M438043 五、新型說明: 【新型所屬之技術領域】 本新型是有關一種連接結構,且特別有關_ 電路板與軟性電路板的連接結構。 心'用於 【先前技術】M438043 V. New description: [New technical field] The new type relates to a connection structure, and is particularly related to the connection structure between the circuit board and the flexible circuit board. Heart 'for [prior art]
曰由於科技曰新月異,各種消費性電子產品的 =越來越輕薄’例如液晶電視、平板電腦與無智慧財 等。因此’對於電子產品内部的訊號傳輸方面,軟政 板的應用已越來越多,使軟性電路板與電 的重要性也日益增加。 之連接結構 第I圖繪示習知連接結構100的俯視圖。如圖所示, ,路板110具有零件區118、穿孔112、第—接點114盘第 一標記116。第一標記116緊鄰於第一接點114。.軟性電路 板+120具有第二標記122與第二接點124,且第二標記η〕 •緊f於第二接點U4。在組合時,軟性電路板120藉由第 '二標記122與位於電路板110的第一標記116相疊合來定 位軟性電路板120的位置’使第二接點124與第一接點114 4接·觸接者,再利用異方性導電膠(Anis〇tr〇pjc c〇nductive Film ; ACF)將軟性電路板12〇固定於電路板11〇上。另一 方面’電路板110可藉由穿孔112(例如螺絲孔)與固定元件 (例如螺絲)設置於〜承載座(例如機殼)上。 也就是說’穿孔112僅具有固定電路板110與接地的 功此°連接結構丨〇〇需利用第一標記116、第二標記122 與^電海' 材使訊號導通,而增加接合材料的成本。此外, 4 M438043 軟,電路板120與電路板削的相對位置易因不同的作業 人員而產生位移誤差,使訊號易發生異常。再者, 士 軟性電路板120藉由導電膠材結合於電路板二 後才可驗證電氣特性,不僅易造成測試時間的浪費,若訊 號有異也不易拆卸軟性電路板12〇來重新調整位置。° 【新型内容】曰 Due to the rapid changes in technology, various consumer electronics products are becoming increasingly thinner, such as LCD TVs, tablets and smart money. Therefore, for the signal transmission inside electronic products, the application of soft boards has become more and more, and the importance of flexible circuit boards and electricity is increasing. Connection Structure FIG. 1 is a plan view showing a conventional connection structure 100. As shown, the roadway 110 has a component area 118, a perforation 112, and a first contact 114 of the first contact 114. The first marker 116 is adjacent to the first contact 114. The flexible circuit board +120 has a second mark 122 and a second contact 124, and the second mark η] is tight to the second contact U4. When combined, the flexible circuit board 120 positions the flexible circuit board 120 by overlapping the first mark 116 with the first mark 116 located on the circuit board 110. The second contact 124 and the first contact 114 4 Connect the contactor and then fix the flexible circuit board 12A to the circuit board 11A by using an anisotropic conductive adhesive (Anis〇tr〇pjc c〇nductive Film; ACF). On the other hand, the circuit board 110 can be placed on a carrier (e.g., a casing) by a through hole 112 (e.g., a screw hole) and a fixing member (e.g., a screw). That is to say, the 'perforation 112 only has the function of fixing the circuit board 110 and the grounding. The connection structure needs to use the first mark 116, the second mark 122 and the electric sea to turn on the signal, thereby increasing the cost of the bonding material. . In addition, 4 M438043 soft, the relative position of the circuit board 120 and the circuit board is easy to produce displacement errors due to different operators, making the signal prone to abnormalities. Furthermore, the flexible circuit board 120 can be used to verify the electrical characteristics by bonding the conductive adhesive to the circuit board 2, which not only causes a waste of test time, but also makes it difficult to disassemble the flexible circuit board 12 to reposition the position if the signal is different. ° [New content]
