201039005 六、發明說明: 【發明所屬之技術領域】 特別關於一種面板 本發明係關於一種框架及其應用 框架及其應用之平面顯示裝置。 【先前技術】 展m面顯裝/朝向大型化及薄型化的方向發 :::厚度的設計’為提升平面顯示裝置組裳上二面 平:顯示裝置則如圖1Α、圖的 為白知平面顯示裝置的立體牡 ια 則分別為圖1Α中沿著ΑΑ:=:圖’而圖1β與圖1C 此習知沾工 截面與Β_Β,截面的示意圖。在 光模二顯示裝置1中包含-平面顯示面板Π、—背 =所;7光框架17及—前框19,且根據圖心 上,結構可知,在平面顯示裝置丨的任—側 顯亍面4果、、且13連結於背光框架17並藉以固定,而平面 :=】則是夹設在輸架”與前框〗9之間並 平面顯示^13/Γ設置。由上述的結構可知,在習知的 + 中,右缺少了背光框架17或前框19, % +面顯-面板U與背光模組 μ 19,則 ,架17或前㈣,均為二、=元:以,無論 連結於平面^不’置1的組裝流程來說,由於前框19 千面顯不面板11與背光框架Π的外緣,而背光框 201039005 架Π則是連結於背光模組13的外緣,是以,當平面顯示 . 裝置1在進行組裝時,勢必先進行背光模組13與背光框 架17的組合,接續,將平面顯示面板11組裝於已組合的 背光模組13及背光框架17,最後,再將前框19組裴在平 面顯示面板11及背光框架17的外緣。相反地,當平面顯 示裝置1進行拆卸時,則必須先取下前框19,俾可依序取 下平面顯示面板11、背光框架17及背光模組13。 是以,習知平面顯示裝置的組裝過程繁複’容易造成 ◎組裝良率降低。 【發明内容】 有鑑於上述課題,本發明之目的為提供一種面板框架 及其應用之平面顯示裝置,能夠簡化面板的組裝步驟,降 低材料成本,亦能提升面板組裝的良率。 -201039005 VI. Description of the invention: [Technical field to which the invention pertains] In particular, the present invention relates to a frame, an application frame thereof and a flat display device thereof. [Prior Art] The display of the m-surface display/direction toward the enlargement and the thinning:::The design of the thickness is to raise the flat display device group on the two sides: the display device is as shown in Fig. 1 and Fig. The three-dimensional yum of the flat display device is a schematic view of the cross-section of the conventional smear section and the Β_Β in Fig. 1β and Fig. 1C, respectively. The optical mode display device 1 includes a flat display panel Π, a back cover, a 7 light frame 17 and a front frame 19, and according to the figure, the structure is known to be on the side of the flat display device. The surface 4, and 13 are connected to the backlight frame 17 and fixed by the plane, and the plane: =] is sandwiched between the transport frame and the front frame 9 and the flat display ^13/Γ setting. In the conventional +, the right side lacks the backlight frame 17 or the front frame 19, the %+face display-panel U and the backlight module μ19, then the shelf 17 or the front (four) are both two, = yuan: Regardless of the assembly process that is connected to the plane, the front frame 19 does not show the outer edge of the panel 11 and the backlight frame, and the backlight frame 201039005 is connected to the outer edge of the backlight module 13. Therefore, when the device 1 is assembled, it is necessary to first combine the backlight module 13 and the backlight frame 17, and then connect the flat display panel 11 to the combined backlight module 13 and the backlight frame 17, Finally, the front frame 19 is placed on the outer edge of the flat display panel 11 and the backlight frame 17. Conversely, when the plane When the display device 1 is disassembled, the front frame 19 must be removed first, and the flat display panel 11, the backlight frame 17, and the backlight module 13 can be removed in sequence. Therefore, the assembly process of the conventional flat display device is complicated. ◎Reduction of the assembly yield. SUMMARY OF THE INVENTION In view of the above problems, an object of the present invention is to provide a panel display device and a flat display device therefor, which can simplify the assembly steps of the panel, reduce the material cost, and improve the panel assembly. Rate.
