M285J25 八、新型說明: 【新型所屬之技術領域】 本案關於一種應用於電池模組之電路結構,尤指 一種應用於電池模組之軟性複合電路基板。 【先前技術】 筆記型電腦由於可提供使用者即時性的資訊存取 便利性’再搭配無線傳輸的應用,更使得即時資訊的 便利性得以充分的發揮。而筆記型電腦之所以可以如 此應用,最主要的因素無非是透過其内之可攜帶充電 式電池模組提供基本電源,使該筆記型電腦得以被攜 行使用,達到最佳之便利性。 然而一般可攜帶充電式電池模組,其内部電路連 結方式多以導線方式進行。請參閱第一圖,揭示一習 知之可攜帶,電式電池模組内部電路連結結構示意 圖。如圖所不,該模組包含有一電池模組丨,所含之 ,池數為複數;複數個鎳片2; 一電路板3;複數條導 電4,一連接器5; —電池上蓋6以及一電池下蓋7。 護元件為業界習知所使用,在此便不做陳述。 ,圖,不,該電池模組!包含3串電池組u、12及 母一組具兩顆電池;而習知之電路連結方式為各 串電池組間以鎳片2連接 〇 2Ζ f電池11之正極;導線42用以連接 =3與第串電池組u及第二串電池 =ί2及而第導線則用以連接電路板3與第二串 用以連結電/板二H組=間的錄片2;導線44 上述複雜之連接以電池組13之負極。藉由 結方式,有Uti回路。然而習知之電路連 男呀α而遷就電池上蓋6以及電池下蓋7 -M285125 ,導致線路排列奈亂,造成生產困難,並且於 排列紊亂時,常有線路與電池正負極交錯,有遠 女全原則。 β逆 畔…有^監於習知可攜帶充電式電池模組之電路結構設 雜,造成生產時之困難,並且可能因線路盥 正負極交錯,而違反安全原則。因此,如何研^一鍤M285J25 VIII. New description: [New technical field] The present invention relates to a circuit structure applied to a battery module, and more particularly to a flexible composite circuit substrate applied to a battery module. [Prior Art] Since the notebook computer can provide users with instant information access convenience, and then with wireless transmission applications, the convenience of instant information can be fully utilized. The main reason for the application of the notebook computer is that the basic power supply is provided by the portable rechargeable battery module therein, so that the notebook computer can be used for optimal convenience. However, a rechargeable battery module is generally portable, and the internal circuit connection method is mostly performed by wire. Please refer to the first figure to show a schematic diagram of a conventional portable, electrical circuit module internal circuit connection structure. As shown in the figure, the module comprises a battery module 丨, which includes a plurality of pools; a plurality of nickel sheets 2; a circuit board 3; a plurality of conductive wires 4, a connector 5; A battery lower cover 7. The protective components are used by the industry and will not be stated here. , figure, no, the battery module! The three-string battery pack u, 12 and the parent group have two batteries; and the conventional circuit connection method is that the battery strings of the strings are connected by a nickel piece 2 to the positive electrode of the battery 11; the wire 42 is used for connection = 3 and The first string of battery packs u and the second string of batteries = ί2 and the first lead wire is used to connect the circuit board 3 and the second string for connecting the recording sheet 2 between the electric/board two H group=; the wire 44 is connected by the above complicated The negative electrode of the battery pack 13. With the junction method, there is a Uti loop. However, the circuit of the conventional one is connected to the battery cover 6 and the battery cover 7-M285125, which causes the line to be arranged in a mess, which causes production difficulties, and when the arrangement is disordered, there are often lines and batteries alternating with the positive and negative poles. in principle. The reversed phase of the circuit is complicated by the circuit structure of the conventional portable battery module, which causes difficulty in production, and may be due to the safety principle of the circuit. So how do you research it?
蟪 電池模組之複合電路基板,使電^連結 ,更為間早,而不同電極間導體不致因交錯摩捭 ,短亡,以節省組I空間,並提高其安全性,這二確 =目前此一相關領域所需積極發展研究之目標。 j作人等依上述習知可攜帶充電式電池模組電路^吉 =J缺點及限制,爰精心研究,並以其從事該項研‘ 項域之多年經驗,遂提出本案應用於可攜帶充電式電 池Ϊ組之複合電路基板,使電路連結方式更為簡單, =節省組裝空間,更可使不同電極間導體不致因交錯复合The composite circuit board of the battery module makes the connection of the electric circuit even earlier, and the conductors between different electrodes are not caused by the staggered and short-lived, so as to save the space of the group I and improve its safety. This related field requires the goal of actively developing research. j, etc. According to the above-mentioned conventional portable battery module circuit ^ Ji = J shortcomings and limitations, 爰 carefully studied, and with its years of experience in the research field, 遂 proposed this case for portable charging The composite circuit board of the battery pack makes the circuit connection method simpler, saves the assembly space, and makes the conductors between different electrodes not interlaced.