本新型之一技術態樣為一種連接結構。 根據本新型-實施方式,一種連接結構包含電路板、 至少一軟性電路板、補強板與固定元件。電路板具有第一 穿孔與至少—第—接點緊鄰於第-穿孔,且第孔與電 路板的邊緣相距第一距離。軟性電路板具有第二穿孔^至 少一第二接點緊鄰於第二穿孔。第二穿孔大致5齊於第一 穿孔,且第二接點大致對齊於第—接點。補強板位於軟性 電路板上,用以抵靠電路板。補強板與第二穿孔相距第二 距離,且第二距離大致等於第一距離。固定元件耦合第一 穿孔與第二穿孔,用以固定軟性電路板於㈣板上:使第 一接點接觸第二接點。 在本新型一實施方式中,其中上述第一接點與第二接 點的數量為複數個’且第一接點圍繞第一穿孔,第二接點 圍繞第二穿孔。 一… 在本新型一實施方式中,其中上述電路板具有第一接 地端與第一接地端,且第一接地端形成於第一穿孔中,第 二接地端形成於第一接點的相反側。 在本新型-實施方式中’其中上述敕性電路板具有第 5 M438043 三接地端形成於第二穿孔中,當固定元件耦合於第一穿孔 與第二穿孔時,固定元件接觸第一接地端、第二接地端與 第三接地端。 在本新型一實施方式中,其中上述固定元件包含螺絲 與螺帽。螺絲貫穿第一穿孔與第二穿孔。螺帽嚆合於螺絲。 在本新型一實施方式中,其中上述連接結構更包含承 載座位於電路板與螺帽之間。 在本新型一實施方式中,其中上述固定元件更包含第 一墊片與第二墊片。第一墊片位於螺絲之頭部與軟性電路 板之間。第二墊片位於承載座與螺帽之間。 在本新型一實施方式中,其中上述軟性電路板包含靜 電防護膜形成於第二接點的相反側,且接觸第一墊片。 在本新型一實施方式中,其中上述軟性電路板的數量 為二且分別位於電路板的相反兩側,電路板具有第一接地 端形成於第一穿孔中,每一軟性電路板具有第三接地端形 成於第二穿孔中。當固定元件耦合於第一穿孔與二第二穿 孔時,固定元件接觸第一接地端與二第三接地端。 在本新型一實施方式中,其中上述固定元件包含螺絲 與螺帽。螺絲貫穿第一穿孔與二第二穿孔。螺帽嚅合於螺 絲。 在本新型一實施方式中,其中上述連接結構,更包含 承載座位於螺帽與鄰近螺帽之軟性電路板之間。 在本新型一實施方式中,其中上述固定元件更包含第 一墊片與第二墊片。第一墊片位於螺絲之頭部與鄰近螺絲 之頭部的軟性電路板之間。第二墊片位於承載座與螺帽之 6 M438043 間。 在本新型一實施方式中,其中上述每一軟性電路板包 含靜電防護膜形成於第二接點的相反側,且接觸第一墊片 或承載座。 在本新型一實施方式中,其中上述靜電防護膜包含銅 箔或屏蔽膜。 在本新型上述實施方式中,第二穿孔大致對齊於第一 穿孔且第二接點大致對齊於第一接點。第一接點緊鄰於第 一穿孔且第二接點緊鄰於第二穿孔。因此,當固定元件耦 合第一穿孔與第二穿孔時,軟性電路板可固定於電路板 上,且第一接點可同時接觸第二接點。此外,補強板位於 軟性電路板上並抵靠電路板,使軟性電路板與電路板不易 產生相對移動。 也就是說,此連接結構藉由電路板與軟性電路板的結 構設計,不需藉由習知的標記與導電膠材就可使訊號導 通,而節省接合材料的成本。此外,軟性電路板與電路板 的相對位置不易因不同的作業人員而產生位移誤差,使訊 號不易發生異常。再者,固定元件固定軟性電路板於電路 板上後,未上膠的連接結構可直接驗證電氣特性,若訊號 有異只需拆下固定元件重新調整軟性電路板的位置便可再 次驗證,因此可節省測試的時間。 【實施方式】 以下將以圖式揭露本新型之複數個實施方式,為明確 說明起見,許多實務上的細節將在以下敘述中一併說明。 7 M438043 …''而,應瞭解到,這些實務上的細節不應用以限制本新型β 也就是說,在本新型部分實施方式中,這些實務上的細節 是非必要的。此外’為簡化圖式起見,一些習知慣用的結 構與元件在圖式中將以簡單示意的方式繪示之。 第2圖缚示根據本新型一實施方式之連接結構2〇〇的 俯視圖。如圖所示,連接結構2〇〇包含電路板21〇、軟性 電路板220、補強板230與固定元件240。在本實施方式中, 軟性電路板220覆蓋於電路板21〇上並藉由固定元件240 來固定。補強板230位於軟性電路板220面對電路板210 的表面上並抵靠電路板210,使軟性電路板220不會於電 路板210上轉動。 第3圖繪示第2圖之電路板210的俯視圖。第4圖繪 示第2圖之軟性電路板220翻轉180度後的俯視圖。同時 參閱第3圖與第4圖,電路板210具有第一穿孔212與第 一接點214緊鄰於第一穿孔212,且第一穿孔212與電路 板210的邊緣213相距第一距離D1。軟性電路板220具有 第二穿孔222與第二接點224緊鄰於第二穿孔222。在組 合時,軟性電路板220的表面221面對電路板210的表面 211 ’第二穿孔222大致對齊於第一穿孔212,且第二接點 224大致對齊於第一接點214。補強板23〇與第二穿孔222 相距第一距離D2,且第二距離D2大致等於第一距離D1。 如此一來’當第二穿孔222與第一穿孔212對齊時,補強 板230可抵靠電路板21〇的邊緣213。 在本實施方式中’第一接點214與第二接點224的數 量為複數個,且第一接點214圍繞第一穿孔212,第二接 M438043 點224圍繞第二穿孔222。然而在其他實施方式中’第一 接點214與第二接點224的也可有其他的排列方式’只要 第二穿孔222與第一穿孔212對齊時,第一接點214與第 二接點224的位置相對齊便可。 第5圖繪示第2圖之連接結構200沿線段5_5’的剖面 圖。固定元件240耦合第一穿孔212與第二穿孔222 ’用 以固定軟性電珞板220於電路板210上,使第一接點214 接觸第二接點224。固定元件240可以包含嫘絲242與螺 鲁帽244。螺絲242貫穿第一穿孔212與第二穿孔222 ’且螺 帽244嚅合於螺絲242。在其他實施方式中,固定元件24〇 也可為螺絲鈕扣,只要能將軟性電路板220與電路板210 緊密結合便可。 在本實施方式中,電路板210具有第一接地端216與 第二接地端218,且第一接地端216形成於第〆牙孔212 中’第二接地端218形成於第一接點214的相反側。軟性 電路板220具有第三接地端226形成於第二穿孔222中’ • 當固定元件240的螺絲242耦合於第一穿孔212與第二穿 ' 孔222時,固定元件240可同時接觸第一接地端216、第 • 二接地端218與第三接地端226。 此外’連接結構200還可包含承載座250位於電路板 210與螺帽244之間’其中承載座250可以為容置連接結 構200的機殼。固定元件240更包含第一塾片246與第二 墊片248。第一墊片246位於螺絲242之頭部與軟性電路 板220之間’第二塾片248位於承載座250與螺帽244之 間。因此,固定元件240搭配抵靠電路板210的補強板230 9 料別043 可使軟性電路板22G與電路板21G更穩固地由固定。 軟^電路板220可選擇性地包含靜電防護膜遍形成 接點224的相反側,且接觸第―塾片挪。苴中, 静電防護骐260可以包含銅箔或屏蔽膜 用來防止靜電破壞的複合材料,可包含聚對笨二甲酸乙月1 (P〇lyethylene Terephthalat ; pET)、_、 一 曰 、月曰、v电金屬(例如銅、鉻、銀、金或鋁)。第一墊片2恥 ,第二W 248可㈣金制質㈣有屏蔽仙,且靜電 防護膜260與敎元件24〇接觸第—接地端216、第二接 地端218與第三接地端226作靜電(Eiectr_gneticOne of the technical aspects of the present invention is a connection structure. According to the novel-embodiment, a connection structure includes a circuit board, at least one flexible circuit board, a reinforcing plate, and a fixing member. The circuit board has a first through hole and at least - the first contact is adjacent to the first through hole, and the first hole is spaced a first distance from the edge of the circuit board. The flexible circuit board has a second through hole ^ at least one second contact is adjacent to the second through hole. The second through hole is substantially aligned with the first through hole, and the second contact is substantially aligned with the first contact. The stiffener is placed on the flexible board to abut the board. The reinforcing plate is spaced a second distance from the second perforation and the second distance is substantially equal to the first distance. The fixing member couples the first through hole and the second through hole for fixing