201123995 六、發明說明: 【發明所屬之技術領域】 本發明是有_-㈣魏電(eleetn)statie心 ESD)防護結構,且特驳有關於一種由導電膠帶構成的靜電 放電防護結構及使用其之顯示裝置。 【先前技術】 靜電放電容易造成電子元件受損,導致電子裝置的使用壽 命減短’所以在電子震置中,通常設計有靜電放電防護措施。 如上所述,液晶顯示裝置中亦設有多種靜電放電防護措 • 施。圖1是習知一種液晶顯示裝置的局部剖面示意圖。請參照 圖1,習知液晶顯示面板的周邊電路110與驅動電路板12〇位 於鐵框130上,周邊電路110透過可撓性電路板(flexibie printed circuit board, FPCB) 140而電性連接至驅動電路板 120,其中驅動電路板12〇具有接地墊122。習知技術是藉由 穿過接地墊122的螺絲150將驅動電路板12〇鎖附於鐵框13〇 上,而此螺絲150具有導電功能。 上述架構的靜電放電防護措施是採用導電鋁箔16〇加上 籲導電膠17〇將外界的靜電經由鐵框130及螺絲150導到接地墊 122 °此外’為了防止導電膠170接觸晶片112或其他電子元 件’在導電膠17〇與晶片112及電子元件之間需設置絕緣層 180 ’且絕緣層180之背對導電膠170的表面貼覆有另一膠層 bo °藉由此膠層19〇貼覆於液晶顯示面板的周邊電路11〇, 可提供固定液晶顯示面板及驅動電路板120的功能。 在習知靜電放電防護結構中,因導電膠170不能直接貼覆 於顯示面板的周邊電路110,所以需另外設置絕緣層180及膠 層19〇°然而,此將使整個靜電放電防護結構變得複雜,導致 厚度較厚且生產成本較高,而使用此靜電放電防護結構的液晶 201123995 顯示裝置的生產成本及厚度亦隨之增加。 【發明内容】 度。本發賴供放電防麵構,崎低生產成本及厚 ^發明另提供-種顯示裝置’以降低生產成本及厚度。 達上述優點,本發明提出—種靜電放電防護結構,其由 構成’且適於將電荷導至接地件。此導電膠帶包括絕 =層及配置於絕緣膠層上的導電層。此靜電放電防護結構包201123995 VI. Description of the Invention: [Technical Field] The present invention has a protective structure of _-(four) eleetn statie heart ESD), and specifically relates to an electrostatic discharge protection structure composed of a conductive tape and uses the same Display device. [Prior Art] Electrostatic discharge is liable to cause damage to electronic components, resulting in a shortened life of electronic devices. Therefore, in electronic vibration, electrostatic discharge protection measures are usually designed. As described above, a plurality of electrostatic discharge protection measures are also provided in the liquid crystal display device. 1 is a partial cross-sectional view showing a conventional liquid crystal display device. Referring to FIG. 1, the peripheral circuit 110 and the driving circuit board 12 of the liquid crystal display panel are located on the iron frame 130, and the peripheral circuit 110 is electrically connected to the driving through a flexible circuit board (FPCB) 140. The circuit board 120, wherein the drive circuit board 12 has a ground pad 122. The prior art is to lock the drive circuit board 12 to the iron frame 13A by means of a screw 150 passing through the ground pad 122, and the screw 150 has a conductive function. The electrostatic discharge protection measure of the above structure is to use conductive aluminum foil 16 〇 plus conductive paste 17 〇 to conduct external static electricity to the ground pad 122 via the iron frame 130 and the screw 150. In addition, 'to prevent the conductive adhesive 170 from contacting the wafer 112 or other electronic The component 'an insulating layer 180 ′ is disposed between the conductive paste 17 〇 and the wafer 112 and the electronic component, and the surface of the insulating layer 180 is pasted with another adhesive layer bo° by the adhesive layer 19 The peripheral circuit 11A covering the liquid crystal display panel can provide a function of fixing the liquid crystal display panel and the driving circuit board 120. In the conventional electrostatic discharge protection structure, since the conductive paste 170 cannot be directly attached to the peripheral circuit 110 of the display panel, the insulating layer 180 and the adhesive layer 19〇 are additionally provided. However, this will make the entire electrostatic discharge protection structure become The complexity leads to thicker thickness and higher production cost, and the production cost and thickness of the liquid crystal 201123995 display device using the electrostatic discharge protection structure also increases. SUMMARY OF THE INVENTION The present invention provides a discharge-proof surface structure, which is low in production cost and thickness. The invention further provides a display device to reduce production cost and thickness. In view of the above advantages, the present invention proposes an electrostatic discharge protection structure which is constructed and adapted to conduct a charge to a grounding member. The conductive tape comprises an insulating layer and a conductive layer disposed on the insulating layer. This electrostatic discharge protection structure package
