201003196 .九、發明說明: 【發明所屬之技術領域】 本發明係關於一種液晶顯示面板,尤其係關於一種可有 效防止靜電放電(Electrostatic Discharge,ESD)破壞之液晶顯 示面板。 【先前技術】 液晶顯示裝置具有體積小、耗電低及輕射少等特點,被 廣泛應用於監視器、液晶電視、行動電話及筆記型電腦等領 域,並逐漸成為市場之主流。液晶顯示裝置包括一液晶顯示 面板及一背光模組。該液晶顯示面板包括一顯示區及一相鄰 該顯不區之非顯示區。該顯示區包括複數驅動線。該驅動線 用於傳輸該液晶顯示面板顯示所需之驅動電壓,其通常包括 掃描驅動線及資料驅動線。該非顯示區包括複數短路棒 (Shorting Bars)。該短路棒分別電連接相應之驅動線。該短 路棒與外部線路電連接,用於接收測試電壓,並配合外部儀 、 器測試該驅動線之短路及開路狀況。 在該液晶顯示面板製造及組裝過程中,不論係各種機器 設備移動、人體接觸或液晶顯示面板本身都可能會因為累積 靜電電荷而引發靜電放電之現象。由於該液晶顯示面板之線 路及組件非常精細,若有靜電放電之現象產生,易於導致該 液晶顯示面板報廢之後果。為解決靜電放電現象導致該液晶 顯f面板之良率過低之問題,業界提出-種靜電防護措施, 即該掃描㈣線及該資料驅⑽之末端製作成尖銳狀,並於 非顯示區製作-第一金屬帶及一第二金屬帶。該第一金屬帶 6 201003196 及第二金屬帶接地。該第一金屬帶包括一與該掃描驅動線相 互平行之第一主體部及複數垂直連接該第一主體部之短 邊。該第一金屬帶之短邊未連接該第一主體部之一端製作成 尖銳狀,且其與該資料驅動線之末端—相對設置。同樣, 該第二金屬帶包括一與該資料驅動線相互平行之第二主體 邓及複數垂直連接該第二主體部之短邊。該第二金屬帶之短 邊未連接該第二主體部之一端製作成尖銳狀,且其與該掃描 驅動線之末端一 一相對設置。 當外部靜電電荷侵人該液晶顯示面板時,因短路棒與外 部線路電連接部分暴露於外而提供了外部靜電電荷進入該 驅動線之路徑,該掃描驅動線之末端及該資_動線之末端 會累積部分靜電電荷。藉由尖端放電之效應,卿描驅動線 之末端及該資料驅動線之末端之靜電電荷傳輸至該第一金 屬帶及該第二金屬帶,從而藉由該第一金屬帶及第二金 之接地而釋放。 ▼ 次降,琢静電防護措施僅釋放部分累積該掃描驅動線與該 貧料驅動線之末端之靜電電荷’仍有部分靜電電荷進入該顯 :區内部區域’且累積於該顯示區内部區域,如該掃描驅動 線與該資料驅動線之相交處。且,通常該掃描驅動線盘該資 料驅動線之相交處為靜電放電損_率較大處,如此發生靜 電放電導致該掃描驅動線與該資料驅動線短路或斷開之不 土後果。所以採用上述靜電防護措施之液晶顯示面板未 :面地釋放靜電電荷,即其並未有效防止靜電放電破壞該液 日曰顯不面板。 7 201003196 【發明内容】 有鑑於此’提供一種能較全面地釋放靜電電荷、有效防 止靜電放電破壞之液晶顯示面板實為必要。 種液晶顯示面板’其包括一顯示區及一相鄰該顯示區 €顯丁ζΐ β亥顯不區包括複數驅動線,該複數驅動線界定 像素區域。該非顯示區包括複數短路棒及複數空置線,該短 路棒用於接收測試訊號並傳輸至該驅動線,每一該空置線一 端與一短路棒電連接,且至少有二連接至不同短路棒之空置 線之另一端相對設置。 -種液晶顯示面板’其包括一顯示區及一相鄰該顯示區 之非顯示區。該顯示區包括複數驅動線。該非顯示區包括複 數短路棒及複數m該短路棒連接至馳動線,每一該 空置線-端與-短路棒電連接,且至少二空 : 對設置,用於釋放靜電。 力鈿相 背技術,該液晶顯示面板藉由該空置線傳輸外 枝入之靜電電荷並使得該靜電電荷累積於該空置線之另 -端’從而該靜電電荷未能侵人該顯示區。且,藉由至,卜二 Z置Γ另一端相對設置,該靜電電荷於該顯“外之‘空 置線之相對設置處放電,從而能較全面地釋 效防止靜電放電破壞該液晶顯示面板。 °了有 【實施方式】 -實;方圖1係本發明液晶顯示面板第 圖,圖2係圖1所示11區域放大示意 临顯不面板1包括-顯示區U及-相鄰該顯示區 8 201003196 11之非顯示區13。 動線括複數掃描驅動線(未標示)、複數資料驅 動線(未標不)及複數薄膜雷a SO .,, 、電日日體(未標示)。該複數掃描驅動 線相互平行排列,該資料 直排列,其中該掃描驅動線與該掃描驅動線相互; 小區蚊義-像素區域料㈣線相交所圍成之最 ^ (未標不)。該薄膜電晶體分別位於每 批甘“ :I驅動線傳輪掃描電壓至該薄膜電晶體以 W右 貝抖駆動線傳輸顯示所需之資料電壓 至該薄膜電晶體,以實規兮續描+ _ _ 夏見該薄膜電晶體所在像素區域之畫面 *«具 >|\ 〇 該非.4示區13包括複數連接線13〇、一第一短路棒 第一短路棒132、一第三短路棒133、一第四短路棒 134、複數相互平行之第一空置線(DummyLine)i35、複數相 互平仃之第一空置線136、複數相互平行之第三空置線137、 複數相互平盯之第四空置線138及複數第一半導體圖案 9該第一、第一短路棒131、132平行相鄰設置。該二 短路棒ί32設置於該第一短路棒131與該顯示區n之間。 j第二、第四紐路棒133、134亦平行相鄰設置,且與該第 、:第一紐路棒131、132相垂直。該第四短路棒134設置 第三短路棒133與該顯示區11之間。該第—短路棒131 線,f短路棒132藉由該連接線130電連接對應之資料驅動 該第二短路棒133及第四短路棒134藉由該連接線^ 電連接對應之掃描驅動線。 一足置線135與該第二空置線136間隔且交替排 9 201003196 列,每二相鄰第一空置線135間夾有一第二空置線136,每 二相鄰第二空置線136間夾有一第一空置線135。該第一空 置線135 —端與該第一短路棒131電連接,另一端呈尖銳 狀。該第二空置線136 —端與該第二短路棒132電連接,另 一端呈尖銳狀。該第一空置線135及第二空置線136之呈尖 銳狀之一端,分別定義為尖端,其用於累積靜電電荷。且每 一該第一空置線135之尖端與每一該第二空置線136之尖端 相對設置。該第一半導體圖案139設置於尖端相對設置之該 第一空置線135之尖端與該第二空置線136之尖端之間,使 得該第一空置線135藉由該第一半導體圖案139與該第二空 置線136相連接。 同理,該第三空置線137與該第四空置線138間隔且交 替排列,每二相鄰第三空置線137間夾有一第四空置線 138,每二相鄰第四空置線138間夾有一第三空置線137。該 第三空置線137 —端與該第三短路棒133電連接,另一端呈 尖銳狀。該第四空置線138 —端與該第四短路棒134電連 接,另一端呈尖銳狀。該第三空置線137及第四空置線138 之呈尖銳狀之一端,亦分別定義為尖端,其用於累積靜電電 荷。且每一該第三空置線137之尖端與每一該第四空置線 138之尖端相對設置。該第一半導體圖案139設置於尖端相 對設置之該第三空置線137之尖端與該第四空置線138之尖 端之間,使得該第三空置線137藉由該第一半導體圖案139 與該第四空置線138相連接。 藉由該連接線130,該第一短路棒131與該第1,3 201003196 2l_1(1^imf料驅動線電連接,該第二短路棒132與該第 2 4 21條資料驅動線電連接。同樣,該第三短路棒133 與該1 3 ···…條掃插驅動線電連接,該第四短路 ^ 厂該第2,4......2j條掃描驅動線電連接。