the flexible circuit board to the (four) board: the first contact contacts the second contact. In an embodiment of the present invention, the number of the first contact and the second contact is plural and the first contact surrounds the first through hole, and the second contact surrounds the second through hole. In an embodiment of the present invention, the circuit board has a first ground end and a first ground end, and the first ground end is formed in the first through hole, and the second ground end is formed on the opposite side of the first contact . In the present invention, the above-mentioned inert circuit board has a fifth M438043 three grounding end formed in the second through hole, and when the fixing element is coupled to the first through hole and the second through hole, the fixing element contacts the first ground end, The second ground end and the third ground end. In an embodiment of the invention, the fixing element comprises a screw and a nut. The screw penetrates the first perforation and the second perforation. The nut is screwed to the screw. In an embodiment of the present invention, the connecting structure further includes a carrier seat between the circuit board and the nut. In an embodiment of the invention, the fixing element further comprises a first spacer and a second spacer. The first gasket is located between the head of the screw and the flexible circuit board. The second gasket is located between the carrier and the nut. In an embodiment of the present invention, the flexible circuit board includes an electrostatic shielding film formed on an opposite side of the second contact and contacting the first spacer. In an embodiment of the present invention, wherein the number of the flexible circuit boards is two and respectively located on opposite sides of the circuit board, the circuit board has a first ground end formed in the first through hole, and each flexible circuit board has a third ground. The end is formed in the second perforation. The fixing member contacts the first ground end and the second third ground end when the fixing member is coupled to the first through hole and the second through hole. In an embodiment of the invention, the fixing element comprises a screw and a nut. The screw penetrates the first perforation and the second perforation. The nut is fitted to the screw. In an embodiment of the present invention, the connecting structure further includes a carrier between the nut and the flexible circuit board adjacent to the nut. In an embodiment of the invention, the fixing element further comprises a first spacer and a second spacer. The first spacer is located between the head of the screw and the flexible circuit board adjacent the head of the screw. The second spacer is located between the carrier and the nut 6 M438043. In an embodiment of the present invention, each of the flexible circuit boards includes an electrostatic protection film formed on an opposite side of the second contact and contacting the first spacer or the carrier. In an embodiment of the present invention, the electrostatic protection film comprises a copper foil or a shielding film. In the above embodiment of the invention, the second perforations are substantially aligned with the first perforations and the second contacts are substantially aligned with the first contacts. The first contact is adjacent to the first perforation and the second contact is adjacent to the second perforation. Therefore, when the fixing member couples the first through hole and the second through hole, the flexible circuit board can be fixed to the circuit board, and the