括黏貼部錢接轉,其巾接地部自無料伸Μ,且接地 部係由部分導電膠帶反卿成_合的連紐無地段。連接 ,連接於無部熱地段之間,且連接段的普絕緣膠層與接 地段的部分絕_層相黏合’而接地段㈣分導電層接觸接地 件。 八在本發明之一實施例中’上述之接地部的連接段與接地段 分別具有開孔,以供固定元件將接地部固定於接地件。 在本發明之一實施例中’上述之連接段的面積大於接地段 的面積’而接地部係透過連接段的部分絕緣膠層而黏貼於接地 件。 在本發明之一實施例中,上述之導電膠帶更包括位於絕緣 膠層與導電層之間的遮光層。 在本發明之一實施例中,上述之導電層包括鋁箔層。 為達上述優點,本發明另提出一種顯示裝置,其包括顯示 面板、至少一電路板、接地件以及上述之靜電放電防護結構。 顯示面板具有周邊電路,電路板位於顯示面板旁,且電路板電 性連接至周邊電路。靜電放電防護結構的黏貼部黏貼周邊電 路。 201123995 在本發明之一實施例中,上述之顯示裝置更包括固定元 件。接地部的連接段與接地段分別具有開孔,以供固定元件將 接地部固定於接地件。 在本發明之一實施例中,上述之固定元件的材質為絕緣材 質。 在本發明之一實施例中’上述之連接段的面積大於接地段 的面積’而接地部係透過連接段的部分絕緣膠層而黏貼於接地 件。 在本發明之一實施例中,上述之接地件包括設於電路板的 φ 接地塾。 在本發明之一實施例中’上述之接地件接地件包括一框 體。 在本發明之一實施例中’上述之顯示裝置更包括用於承載 顯示面板的框體。 在本發明之一實施例中,上述之顯示裝置更包括固定元 件。電路板及接地部的連接段與接地段分別具有開孔,以供固 定元件將接地部及電路板固定於框體。 Φ 在本發明之一實施例中,上述之黏貼部更彎折至框體之背 對顯示面板的一側,接地段的部分導電層接觸框體之背對顯示 面板的一背面。連接段的面積大於接地段的面積,而接地部係 透過連接段的部分絕緣膠層而黏貼於框體之背面。 在本發明之一實施例中,上述之顯示面板包括相對的第一 基板與第二基板,周邊電路設於第一基板,而黏貼部更黏貼至 第一基板的邊緣。 本發明之靜電放電防護結構除了可藉由黏貼部提供固定 的功能外’由於將部分導電膠帶反折以使接地段之暴露於外的 201123995 表面為導電層的表面,所以還可藉由接地段的部分導電層接觸 接地件,以達到靜電放電防護的效果。由於本發明之靜^放電 防護結構僅由導電膠帶構成,所以可大幅降低成本並使整體厚 度變薄。此外,本發明之顯示袭置因使用此靜電放電防護結 構,所以可降低生產成本及厚度。 ° 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。 【實施方式】 一立圖2是本發明一實施例之一種靜電放電防護結構的剖面 • 不意圖。請參照圖2,本實施例之靜電放電防護結構2〇()可黏 貼於待保護的電子產品,以提供靜電放電防護的效果。此靜電 放電防護結構200由導電膠帶202構成,且適於將電荷導至電 子產品的接地件50。接地件50可為框體或電路板的接地墊, 惟不限於此,亦可依實際需求調整。此導電膠帶202包括絕緣 膠層204及配置於絕緣膠層2〇4上的導電層2〇6,其中導電層 206例如是鋁箔層或其他合適的導電材料。此靜電放電防護結 構2〇〇包括黏貼部210以及接地部220,其中接地部220由黏 #貼°卩210延伸而出,且接地部220係由部分導電膠帶2〇2反折 形成相黏合的連接段222與接地段224。連接段222連接於黏 貼部210與接地段224之間,且連接段222的部分絕緣膠層 204與接地段224的部分絕緣膠層2〇4相黏合,而接地段224 的部分導電層206接觸接地件50。 ^本貫施例之靜電放電防護結構200的黏貼部210可黏貼於 電子產品的部分零件,以提供固定與絕緣的功能。此外,由於 本實施例將部分導電膠帶202反折以使接地段224之暴露於外 的表面225係為導電層2〇6的表面,所以能藉由接地段224的 201123995 部分導電層206接觸接地件50,以將靜電導引至接地件5〇。 如此’可防止電子產品的内部元件受到靜電放電而損壞,進而 達到靜電放電防護的效果。此外,相較於習知技術,由於本實 施例之靜電放電防護結構2〇〇僅由導電膠帶Μ2構成,所以< 大幅降低成本並使整體厚度變薄。 值得一提的是,當靜電放電防護結構2〇〇應用於部分電子 產品(如顯示裝置)時,為了使靜電放電防護結構2〇〇具有遮 光的功能,在絕緣膠層204與導電層2〇6之間可設置遮光層(圖 未示)。如此,可防止漏光而影響電子產品的顯示品質,或是 _防止光線照射到電子產品的㈣元件而導致元件的壽命或效 能受到不良的影響。 一圖3是本發明另一實施例之一種靜電放電防護結構的立 體示意圖。請參照圖3,本實施例之靜電放電防護姓構〇〇,斑 圖2之静電放電結構綱相似,差別處在於靜電護結構 200’之接地部220,與靜電放電防護結構2〇〇的之接地部22〇不 同。具體而言,接地部22〇,的連接段222,的面積大於接地段 224,的面積,而接地部220,可透過連接段222,的部分絕緣膠層 馨 而黏貼於接地件(圖未示)。 以下將以顯示裝置為例來說明本發明之靜電放電防護結 構應用於電子產品的具體實施例,惟本發明之靜電放電防護^ 構並不限定用於顯示裝置中。 一圖4是本發明一實施例之顯示裝置的顯示裝置的局部剖 面不意圖。請參照圖4,本實施例之顯示裝置3〇〇包括顯示面 板310、至少一電路板320、接地件330以及上述之靜電放電 防護結構200。顯示面板310具有周邊電路312,電路板32〇 位於顯示面板310旁,電性連接至周邊電路312。此電路板32〇 201123995 例如是透過可撓性電路板340而電性連接至周邊電路312。電 路板320例如是驅動電路板。Including the adhesive part of the money, the grounding part of the towel has no material to stretch, and the grounding part is partially separated by a part of the conductive tape. The connection is connected between the non-hot portions, and the insulating layer of the connecting portion is bonded to the portion of the grounding portion of the grounding portion, and the grounding portion (4) is separated from the grounding member by the conductive layer. In an embodiment of the present invention, the connecting portion of the grounding portion and the grounding portion respectively have openings for fixing the grounding portion to the grounding member. In an embodiment of the invention, the area of the connecting section is larger than the area of the grounding section, and the grounding