測試時該 第 第一、第二及第四短路棒131、132、133、134分別 與外4電路(圖未不)相連接,接收測試訊號,並將該測試訊 號傳輸至該資料驅動線及該掃描驅動線,以測試該資料驅動 線及該掃描驅動線之短路及開路狀況。 田外部靜電電荷侵入該液晶顯示面板1時,該第一、第 一、第二及第四短路棒131、132、133、134上之靜電電荷 被傳輸且累積於該第一、第二、第三及第四空置線135、136、 137、138之尖端。藉由尖端放電效應,該靜電電荷於該第一、 第二、第三及第四空置線135、136、137、138之尖端放電, 且導致該第一半導體圖案139之崩潰(Breakdown)放電,使 靜電電荷得以耗散。 相較於先前技術,該液晶顯示面板1藉由該第一、第二、 第三及第四空置線135、136、137、138傳輸外部侵入之靜 電電荷並使得該靜電電荷累積於該第一、第二、第三及第四 空置線135、136、137、138之另一端,從而該靜電電荷未 能侵入該顯示區11。且,藉由尖端放電效應’該靜電電荷於 該第一、第二、第三及第四空置線135、136、137、138之 尖端放電,並導致該第一半導體圖案139之崩潰放電’從而 能較全面地釋放靜電電荷,使得靜電放電於該顯示區11外 發生,有效防止靜電放電破壞該液晶顯示面板1。 11 201003196 . 請參閱圖3,係本發明液晶_示面板第二實施方式之結 構示意圖。該液晶顯示面板2與颉第一實施方式之液晶顯示 面板1大致相同,其主要區別在於:第一、第二、第三及第 四短路棒231、232、233、234之相鄰之一端偕呈尖銳狀, 定義為尖端,且非顯示區23進〜步包括一第二半導體圖案 239。該第一短路棒231之尖端與該第三短路棒之尖端 相鄰設置,該第二短路棒232之尖端與該第四短路棒234之 尖端相鄰設置。且該第二半導體圖案239設置於該第一、第 二短路棒231、232與該第三、第四短路棒233、之尖端 之間。藉由尖端放電效應,造成該第二半導體圖案239之崩 潰放電,使得靜電電荷更完全耗散。 請參閱圖4,係本發明液晶顯示面板第三實施方式之局 部結構不意圖。該液晶顯示面板3與該第一實施方式之液晶 顯不面板2大致相同,其主要區別在於:非顯示區%進一 2括:第一導線341及一第二導線342。該第-導線341 第-短路棒331之遠離該第二仃;且設置於該 外部線路m去-、丑路棒332之一侧,其連接至 P線路(圖未不),用於接收公共電壓 端電連接該第一導線341, 帛一導線342 — 域(未標示)。第一空第—導線341界定—矩形區 }弗工罝線335之雷造拉咕组 一端、第二空置線336之電連接^接該第—短路棒331之 落在該矩形區域。該第二㈣342短路棒332之一端均 之部分(未標示)與每-該第—空=導線341平行 絕緣相交,藉由相交處易發生靜二空置線336 易毛生静電玫電原理,進-步釋放靜 12 201003196 .電電荷’從而有效地消除靜電電荷對該液晶顯示面板3之危 害。 本發明液晶顯示面板並不限於上述實施方式之所述,亦 可具其他變更設計,如:在每一實施方式中,第一空置線之 尖端與該第三空置線之尖端相對設置,或第_空置線之尖端 與該第四空置線之尖端相對設置。另,該第二空置線之尖端 與該第三空置線之尖端相對設置,或該第二空置線之尖端與 該第四空置線之尖端相對設置。且,尖端相對設置處藉由一 第三半導體圖案實現相連接。 綜上所述,本發明確已符合發明專利之要件,爰依法提 出專利申請。惟,以上所述者僅為本發明之較佳實施方式, 本發明之範圍並不以上述實施方式為限,舉凡熟悉本案技藝 之人士援依本發明之精神所作之等效修飾或變化,皆應涵蓋 於以下申請專利範圍内。 【圖式簡單說明】 圖1係本發明液晶顯示面板第一實施方式之結構示意 圖。 、 圖2係圖1所示π區域放大示意圖。 圖3係本發明液晶顯示面板第二實施方式之結構示意 圖。 ^ 圖4係本發明液晶顯示面板第三實施方式之局部結構示 意圖。 、【主要元件符號說明】 液晶顯示面板 1、2、3 第一空置線 135、335 13 201003196 顯不區 l 非顯不區 連接線 第一短路棒 第二短路棒 第三短路棒 弟四短路棒 11 第二空置線 136、336 13 、 23 、 33 第三空置線 137 130 第四空置線 138 131、231、331 第一半導體圖案 139 132、232、332 第二半導體圖案 239 133 、 233 第一導線 341 134 、 234 第二導線 342 14BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a liquid crystal display panel, and more particularly to a liquid crystal display panel which can effectively prevent electrostatic discharge (ESD) damage. [Prior Art] The liquid crystal display device has the characteristics of small size, low power consumption, and low light shot, and is widely used in monitors, LCD TVs, mobile phones, and notebook computers, and has gradually become the mainstream of the market. The liquid crystal display device includes a liquid crystal display panel and a backlight module. The liquid crystal display panel includes a display area and a non-display area adjacent to the display area. The display area includes a plurality of drive lines. The driving line is used for transmitting a driving voltage required for display of the liquid crystal display panel, and generally includes a scan driving line and a data driving line. The non-display area includes a plurality of shorting bars (Shorting Bars). The shorting bars are electrically connected to the respective driving lines. The short bar is electrically connected to the external line for receiving the test voltage, and is tested with an external instrument to test the short circuit and open circuit condition of the drive line. During the manufacture and