first contact can simultaneously contact the second contact. In addition, the reinforcing plate is placed on the flexible circuit board and abuts against the circuit board, so that the flexible circuit board and the circuit board are not easily moved relative to each other. That is to say, the connection structure is designed by the structure of the circuit board and the flexible circuit board, and the signal can be turned on without the conventional marking and the conductive adhesive material, thereby saving the cost of the bonding material. In addition, the relative position of the flexible circuit board and the circuit board is not easily displaced by different operators, making the signal less prone to abnormality. Furthermore, after the fixing component is fixed on the circuit board, the unglipped connection structure can directly verify the electrical characteristics. If the signal is different, it is only necessary to remove the fixing component and re-adjust the position of the flexible circuit board to be verified again. Can save test time. [Embodiment] The embodiments of the present invention are disclosed in the following drawings. For the sake of clarity, a number of practical details will be described in the following description. 7 M438043 ...''It should be understood that these practical details are not applied to limit the novel β. That is to say, in some embodiments of the present invention, these practical details are not necessary. Further, some of the conventional structures and elements are shown in the drawings in a simplified schematic manner. Fig. 2 is a plan view showing a connection structure 2A according to an embodiment of the present invention. As shown, the connection structure 2A includes a circuit board 21A, a flexible circuit board 220, a reinforcing plate 230, and a fixing member 240. In the present embodiment, the flexible circuit board 220 covers the circuit board 21 and is fixed by the fixing member 240. The reinforcing plate 230 is located on the surface of the flexible circuit board 220 facing the circuit board 210 and abuts against the circuit board 210, so that the flexible circuit board 220 does not rotate on the circuit board 210. FIG. 3 is a plan view of the circuit board 210 of FIG. 2. Fig. 4 is a plan view showing the flexible circuit board 220 of Fig. 2 flipped 180 degrees. Referring to Figures 3 and 4, the circuit board 210 has a first through hole 212 and a first contact 214 adjacent to the first through hole 212, and the first through hole 212 is spaced apart from the edge 213 of the circuit board 210 by a first distance D1. The flexible circuit board 220 has a second through hole 222 and a second contact 224 adjacent to the second through hole 222. In combination, the surface 221 of the flexible circuit board 220 faces the surface 211 of the circuit board 210. The second through hole 222 is substantially aligned with the first through hole 212, and the second contact 224 is substantially aligned with the first contact 214. The reinforcing plate 23 is spaced apart from the second through hole 222 by a first distance D2, and the second distance D2 is substantially equal to the first distance D1. Thus, when the second through hole 222 is aligned with the first through hole 212, the reinforcing plate 230 can abut against the edge 213 of the circuit board 21''. In the present embodiment, the number of the first contact 214 and the second contact 224 is plural, and the first contact 214 surrounds the first through hole 212, and the second contact M438043 points 224 surround the second through hole 222. However, in other embodiments, the first