portion is adhered to the grounding member through a portion of the insulating layer of the connecting section. In an embodiment of the invention, the conductive tape further comprises a light shielding layer between the insulating layer and the conductive layer. In an embodiment of the invention, the conductive layer comprises an aluminum foil layer. In order to achieve the above advantages, the present invention further provides a display device including a display panel, at least one circuit board, a grounding member, and the above-described electrostatic discharge protection structure. The display panel has peripheral circuits, the circuit board is located beside the display panel, and the circuit board is electrically connected to the peripheral circuits. The adhesive portion of the ESD protection structure is adhered to the peripheral circuit. 201123995 In an embodiment of the invention, the display device further includes a fixed component. The connecting portion of the grounding portion and the grounding portion respectively have openings for the fixing member to fix the grounding portion to the grounding member. In an embodiment of the invention, the fixing member is made of an insulating material. In an embodiment of the invention, the area of the connecting section is larger than the area of the grounding section, and the grounding portion is adhered to the grounding member through a portion of the insulating layer of the connecting section. In an embodiment of the invention, the grounding member includes a grounding turns of φ provided on the circuit board. In an embodiment of the invention, the grounding member grounding member comprises a frame. In an embodiment of the invention, the display device described above further includes a frame for carrying the display panel. In an embodiment of the invention, the display device described above further includes a fixed component. The connecting portion of the circuit board and the grounding portion and the grounding portion respectively have openings for the fixing component to fix the grounding portion and the circuit board to the frame. Φ In an embodiment of the invention, the adhesive portion is further bent to a side of the frame facing away from the display panel, and a portion of the conductive layer of the grounding portion contacts a back surface of the frame opposite the display panel. The area of the connecting section is larger than the area of the grounding section, and the grounding portion is adhered to the back surface of the frame through a part of the insulating layer of the connecting section. In an embodiment of the invention, the display panel includes opposite first and second substrates, the peripheral circuit is disposed on the first substrate, and the adhesive portion is more adhered to the edge of the first substrate. In addition to providing a fixed function by the adhesive portion, the electrostatic discharge protection structure of the present invention can also be used as a surface of the conductive layer by reversing a portion of the conductive tape so that the exposed surface of the grounding segment is the surface of the conductive layer. Part of the conductive layer contacts the grounding member to achieve the effect of electrostatic discharge protection. Since the static discharge protection structure of the present invention is composed only of a conductive tape, the cost can be greatly reduced and the overall thickness can be made thin. Further, the display of the present invention can reduce the production cost and thickness by using the electrostatic discharge protection structure. The