assembly of the liquid crystal display panel, the electrostatic discharge may be caused by the accumulation of electrostatic charges regardless of the movement of various devices, human contact, or the liquid crystal display panel itself. Since the circuit and the components of the liquid crystal display panel are very fine, if the phenomenon of electrostatic discharge occurs, it is easy to cause the liquid crystal display panel to be scrapped. In order to solve the problem that the electrostatic discharge phenomenon causes the yield of the liquid crystal display panel to be too low, the industry proposes an electrostatic protection measure, that is, the scanning (four) line and the end of the data drive (10) are sharply formed, and are produced in the non-display area. a first metal strip and a second metal strip. The first metal strip 6 201003196 and the second metal strip are grounded. The first metal strip includes a first body portion parallel to the scan drive line and a plurality of short sides perpendicularly connecting the first body portion. The short side of the first metal strip is not connected to one end of the first body portion to be sharply formed, and is disposed opposite to the end of the data driving line. Similarly, the second metal strip includes a second body parallel to the data driving line and a plurality of short sides perpendicularly connecting the second body portion. The short side of the second metal strip is not connected to one end of the second body portion to be sharpened, and is disposed opposite to the end of the scan driving line. When an external electrostatic charge invades the liquid crystal display panel, a path for external electrostatic charge to enter the driving line is provided because the shorting bar and the external line electrical connection portion are exposed to the outside, and the end of the scanning driving line and the resource line are A portion of the electrostatic charge is accumulated at the end. The electrostatic charge of the end of the driving line and the end of the data driving line is transmitted to the first metal strip and the second metal strip by the effect of the tip discharge, thereby the first metal strip and the second metal strip Released by grounding. ▼ times down, 琢 ESD protection only releases part of the electrostatic charge that accumulates the end of the scan drive line and the lean drive line. 'There is still some electrostatic charge entering the display: internal area of the zone' and accumulating in the internal area of the display area , such as the intersection of the scan drive line and the data drive line. Moreover, usually, the intersection of the data driving lines of the scan driving reel is a place where the electrostatic discharge loss rate is large, and thus the electrostatic discharge causes the scanning driving line to be short-circuited or disconnected from the data driving line. Therefore, the liquid crystal display panel using the above electrostatic protection measures does not: discharge the electrostatic charge on the surface, that is, it does not effectively prevent the electrostatic discharge from damaging the liquid. 