contact 214 and the second contact 224 may have other arrangements. The first contact 214 and the second contact may be used as long as the second through hole 222 is aligned with the first through hole 212. The position of 224 is relatively straight. Fig. 5 is a cross-sectional view of the connecting structure 200 of Fig. 2 taken along line 5_5'. The fixing member 240 couples the first through hole 212 and the second through hole 222' to fix the flexible electric plate 220 on the circuit board 210 such that the first contact 214 contacts the second contact 224. The fixation element 240 can include a twist wire 242 and a screw cap 244. The screw 242 extends through the first through hole 212 and the second through hole 222' and the nut 244 is coupled to the screw 242. In other embodiments, the fixing member 24A can also be a screw button as long as the flexible circuit board 220 can be tightly coupled to the circuit board 210. In the present embodiment, the circuit board 210 has a first ground end 216 and a second ground end 218, and the first ground end 216 is formed in the second through hole 212. The second ground end 218 is formed at the first contact point 214. Opposite side. The flexible circuit board 220 has a third ground end 226 formed in the second through hole 222'. When the screw 242 of the fixing member 240 is coupled to the first through hole 212 and the second through hole 222, the fixing member 240 can simultaneously contact the first ground. The terminal 216, the second grounding end 218 and the third grounding end 226. In addition, the connection structure 200 can also include a carrier 250 between the circuit board 210 and the nut 244. The carrier 250 can be a housing that houses the connection structure 200. The fixing member 240 further includes a first gusset 246 and a second spacer 248. The first spacer 246 is located between the head of the screw 242 and the flexible circuit board 220. The second diaphragm 248 is located between the carrier 250 and the nut 244. Therefore, the fixing member 240 is matched with the reinforcing plate 230 9 of the circuit board 210 to make the flexible circuit board 22G and the circuit board 21G more securely fixed. The soft circuit board 220 can optionally include an electrostatic protection film over the opposite side of the contact 224 and contact the first cymbal. In the middle, the static electricity protection 骐260 may comprise a copper foil or a shielding film for preventing electrostatic damage, and may include poly(p-lyethylene terephthalat; pET), _, 曰, 曰, v electric metal (such as copper, chromium, silver, gold or aluminum). The first spacer 2 is shame, the second W 248 can be (4) gold quality (4) has shielding, and the electrostatic protection film 260 is in contact with the germanium element 24〇, the grounding end 216, the second grounding end 218, and the third grounding end 226 Static electricity (Eiectr_gnetic
Interference ; EMI)防護。 具體而g ’當固疋元件240耗合第—穿孔212斑第二 穿孔222時,軟性電路板220可固定於電路板21〇上,且 第一接點214可同時接觸第二接點224。此外,補強板23〇 使軟性電路板220與電路板210不易產生相對移動,並可 避免軟性電路板220彎折幅度過大。也就是說,此連接結 構200藉由電路板210與軟性電路板220的結構設計,不 需藉由習知的標記與導電膠材就可使訊號導通,而節省接 合材料的成本。此外,軟性電路板220與電路板210的相 對位置不易因不同的作業人員而產生位移誤差,使訊號不 易發生異常。 再者’固定元件240固定軟性電路板220於電路板210 上後,未上膠的連接結構200可直接驗證電氣特性,若訊 號有異只需拆下固定元件240重新調整軟性電路板220的 位置便可再次驗證’因此可節省測試的時間。另一方面, 10 M438043 在驗證電氣特性後可依需求在電路板210與軟性電路板 220間加入膠材’使連接結構200更加穩固並預防固定元 件240脫落的可能性。 應瞭解到,在以下敘述中,已經在上述實施方式中敘 述過的内容將不再重複贅述,僅就不同數目的軟性電路板 220接合於電路板210的實施方式加以補充,合先敘明。 第6圖繪示根據本新型另—實施方式之連接結構2〇〇 的俯視圖。連接結構200包含電路板210.、二相對齊的軟 性電路板220、補強板230與固定元件240。由於二軟性電 路板220分別連接於電路板210的相反兩側,因此第6圖 僅繪示位於電路板210 —側的軟性電路板220,合先述明。 此外’二軟性電路板220藉由單一固定元件240來固定, 在以下敘述中,將詳細說明上述技術内容。 