1284752 14291twf.doc/g 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種顯示面板,且特別是有關於一種 可長:供較佳之影像品質與較南開口率(aperture ratio)之顯 不面板〇 【先前技術】 顯示器為人與資訊的溝通界面,目前以平面顯示器為 發展之趨勢。平面顯示器主要有以下幾種:有機電激發光 顯示器(Organic Electro-Luminescence Display,OLED)、電 漿顯示器(Plasma Display Pane卜PDP)、液晶顯示器(Liquid Crystal Display,LCD)以及發光二極體顯示器(Light Emitting Diode Display,LED Display)等。其中,又以液晶 顯示器的應用最為廣泛。 近年來’液晶顯示裔不斷朝著高解析度(res〇luti〇n)與 高顯示輝度(brightness)的趨勢發展,但傳統高解析度的液 晶顯示面板往往會遭遇到開口率下降的問題,而隨著開口 率的下降,液晶顯示面板的顯示輝度亦會減少。為了要同 時兼顧液晶顯示面板的解析度與顯示輝度,必須尋求其他 設計方式,其詳細結構如圖1A所纟會示。 圖1A繪示為習知的液晶顯示面板的示意圖。請參照 圖1A ’液晶顯示面板1〇〇具有多個紅色次晝素11〇 (re(j sub-pixel)、多個綠色次晝素 12〇 (green sub-pixel)、多 個藍色次晝素130(bluesub_pixei)、多個薄膜電晶體ho、 多條資料配線150以及多條掃瞄配線16〇。其中紅色次晝 1284752 14291twf.doc/g 素110與綠色次晝素120係沿著一行方向交錯排列成多個 第一晝素行170,以及藍色次晝素13〇係沿著行方向排列 成多個弟—晝素行180,且第二晝素行18〇與第一晝素行 170係沿著一列方向交替排列。薄膜電晶體14〇係設置於 母一個紅色110、綠色12〇及藍色丨3〇次畫素上,並配合 資料配線150與掃瞄配線16〇,用以控制各個晝素行之開/ 關狀態。1284752 14291twf.doc/g IX. Description of the Invention: [Technical Field] The present invention relates to a display panel, and in particular to a length: for better image quality and a south aperture ratio The display panel is not a prior art. [Previous technology] The display is a communication interface between people and information. At present, the development trend of flat panel displays. The main types of flat panel displays are: Organic Electro-Luminescence Display (OLED), Plasma Display Panel (PDP), Liquid Crystal Display (LCD), and LED display ( Light Emitting Diode Display, LED Display), etc. Among them, liquid crystal displays are the most widely used. In recent years, 'liquid crystal display people are steadily moving toward high resolution (res〇luti〇n) and high display brightness, but traditional high-resolution liquid crystal display panels often suffer from a decrease in aperture ratio. As the aperture ratio decreases, the display luminance of the liquid crystal display panel also decreases. In order to simultaneously consider the resolution and display brightness of the liquid crystal display panel, other design methods must be sought, and the detailed structure is shown in Fig. 1A. FIG. 1A is a schematic diagram of a conventional liquid crystal display panel. Referring to FIG. 1A, the liquid crystal display panel 1 has a plurality of red sub-pixels (re(j sub-pixel), a plurality of green sub-pixels, and a plurality of blue sub-pixels. 130 (bluesub_pixei), a plurality of thin film transistors ho, a plurality of data wirings 150, and a plurality of scanning wirings 16〇, wherein the red secondary 昼1284752 14291 twf.doc/g 110 and the green sub-tin 120 are in a row direction Staggered into a plurality of first element rows 170, and blue sub-tenors 13 are arranged in a row direction into a plurality of dice-like rows 180, and the second element rows 18〇 are along the first elementary line 170 A column of electrodes is alternately arranged. The thin film transistor 14 is disposed on a mother's red 110, green 12 〇, and blue 丨 3 〇 pixels, and is matched with the data wiring 150 and the scanning wiring 16 〇 to control each element. On/off status.
圖1B繪不為對應圖1A中的藍色次畫素所顯示之空間 取樣點的示意圖。請參照圖1B,如圖1A中所繪示的晝素 排列方式仍存在一些缺點,且由於在圖1B中之藍色次查 :的多個空間取樣點130a,其在水平方向(列方5)上二 密度較垂直方向(行方向)為低,因此水平方向所顯示的 影像品質將會較差。 請繼續參照圖1A,另外,在液晶顯示面板1〇〇中, =於每-個次晝素⑽、12G、13G)上均設置了薄膜電晶 肽140 ’導致薄膜電晶體140的數目太多,因此將會減低 -人晝素(110、120、130)之開口率,影響到液晶 100顯示的亮度。 极 【發明内容】 ▲本發明的目的就是在提供-種顯示面板,其適 較佳之影像品質與較高之開口率。 、’ 本發明的再一目的就是在提供一種液晶顯示面板,立 適於提供較佳之影像品質與較高之開口率。 /、 本發明的又-目的就是在提供一種顯示裝置,其適於 6 128475.2 14291twf.doc/g 提供較佳之影像品質。 多個—種顯示面板’其包括多個第-次書素、 ί二Ctr行方向交錯排列成第—晝素行了以; 著行方向排列成第二晝素行,且第二佥i I:欠著—列方向交替排列,其中每;第 二次畫素;中於第-次畫素其中之-與第 辛、第在二本欠施例中,第一次晝素例如為紅色次書 次晝素。鱗色次晝素,而第三次晝素例如為藍色 查去之一實施例中,每一個第一次晝素例如包括— 5二、i薄膜電晶體、—共用電極、—紅色遽光膜以及— 液曰曰層。其中’薄膜電晶體與晝素電極電性連接,共用電極係 配置於晝素電極上方、紅色渡光膜係配置於畫素電極上方,以 及液晶層配置於紅色濾光膜與晝素電極之間。 在本發明之-實施例中,每一個第二次晝素例如包括一 旦素電極、-薄膜電晶體、—共用電極、—綠色濾、光膜以及— 液晶層。其中,薄膜電晶體與晝素電極電性連接,共用電極係 配置於畫素電極上方、紅色濾光膜係配置於晝素電極上方,以 及液晶層係配置於紅色濾光膜與畫素電極之間。 在本發明之一實施例中,每一個第三次晝素例如包括一 晝素電極、-薄膜電晶體、-共用電極、—藍色濾光膜以及一 液晶層。其中,薄膜電晶體與畫素電極電性連接,共用電極係 1284752 14291twf.doc/g 配置於畫素電極上方、紅色濾光膜係配置於晝素電極上方,、 及液晶層係配置於紅色濾光膜與畫素電極之間。 以 在本發明之一實施例中,第一晝素行中位於奇數行内之 第一次晝素在列方向上係彼此切齊,而第一晝素行中位於偶數 行内之第一次晝素在列方向上係彼此切齊,且奇數行内與偶數 行内之第一次晝素在列方向上係彼此不切齊。 ^ 在本發明之一實施例中,每一個第二晝素行中之第二次 晝素在列方向上係彼此切齊。 #在本發明之一實關中,第二晝素行中位於奇數行内之 第三次晝素在列方向上係彼此切齊,而第二晝素行中位於偶數 行内之第三次晝素在列方向上係彼此切齊,且奇 行内之第三次晝素在列方向上係彼此不切齊。 -偶數 本發明提出-種液晶顯示面板,包括—第—基板、多個 ^-晝素電極、多個第二畫素電極、多個第三晝素電極、 多個主動元件、多個掃描配線、多自資料配線、一第二基 夕個帛Φ色據細、多個第二彩色遽光膜、多個第 三彩色濾光膜以及一液晶層。其中第一畫素電極與第二晝 素^極係沿著-行方向交錯排列成第一晝素電極行,而^ =旦素電極係沿著行方向排列成第二晝素電極行,且第二 極仃與第-晝素電極行係沿著一列方向交替排列, ς每-個第三晝素電極沿著行方向的長度等於第―晝素 书,其中之一與第二晝素電極其中之一的長度總和。主動 Τ係配置於第-基板上。掃描配線係配置於第一基板 ’資料配線係配置於第一基板上,其中掃描配線與資料 8 I284752 14291twf.doc/g 配線係透過主動元件控制第一畫素電極、第二晝素電極以 及第二晝素電極。第一彩色濾光膜係配置於第二基板上, 且對應於第一晝素電極上方,第二彩色濾光膜係配置於第 一基板上,且對應於第二晝素電極上方,第三彩色濾光膜 係配置於第二基板上,且對應於第三晝素電極上方,以及 一液晶層係位於第一基板與第二基板之間。 在本發明之一實施例中,例如更包括一黑矩陣配置於第 一基板上,且位於掃瞄配線、資料配線與主動元件上方。 在本發明之一實施例中,每一個第三晝素電極係跨過多 條掃瞒配線其中之一。 、在本發明之—實施例中’第—彩色濾光膜例如為紅光彩 ,渡光臈、第二彩色遽細例如為綠絲色濾光膜,而第三 彩色濾光膜例如為藍光彩色濾光膜。 在本發明之一實施例中,第一晝素電極行中位於奇數行 内之第-晝素電極在财向上係彼此切齊,— 中位於偶數行狀第-晝素電極在列方向上係彼此;;齊,^ 數仃内與贿行内之[畫素電極侧方向上倾此不切齊。 一在本發明之一貫施例中,每一個第二晝素電極行中之第 二晝素電極在列方向上係彼此切齊。 *在本發明之一實施例中,第二畫素電極行中位於奇數行 内之第三晝素電極在财向上係彼此切齊,喊素電極行中位 於偶數行内之第二畫素電極在列方向上係彼此切齊,且奇數行 内與偶數行内之第三晝素雜在财向上係彼此不切齊。 本發明提出一種顯示裝置,其包括一顯示面板與一控制 9 1284752 14291twf.doc/g 。其中,顯示面板包括多個第一次晝素、多個第二次 ^二二:個第三次晝素,其中,多個第一次晝素與多個 心Cl係、沿著—行方向交錯排列成多個第—晝素行。 