為達上述目的,依據本發明之一種面板框架,使其組 裝於一平面顯示裝置的至少一侧,且平面顯示裝置具有一 背光模組及一平面顯示面板,且背光模組與平面顯示面板 彼此相對而設。面板框架包含一本體、一第一延伸部及一 第二延伸部,其中,第一延伸部連結於本體,第二延伸部 連結於本體並與第一延伸部對應設置,且第一延伸部與第 延伸部 =延伸部之間形成-容置空間,俾使平面顯示面板容置於 容置空間,背光模組則鄰設於本體及第 包含一平面顯 平面顯示面板與 且,依據本發明之一種平面顯示裳置, 不面板、一背光模組及至少一面板框架, 201039005 背光模組彼此相對而設,面板框架則組裝於平面顯示裝置 的至少-侧。其t,面板框架包含—本體、—第一延伸部 及-第二延伸部’第-延伸部連結於本體,第二延伸部連 結於本體並與第一延伸部對應設置,且第一延伸部與第二 延伸部之間形成-容置空間,俾使平面顯示面板容置㈣ 置空間,背光模組則鄰設於本體及第二延伸部。 八上所述,因減本發明之—種面板框架及其應用之 2面顯示裝置,俾藉由第二延伸部料切於背光模組與 =面顯示面板,並提供相_#光模組與平面顯示面板之 = ί — 1間距’且藉由第—延伸部與第二延伸部所構 =置空間容置平面顯示面板,而背光模組則鄰設於本 技術相較’本發明之面板框架及 面板連結於面板框架,俾的:切將平面顯示 化,蕻…“ 貝不裝置的組裝流程簡 猎以“良率,並可減少使用前框之成本。 【貫施方式】 下將蒼照相關圖式 Μ 3 5依據本發明較佳實施例之 種面板框架及其應用之平面顯示 】之 將以相同的符號加以說明。 中相同的元件In order to achieve the above object, a panel frame according to the present invention is assembled on at least one side of a flat display device, and the flat display device has a backlight module and a flat display panel, and the backlight module and the flat display panel are mutually Relatively set. The panel frame includes a body, a first extension portion and a second extension portion, wherein the first extension portion is coupled to the body, the second extension portion is coupled to the body and disposed corresponding to the first extension portion, and the first extension portion is The first extension portion is formed with an accommodating space between the extension portions, so that the flat display panel is accommodated in the accommodating space, and the backlight module is disposed adjacent to the body and includes a flat display panel and according to the present invention. A flat display skirt, a non-panel, a backlight module and at least one panel frame, the 201039005 backlight modules are disposed opposite to each other, and the panel frame is assembled on at least one side of the flat display device. The first frame is configured to include a body, a first extension portion, and a second extension portion, the first extension portion is coupled to the body, and the second extension portion is coupled to the body and disposed corresponding to the first extension portion, and the first extension portion A receiving space is formed between the second extending portion and the second display portion. The backlight module is disposed adjacent to the body and the second extending portion. According to the above description, the two-sided display device of the panel frame and the application thereof is reduced by the second extension portion, and the backlight module and the surface display panel are cut, and the phase _# optical module is provided. And the flat display panel = ί - 1 pitch ' and the first extension and the second extension are configured to accommodate the flat display panel, and the backlight module is adjacent to the present technology. The panel frame and the panel are connected to the panel frame, and the :: cut and display the plane, 蕻..." The assembly process of the shell is not as good as the yield, and the cost of using the front frame can be reduced. [Practical Mode] The following is a description of the panel frame and its application in accordance with a preferred embodiment of the preferred embodiment of the present invention. Same component
_根據圖2A、圖2B、圖2C、圖2D 不’說明本發明較佳實施例 θ 9Δ ^ 種十面顯不裝置, 2Α為-種面板框架組裝於平面顯示裝㈣構= 而圖2Β為將背光框架封裳於背光模組-二; 201039005 意圖;圖2C、2D、2E與圖2F則分別為圖2A中沿著A-A’ 截面、B-B1截面、C-C'截面與D-D'截面的示意圖。 首先,請參照圖2A、2B、2C、2D、2E與圖2F所示。 本發明所揭露的平面顯示裝置2包含一平面顯示面板2卜 一背光模組23、一面板框架25、一背光框架27及二擋塊 29。背光模組23及平面顯示面板21彼此相對而設。面板 框架25組裝於平面顯示裝置2的至少一侧;平面顯示裝 置2的至少一侧更組裝背光框架27及擋塊29,其中背光 框架27與面板框架25分別組裝於平面顯示裝置2的不同 侧。在此,以面板框架25組裝於平面顯示裝置2的三側 為例說明,然不限制本發明,而背光框架27則組裝於平 面顯示裝置2尚未組裝面板框架25的該侧。 面板框架25包含一本體251、一第一延伸部251a及 一第二延伸部251b。第一延伸部251a連結於本體251 ;第 二延伸部251b連結於本體251並與第一延伸部251a對應 設置,第一延伸部251a與第二延伸部251b之間形成一容 置空間251c,平面顯示面板21容置於此容置空間251c, 背光模組23則鄰設於本體251及第二延伸部251b。 