above and other objects, features, and advantages of the present invention will become more apparent and understood by the appended claims appended claims [Embodiment] A vertical view 2 is a cross section of an electrostatic discharge protection structure according to an embodiment of the present invention. Referring to FIG. 2, the electrostatic discharge protection structure 2() of the present embodiment can be adhered to an electronic product to be protected to provide an electrostatic discharge protection effect. This electrostatic discharge protection structure 200 is constructed of a conductive tape 202 and is adapted to conduct charge to the grounding member 50 of the electronic product. The grounding member 50 can be a grounding pad of the frame or the circuit board, but is not limited thereto, and can also be adjusted according to actual needs. The conductive tape 202 includes an insulating layer 204 and a conductive layer 2〇6 disposed on the insulating layer 2〇4, wherein the conductive layer 206 is, for example, an aluminum foil layer or other suitable conductive material. The ESD protection structure 2 includes an adhesive portion 210 and a grounding portion 220. The grounding portion 220 extends from the adhesive portion 210, and the grounding portion 220 is folded by a portion of the conductive tape 2〇2 to form a bonded portion. The segment 222 is connected to the ground segment 224. The connecting portion 222 is connected between the bonding portion 210 and the grounding portion 224, and a portion of the insulating layer 204 of the connecting portion 222 is bonded to a portion of the insulating layer 2〇4 of the grounding portion 224, and a portion of the conductive layer 206 of the grounding portion 224 is in contact with each other. Grounding member 50. The adhesive portion 210 of the electrostatic discharge protection structure 200 of the present embodiment can be adhered to parts of the electronic product to provide a function of fixing and insulating. In addition, since the portion of the conductive tape 202 is folded back so that the exposed surface 225 of the grounding portion 224 is the surface of the conductive layer 2〇6, the portion of the conductive layer 206 of the grounding portion 224 can be grounded. Device 50 to direct static electricity to the grounding member 5〇. This prevents the internal components of the electronic product from being damaged by electrostatic discharge, thereby achieving the effect of electrostatic discharge protection. Further, compared with the prior art, since the electrostatic discharge protection structure 2 of the present embodiment is composed only of the conductive tape 2, < greatly reduces the cost and makes the overall thickness thin. It is worth mentioning that when the electrostatic discharge protection structure 2 is applied to a part of an electronic product (such as a display device), in order to make the electrostatic discharge protection structure 2 〇〇 have a function of shielding light, the insulating layer 204 and the conductive layer 2 A light shielding layer (not shown) can be provided between 6. In this way, it is possible to prevent light leakage from affecting the display quality of the electronic product, or to prevent the light from being irradiated to the (4) component of the electronic product, resulting in adverse effects on the life or performance of the component. Figure 3 is a schematic perspective view of an electrostatic discharge protection structure according to another embodiment of the present invention. Referring to FIG. 3, the electrostatic discharge protection structure of the present embodiment