夕1人晝素係沿著行方向排列成多個第二晝素行,且 ί個:與-晝素行係沿著-列方向交替排 甘弟二次晝素沿著行方向的長度等於多個第一 中之—與多個第二次晝素其中之―的長度總和。 而控制早7〇_以控咖示面板。 一 本务月之声' 施例中,控制單元例如包括手機控制單 制單^數朗職制單元、液晶螢幕控制單元或液晶電視控 ,發明再提出-種顯示裝置,其包括一液晶顯示面 、液晶層與-控制單元。而液晶顯示面板例如包括第一 f板、晝素電極、第二晝素電極、第三晝素電極、主 、掃描配線、資料配線、第二基板、第一彩色遽光 去“第色濾光膜,以及第三彩色濾光膜。其中,第一晝 二^極:第—晝素電極係沿著—行方向交錯排列成多個第 夕旦f電極行,而多個第三畫素電極係沿著行方向排列成 ^個第二畫素電極行,且第二晝素電極行與第—晝素電極 仃係沿著-列方向交替排列,其中每—第三晝素電極沿著 2方向的長度等於多個第一晝素電極其中之一與多個第二 息素電極其巾之—的長度總和。主動元件、掃聪配線與資 料配線係配置於第-基板上,其中掃描配線與資料配線係 透過主動7C件控制第一晝素電極、第二畫素電極以及第三 1284752 14291 twf.d〇c/g 晝素電極。多個第-彩色觀膜 對應於第-晝素電極上方,多個 基板上,且 第二基板上,且對應於第二晝素^^巧膜,置於 而控制單元係 用以控制液晶顯示面板 :光膜係配置於第二基板上,且;應於第:書:::上 方。液晶層係位於第-基板與第二基板之間一、电才上 -^本*發明之一實施例中,控制單元例如包括手機控制單 制單元。 耸綦控制早兀或液晶電視控 本發明因採用-種畫素排列方式,改善了該色次 所顯示之㈣取樣點的分佈情況,並進而提升=示晝=之 品質。此外’由於利用少數之薄臈電晶體即可同時控制多 個藍色次晝素’所以薄膜電晶體之數目隨之減少。換言之, 主動兀件遮光的面積也因此縮小,所以可以提相示面板整 體之開口率。 ^為讓本發明之上述和其他目的、特徵和優點能更明顯 易懂,下文特舉較佳實施例,並配合所附圖式,作詳細說 明如下。 a V / 【實施方式】 圖2A繪示為本發明較佳實施例中一種顯示面板的示 意圖。在一實施例中,顯示面板200例如為一液晶顯示面 板,或疋一有機電激發光顯示面板。 請參照圖2A,本實施例之顯示面板2〇〇包括多個第 一次晝素210、多個第二次晝素220以及多個第三次書素 11 1284752 14291twf.doc/g 230。其中第—次晝素21G與第二 向交錯排列成多個第—畫素行27Q,以及』== 係沿著行方向排列成多個第二晝素行280,I第ΐ金辛/ 晝素行27。係沿著—列方向 意的是’弟二晝素行細中每-個第三次書素二 方向的長度d3等於第一次晝素2 ' : 2 素220的長度d2之總和。 、又cU與弟一次晝 照圖2A,在本發明之一較佳實施例中,第一 旦素而弟二认畫素23〇例如為藍色次晝 排列之方式,在本發明之一實施彳7、;;卜,關於!素 中位於斗Μ β 中迷之第—晝素行27〇 :二可數仃27Ga内之苐—次晝素21G在列方向上係彼此切 背’而第-晝素行27〇中位於偶數行2薦内之第—次晝素⑽ $方向上係彼此切齊,且奇數行2術内與偶數行‘内之 苐-^晝素210在财向上係彼此不切齊。再者,在本發明 之-實施例中’每-個第二晝素行彻中之第三次晝素x2% 在列方向上係彼此切齊’因而形成如圖2A中之晝素排;】方式。 圖2B繪示為對應圖2八中之第三次晝素“ 取樣點的示意圖。請同時參照圖2A及圖2B,在本發明之 一較佳實施例中,由於第三次晝素230之長度们‘ 次晝素210之長度dl與第二次晝素220之長度们的碑和, =此長度較長之第三次晝素230係僅由—_電晶體施 控制開/關之狀態,再者每一個第二畫素行28〇中之多個第二 次晝素230在列方向上係彼此切齊,所以當第三次壹素 12 1284752 14291twf.doc/g 開啟並顯示時,其空間取樣點230a會顯示在每一個第三次 晝素230之平均中點。因此當所有第三次晝素23〇同時顯 示時,其顯示的結果將如同圖2B所繪示的一樣。 請繼續參照圖2A,在長度較長之第三次畫素23〇中, 由於其僅使用一個薄膜電晶體240對於第三次晝素23〇控 制其開/關狀態,所以比較習知技術中在第三次書素上設置 較多之薄膜電晶體(如圖1A所繪示),本發明之顯示面 • 板200將可減少薄膜電晶體240之使用,進而增加第三次 晝素230之開口率,以提昇顯示面板2〇〇之顯示輝度。 然而在弟二次晝素空間取樣點分佈之情形方面,比較 習知中之顯示結果(如圖1B所繪示),本發明之書素排 列方式之第三次畫素230在水平方向(列方向)上之空間 取樣點230a分佈之情形將較佳,因此可以解決習知技術中 水平方向的晝面品質較差之問題,但是,此晝素排列方式 在垂直方向之分佈仍存在一些缺點,此部分留待圖3A與 圖3B之實施例再繼續說明。 > 圖3A繪示為本發明之較佳實施例中另一種顯示面板 的示意圖。請參照圖3A,本實施例之顯示面板3⑻包括多 個第一次晝素310、多個第二次晝素32〇以及多個第三次 晝素330。其中第一次晝素31〇與第二次晝素32〇係沿著 一行方向父錯排列成多個第一晝素行370,以及第三次書 素330係沿著行方向排列成多個第二晝素行38〇,且第: 晝素行380與第一晝素行37〇係沿著一列方向交替排列。 值得注意的是,第二晝素行380中每一個第三次晝素33〇 13Figure 1B depicts a schematic diagram of spatial sampling points that are not corresponding to the blue sub-pixels of Figure 1A. Referring to FIG. 1B, there are still some disadvantages in the arrangement of the pixels as shown in FIG. 1A, and due to the plurality of spatial sampling points 130a in the blue check in FIG. 1B, they are in the horizontal direction (column 5 The upper two density is lower than the vertical direction (row direction), so the image quality displayed in the horizontal direction will be poor. Please continue to refer to FIG. 1A. In addition, in the liquid crystal display panel 1〇〇, the thin film electro-crystallized peptide 140' is disposed on each of the secondary halogens (10), 12G, and 13G), resulting in too many numbers of the thin film transistors 140. Therefore, the aperture ratio of the human element (110, 120, 130) will be reduced, which affects the brightness of the liquid crystal 100 display. SUMMARY OF THE INVENTION ▲ The object of the present invention is to provide a display panel which has a better image quality and a higher aperture ratio. Further, it is a further object of the present invention to provide a liquid crystal display panel which is suitable for providing better image quality and a higher aperture ratio. Further, it is a further object of the present invention to provide a display device suitable for providing better image quality in accordance with 6 128475.2 14291 twf.doc/g. a plurality of display panels s comprising a plurality of first-order morphemes, λ2 Ctr rows are staggered into a first-order row; the row direction is arranged in a second pixel row, and the second 佥i I: owes The column direction is alternately arranged, wherein each; the second pixel; in the first pixel, the - and the first, and the second, the second, for example, the second book. Russell. In the embodiment of the squamosa, and the third element is, for example, blue, each of the first elements includes, for example, a thin film transistor, a common electrode, and a red light. Membrane and liquid helium layer. Wherein the thin film transistor is electrically connected to the halogen electrode, the common electrode is disposed above the halogen electrode, the red light film is disposed above the pixel electrode, and the liquid crystal layer is disposed between the red filter and the halogen electrode. . In the embodiment of the present invention, each of the second halogens includes, for example, a primary electrode, a thin film transistor, a common electrode, a green filter, a light film, and a liquid crystal layer. Wherein, the thin film transistor is electrically connected to the halogen electrode, the common electrode is disposed above the pixel electrode, the red filter is disposed above the halogen electrode, and the liquid crystal layer is disposed on the red filter and the pixel electrode. between. In one embodiment of the invention, each of the third sub-tenmas includes, for example, a halogen electrode, a thin film transistor, a common electrode, a blue filter film, and a liquid crystal