7 201003196 SUMMARY OF THE INVENTION In view of the above, it is necessary to provide a liquid crystal display panel which can discharge electrostatic charges more comprehensively and effectively prevent electrostatic discharge damage. A liquid crystal display panel includes a display area and an adjacent display area. The display unit includes a plurality of drive lines defining a pixel area. The non-display area includes a plurality of shorting bars for receiving test signals and transmitting to the driving lines, and each of the empty lines is electrically connected to one shorting bar, and at least two are connected to different shorting bars. The other end of the vacant line is oppositely set. A liquid crystal display panel includes a display area and a non-display area adjacent to the display area. The display area includes a plurality of drive lines. The non-display area includes a plurality of shorting bars and a plurality of m shorting bars connected to the sling line, each of the vacant line ends being electrically connected to the - shorting bar, and at least two empty: a pair for discharging static electricity. In the reverse phase technique, the liquid crystal display panel transmits an electrostatic charge externally by the vacant line and causes the electrostatic charge to accumulate at the other end of the vacant line so that the electrostatic charge fails to invade the display area. Moreover, by the opposite arrangement of the other end, the electrostatic charge is discharged at the opposite position of the "outside" vacant line, so that the liquid crystal display panel can be prevented from being completely destroyed by the electrostatic discharge. [Embodiment] - Real; FIG. 1 is a first diagram of the liquid crystal display panel of the present invention, and FIG. 2 is an enlarged view of the 11 area shown in FIG. 1. The panel 1 includes - a display area U and - adjacent to the display area 8 201003196 11 non-display area 13. The moving line includes a plurality of scanning drive lines (not labeled), a plurality of data drive lines (not marked), and a plurality of thin film lightning a SO.,,, electric Japanese and Japanese bodies (not labeled). The plurality of scan driving lines are arranged in parallel with each other, and the data is arranged in a straight line, wherein the scanning driving line and the scanning driving line are mutually mutually; the cell mosquito-pixel area material (four) line intersects to form the most ^ (not marked). The crystals are respectively located in each batch of ":I drive line transfer scanning voltage to the thin film transistor to transmit the required data voltage to the thin film transistor to transmit the required data voltage to the thin film transistor, to follow the actual pattern + _ _ The film transistor is located in the pixel area The surface of the non-.4 display area 13 includes a plurality of connecting lines 13A, a first shorting bar first shorting bar 132, a third shorting bar 133, a fourth shorting bar 134, and a plurality of parallel lines a first dummy line (iummy line) i35, a plurality of first vacant lines 136 that are mutually