is similar to that of the electrostatic discharge structure of the pattern 2, and the difference lies in the grounding portion 220 of the electrostatic protection structure 200' and the electrostatic discharge protection structure. The grounding portion 22 is different. Specifically, the area of the connecting portion 222 of the grounding portion 22A is larger than the area of the grounding portion 224, and the portion of the insulating portion of the grounding portion 220 that can pass through the connecting portion 222 is adhered to the grounding member (not shown). ). Hereinafter, a specific embodiment of the electrostatic discharge protection structure of the present invention applied to an electronic product will be described by taking a display device as an example, but the electrostatic discharge protection structure of the present invention is not limited to use in a display device. Fig. 4 is a partial cross-sectional view showing a display device of a display device according to an embodiment of the present invention. Referring to FIG. 4, the display device 3 of the present embodiment includes a display panel 310, at least one circuit board 320, a grounding member 330, and the above-described electrostatic discharge protection structure 200. The display panel 310 has a peripheral circuit 312, and the circuit board 32 is located beside the display panel 310 and electrically connected to the peripheral circuit 312. The circuit board 32 〇 201123995 is electrically connected to the peripheral circuit 312 through the flexible circuit board 340, for example. The circuit board 320 is, for example, a drive circuit board.
上述之靜電放電防護結構200的黏貼部210黏貼周邊電路 312,而接地段224的部分導電層206接觸接地件330。此接 地件330例如是設於電路板320的接地墊。在一實施例中,顯 示面板310例如包括相對的第一基板314與第二基板316。舉 例來說,在顯示面板310為液晶顯示面板31〇的實施例中,第 一基板314例如是主動元件陣列基板,如薄膜電晶體陣列基 板,而第二基板316例如是彩色濾光基板。此外,周邊電路 312設於第一基板314,且黏貼部210更黏貼至第二基板316 的邊緣。 另外’接地部220的連接段222與接地段224分別具有開 孔223、227,此二開孔223、227相通。顯示裝置3〇〇更包括 固定元件350,而此固定元件350穿過開孔223、227而將接 地部220固定於接地件330。固定元件35〇例如可為鎖固件(如 螺絲)、卡合件等,但不以此為限。另外,顯示裝置3〇〇更包 括用於承載顯示面板310的框體360,而此框體360请开用於 承載電路板320。上述之固定元件35〇可進一步穿過電路板32〇 而將電路板320固定於框體360。 有別於習知技術,本實施例之靜電放電防護結構2⑽的可 直接藉由導電層206將靜電導到接地件33〇,而不需經由固定 兀件350,所以上述之固定元件35〇的材質可選用絕緣材質。 此外,相較於習知技術,由於本實施例之顯示裝置3〇〇所使用 的靜電放電防護結構200具有成本低且厚度薄的優點,所以能 降低顯示裝置300的生產成本及厚度。 ’ b 圖5是本發明另-實施例之顯示裝置的局部剖面示意 201123995The pasting portion 210 of the electrostatic discharge protection structure 200 described above adheres to the peripheral circuit 312, and a portion of the conductive layer 206 of the grounding portion 224 contacts the grounding member 330. This grounding member 330 is, for example, a ground pad provided on the circuit board 320. In an embodiment, display panel 310 includes, for example, opposing first substrate 314 and second substrate 316. For example, in the embodiment in which the display panel 310 is the liquid crystal display panel 31, the first substrate 314 is, for example, an active device array substrate such as a thin film transistor array substrate, and the second substrate 316 is, for example, a color filter substrate. In addition, the peripheral circuit 312 is disposed on the first substrate 314, and the adhesive portion 210 is more adhered to the edge of the second substrate 316. Further, the connecting portion 222 of the grounding portion 220 and the grounding portion 224 have openings 223 and 227, respectively, and the two openings 223 and 227 are in communication. The display device 3 further includes a fixing member 350 that passes through the openings 223, 227 to fix the ground portion 220 to the grounding member 330. The fixing member 35 can be, for example, a lock (such as a