layer. Wherein, the thin film transistor is electrically connected to the pixel electrode, the common electrode system 1284752 14291 twf.doc/g is disposed above the pixel electrode, the red filter film is disposed above the pixel electrode, and the liquid crystal layer is disposed in the red filter. Between the light film and the pixel electrode. In an embodiment of the present invention, the first pixels in the odd rows in the first pixel row are aligned with each other in the column direction, and the first pixel in the first row in the even rows is in the column. The directions are aligned with each other, and the first pixels in the odd-numbered rows and the even-numbered rows are not aligned with each other in the column direction. In one embodiment of the invention, the second elements of each of the second element rows are aligned with each other in the column direction. In one embodiment of the present invention, the third element in the odd-numbered row in the second element row is aligned with each other in the column direction, and the third element in the even-numbered row in the second element row is in the column direction. The upper lines are aligned with each other, and the third element in the odd line is not aligned with each other in the column direction. - Even-numbered liquid crystal display panel comprising: a - substrate, a plurality of halogen electrodes, a plurality of second pixel electrodes, a plurality of third pixel electrodes, a plurality of active elements, a plurality of scan lines More than self-data wiring, a second base 帛 Φ color fine, a plurality of second color luminescent films, a plurality of third color filter films, and a liquid crystal layer. The first pixel electrode and the second pixel electrode are staggered in a row-row direction to form a first pixel electrode row, and the ^=dan electrode layer is arranged in a row direction as a second pixel electrode row, and The second pole 第 and the 昼-昼 element electrode line are alternately arranged along a column direction, and the length of each of the third elementary electrodes along the row direction is equal to the first 昼 昼 book, one of which and the second 昼 电极 electrode The sum of the lengths of one of them. The active tether is disposed on the first substrate. The scanning wiring system is disposed on the first substrate 'the data wiring system is disposed on the first substrate, wherein the scanning wiring and the data 8 I284752 14291 twf.doc/g wiring system control the first pixel electrode, the second pixel electrode, and the first Dioxin electrode. The first color filter film is disposed on the second substrate and corresponds to the upper side of the first halogen electrode, and the second color filter film is disposed on the first substrate, and corresponds to the upper side of the second halogen electrode, and the third The color filter film is disposed on the second substrate and corresponds to the third pixel electrode, and a liquid crystal layer is located between the first substrate and the second substrate. In an embodiment of the invention, for example, a black matrix is further disposed on the first substrate and located above the scan wiring, the data wiring and the active component. In one embodiment of the invention, each of the third halogen electrodes spans one of the plurality of broom wirings. In the embodiment of the present invention, the first color filter film is, for example, red brilliance, the second color 遽 is, for example, a green silk color filter film, and the third color filter film is, for example, blue color. Filter film. In an embodiment of the present invention, the first-deoxy-element electrodes in the odd-numbered rows of the first halogen electrode row are aligned with each other in the financial direction, and the even-numbered linear-deuterated electrodes are in the column direction; ; Qi, ^ number within the inside of the bribe and the bribe line [the direction of the side of the electrode is not aligned. In a consistent embodiment of the invention, the second halogen electrodes in each of the second elementary electrode rows are aligned with each other in the column direction. In an embodiment of the present invention, the third pixel electrodes in the odd-numbered rows of the second pixel rows are aligned with each other in the financial direction, and the second pixel electrodes in the even-numbered rows of the shingle electrode rows are in the column. The directions are aligned with each other, and the third element in the odd line and the even line are not aligned with each other in the financial direction. The invention provides a display device comprising a display panel and a control 9 1284752 14291 twf.doc/g. The display panel includes a plurality of first-order pixels, a plurality of second-times, two-seconds, and a third-order element, wherein the plurality of first-order elements and the plurality of cores are in the line direction. Staggered into a plurality of first-order lines. The eve of the celestial system is arranged in a row along the row direction into a plurality of second sputum lines, and ί: and - 昼 行 交替 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着 沿着The sum of the lengths of the first one and the plurality of second primes. And the control is 7 〇 _ to control the coffee