12與下基板22邊緣,以強化顯示面板,當然亦可使用工具磨 削上基板12與下基板22之邊緣,以消除上基板12與下基板22之邊緣所 ® 產生之裂痕,以強化顯示面板之硬度。 承上所述,本創作之顯示面板更包含一晶片5〇,晶片5〇設置於下基板 22之上方,並位於上基板12之一側。其中,晶片5〇為一驅動晶片,用以 ' 驅動顯示面板’此為具有通常知識者所皆知通常知識,故此不再多加贊述。 . 此外,由於一般切割玻璃基板的方法係使用砂輪、雷射與水刀,來切 裂之玻璃基板的斷面,切割完後的玻璃會有應力殘留與玻璃不良產生,這 樣一來玻璃基板上就會產生高張力或低張力的又狀裂痕,這些都會影響面 板強度,而一般的玻璃基板受到硬的鈍物撞擊或者是震動衝擊也都會導致 玻璃基板破知。為了減少玻璃基板上方的應力殘留與玻璃基板不良的產 生,本創作使用砂輪來磨削上基板12與下基板22的邊緣,使其形成該些 5 M366149 導角。本創作之砂輪的-較佳實施例為轉速大於9〇〇以上之砂輪。將上基 板12與下基板22的邊緣磨削後形成該些導角3〇〇、34〇、侧、糊俊土。 該些導角300、340、侧、440、442之角度可為〇度〜9()度。該些導角3〇〇、 340、棚、44G、442的形成可將應力殘留消除,以增加玻璃基板之強度且 可運用於不同厚度之面板’摘作之玻璃基板的較佳實補為小於◦鳥爪 厚度。 再者,由於玻璃基板之四個端點容易因為外力而破裂,所以本創作於 ^基板12與下基板22之四個端皆可設置導角14、16、17、19、26、以(如 第-圖所示),以強化上基板12與下基板22的四個端的硬度,以避免玻璃 基板從四個端點破裂。 請參閱第三圖與第四圖,其係本創作之另一較佳實施例之顯示面板的 上視圖與剖關。如圖所示,此實施例不同於第—圖與第二圖之實施例之 處在於此實施例在上基板12邊緣設置一補強體2〇,且補強體2〇位於下 基板22之表面。以補強上基板12位於下基板22之表面的上基板12之邊 緣’即上基板12之第三邊緣34 ’由於第三邊緣34 —般不容易使用工具進 行磨削’所以本創作係使用補強體2〇設置於第三邊緣34上,以強化上基 板12 ’即補強體20為-黏著劑,以透過黏著劑的黏度而填補並固定第三邊 緣34上之細微的裂痕,進而達到強化玻璃基板之硬度的目的。其中,黏著 劑之-較佳實施例為-魁紐麵(ultra_Vi〇letGel)。以在上基板12 與下基板22上方無法磨邊的位置增加補強體2〇,以增加面板本身的強度, 以及消除應力殘留。 綜上所述,本創作顯示面板包含上基板與下基板。上基板具有複數邊 緣,且該些複數邊緣各具有一個導角。下基板位於上基板之一側且具有複 數邊緣,δ亥些邊緣各具有一個導角。本創作係藉由上基板與下基板之導角, 而可減少應力殘留與玻璃不良的產生。再者,本創作更可在上基板與下基 板模削不到的邊緣設置補強體,使顯示面板之硬度增加,進而增加液晶面 板的生產品質與信賴性。以提高顯示晝面的顯示品質與增加強度之目的。 故本創作實為一具有新穎性、進步性及可供產業上利用者,應符合我 M366149 國專利鱗射請縣缺,纽设提蝴 准專利,至感為禱。 申明’祈鈞局早曰賜 淮以上所述者,僅為本創作—較佳實施例而已 實施之範圍,故舉凡依本創作_用來限疋本創作 神所為之均錢化與_,均應包括於本創作之㈣專利範圍内。 '【圖式簡單說明】 -第圖係本創作之一較佳實施例之顯示面板的上視圖; 參第二隱本創作之—健實關之顯示面板的剖視圖; 第二圖係本創作之3-較佳實細之齡面板的上視圖;以及 第四圖係本創作之另-較佳實施例之齡s _剖視圖。 【主要元件符號說明】 本創作: 12 上基板 14導角 • 17 導角 16導角 19 導角 、 22 下基板 .26導角 27 導角 28 導角 29 導角 30 第一邊緣 第二邊緣 7 32 M366149 34 第三邊緣 36 第四邊緣 40 第五邊緣 42 第六邊緣 44 第七邊緣 46 第八邊緣 50 晶片M366149 V. New description: [New technical field] The reinforced upper and lower substrates are related to a display device, in particular, a hardness display panel. [Prior Art] With the economic upgrading and industrial structure changes, today's technology is changing with each passing day, and the great changes in the industry have also caused the impact to meet the world trend, enabling enterprises to make Yongshu camp, D to reduce production costs and improve (4) After Wei Wei's touched his words. In recent years, the thin film liquid crystal display has developed rapidly, and it is also an important industry that has driven the growth of the Taiwanese economy after the semiconductor. The production process of liquid crystal panels requires hundreds of complicated processes, and each panel manufacturer has different special fibers to reduce the production secrets. Therefore, the processing equipment needs to be woven and customized. With the increasing size of each generation of panel products, the size of the equipment for the turning equipment has also increased dramatically, highlighting the small variety of industrial characteristics of liquid crystal production equipment. At present, the generally thinned panel cannot effectively increase the strength of the panel. Generally, the strength of the glass is increased by two kinds, the type is physical strengthening, and the other is chemical strengthening. These two methods are not effective. Make the messy panel. For example, if the glass substrate of the display panel is cut by the knife wheel, the glass surface of the cut button may have residual stress and poor glass, so that a small crack occurs in the cross section of the glass substrate. These will affect the strength of the panel. Some machines are very linear, and the stress and force are very strong. When the glass is subjected to small stress, the super-new 卩 卩 thief ship is broken. When the micro J and the crack ' on the surface of the substrate are placed on the street, stress concentration occurs (Stress c〇ncentrati (5)), resulting in cracking of the glass substrate. Thus, the stress that causes cracking depends on the density and distribution shape of the crack. During the processing, handling, and installation of the glass substrate, the surface of the glass substrate and the edge of the glass may also have "scratches" and other phenomena that will affect the strength. If this is fine, the crack reaches the stress Ε» boundary length 4' will be produced. Spontaneous dragon process. This kind of glass will break after a certain period of stress, and the _ substrate will affect the job display (10) raw product f and believer. 