screw), a snap member, etc., but is not limited thereto. In addition, the display device 3 further includes a frame 360 for carrying the display panel 310, and the frame 360 is opened for carrying the circuit board 320. The fixing member 35A described above can further pass through the circuit board 32A to fix the circuit board 320 to the housing 360. Different from the prior art, the electrostatic discharge protection structure 2 (10) of the present embodiment can directly conduct static electricity to the grounding member 33 by the conductive layer 206 without passing through the fixing member 350, so that the above-mentioned fixing member 35 is The material can be insulated. Further, compared with the prior art, since the electrostatic discharge protection structure 200 used in the display device 3 of the present embodiment has the advantages of low cost and thin thickness, the production cost and thickness of the display device 300 can be reduced. Figure 5 is a partial cross-sectional view of a display device according to another embodiment of the present invention 201123995
圖’圖6是圖5之顯示裝置所使用的靜電放電防護結構反折至 框體背面的立體示意圖,而圖7是圖5之顯示裝置所使用的靜 電放電防護結構的接地部黏貼於框體的示意圖。請先參照圖5 與圖6 ’本實施例之顯示裝置300’與上述之顯示裝置3〇〇相 似,差別處在於本實施例之顯示裝置300,係使用圖3之靜電放 電防護結構200’。靜電放電防護結構200,的黏貼部21〇點貼 周邊電路312 ’且從框體360之承載顯示面板310的一侧彎折 至框體3 60之背對顯不面板310的一側。靜電放電防護纟士構 200’的接地部220’之接地段224,的部分導電層206係接觸^體 360之背對顯示面板310的背面362。另外,請參照圖6與圖 7,接地部220’係透過連接段222’的部分絕緣膠層2〇4 (如標 號205所指的區域)而黏貼於框體36〇的背面362。 不 在本實施例中,框體360的材質例如是鐵或其他具有導電 性的材質,而固定元件350的材質例如具有導電性,如此可藉 由框體360及固定元件350將靜電導至設於電路板32〇的接^ 件330。雖然在本實施例中接地件33〇是設於電路板32〇的接 地墊’但在另-實關巾’接地件可由多個料構成,而框體 360可直接作為接地件的其中一部件。 本實施例之顯示裝置300,與上述之顯示裝置綱具有相 似的優點’在此將不再重述。 综上所述,本發明至少具有下列優點: 1.=發明讀電放電防賴構的無部 Ϊ二分導轉帶反折以使接地段之暴露於外的表= 以可藉由接地段的部分導電層接觸接地件, 發明之靜較電㈣結構勤導«帶構成, 201123995 成本並使靜電放電防罐 2.由於本發明4、;:的整體厚度變薄。 生產成本低且厚度薄置使用的靜電放電防護結構具有 生產成本及厚度。優點,所以崎低本發明之顯示裝置ί 雖然本發明已以輕估 本發明,本發明所屬技術,然其並非用以限定 發明之精神和範圍内,當可作此:k吊知識者,在不脫離本 之保護範圍當視後附之;二t更動與潤飾’因此本發明 【圖式簡單說明】 ”料_所界定者為準。 圖1疋習知-種液晶顯示裝置 圖2是本發明1施例之—局H面不意圖。 不意圖。 靜電放電防護結構的剖面 體 圖 示意圖。 是本發明另一實施例之 種靜電放電防護結構的 立 示裝置的局部剖 圖4是本發明一 面示意圖。 實施例,叫置的顯 圖 5是本發明另一貫施例之顯示努Figure 6 is a perspective view of the electrostatic discharge protection structure used in the display device of Figure 5 folded back to the back of the frame, and Figure 7 is the grounding portion of the electrostatic discharge protection structure used in the display device of Figure 5 adhered to the frame Schematic diagram. Referring to Fig. 5 and Fig. 6 respectively, the display device 300' of the present embodiment is similar to the above display device 3'. The difference is that the display device 300 of the present embodiment uses the electrostatic discharge protection structure 200' of Fig. 3. The adhesive portion 21 of the ESD protection structure 200 is attached to the peripheral circuit 312' and bent from the side of the frame 360 carrying the display panel 310 to the side of the frame 360 facing away from the display panel 310. A portion of the conductive layer 206 of the grounding portion 224 of the grounding portion 220' of the electrostatic discharge protection gentleman structure 200' contacts the back surface 362 of the body 360 opposite the display panel 310. Further, referring to Fig. 6 and Fig. 7, the ground portion 220' is adhered to the back surface 362 of the frame 36A through a portion of the insulating layer 2〇4 (as indicated by the numeral 205) of the connecting portion 222'. In the present embodiment, the material of the frame 360 is, for example, iron or other conductive material, and the material of the fixing member 350 is electrically conductive, for example, so that the frame 360 and the fixing member 350 can be