panel. In the example, the control unit includes, for example, a mobile phone control unit, a single-digit system, a liquid crystal screen control unit, or a liquid crystal television control, and a display device including a liquid crystal display surface. Liquid crystal layer and - control unit. The liquid crystal display panel includes, for example, a first f-plate, a halogen element electrode, a second halogen electrode, a third halogen electrode, a main, a scan wire, a data wire, a second substrate, and a first color light to "color filter" a film, and a third color filter film, wherein the first 昼 diode: the 昼-昼 element electrode is staggered along the row direction into a plurality of radiant f electrode rows, and the plurality of third pixel electrodes The second pixel electrodes are arranged along the row direction, and the second halogen electrode row and the first halogen electrode are alternately arranged along the column direction, wherein each of the third halogen electrodes is along 2 The length of the direction is equal to the sum of the lengths of one of the plurality of first halogen electrodes and the plurality of second square electrodes. The active component, the sweeping wiring and the data wiring system are disposed on the first substrate, wherein the scanning wiring And the data wiring system controls the first halogen electrode, the second pixel electrode, and the third 1284752 14291 twf.d〇c/g halogen electrode through the active 7C piece. The plurality of first-color films correspond to the first-alked electrode Above, on a plurality of substrates, and on the second substrate, and corresponding to the second The control unit is used to control the liquid crystal display panel: the light film system is disposed on the second substrate, and should be above the book:::: the liquid crystal layer is located on the first substrate and the first In one embodiment of the invention, the control unit includes, for example, a mobile phone control unit. The towering control early or liquid crystal television control is adopted by the present invention. Improve the distribution of the sampling points displayed by the color (4), and further improve the quality of = 昼 =. In addition, 'simultaneous control of multiple blue sub-halogens by using a small number of thin enamel transistors' The number of crystals is reduced. In other words, the area of the active member is also reduced, so that the aperture ratio of the panel as a whole can be improved. The above and other objects, features and advantages of the present invention are more apparent and understandable. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following is a detailed description of the preferred embodiment of the present invention. FIG. 2A is a schematic diagram of a display panel in accordance with a preferred embodiment of the present invention. Display surface For example, the liquid crystal display panel, or the organic electroluminescent display panel. Referring to FIG. 2A, the display panel 2 of the embodiment includes a plurality of first halogen elements 210 and a plurality of second halogen elements 220. And a plurality of third morphemes 11 1284752 14291 twf.doc/g 230. wherein the first singular element 21G and the second direction are staggered into a plurality of symmetry lines 27Q, and 』== are arranged along the row direction. A plurality of second enthalpy lines 280, I ΐ ΐ 辛 / / 昼 行 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 27 Subsequence 2': the sum of the lengths d2 of the two primes 220. And cU and the younger one view of Fig. 2A, in a preferred embodiment of the present invention, the first prime and the second two are, for example, 23 In the manner of arranging blue times, in one embodiment of the present invention, 彳7;;; The prime in the Μ Μ β 昼 昼 昼 昼 昼 昼 昼 昼 昼 昼 昼 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 〇 苐 苐 苐 苐 苐 苐 苐 苐 苐 苐 苐 苐 苐 苐 苐 苐 Ga 苐 Ga Ga Ga Ga Ga Ga Ga Ga In the recommendation, the first-times (10) are aligned with each other in the direction of the line, and the odd-numbered lines 2 and the even-numbered lines are inconsistent with each other in the financial direction. Furthermore, in the embodiment of the present invention, 'the third pixel of each second element is exactly the same in the column direction' and thus forms a pixel row as shown in FIG. 2A; the way. 2B is a schematic view corresponding to the third pixel of the sampling point in FIG. 2B. Please refer to FIG. 2A and FIG. 2B simultaneously, in a preferred embodiment of the present invention, due to the third pixel 230 The lengths of the lengths of the sub-success 210 and the length of the second sub-dimension 220 are the same as the length of the second sub-dimension 220. Furthermore, each of the second pixels 230 of each of the second pixels is aligned in the column direction, so when the third element 12 1284752 14291 twf.doc/g is turned on and displayed, The spatial sampling point 230a will be displayed at the average midpoint of each third element 230. Therefore, when all the third pixels 23 are simultaneously displayed, the displayed result will be the same as that shown in Fig. 2B. Referring to FIG. 2A, in the third pixel 23 of the longer length, since it uses only one thin film transistor 240 to control its on/off state for