3 M366149 Therefore, this creation proposes a display panel for the above problems, which not only can change the above-mentioned conventional disadvantages, but also can improve the display quality of the display screen to solve the above problems. - [New content] One of the purposes of this creation is to provide a display panel that produces a plurality of lead angles by grinding the edges of the upper and lower substrates to enhance the hardness of the display panel, thereby improving the display quality of the display screen. . One of the objects of the present invention is to provide a display panel which is provided on the edge of a substrate by a reinforcing body to enhance the hardness of the display panel to improve display quality. The creation has a face panel comprising an upper substrate and a lower substrate. The upper substrate has a plurality of impurities, and the edges respectively have a leading angle. The lower substrate is located on one side of the upper substrate and has a plurality of edges, and the edges respectively have lead angles, which can increase the strength of the display panel, thereby increasing the production quality and reliability of the liquid crystal panel. In addition, the body includes a body-viewing body disposed on the edge of the upper substrate and located on the surface of the lower substrate to increase the strength of the substrate on the σ, thereby increasing the strength of the display panel, thereby increasing the production and reliability of the liquid crystal panel. Sex. [Embodiment] Therefore, in order to enable the reviewing committee to have a better understanding of the technical characteristics and the efficacies achieved by the reviewer, the implementation of the syllabus and the detailed system is as follows:苐-图, which is a top view and a cross-section of a display panel of one preferred embodiment of the present invention. For example, the display panel of the present invention includes an upper substrate ^, a base 22 and a plurality of corners 14, 16, Η, 19, 26, 27. The upper substrate 12 has a plurality of edges, the upper earth plate inclusion - the first edge 3 (), the second edge edge, the third edge and the fourth edge 36 ' far edge 30 ' 32 ' 34, 36 respectively A guide angle is provided. For example, as shown in the second figure, the first edge 3 〇 and the third edge & of the upper earth plate 12 are respectively provided with a lead angle period. Similarly, the second edge 32 and the fourth edge of the upper M366149 substrate 12 are The edges 36 are also provided with lead angles (not shown). The lower substrate 22 also has a plurality of edges, i.e., the lower substrate 22 includes a fifth edge 4〇, a sixth edge 42, a seventh edge 44, and an eighth edge 46. The edges 30, 32, 34, 36 are respectively provided with lead angles. For example, the fifth edge 4 〇 and the seventh edge 44 of the lower substrate 22 are respectively provided with a lead angle 400 ' 440 ' 442 as shown in the second figure. The sixth edge 42 and the eighth edge 46 of the lower substrate 22 are also respectively provided with lead angles (not shown). The area of the upper substrate 12 is smaller than the area of the lower substrate 22, which is only a preferred embodiment of the present invention. The area of the upper substrate 丨2 is not limited to the area of the lower substrate 22, and may be used in a special design. The area of the upper substrate 12 is designed to be larger than the area of the lower substrate 22. This is a technique well known to those skilled in the art and will not be further described herein. Furthermore, a preferred embodiment of the upper substrate 12 and the lower substrate 22 is a glass substrate. Thus, by providing the lead angles, the present invention eliminates the cracks generated in the cross section of the edge of the glass substrate when the substrate 12 and the lower substrate 22 on the display panel are cut, thereby enhancing the hardness of the display panel and improving the display. The display quality of the screen. As can be seen from the above, when the substrate and the lower substrate 22 are cut on the display panel, it is easy to cause cracks in the cross section of the edge of the glass substrate due to stress remaining, and the crack is likely to cause cracking of the glass substrate due to external force, and the glass substrate is broken. This phenomenon occurs. The present invention sets the lead angles on the edges of the upper substrate 12 and the lower substrate 22 to strengthen the display panel. Of course, the edges of the upper substrate 12 and the lower substrate 22 can be ground using a tool to eliminate the upper substrate 12 and the lower substrate. Cracks created by the edge of 22 to enhance the hardness of the display panel. As described above, the display panel of the present invention further includes a wafer 5, which is disposed above the lower substrate 22 and located on one side of the upper substrate 12. Among them, the wafer 5 is a driving chip for 'driving the display panel'. This is a common knowledge known to those skilled in the art, and therefore no further comments are made. In addition, since the method of cutting the glass substrate generally uses a grinding wheel, a laser and a water jet to cut the cross section of the glass substrate, the glass after the