第7圖繪示第6圖之電路板210的俯視圖。第8A圖 繪示第ό圖之位於電路板21〇 —側的軟性電路板220翻轉 180度後的俯視圖❶同時參閱第7圖與第8Α圖,電路板 210的第一接點214分別位於電路板210的表面211上與 表面211的相反面上。在組合時,第8Α圖之軟性電路板 220的表面221面對電路板210的表面211,第二穿孔222 大致對齊於第一穿孔212,且第二接點224大致對齊於位 在表面211上的第一接點214(即靠外側之第一接點214)。 第8Β圖繪示第6圖之位於電路板210另一側的軟性電 路板220的俯視圖。同時參閱第7圖與第8Α圖,在組合 時,第8Β圖之軟性電路板22〇的表面221面對電路板21〇 之表面211的相反面’第二穿孔222大致對齊於第一穿孔 M438043 212’且第二接點224大致對齊於位在表面211之相反面上 的第一接點214(即靠内側之第一接點214)。 同時參閱第8B圖,每一軟性電路板220之補強板23〇 的長度可依設計者需求而定,只要每一軟性電路板220的 第一距喊D2大致等於電路板210的第一距離Dl便可。當 二第二穿孔222與弟一穿孔212對齊時,二補強板230可 分別抵靠電路板210的邊緣213。在本實施方式中,二軟 性電路板220勿別連接於電路板21 〇的相反兩側後,第8a 圖之軟性電路板220的區域R可抵靠第8B圖之補強板23〇。 第9圖繪示第6圖之連接結構2〇〇沿線段9-9,的剖面 圖。與第5圖之貫施方式不同的地方在於軟性電路板220 的數|為一且分別位於電路板210的相反兩側。電路板21〇 具有第一接地端216形成於第一穿孔212中,且每一軟性 電路板220具有第三接地端226形成於第二穿孔222中。 當固疋元件240耗合於第一穿孔212與二第二穿孔222 時,固定元件240接觸第一接地端216與二第三接地端 226。固定元件240包含螺絲242與螺帽244。螺絲242貫 穿第一穿孔212與二第二穿孔222。 在本實施方式中’連接結構200還可包含承載座250。 固定元件240還可包含第一墊片246與第二墊片248。其 中,承栽座250位於螺帽244與鄰近螺帽244之軟性電路 板220之間。第一墊片246位於螺絲242之頭部與鄰近螺 絲242之頭部的軟性電路板220之間。第二墊片248位於 承載座250與螺帽244之間。此外,每一軟性電路板220 包含靜電防護膜260形成於第二接點224的相反側,且靜 電防遵膜260可接館楚 太斩刑卜_一塾片246或承载座,。 本新j上述實施方 w方式與先前技術相較,具有以下優點: (1)田固叱兀件耦合第一 路板可固定於電略板上, 穿孔時’軟性電 ,ΛΛ y 第接點可同時接觸第二接點。 電路板與電路板===:=電= 料(:)t接結構不需藉由習知標記與導電膠材就可使訊 樓合材料的成本。此外,未上膠的連接結 構可直接驗證電氣躲,若訊號有異只㈣下^元件重 新調整軟性電路板的位置便可再次驗證,因此 的時間。 ^本新型已以實施方式揭露如上,然其並非用以限 疋本新t,任何熟習此技藝者,在不脫離本新型之精神和 範圍内,當可作各種之更動與潤飾,因此本新型 圍當視後附之申請專利範固所界定者為準。 。 【圖式簡單I兒明】 第1圖繪示習知連接結構的俯視圖。 第2圖讀示根據本新型-實施方式之連接俯視 圖。 第3圖繪示第2圖之電路板的俯視圖。 第4圖續示帛2圖之軚性電路板翻轉18〇度後的俯視 圖。 M438043 第5圖繪示第2圖之連接結構沿線段5-5’的剖面圖。 第6圖繪示根據本新型另一實施方式之連接結構的俯 視圖。 第7圖繪示第6圖之電路板的俯視圖。 第8A圖繪示第6圖之位於電路板一側的軟性電路板 翻轉180度後的俯視圖。 第8B圖繪示第6圖之位於電路板另一側的軟性電路板 的俯視圖。 第9圖繪示第6圖之連接結構沿線段9-9’的剖面圖。 【主要元件符號說明】 100 :連接結構 110 :電路板 112 : 穿孔 114 :第一接點 116 : 第一標記 118 :零件區 120 : 軟性電路板 122 :第二標記 124 : 第二接點 200 :連接結構 210 : 電路板 211 :表面 212 : 第一穿孔 213 :邊緣 214 : 第一接點 216 :第一接地端 218 : 第二接地端 220 :軟性電路板 221 : 表面 222 :第二穿孔 224 : 第二接點 226 :第三接地端 230 : 補強板 240 :固定元件 242 : 螺絲 244 :螺帽 14 M438043 246 :第一墊片 248 250 :承載座 260 5-5, :線段 9-9, D1 : :第一距離 D2 : R : 區域 第二墊片 靜電防護膜 :線段 第二距離Interference; EMI) protection. Specifically, when the fixing member 240 is consuming the second through hole 222 of the first through hole 212, the flexible circuit board 220 can be fixed on the circuit board 21, and the first contact 214 can simultaneously contact the second contact 224. In addition, the reinforcing plate 23 不易 makes the flexible circuit board 220 and the circuit board 210 less likely to move relative to each other, and the flexible circuit board 220 can be prevented from being excessively bent. That is to say, the connection structure 200 is designed by the structure of the circuit board 210 and the flexible circuit board 220, and the signal can be turned on without the conventional marking and the conductive adhesive material, thereby saving the cost of the bonding material. In addition, the relative positions of the flexible circuit board 220 and the circuit board 210 are not easily displaced by different operators, and the signal is not susceptible to abnormality. Moreover, after the fixing component 240 fixes the flexible circuit board 220 on the circuit board 210, the unglipped connection structure 200 can directly verify the electrical characteristics. If the signal is different, only the fixing component 240 is removed and the position of the flexible circuit board 220 is re-adjusted. You can verify again 'so you can save time on testing. On the other hand, 10 M438043 can add a glue between the circuit board 210 and the flexible circuit board 220 as needed to verify the electrical characteristics, making the connection structure 200 more stable and preventing the possibility of the fixing