the third element 23, it is compared in the prior art. A plurality of thin film transistors are arranged on three books (as shown in FIG. 1A), and the display surface of the present invention is 2 00 will reduce the use of the thin film transistor 240, thereby increasing the aperture ratio of the third halogen 230 to improve the display luminance of the display panel 2. However, in the case of the distribution of the sampling points of the secondary pixel space, comparison In the conventional display result (as shown in FIG. 1B), the case where the third pixel 230 of the book arrangement of the present invention is distributed in the spatial sampling point 230a in the horizontal direction (column direction) is preferable. The problem of poor quality of the kneading surface in the horizontal direction in the prior art can be solved. However, there are still some disadvantages in the distribution of the arrangement of the pixels in the vertical direction, and this part is left to be further illustrated in the embodiment of FIGS. 3A and 3B. 3A is a schematic diagram of another display panel according to a preferred embodiment of the present invention. Referring to FIG. 3A, the display panel 3 (8) of the embodiment includes a plurality of first and second pixels 310 and a plurality of second pixels 32. 〇 and a plurality of third morphogens 330. The first morpheme 31 〇 and the second 昼 〇 32 〇 are arranged in a row along the parental error to form a plurality of first sputum lines 370, and a third morpheme 330 series arranged in the row direction The plurality of second enthalpy lines are 38 〇, and the: 昼 行 380 380 and the first 行 行 line 37 交替 are alternately arranged along a column direction. It is worth noting that each of the second 昼 行 line 380 is the third time 昼 33 〇13
1284752 14291twf.doc/g 向的長度们等於第-次晝素310的長度dl與第 一人旦素320的長度(J2之總和。 2繼續參照目3A,在本發明之—較佳實補中,第一 3=例如為紅色次晝素、第二次晝素32〇例如為綠色次 二,而第三次晝素33〇例如為藍色次晝素。此外,關於畫素 机大,方4在本务明之―實施例_,第一畫素行370中位 =射 内之第—次晝素在财向上係彼此切齊, 旦素行37〇中位於偶數行370b内之第一次晝素31〇在 =向上係彼此切齊,且奇數行37〇a内與偶數行现内之第 曰-人,素310在列方向上係彼此不切齊。另外,值得注意的 疋,第二晝素行380中位於奇數行38〇a内之第三次晝素33〇 在列巧上係彼此切齊,而第二晝素行38〇中位於偶^行獅 内之第二次晝素330在列方向上係彼此切齊,且奇袁 内與偶數行3_燦嫩在編上ma 齊。 圖3B繪示為對應圖3A中之藍色次晝素所顯示之空間 取樣點的示意圖。請同時參照圖3A及圖3B,在本發明之 一較佳實施例中,第三次畫素330之長度d3等於第I次晝 素310之長度dl與第二次畫素320之長度d2的總和,= 此長度較長之第三次晝素330係僅由一薄膜電晶體340控 制開/關之狀態。由於第三次畫素330開啟並顯示時,其空 間取樣點330a會顯示在第三次畫素330之平均中點,並且 奇數行380a内與偶數行380b内之第三次晝素330在列方向上 係彼此不切齊,所以所有的第三次畫素330同時顯示的結 1284752 14291twf.doc/g 果,會如同圖3B所繪示的一樣,在水平方向(列方向) 上以及垂直方向(行方向)上之空間取樣點33如分佈的情 形將會更為均勻,比較習知技術中液晶顯示面板的晝素排 列與薄膜電晶體之配置(如圖1A所繪示)以及上述本發 明之顯示面板的晝素排列與薄膜電晶體之配置(如圖 所繪示),圖3A中顯示面板300之晝素排列與薄膜電晶 體之配置在水平與垂直方向上之晝面品質將較佳。 _ 請繼續參照圖3A,在每一個第三次晝素33〇中,由 於其僅使用一個薄膜電晶體340對於第三次晝素33〇控制 其開/關狀態,所以可減少薄膜電晶體34〇之使用,進而增 加第二次畫素330之開口率,以提昇顯示面板3〇〇之顯示 輝度。 圖4繪示為本發明之較佳實施例中一液晶顯示面板之 次晝素的剖面示意圖。請參照圖4,在一較佳實施例中, 液晶顯示面板(如圖2A所緣示)中每一個第一次書素21〇 例如更包括一晝素電極211、一薄膜電晶體212、一共用電極 • 213、一紅色濾光膜214以及一液晶層215。其中,薄膜電晶 體212與晝素電極211電性連接,共用電極213係配置於晝素 電極211上方,紅色濾光膜214係配置於晝素電極211上方, 以及液晶層215配置於紅色濾光膜214與畫素電極211之間。 值得注意的是,共用電極213係配置於晝素電極211上方意指 兩種實施方式,圖4僅繪示出紅色濾光膜214位於共用電極 213上之一實施例,但是在另一實施例中,紅色濾光膜214也 可以直接配置在薄膜電晶體212以及晝素電極211上,以形成 15 1284752 14291twf.doc/g 將彩色遽光膜直接製作於薄膜電晶體陣列上(C〇i〇r Filter on TFT Array,COA)的結構。同樣的,每一個第二次畫素22〇 與苐二次晝素230也可以是上述兩個實施方式其中之二的結 構,值得注意的是,第二次晝素220例如具有綠色濾光膜,而 第三次晝素230例如具有藍色濾光膜。 同樣的,圖3A之顯不面板的第一次晝素31〇、第二次書 素320以及第二次畫素330也具有如上所述之結構,此處將不 再予以贅述。 圖5繪示為本發明之實施例中一種液晶顯示面板之立體 示意圖,請參照圖5,此液晶顯示面板4〇〇包括第一基板 410、第一晝素電極420a、第二畫素電極420b、第三晝素 電極420c、主動元件430、掃描配線440、資料配線450、 第二基板460、第一彩色濾光膜470a、第二彩色濾光膜 470b、第三彩色濾光膜47〇c以及液晶層48〇。其中第一晝 素電極420a與第二晝素電極42%係沿著一行方向交錯排 列成第一晝素電極行490,而第三晝素電極42〇c係沿著行 方向排列成第二晝素電極行492,且第二晝素電極行492 弟旦素黾極行490係沿著一列方向交替排列。值得注 思的疋,其中第二畫素電極沿著行方向的長度等於第一畫 素電極與第二晝素電極長度的總和。 睛繼續參照圖5,主動元件430係配置於第一基板410 上。掃描配線440係配置於第一基板41〇上,資料配線45〇 係配置於第一基板410上,其中掃描配線44〇與資料配線 450係透過主動元件43〇控制第一畫素電極42加、第二畫 1284752 14291twf.doc/g 素電極420b以及第三晝素電極42〇c。 请再參照圖5,第一彩色濾光膜470a係配置於第二基板 460上’且對應於第一晝素電極42〇a上方,第二彩色濾光 膜470b係配置於第二基板46〇上,且對應於第二畫素電極 420b上方,第三彩色濾光膜47〇c係配置於第二基板46〇 上,且對應於第三晝素電極420c上方。且液晶層48〇係位 於第一基板410與第二基板460之間。 圖6為本發明中第一基板的俯視平面圖。請參照圖6, 本貝知例之液晶顯示面板4〇〇例如更包括一黑矩陣々I]配置 於第基板410上’且位於掃瞒配線440、資料配線450與主 動元件430上方,藉由黑矩陣412之配置可提升各晝素(42加、 4^0b、420c)之間的顯示對比。另外,值得注意的是,在本 毛月之灵加例中,液晶顯示面板400的每一個第三書素電 極42^°C係跨過掃瞄配線440,所以可僅由一個主動元件43〇 控制第二晝素電極開/關狀態。由於主動元件43〇的數量減少, 、口之主動元件430遮光的面積也因此縮小,所以可以提 升液晶顯示面板4〇〇整體之開口率。 請_參顚5,在本發明之—實_巾,液晶顯示面 反=00之第二基板460上之第一彩色滤光膜47〇a例如為紅光 形色濾光膜、第二彩色濾光膜·_如為 而第三彩色濾、細例如域絲战光膜,麟3的 =,在-實施例中,第三彩色遽光膜470c在行方向之長度d3, 彩色濾光膜在行方向之長度d1,與第二彩色壚光膜在 仃方向之長度d2,的總和。 、 17 1284752 14291twf.doc/g 請繼續參照圖5,關於晝素電極之排列方式,在本發 明之實施例中,第一畫素電極行490中位於奇數行490a内之 弟一晝素電極420a在列方向上係彼此切齊,而第一晝素電極 行490中位於偶數行490b内之第一晝素電極420a在列方向上 係彼此切齊,且奇數行490a内與偶數行490b内之第一晝素電 極420a在列方向上係彼此不切齊。此外,每一個第二畫素電 極行492中之第三晝素電極42〇c在列方向上係彼此切齊,且 位在第二基板460上之彩色濾光膜(470a、470b、470c)係對 應第一基板上410第一晝素電極420a、第二畫素電極420b與 第二晝素電極420c之排列。 圖7繪示為本發明之實施例中另一種液晶顯示面板之立 體示意圖,其構件與圖5中繪示相同或相似,且相同之構件係 標示以相同之標號,在此將不再重述。請參照圖7,值得注意 的疋,在本貫施例之液晶顯示面板4〇2中,第二書素電極杆 492中位於奇數行492a内之第三畫素電極42加在列方向上係 彼此切齊,而第二晝素電極行492中位於偶數行492b内之第 :畫素電極在列方向上係彼此切齊,且奇數行492a内與偶數 行492b内々之第二畫素電極42〇c在列方向上係彼此不切齊。此 外,位在第二基板460上之彩色濾光膜(47〇a、47〇b、47〇 係對應第-基板上之第—晝素雜伽、第二晝素電極 420b與第三晝素電極42〇(;之排列。The length of 1284752 14291twf.doc/g is equal to the length dl of the first-order halogen 310 and the length of the first human element 320 (the sum of J2. 