flat, a third vacant line 137 that is parallel to each other, a fourth vacant line 138 that is in parallel with each other, and a plurality of first semiconductor patterns 9 1. The first shorting bars 131, 132 are disposed adjacent to each other in parallel. The two shorting bars ί32 are disposed between the first shorting bar 131 and the display area n. j. The second and fourth new way bars 133, 134 are also disposed adjacent to each other in parallel, and are perpendicular to the first: first new way bars 131, 132. The fourth shorting bar 134 is disposed between the third shorting bar 133 and the display area 11. The first shorting bar 131 line, the f shorting bar 132 is electrically connected to the corresponding data by the connecting line 130. The second shorting bar 133 and the fourth shorting bar 134 are electrically connected to the corresponding scanning driving line by the connecting wire. A foot line 135 is spaced apart from the second vacant line 136 and alternately rows 9 201003196, and a second vacant line 136 is sandwiched between each adjacent first vacant line 135, and a second vacant line 136 is sandwiched between each adjacent second vacant line 136. An empty line 135. The first idle line 135 is electrically connected to the first shorting bar 131 and the other end is sharp. The second vacant line 136 is electrically connected to the second shorting bar 132, and the other end is sharp. One of the pointed ends of the first vacant line 135 and the second vacant line 136 is defined as a tip, which is used to accumulate an electrostatic charge. And the tip of each of the first vacant lines 135 is disposed opposite to the tip of each of the second vacant lines 136. The first semiconductor pattern 139 is disposed between the tip end of the first vacant line 135 opposite to the tip end and the tip end of the second vacant line 136, such that the first vacant line 135 is separated from the first semiconductor pattern 139 by the first semiconductor pattern 139 The two vacant lines 136 are connected. Similarly, the third vacant line 137 is spaced apart from the fourth vacant line 138 and alternately arranged. A second vacant line 138 is sandwiched between each adjacent third vacant line 137, and each second adjacent fourth vacant line 138 is sandwiched. There is a third vacant line 137. The third vacant line 137 is electrically connected to the third shorting bar 133, and the other end is sharp. The fourth vacant line 138 is electrically connected to the fourth shorting bar 134, and the other end is sharp. The sharply shaped ends of the third vacant line 137 and the fourth vacant line 138 are also respectively defined as tips for accumulating electrostatic charges. And the tip of each of the third vacant lines 137 is disposed opposite to the tip of each of the fourth vacant lines 138. The first semiconductor pattern 139 is disposed between the tip end of the third vacant line 137 opposite to the tip end and the tip end of the fourth vacant line 138, such that the third vacant line 137 is separated by the first semiconductor pattern 139 The four vacant lines 138 are connected. The first shorting bar 131 