更詳細來說,第二延伸部251b的主要功效可用以避 免背光模組23及與相鄰的平面顯示面板21彼此相互碰 撞,並使平面顯示面板21與背光模組23之間保持一定間 距。第一延伸部25 la及第二延伸部251b可藉由黏合或卡 合等方式與本體251連結,亦或是第一延伸部251a及第二 延伸部251b與本體251可為一體成型的結構。 201039005 H?、圖2B所不’背光框架27包含一背光框 /卞 及一背光框架延伸部奶。背光框架延伸部273 設置於與弟二延伸部皿相同水平高度h的位置,且背 :組二鄰設於f光框架本體271及背光框架延伸部 勺疋,平面顯示裝置2所組裝背光框架27的一 擋塊29鄰設於背光框架27及平面顯 使千面顯不面板21可藉由擋塊2 9以固定。 例說;方=的背光模組23雖以侧光式背光模組為 二=直下式f光模组,另外,背光模… 抹U極螢光燈管、熱陰 或電致發光讀以做輕光源。且s x光二極體光條 裝置2的三侧。由於面板框架為:=口於平面顯示 形式,當然亦可依實際需 又不限制於連續 示農置2的二側或至少〜:將面板框架25組裝於平面顯 侧(圖未顯示)。 另外,平面顯示裝薏2 對應的平面顯示面板命且衣有4框架27的一側所 圖迕、圖2F所示),並轉由讀命連接至少一電路模組5(如 面顯示裝置2與周邊f %模^⑦純組5以電性連接於平 過電路模組5以驅動。其中、、且7 ’使平面顯示裴置2可透 與至少-電子元件52,電 <路模組5具有—電路板51 51 ' 51 极、训)、坡璃覆晶 201039005 電路板(COG)、軟性電路板(FPC)、印刷電路板(PCB) 及其組合,而電子元件52則可為晶片。 而由於平面顯示面板21在背光框架27的該侧呈現外 露(背光框架27無法阻擋平面顯示面板21),因此可藉由 擋塊29阻擋於設置有背光框架27的該侧以避免平面顯示 面板21滑出平面顯示裝置2。在此,擋塊29以二L形為 例說明,然非限制本發明,舉例來說,擋塊29的形狀可 依實際需要而為直線形或U形等形狀,且擋塊29的材質 選自於金屬、塑膠及其組合。另外,擋塊29可藉由扣合、 鏍鎖或黏接等方式固定於面板框架25。 除此之外,再根據圖2E、圖2F所示,平面顯示裝置 2除包含如上所述的電路模組5外更包覆一保護膜6以保 護電路模組5。且保護膜6更可選擇性地包覆於平面顯示 裝置2的底部及平面顯示面板21的一部份。 再以平面顯示裝置2的組裝流程來說,請同時參照圖 2A至圖2G所示,其中圖2G為將平面顯示面板組裝於容 置空間的示意圖。以本實施例為例而言,平面顯示面板21 的一侧連結電路板51,因此在組裝平面顯示裝置2時,連 結有電路板51的該侧必須在組裝完成後露出於背光框架 27外,俾使電路板51可更連結於周邊電路模組7 (如圖 2E、圖2F所示)。 是以,在組裝平面顯示裝置2時,首先利用面板框架 25以固定背光模組23的三侧,俾使背光模組23固設於 本體251、第二延伸部251b與背光框架本體271及背光框 201039005 架延伸部273之間;接續,再將平面顯示面板21沿第一 延伸部251a與第二延伸部251b之間所形成之容置空間 251c滑入(如圖中虛線所示)平面顯示裝置2中,最後, 置入擋塊29以將用以滑入平面顯示面板21的該侧進行固 定。 然而,由於背光框架延伸部273與第二延伸部25ib 具有相同水平高纟H (如圖2β所示),因此在組裂的流程 中亦可先利用面板框架25與背光框架27以將背光模組 23的四側進行固定’再將平面顯示面板u沿此容置空間 251c滑—入平面顯示裝置2。值得注意的是,在本實施例中| 平面#不4置2的三側均藉由面板框架b的第一延伸部 25U與第二延伸部鳥而建構出容置空間μ,因此就 平面顯不裝置2而言,此三側的容置空間25ic彼此接合而 2 π子㈣槽’俾使平面顯示面板2ι可藉由门字形 溝槽而精準且容易地滑行並容置於此容置空間We。 痛一在此’面板框架25雖以組裝於平面顯示裝置2的連 戶 ,且背光框架27及擋塊29組裝於平面顯示裳置0 側為例說明,然不限制本發明,換言之,面板 並二 性地組裳於平面顯示襄置2的任意側邊, 2:= 同背光框架27的設置以達到固定平面顯 以:光^23的目的。面板框架25與背紐架2 J以疋一體成型的結構。 依容^面板框架25的設置並不限制於連續形式,亦可 …、而要組裝於平面顯示裝置2的單側、不連續雙側、 10 201039005 連續雙侧或多侧,意即,面板框架25設置於平面顯示裝 置2的態樣可包含有面板框架25設置於平面顯示裝置2 的至少一侧邊、或相鄰的兩侧邊、或相對的兩侧邊、或相 鄰的三侧邊的態樣,舉例來說,由於未設置有面板框架25 (也就是設置背光框架27)的該侧所對應的平面顯示面板 21可用以電性連接電路模組5,因此,隨著平面顯示裝置 2的尺寸的增加、晝面品質的要求更嚴苛,用以控制的電 路模組5可能連結於平面顯示面板21的兩個侧邊(甚至 更多),則可搭配上述各種面板框架25與平面顯示裝置2 的樣以貫施。 綜上所述,因依據本發明之一種面板框架及其應用之 平面顯示裝置,俾藉由第二延伸部同時支撐於背光模組與 平面顯示面板,並提供相鄰的背光模組與平面顯示面板之 間具有一固定間距,且藉由第一延伸部與第二'延伸部所構 成一容置空間容置平面顯示面板,而背光模組則鄰設於本 體及第二延伸部。與習知技術相較,本發明之面板框架及 其應用之平面顯示裝置可藉由滑動的方式以將平面顧示 面板連結於面板框架,俾使平面顯示裝置的組裝流程簡 化,藉以提高良率。 以上所述僅為舉例性,而非為限制性者。任何未脫離 本發明之精神與範疇,而對其進行之等效修改或變更,均 應包含於後附之申請專利範圍中。 【圖式簡單說明】 n 201039005 圖1A為一示意圖,顯示習知一種 體結構示意圖; 平面顯示裝置的立 圖1Β為圖1Α沿Α-Α1方向的截面圖; 圖1C為圖1Α沿Β-Β,方向的截面圖; 圖2Α為一示意圖,顯示依據本發明較佳實施例之_ 種面板框架組裝於平面顯示裝置的立體結構示二^ 圖2Β為將背光框架組裝於於背光模組的組裝°示意圖 圖2C為圖2Α沿Α-Α1方向的截面圖; 面 圖2D為圖2Α沿Β-Β,方向的截面圖; 圖 圖 圖 不意圖 2Ε為圖2八沿c_ci方向的截面圖; 2F為圖m_D,方向的截面圖;及 2G為將平面顯示面板組裝於 一 置的組裝 【主要元件符號說明】 I、 2 :平面顯示裝置 II、 21 :平面顯示面板 13、23 .背光模组 17 ' 27 :背光框架 19 :前框 25 :面板框架 251 :本體 25la .第—延伸部 251b :第二延伸部 201039005 251c :容置空間 . 271 :背光框架本體 273 :背光框架延伸部 29 :擋塊 5 :電路模組 51 :電路板 52 :電子元件 6 :保護膜 ❹ 7:周邊電路模組 Η :水平高度According to FIG. 2A, FIG. 2B, FIG. 2C, and FIG. 2D, the θ 9 Δ ^ tens face display device of the preferred embodiment of the present invention is not described, and the panel frame is assembled in the flat display device (four) structure = and FIG. The backlight frame is sealed in the backlight module-two; 201039005 is intended; FIG. 2C, 2D, 2E and FIG. 2F are respectively along the A-A' section, the B-B1 section, the C-C' section and the D in FIG. 2A. Schematic diagram of the -D' section. First, please refer to FIGS. 2A, 2B, 2C, 2D, 2E and FIG. 2F. The flat display device 2 disclosed in the present invention comprises a flat display panel 2, a backlight module 23, a panel