2 continue to refer to item 3A, in the preferred embodiment of the present invention The first 3=for example, the red scorpion, the second sputum 32 〇 is, for example, the green second, and the third sputum 33 〇 is, for example, the blue bismuth. In addition, regarding the pixel machine, the square 4 In the present case - the embodiment _, the first pixel line 370 median = the first time in the shot - the primes are in line with each other in the financial direction, the first time in the even line 370b 31〇 is aligned with each other in the upward direction, and the odd-numbered lines in the 37〇a and the even-numbered lines are in the same direction, and the primes 310 are not aligned with each other in the column direction. In addition, it is worth noting that the second one is The third element of the 380 in the odd line 38〇a in the line 380 is in line with each other on the column, while the second element in the second line is located in the second line of the lion. The directions are aligned with each other, and the odd-numbered and the even-numbered lines 3_canen are arranged on the mat. Figure 3B is shown as corresponding to the spatial sampling shown by the blue sub-tennin in Figure 3A. Referring to FIG. 3A and FIG. 3B simultaneously, in a preferred embodiment of the present invention, the length d3 of the third pixel 330 is equal to the length dl of the first pixel 310 and the second pixel 320. The sum of the lengths d2, = the third time that the longer length of the halogen 330 is controlled by the opening and closing of a thin film transistor 340. Since the third pixel 330 is turned on and displayed, the spatial sampling point 330a The average midpoint of the third pixel 330 is displayed, and the third pixel 330 in the odd row 380a and the even row 380b are not aligned with each other in the column direction, so all the third pixels 330 are simultaneously The displayed knot 1284752 14291twf.doc/g will, as shown in Fig. 3B, the spatial sampling point 33 in the horizontal direction (column direction) and the vertical direction (row direction) will be more distributed. Uniformity, comparing the arrangement of the pixel arrangement of the liquid crystal display panel and the configuration of the thin film transistor (as shown in FIG. 1A) and the arrangement of the pixel arrangement of the display panel of the present invention and the configuration of the thin film transistor (as shown in the figure) Show), the pixel arrangement of the display panel 300 in FIG. 3A and The configuration of the thin film transistor in the horizontal and vertical directions will be better. _Continue to refer to FIG. 3A, in each third pixel 33, since it uses only one thin film transistor 340 for the third The secondary halogen 33〇 controls its on/off state, so that the use of the thin film transistor 34〇 can be reduced, thereby increasing the aperture ratio of the second pixel 330 to improve the display luminance of the display panel 3〇〇. A cross-sectional view of a secondary pixel of a liquid crystal display panel in accordance with a preferred embodiment of the present invention. Referring to FIG. 4, in a preferred embodiment, each of the liquid crystal display panels (shown in FIG. 2A) is first. The sub-character 21 includes, for example, a halogen electrode 211, a thin film transistor 212, a common electrode 213, a red filter film 214, and a liquid crystal layer 215. The thin film transistor 212 is electrically connected to the halogen electrode 211, the common electrode 213 is disposed above the halogen electrode 211, the red filter film 214 is disposed above the halogen electrode 211, and the liquid crystal layer 215 is disposed in the red filter. Between the film 214 and the pixel electrode 211. It should be noted that the arrangement of the common electrode 213 above the halogen electrode 211 means two embodiments, and FIG. 4 only illustrates one embodiment in which the red filter film 214 is located on the common electrode 213, but in another embodiment The red filter film 214 may also be directly disposed on the thin film transistor 212 and the halogen electrode 211 to form 15 1284752 14291 twf.doc/g. The color fluorescent film is directly formed on the thin film transistor array (C〇i〇) r Filter on TFT Array, COA) structure. Similarly, each of the second pixel 22 〇 and 苐 secondary halogen 230 may also be a structure of two of the above two embodiments. It is noted that the second halogen 220 has, for example, a green filter film. And the third halogen 230 has, for example, a blue filter film. Similarly, the first pixel 31, the second pixel 320, and the second pixel 330 of the panel of Fig. 3A have the structure as described above, and will not be described again here. FIG. 5 is a schematic perspective view of a liquid crystal display panel according to an embodiment of the present invention. Referring to FIG. 5, the liquid crystal display panel 4 includes a first substrate 410, a first halogen electrode 420a, and a second pixel electrode 420b. a third halogen electrode 420c, an active device 430, a scan wiring 440, a data wiring 450, a second substrate 460, a first color filter film 470a, a second color filter film 470b, and a third color filter film 47〇c And the liquid crystal layer 48〇. The first halogen electrode 420a and the second halogen electrode 42% are staggered in a row direction to form a first halogen electrode row 490, and the third halogen electrode 42〇c