cutting has stress residual and poor glass, so that the glass substrate is on the glass substrate. It will produce high-tension or low-tension cracks, which will affect the strength of the panel, and the general glass substrate will be broken by a hard blunt object or a shock shock. In order to reduce the residual stress on the glass substrate and the defective glass substrate, the present invention uses a grinding wheel to grind the edges of the upper substrate 12 and the lower substrate 22 to form the 5 M366149 lead angles. The preferred embodiment of the grinding wheel of the present invention is a grinding wheel having a rotational speed greater than 9 inches. The edges of the upper substrate 12 and the lower substrate 22 are ground to form the lead angles 3〇〇, 34〇, sides, and paste. The angles of the guide angles 300, 340, the sides, 440, 442 may be 〇 degrees ~ 9 () degrees. The formation of the lead angles 3〇〇, 340, shed, 44G, 442 can eliminate the residual stress, so as to increase the strength of the glass substrate and can be applied to the panel of different thicknesses. Ostrich claw thickness. Furthermore, since the four end points of the glass substrate are easily broken by external force, the four ends of the substrate 12 and the lower substrate 22 can be provided with lead angles 14, 16, 17, 19, 26, for example. The figure is shown to strengthen the hardness of the four ends of the upper substrate 12 and the lower substrate 22 to prevent the glass substrate from being broken from the four end points. Please refer to the third and fourth figures, which are a top view and a cross-sectional view of a display panel of another preferred embodiment of the present invention. As shown in the figure, this embodiment is different from the embodiments of the first and second figures. In this embodiment, a reinforcing body 2 is disposed on the edge of the upper substrate 12, and the reinforcing body 2 is located on the surface of the lower substrate 22. The edge of the upper substrate 12 that reinforces the upper substrate 12 on the surface of the lower substrate 22, that is, the third edge 34' of the upper substrate 12 is not easy to be ground by a tool because the third edge 34 is generally easy to use. 2〇 is disposed on the third edge 34 to strengthen the upper substrate 12′, that is, the reinforcing body 20 is an adhesive, to fill and fix the fine cracks on the third edge 34 through the viscosity of the adhesive, thereby achieving the strengthened glass substrate. The purpose of the hardness. Among them, the preferred embodiment of the adhesive is - ultra-vi〇letGel. The reinforcing body 2〇 is added at a position where the upper substrate 12 and the lower substrate 22 cannot be edged to increase the strength of the panel itself and to eliminate stress residual. In summary, the creation display panel includes an upper substrate and a lower substrate. The upper substrate has a plurality of edges, and the plurality of edges each have a lead angle. The lower substrate is located on one side of the upper substrate and has a plurality of edges, and each of the edges has a lead angle. This creation reduces stress residual and glass defects by the angle between the upper substrate and the lower substrate. Furthermore, in this creation, a reinforcing body can be provided on the edge where the upper substrate and the lower substrate are not molded, so that the hardness of the display panel is increased, thereby increasing the production quality and reliability of the liquid crystal panel. In order to improve the display quality and increase the intensity of the display. Therefore, this creation is a novelty, progressive and available for industrial use. It should be in line with the M366149 national patent scales, and the county is lacking. Affirming that the 'Praying Bureau has given the above mentioned above, only the scope of this creation-the preferred embodiment has been implemented, so the use of this creation _ is limited to the capital of the creation of God and the _, both It should be included in the scope of (4) patents of this creation. '[Simplified illustration of the drawings] - The figure is a top view of the display panel of a preferred embodiment of the present invention; a sectional view of the display panel of the second hidden copy creation; the second picture is the creation of the present 3 - a top view of a preferred age panel; and a fourth diagram is a cross-sectional view of another preferred embodiment of the present invention. [Main component symbol description] This creation: 12 upper substrate 14 lead angle • 17 lead angle 16 lead angle 19 lead angle, 22 lower substrate. 26 lead angle 27 lead angle 28 lead angle 29 lead angle 30 first edge second edge 7 32 M366149 34 Third Edge 36 Fourth Edge 40 Fifth Edge 42 Sixth Edge 44 Seventh Edge 46 Eighth Edge 50 Wafer