is electrically connected to the first, third, and third, and the second shorting bars 132 are electrically connected to the second and fourth data driving lines. Similarly, the third shorting bar 133 is electrically connected to the 1 3 ···... stripping drive line, and the 4th, 4th, 2nd, 2th scanning drive lines are electrically connected. The first, second, and fourth shorting bars 131, 132, 133, and 134 are respectively connected to the external 4 circuit (not shown), receive the test signal, and transmit the test signal to the data driving line and the Scanning the driving line to test the short circuit and open circuit condition of the data driving line and the scanning driving line. When the external electrostatic charge invades the liquid crystal display panel 1, the first, first, second and fourth shorting bars 131, 132 The electrostatic charges on 133, 134 are transmitted and accumulated at the tips of the first, second, third, and fourth vacant lines 135, 136, 137, 138. The electrostatic charge is at the first end by a tip discharge effect Discharging the tips of the second, third, and fourth vacant lines 135, 136, 137, 138, and causing the first The breakdown of the semiconductor pattern 139 is discharged, so that the electrostatic charge is dissipated. Compared with the prior art, the liquid crystal display panel 1 has the first, second, third and fourth vacant lines 135, 136, 137, 138 transmits an externally intruding electrostatic charge and causes the electrostatic charge to accumulate at the other end of the first, second, third, and fourth vacant lines 135, 136, 137, 138 such that the electrostatic charge fails to invade the display area 11 Moreover, the electrostatic charge is discharged at the tips of the first, second, third, and fourth vacant lines 135, 136, 137, 138 by a tip discharge effect, and causes a breakdown discharge of the first semiconductor pattern 139. Therefore, the electrostatic charge can be discharged more comprehensively, so that the electrostatic discharge occurs outside the display area 11, and the electrostatic discharge is effectively prevented from damaging the liquid crystal display panel 1. 11 201003196 . Referring to FIG. 3 , the second embodiment of the liquid crystal display panel of the present invention The liquid crystal display panel 2 is substantially the same as the liquid crystal display panel 1 of the first embodiment, and the main difference is that the first, second, third and fourth shorting bars 231, 232, 23 One of the adjacent ends of the 234 is sharply defined as a tip, and the non-display area 23 includes a second semiconductor pattern 239. The tip of the first shorting bar 231 is opposite to the tip of the third shorting bar. Adjacently disposed, a tip end of the second shorting bar 232 is disposed adjacent to a tip end of the fourth shorting bar 234. The second semiconductor pattern 239 is disposed on the first and second shorting bars 231, 232 and the third and the third Between the tips of the four shorting bars 233, the breakdown discharge of the second semiconductor pattern 239 is caused by the tip discharge effect, so that the electrostatic