is arranged in a row direction to form a second electrode. The element electrode row 492, and the second element electrode line 492 is alternately arranged along a column direction. It is worth noting that the length of the second pixel electrode along the row direction is equal to the sum of the lengths of the first pixel electrode and the second pixel electrode. With continued reference to FIG. 5, the active component 430 is disposed on the first substrate 410. The scan wiring 440 is disposed on the first substrate 41, and the data wiring 45 is disposed on the first substrate 410. The scan wiring 44 and the data wiring 450 are controlled by the active device 43 to control the first pixel electrode 42. The second picture is 1,284,552, 14291 twf.doc/g element electrode 420b and the third elemental electrode 42〇c. Referring to FIG. 5 again, the first color filter film 470a is disposed on the second substrate 460' and corresponds to the upper side of the first halogen electrode 42A, and the second color filter film 470b is disposed on the second substrate 46. And corresponding to the upper side of the second pixel electrode 420b, the third color filter film 47〇c is disposed on the second substrate 46〇 and corresponds to the upper side of the third halogen electrode 420c. The liquid crystal layer 48 is between the first substrate 410 and the second substrate 460. Figure 6 is a top plan view of the first substrate of the present invention. Referring to FIG. 6 , the liquid crystal display panel 4 of the present invention further includes a black matrix 々 I disposed on the substrate 410 ′ and located above the broom wiring 440 , the data wiring 450 and the active component 430 . The configuration of the black matrix 412 can improve the display contrast between the various elements (42 plus, 4^0b, 420c). In addition, it is worth noting that in the present invention, each of the third pixel electrodes 42 of the liquid crystal display panel 400 spans the scan wiring 440, so that only one active component 43 can be used. Controlling the second halogen electrode on/off state. Since the number of the active elements 43A is reduced, the area of the active element 430 of the port is also reduced, so that the aperture ratio of the liquid crystal display panel 4 can be improved. In the present invention, the first color filter film 47A on the second substrate 460 of the liquid crystal display surface is 00, for example, a red light color filter film, and a second color. The filter film _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The sum of the length d1 in the row direction and the length d2 of the second color enamel film in the x direction. 17 1284752 14291 twf.doc/g With continued reference to FIG. 5, regarding the arrangement of the halogen electrodes, in the embodiment of the present invention, the first pixel electrode 490 is located in the odd row 490a. The first halogen electrodes 420a in the even rows 490b of the first halogen electrode row 490 are aligned with each other in the column direction, and the odd rows 490a and the even rows 490b are aligned with each other. The first halogen electrodes 420a are not aligned with each other in the column direction. In addition, the third halogen electrodes 42A in each of the second pixel rows 492 are aligned with each other in the column direction, and the color filter films (470a, 470b, 470c) on the second substrate 460 are disposed. Corresponding to the arrangement of the first pixel electrode 420a, the second pixel electrode 420b and the second pixel electrode 420c on the first substrate 410. FIG. 7 is a perspective view of another liquid crystal display panel according to an embodiment of the present invention, and the components are the same as or similar to those in FIG. 5, and the same components are denoted by the same reference numerals and will not be repeated herein. . Referring to FIG. 7, it is noted that in the liquid crystal display panel 4〇2 of the present embodiment, the third pixel electrode 42 located in the odd row 492a of the second pixel electrode rod 492 is added in the column direction. The first pixel electrodes in the even-numbered rows 492b of the second elementary electrode row 492 are aligned with each other in the column direction, and the second pixel electrodes 42 in the odd-numbered rows 492a and the even-numbered rows 492b are aligned. 〇c are not aligned with each other in the column direction. In addition, the color filter film (47〇a, 47〇b, 47〇) on the second substrate 460 corresponds to the first halogen element, the second halogen electrode 420b and the third halogen on the first substrate. The arrangement of the electrodes 42〇;
明再提出—種顯示裝置,其包括—顯示面板,以及 ,制早兀。顯示面板如圖2A與圖3A所繪示,其結構盥 素排列之方式已敘述如上,在此不再予以重述。值得注 1284752 14291twf.doc/g 顯示面在—實施例中’ _,i顯示面中’而控制單元用 本M 電視控制單元。 柘二“ 裝置’其包括-液晶顯示面A further display device is disclosed, which comprises a display panel and a premature frame. The display panel is as shown in Fig. 2A and Fig. 3A, and the manner in which the structural elements are arranged is as described above, and will not be repeated here. It is worth noting that 1284752 14291twf.doc/g is displayed in the embodiment - _, i is displayed in the face and the control unit uses the M TV control unit.柘2 "Device" includes - liquid crystal display surface