member 240 falling off. It should be understood that in the following description, what has been described in the above embodiments will not be described again, and only the embodiment in which a different number of flexible circuit boards 220 are bonded to the circuit board 210 will be supplemented. Fig. 6 is a plan view showing a connecting structure 2A according to another embodiment of the present invention. The connection structure 200 includes a circuit board 210., two aligned flexible circuit boards 220, a reinforcing plate 230, and a fixing member 240. Since the two flexible circuit boards 220 are respectively connected to opposite sides of the circuit board 210, FIG. 6 only shows the flexible circuit board 220 on the side of the circuit board 210, which will be described first. Further, the 'two flexible circuit boards 220 are fixed by a single fixing member 240. In the following description, the above technical contents will be described in detail. Fig. 7 is a plan view showing the circuit board 210 of Fig. 6. 8A is a top view of the flexible circuit board 220 on the side of the circuit board 21 flipped 180 degrees, and the first contact 214 of the circuit board 210 is respectively located in the circuit. The surface 211 of the plate 210 is on the opposite side of the surface 211. When combined, the surface 221 of the flexible circuit board 220 of FIG. 8 faces the surface 211 of the circuit board 210, the second through hole 222 is substantially aligned with the first through hole 212, and the second contact 224 is substantially aligned with the surface 211. The first contact 214 (ie, the first contact 214 on the outside). Figure 8 is a plan view of the flexible circuit board 220 on the other side of the circuit board 210 of Figure 6. Referring to FIG. 7 and FIG. 8 together, when combined, the surface 221 of the flexible circuit board 22A of FIG. 8 faces the opposite surface of the surface 211 of the circuit board 21'. The second through hole 222 is substantially aligned with the first through hole M438043. 212' and the second contact 224 is substantially aligned with the first contact 214 (i.e., the inner first contact 214) located on the opposite side of the surface 211. Referring to FIG. 8B, the length of the reinforcing plate 23A of each flexible circuit board 220 may be determined according to the designer's needs, as long as the first distance D2 of each flexible circuit board 220 is substantially equal to the first distance D1 of the circuit board 210. Yes. When the second through holes 222 are aligned with the second through holes 212, the two reinforcing plates 230 can abut against the edges 213 of the circuit board 210, respectively. In the present embodiment, after the two flexible circuit boards 220 are not connected to opposite sides of the circuit board 21, the region R of the flexible circuit board 220 of Fig. 8a can abut against the reinforcing plate 23A of Fig. 8B. Figure 9 is a cross-sectional view showing the connecting structure 2 of Figure 6 along line 9-9. The difference from the embodiment of FIG. 5 is that the number | of the flexible circuit boards 220 is one and is located on opposite sides of the circuit board 210, respectively. The circuit board 21 has a first ground end 216 formed in the first through hole 212, and each of the flexible circuit boards 220 has a third ground end 226 formed in the second through hole 222. When the solid element 240 is worn by the first through hole 212 and the second second through hole 222, the fixing element 240 contacts the first ground end 216 and the second third ground end 226. The fixing element 240 includes a screw 