charge is more completely dissipated. Referring to Fig. 4, the partial structure of the third embodiment of the liquid crystal display panel of the present invention is not intended. The liquid crystal display panel 3 is substantially the same as the liquid crystal display panel 2 of the first embodiment, and the main difference is that the non-display area % includes a first wire 341 and a second wire 342. The first wire 341 is spaced apart from the second wire; and is disposed on one side of the external circuit m, and the ugly bar 332 is connected to the P line (not shown) for receiving the public The voltage terminal is electrically connected to the first wire 341, and a wire 342 is a domain (not shown). The first empty-wire 341 defines a rectangular area. The electrical connection of the one end and the second vacant line 336 is connected to the rectangular area. A portion (not labeled) of one end of the second (four) 342 shorting bar 332 intersects with each of the first - empty = wires 341 in parallel, and the static second vacant line 336 is easy to occur by the intersection. The step-release static 12 201003196 . The electric charge ' thereby effectively eliminating the electrostatic charge to the liquid crystal display panel 3 . The liquid crystal display panel of the present invention is not limited to the above embodiment, and may have other modified designs. For example, in each embodiment, the tip end of the first vacant line is opposite to the tip end of the third vacant line, or The tip of the vacant line is disposed opposite the tip of the fourth vacant line. Further, a tip end of the second vacant line is disposed opposite to a tip end of the third vacant line, or a tip end of the second vacant line is disposed opposite to a tip end of the fourth vacant line. Moreover, the opposite ends of the tip are connected by a third semiconductor pattern. In summary, the present invention has indeed met the requirements of the invention patent, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above-described embodiments, and those skilled in the art will be able to make equivalent modifications or variations in accordance with the spirit of the present invention. It should be covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing the configuration of a first embodiment of a liquid crystal display panel of the present invention. 2 is an enlarged schematic view of the π region shown in FIG. 1. Fig. 3 is a schematic view showing the structure of a second embodiment of the liquid crystal display panel of the present invention. Fig. 4 is a partial structural view showing a third embodiment of the liquid crystal display panel of the present invention. [Main component symbol description] LCD panel 1, 2, 3 First vacant line 135, 335 13 201003196 No area l Non-display area connection line First shorting bar Second shorting bar Third shorting bar Young four shorting bar 11 second vacant line 136, 336 13 , 23 , 33 third vacant line 137 130 fourth vacant line 138 131 , 231 , 331 first semiconductor pattern 139 132 , 232 , 332 second semiconductor pattern 239 133 , 233 first wire 341 134, 234 second wire 342 14