方式等相同,所以在此將不再予以重:成值 Γ = ί制單元係用以控制液晶顯示面板,且控“ 制單元、個人數位助理控制單元、液晶勞幕控制 早70或液晶電視控制單元等。 番目:上所4 ’本發明之顯示面板、液晶顯示面板與顯示裝 置具有下列優點: 一〇)本發明之畫素排列方式,能夠改善藍色次晝 所、員示之工間取樣點在垂直方向與水平方向上之分佈情 形’進而能提升顯示畫面之品質。 (2)液晶顯示面板中的藍色次畫素電極係跨過掃瞄配 線,所以可僅由—魅動元件㈣此藍色讀素之_1狀態。 /3)由於主動元件的數量減少,所以主動元件遮光的面 積也隨之縮小,進而可提升液晶顯示面板之顯示輝度。 〜雖然本發明已以較佳實施例揭露如上,然其並非用以 限^本發明,任何熟習此技藝者,在不脫離本發明之精神 和範圍内’當可作些許之更動與潤飾,因此本發明之保護 1284752 14291twf.doc/g 範圍當視後附之申請專利範圍所界定者為準。 【圖式簡單說明】 圖1A繪不為習知的液晶顯不面板的不意圖。 圖1B繪示為對應圖1A中的藍色次晝素所顯示之空間 取樣點的不意圖。 圖2A繪示為本發明較佳實施例中一種顯示面板的示 意圖。 圖2B繪示為對應圖2A中之藍色次晝素所顯示之空間 取樣點的示意圖。 圖3A繪示為本發明之較佳實施例中另一種顯示面板 的不意圖。 圖3B繪示為對應圖3A中之藍色次晝素所顯示之空間 取樣點的示意圖。 圖4繪示為本發明之較佳實施例中一液晶顯示面板之 次晝素的剖面示意圖。 圖5繪示為本發明之實施例中一種液晶顯示面板之立體 示意圖。 圖6為本發明中第一基板的俯視平面圖。 圖7繪示為本發明之實施例中另一種液晶顯示面板之立 體示意圖。 【主要元件符號說明】 100 :液晶顯示面板 110 :紅色次晝素 120 :綠色次晝素 20 1284752 14291twf.doc/g 130 :藍色次晝素 130a :空間取樣點 140 :薄膜電晶體 150 :資料配線 160 ··掃瞄配線 170 :第一晝素行 180 :第二畫素行 200、300 :顯示面板 ® 210、310 ··第一次晝素 211 :晝素電極 212 :薄膜電晶體 213 :紅色濾光膜 214 :共用電極 215 :液晶層 220、320 :第二次晝素 230、330 :第三次畫素 φ 23〇a、33〇a :空間取樣點 240、340 :薄膜電晶體 250、350 ··資料配線 260、360 :掃瞄配線 270、370 :第一畫素行 270a、370a :奇數行第一晝素行 270b、370b ··偶數行第一晝素行 280、380 :第二晝素行 21 1284752 14291twf.doc/g 280a、380a :奇數行第二畫素行 280b、380b ··偶數行第二晝素行 400、402 ·液晶顯不面板 410 :第一基板 412 :黑矩陣 420a :第一晝素電極 420b :第二畫素電極 420c :第三晝素電極 • 430 :主動元件 440 :掃瞄配線 450 :資料配線 460 :第二基板 470a :第一彩色濾光膜 470b :第二彩色濾光膜 470c :第三彩色濾光膜 480 :液晶層 • 490 :第一晝素電極行 490a:第一晝素電極行之奇數行 490b:第一晝素電極行之偶數行 492 :第二晝素電極行 492a:第一晝素電極行之奇數行 492b:第一晝素電極行之偶數行 dl、d2、d3、dl’、d2’、d3’ :長度 22The method is the same, so it will not be heavy here: the value Γ = ί unit is used to control the LCD panel, and the control unit, personal digital assistant control unit, LCD screen control 70 or LCD TV control Units, etc. 目目:上上4' The display panel, liquid crystal display panel and display device of the present invention have the following advantages: 〇) The arrangement of pixels of the present invention can improve the sampling of the blue substation and the staff The distribution of the point in the vertical direction and the horizontal direction can further improve the quality of the display screen. (2) The blue sub-pixel electrode in the liquid crystal display panel crosses the scan wiring, so it can be only used by the singular component (4) The state of the blue reading _1. /3) Since the number of active components is reduced, the area of the active component is reduced, and the display luminance of the liquid crystal display panel can be improved. The above is not intended to limit the invention, and any person skilled in the art can make some changes and refinements without departing from the spirit and scope of the present invention. The protection of 1284752 14291 twf.doc/g is subject to the definition of the patent application scope. [Simplified Schematic] FIG. 1A is not intended to be a conventional liquid crystal display panel. FIG. Figure 2A is a schematic view of a display panel according to a preferred embodiment of the present invention. Figure 2B is a view corresponding to the blue of Figure 2A. Figure 2A is a schematic view of a display panel according to a preferred embodiment of the present invention. FIG. 3A is a schematic view showing another display panel in accordance with a preferred embodiment of the present invention. FIG. 3B is a view corresponding to the blue sub-prime in FIG. 3A. 4 is a schematic cross-sectional view of a liquid crystal display panel in accordance with a preferred embodiment of the present invention. FIG. 5 is a schematic perspective view of a liquid crystal display panel in accordance with an embodiment of the present invention. Figure 6 is a top plan view of the first substrate of the present invention. Figure 7 is a perspective view of another liquid crystal display panel according to an embodiment of the present invention. [Main component symbol description] 100: Liquid crystal display panel 110: Red times Prime 120: green scorpion 20 1284752 14291 twf.doc/g 130: blue sulphur 130a: space sampling point 140: thin film transistor 150: data wiring 160 · scan wiring 170: first sputum line 180: Two pixels 200, 300: display panel® 210, 310 · first halogen 211: halogen electrode 212: thin film transistor 213: red filter film 214: common electrode 215: liquid crystal layer 220, 320: second Subsequences 230, 330: third pixel φ 23〇a, 33〇a: spatial sampling points 240, 340: thin film transistors 250, 350 · data lines 260, 360: scan wiring 270, 370: One pixel row 270a, 370a: odd row first pixel row 270b, 370b · even row first pixel row 280, 380: second pixel row 21 1284752 14291twf.doc/g 280a, 380a: odd row second pixel row 280b 380b · · even row second enthalpy row 400, 402 · liquid crystal display panel 410 : first substrate 412 : black matrix 420a : first pixel electrode 420b : second pixel electrode 420c : third pixel electrode • 430 Active element 440: scan wiring 450: data wiring 460: second substrate 470a: first color filter film 470b : a second color filter film 470c: a third color filter film 480: a liquid crystal layer • 490: a first halogen electrode row 490a: an odd-numbered row 490b of the first halogen electrode row: an even-numbered row of the first halogen electrode row 492: second halogen electrode row 492a: odd-numbered row 492b of the first halogen electrode row: even-numbered rows of the first halogen electrode row dl, d2, d3, dl', d2', d3': length 22