frame 25, a backlight frame 27 and two stops 29. The backlight module 23 and the flat display panel 21 are opposed to each other. The panel frame 25 is assembled to at least one side of the flat display device 2; at least one side of the flat display device 2 further assembles the backlight frame 27 and the stopper 29, wherein the backlight frame 27 and the panel frame 25 are respectively assembled on different sides of the flat display device 2 . Here, the panel frame 25 is assembled to the three sides of the flat display device 2 as an example. However, the present invention is not limited, and the backlight frame 27 is assembled to the side of the panel display device 25 to which the flat panel display device 2 has not been assembled. The panel frame 25 includes a body 251, a first extension portion 251a and a second extension portion 251b. The first extending portion 251a is coupled to the body 251; the second extending portion 251b is coupled to the body 251 and disposed corresponding to the first extending portion 251a. An accommodating space 251c is formed between the first extending portion 251a and the second extending portion 251b. The display panel 21 is disposed in the accommodating space 251c, and the backlight module 23 is disposed adjacent to the body 251 and the second extending portion 251b. In more detail, the main function of the second extending portion 251b can be used to prevent the backlight module 23 and the adjacent flat display panel 21 from colliding with each other and to maintain a certain distance between the flat display panel 21 and the backlight module 23. The first extending portion 25 la and the second extending portion 251 b may be coupled to the body 251 by bonding or snapping, or the first extending portion 251 a and the second extending portion 251 b may be integrally formed with the body 251 . 201039005 H?, FIG. 2B does not. The backlight frame 27 includes a backlight frame/卞 and a backlight frame extension milk. The backlight frame extension portion 273 is disposed at the same level h as the extension of the second member, and the back: group 2 is disposed adjacent to the f-light frame body 271 and the backlight frame extension portion, and the backlight frame 27 is assembled by the flat display device 2. One of the stops 29 is disposed adjacent to the backlight frame 27 and the flat display allows the face panel 21 to be fixed by the stoppers 29. For example, the backlight module 23 of the square=the backlight module of the side is the two-light-down type f-light module, and the backlight module... the U-light fluorescent tube, the hot cathode or the electroluminescence read to do Light source. And the three sides of the s x-diode light strip device 2. Since the panel frame is in the form of a flat display, it is of course not limited to the two sides of the continuous display 2 or at least ~: the panel frame 25 is assembled on the flat display side (not shown). In addition, the flat display panel corresponding to the flat display device 2 has a side of the four frames 27, as shown in FIG. 2F, and is connected to at least one circuit module 5 by the read command (such as the surface display device 2). The peripheral group 5 is electrically connected to the flat circuit module 5 for driving, wherein, and 7' enables the planar display device 2 to pass through at least the electronic component 52, the electric < Group 5 has - circuit board 51 51 '51 pole, training), flip-chip 201039005 circuit board (COG), flexible circuit board (FPC), printed circuit board (PCB) and combinations thereof, while electronic component 52 can be Wafer. Since the flat display panel 21 is exposed on the side of the backlight frame 27 (the backlight frame 27 cannot block the flat display panel 21), the side of the backlight frame 27 can be blocked by the stopper 29 to avoid the flat display panel 21. Slide out of the flat display device 2. Here, the stopper 29 is exemplified by a two-L shape. However, the present invention is not limited. For example, the shape of the stopper 29 may be a straight shape or a U shape according to actual needs, and the material of the stopper 29 is selected. From metals, plastics and combinations. In addition, the stopper 29 can be fixed to the panel frame 25 by means of snapping, shacking or bonding. In addition, as shown in FIG. 2E and FIG. 2F, the flat display device 2 is further covered with a protective film 6 to protect the circuit module 5 in addition to the circuit module 5 as described above. The protective film 6 is more selectively coated on the bottom of the flat display device 2 and a part of the flat display panel 21. For the assembly flow of the flat display device 2, please refer to FIG. 2A to FIG. 2G at the same time, and FIG. 2G is a schematic view showing the assembly of the flat display panel in the accommodating space. In this embodiment, the one side of the flat display panel 21 is connected to the circuit board 51. Therefore, when the flat display device 2 is assembled, the side to which the circuit board 51 is attached must be exposed outside the backlight frame 27 after assembly. The circuit board 51 can be further connected to the peripheral circuit module 7 (as shown in FIGS. 2E and 2F). Therefore, when assembling the flat display device 2, the panel frame 25 is first used to fix the three sides of the backlight module 23, and the backlight module 23 is fixed to the body 251, the second extending portion 251b, the backlight frame body 271, and the backlight. Between the frame extensions 273 of the frame 201039005; splicing, the plane display panel 21 is slid along the accommodating space 251c formed between the first extension portion 251a and the second extension portion 251b (shown by a broken line in the figure) Finally, in the device 2, a stopper 29 is placed to fix the side for sliding into the flat display panel 21. However, since the backlight frame extension portion 273 and the second extension portion 25ib have the same horizontal height H (as shown in FIG. 2β), the panel frame 25 and the backlight frame 27 may be used first to form the backlight module in the process of splitting. The four sides of the group 23 are fixed and then the flat display panel u is slid along the accommodating space 251c into the flat display device 2. It should be noted that, in this embodiment, the three sides of the plane #4 are both constructed by the first extension 25U of the panel frame b and the second extension bird, so that the plane is displayed. Without the device 2, the three-side accommodating spaces 25ic are joined to each other and the π-sub-four-slots 俾 enable the flat display panel 2 to be accurately and easily slid and accommodated in the accommodating space by the gate-shaped grooves. We. In the case of the panel frame 25, the panel frame 25 is assembled in the plane display device 2, and the backlight frame 27 and the stopper 29 are assembled on the side of the flat display skirt 0. However, the present invention is not limited, in other words, the panel is The