used to conduct static electricity. The board 330 is connected to the device 330. Although in the present embodiment, the grounding member 33 is a grounding pad provided on the circuit board 32'', but the other-grounding blade' grounding member may be composed of a plurality of materials, and the frame 360 may directly serve as one of the components of the grounding member. . The display device 300 of the present embodiment has similar advantages to the above-described display device, and will not be repeated here. In summary, the present invention has at least the following advantages: 1. = Invented reading of the electric discharge arresting structure of the non-partial two-way guide belt reversing to expose the grounding section to the outside surface = by means of the grounding section Part of the conductive layer contacts the grounding member, and the invention is more static (four) structure diligently guided «belt composition, 201123995 cost and electrostatic discharge anti-can 2. Because the overall thickness of the invention 4,;:: thin. The ESD protection structure with low production cost and thin thickness has production cost and thickness. The present invention has been described with reference to the present invention. It does not deviate from the scope of protection of this article; it is attached to the latter; the second t is changed and retouched. Therefore, the present invention [simplified description of the drawing] is based on the definition of material. Figure 1 疋 知 - A liquid crystal display device Figure 2 is 1 is a schematic view of a schematic view of an electrostatic discharge protection structure. FIG. 4 is a partial cross-sectional view of an embodiment of an electrostatic discharge protection structure according to another embodiment of the present invention. A schematic diagram of an embodiment of the present invention is a display of another embodiment of the present invention.
圖6是圖5之顯示裝置所使用的靜電放電=士面^意圖 框體背面的立體示意圖。 電方屢、,.。構反折」 的靜電放電防護結構的接地 圖7是圖5之顯示裝置所使用 部黏貼於框體的示意圖。 【主要元件符號說明】 50 :接地件 110 :周邊電路 112 :晶片 120 :驅動電路板 201123995 122 :接地墊 130 :鐵框 140 :可撓性電路板 150 :螺絲 160 ··導電鋁箔 170 :導電膠 180 :絕緣層 190 :膠層 200、200’ :靜電放電防護結構 202 :導電膠帶 204 :絕緣膠層 205 :區域 206 :導電層 210 :黏貼部 220、220’ :接地部 222、 222’ :連接段 223、 227 :開孔 224、 224’ :接地段 225 :接地段之暴露於外的表面 300、300’ :顯示裝置 310 :顯示面板 312 :周邊電路 314 :第一基板 316 :第二基板 320 :電路板 330 :接地件 12 201123995 340 :可撓性電路板 350 :固定元件 360 :框體 362 :框體的背面Fig. 6 is a perspective view showing the electrostatic discharge = the surface of the frame used in the display device of Fig. 5; The electric side has repeatedly, ,. Grounding of the ESD protection structure of the structure is shown in Fig. 7. Fig. 7 is a schematic view showing the portion of the display device of Fig. 5 adhered to the frame. [Main component symbol description] 50: Grounding member 110: Peripheral circuit 112: Wafer 120: Driving circuit board 201123995 122: Grounding pad 130: Iron frame 140: Flexible circuit board 150: Screw 160 · Conductive aluminum foil 170: Conductive adhesive 180: insulating layer 190: adhesive layer 200, 200': electrostatic discharge protection structure 202: conductive tape 204: insulating adhesive layer 205: region 206: conductive layer 210: adhesive portion 220, 220': grounding portion 222, 222': connection Sections 223, 227: openings 224, 224': grounding section 225: exposed surfaces 300, 300' of the grounding section: display device 310: display panel 312: peripheral circuit 314: first substrate 316: second substrate 320 : Circuit board 330 : Grounding member 12 201123995 340 : Flexible circuit board 350 : Fixing element 360 : Frame 362 : Back side of frame