242 and a nut 244. The screw 242 passes through the first through hole 212 and the second through hole 222. In the present embodiment, the connection structure 200 may further include a carrier 250. The fixation element 240 can also include a first spacer 246 and a second spacer 248. The carrier 250 is located between the nut 244 and the flexible circuit board 220 adjacent the nut 244. The first spacer 246 is located between the head of the screw 242 and the flexible circuit board 220 adjacent the head of the screw 242. The second spacer 248 is located between the carrier 250 and the nut 244. In addition, each of the flexible circuit boards 220 includes an electrostatic protection film 260 formed on the opposite side of the second contact 224, and the static electricity protection film 260 can be connected to the 246 piece or the carrier. Compared with the prior art, the above-mentioned implementation method of the present invention has the following advantages: (1) The first road plate coupled with the Tiangu component can be fixed on the electrical board, and the soft contact, y y contact point when perforating The second contact can be contacted at the same time. Circuit board and circuit board ===:=Electricity = Material (:) t-connection structure does not need to be able to make the cost of the building materials by conventional marking and conductive adhesive. In addition, the unglue connection structure can directly verify the electrical hiding. If the signal is different (4), the component can be re-verified by re-adjusting the position of the flexible circuit board. The present invention has been disclosed in the above embodiments, but it is not intended to limit the present invention. Any one skilled in the art can make various changes and retouchings without departing from the spirit and scope of the present invention. The definition of the application for patents attached to the attached party shall prevail. . [Simple diagram of the drawing] Fig. 1 is a plan view showing a conventional connection structure. Figure 2 illustrates a top view of the connection in accordance with the present invention-embodiment. Fig. 3 is a plan view showing the circuit board of Fig. 2. Figure 4 continues with a top view of the 电路2 diagram flipped over 18 degrees. M438043 Figure 5 is a cross-sectional view of the connecting structure of Figure 2 taken along line 5-5'. Figure 6 is a top plan view of a connection structure in accordance with another embodiment of the present invention. Fig. 7 is a plan view showing the circuit board of Fig. 6. Fig. 8A is a plan view showing the flexible circuit board on the side of the circuit board in Fig. 6 flipped by 180 degrees. Fig. 8B is a plan view showing the flexible circuit board on the other side of the circuit board of Fig. 6. Figure 9 is a cross-sectional view of the connecting structure of Figure 6 taken along line 9-9'. [Main component symbol description] 100: connection structure 110: circuit board 112: perforation 114: first contact 116: first mark 118: part area 120: flexible circuit board 122: second mark 124: second contact 200: Connection structure 210: circuit board 211: surface 212: first perforation 213: edge 214: first contact 216: first ground end 218: second ground end 220: flexible circuit board 221: surface 222: second perforation 224: Second contact 226: third ground end 230: reinforcing plate 240: fixing member 242: screw 244: nut 14 M438043 246: first spacer 248 250: carrier 260 5-5, : line segment 9-9, D1 : : First distance D2 : R : Area second gasket ESD: Second line distance
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