bisexual group is on any side of the flat display device 2, 2:= with the backlight frame 27 set to achieve a fixed plane display: the purpose of the light ^23. The panel frame 25 and the back frame 2 J are integrally formed in a meandering manner. The arrangement of the panel frame 25 is not limited to the continuous form, and may be assembled on one side of the flat display device 2, on the discontinuous double side, 10 201039005 on both sides or sides, that is, the panel frame The aspect of the flat display device 2 may include the panel frame 25 disposed on at least one side of the flat display device 2, or adjacent side edges, or opposite side edges, or adjacent three sides. For example, the flat display panel 21 corresponding to the side of the panel frame 25 (that is, the backlight frame 27 is not provided) can be used to electrically connect the circuit module 5, and thus, along with the flat display device The increase in the size of the 2, the quality of the kneading surface is more stringent, and the circuit module 5 for control may be coupled to the two sides (or even more) of the flat display panel 21, and may be combined with the various panel frames 25 described above. The flat display device 2 is sampled. In summary, the panel display device and the flat display device thereof according to the present invention are simultaneously supported by the backlight module and the flat display panel by the second extension portion, and provide adjacent backlight modules and plane displays. The display panel has a fixed space between the first extension portion and the second extension portion, and the backlight module is adjacent to the body and the second extension portion. Compared with the prior art, the panel frame of the present invention and the flat display device thereof can be connected to the panel frame by sliding, so that the assembly process of the flat display device is simplified, thereby improving the yield. . The above is intended to be illustrative only and not limiting. Any equivalent modifications or alterations to the spirit and scope of the present invention are intended to be included in the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS n 201039005 FIG. 1A is a schematic view showing a conventional structure of a body; a vertical view of a flat display device is a cross-sectional view taken along the Α-Α1 direction of FIG. 1; FIG. 1C is a cross-sectional view of FIG. FIG. 2 is a schematic view showing a three-dimensional structure of a panel frame assembled to a flat display device according to a preferred embodiment of the present invention. FIG. 2 is an assembly of a backlight frame assembled in a backlight module. Figure 2C is a cross-sectional view of Figure 2 along the Α-Α1 direction; Figure 2D is a cross-sectional view of Figure 2 along the Β-Β direction; Figure 2 is not intended to be a cross-sectional view of Figure 2 along the c_ci direction; 2F Figure m_D, the cross-sectional view of the direction; and 2G is the assembly of the flat display panel assembled in one place [main component symbol description] I, 2: flat display device II, 21: flat display panel 13, 23. backlight module 17 '27: Backlight frame 19: Front frame 25: Panel frame 251: Main body 25la. First extension portion 251b: Second extension portion 201039005 251c: accommodation space. 271: Backlight frame body 273: Backlight frame extension 29: Stop 5: circuit module 51: Board 52: Electronic component 6: protective film ❹ 7: peripheral circuit module [eta]: the level