,擦導致短路,以達安全性提高之功效,實為一 ^ 多得之創作。 ~ + J 【新型内容】 本&摘述本案的某些特徵,其他特徵將敍述於後 續的段落。本案藉由附加的申請專利範圍定義,其 合併於此段落作為參考。 ^本案之主要目的為提供一種可攜帶充電式電池 模組之複合電路基板,利用金屬或有機導電複合材料 軟性基板取代傳統導線,使電路連結方式更為簡單, 以達組裝空間更為節省之功效。 為達上述目的,本案提供一種電池模組,包含複 數個電池組;複數個導電片,設置於該複數個電池組 之間,用以使該複數個電池組呈一串聯接合;一電路 •M285125 基板;以及一撓性複合基板,具有一金屬或有機導電 層及一絕緣包覆膜;其中該導電層連接該複數個導電 片至該電路基板;而該絕緣包覆膜則包覆於該導電層 未與该導電片及該電路基板接觸之部份,俾使該複數 個電池組之電力得以匯整於該電路基板。 根據本案構想,該導電片為一導電金屬或有機導 電材料。 根據本案構想,該電池模組更包含一連接器,連 接至該電路基板,用以將匯整於該電路基板之該複數 個電池組之電力連接至所需模組。 根據本案構想,該電池模組更包含一電池上蓋與 一電池下蓋,用以包覆該複數個電池組、該複數個導 電片、該電路基板及該撓性複合基板。 根據本案另一態樣,本案更提供一種電池模組, 包含:複數個電池組;複數個導電片,設置於該複數 個電池組之間,用以使該複數個電池組呈一串聯接 合,一電路基板;以及一撓性複合基板,具有複數個 導電層及複數個絕緣包覆膜;其中該複數導電層分別 連接該複數個導電片至該電路基板;而該複數個絕緣 包覆膜則包覆於該複數個導電層未與該導電片及該 電路基板接觸之部份,並使該複數個導電層彼此絕 緣’俾使該複數個電池組之電力得以匯整於該電路基 7 •M285125 板0 根據本案構想,该導電片為一導電金屬或有機導 電材料。 根據本案構想’該電池模組更包含一連接器,連 接至该電路基板,用以將匯整於該電路基板之該複數 個電池組之電力連接至所需模組。 根據本案構想,該電池模組更包含一電池上蓋與 電池下蓋,用以包覆該複數個電池組、該複數個導 電片、該電路基板及該撓性複合基板。 為達前述目的,本案更提供一種電池模組,包 含:複數個電池組;一電路基板;以及一撓性複合基 板,具有複數個導電層及複數個絕緣包覆膜;其中該 複數導電層分別連接該複數個電池組至該電路基 板,而该複數個絕緣包覆膜則包覆於該複數個導電層 未與该電池組及該電路基板接觸之部份,並使該複數 個導電層彼此絕緣,俾使該複數個電池組之電力得以 匯整於該電路基板。 根據本案構想,該電池模組更包含一連接器,連 接至該電路基板,用以將匯整於該電路基板之該複數 個電池組之電力連接至所需模組。 根據本案構想,該電池模組更包含一電池上蓋與一 電池下蓋,用以包覆該複數個電池組、該電路基板及 8 -M285125 該撓性複合基板。 本案再一目的為提供一種可攜帶充電式電池模 組之複合電路基板,利用金屬複合材料軟性基板取代 傳統導線’使不同電極間導體不致因交錯摩擦導致短 路,以達安全性提高之功效。 為達前述目的,本案再提供一種應用於電池模 組之導接裝置,包含:一電路基板;以及一撓性複合 基板’具有複數個導電層及複數個絕緣包覆膜;其中 該複數導電層分別連接該電池模組之複數個電池組 至該電路基板;而該複數個絕緣包覆膜則包覆於該複 數個導電層未與該複數個電池組及該電路基板接觸 之部份,並使該複數個導電層彼此絕緣,俾使該電池 模組之電力得以匯整於該電路基板。 根據本案構想,該導接裝置更包含一連接器,連 接至該電路基板,用以將匯整於該電路基板之該電池 模組之電力連接至所需模組。 根據本案構想,該複數個導電層由一導電金屬或 有機導電材料所構成。 根據本案構想,該複數個絕緣包覆膜由一絕緣材 料所構成。 根據本案構想’其中該複數個導電層與該複數個 絕緣包覆膜彼此間替排列,呈一多層板結構,而最頂 9 •M285125 層及最底層均為該絕緣包覆膜。 根據本案另一態樣,本案更提供一種電池模組之 導接裝置,包含:複數個導電片,分別連接該電池模 組之複數個電池組,使該複數個電池組呈一串聯接 合;一電路基板;以及一撓性複合基板,具有一導電 層及一絕緣包覆膜;其中該導電層連接該複數個導電 片至該電路基板;而該絕緣包覆膜則包覆於該導電層 未與該導電片及該電路基板接觸之部份,俾使該電池 模組之電力得以匯整於該電路基板。 根據本案構想,該導接裝置更包含一連接器,連 接至該電路基板,用以將匯整於該電路基板之該電池 模組之電力連接至所需模組。 根據本案構想’該導電層係一導電金屬或有機導 電材料所構成。 根據本案構想’該絕緣包覆膜由一絕緣材料所構 成。 根據本案構想,該導電層夾設於該絕緣包覆膜之 間,使該徺性複合基板呈一多層板結構。 本案得藉由下列圖式與實施例說明,俾得一更 清楚之了解。 【實施方式】 本段洛所敍述之實施例係解釋本創作,但不限制 • M285125 • 環。本創作不限定於特殊材料、處理步驟或尺 - 寸。本創作由附加的專利申請範圍定義。 纟案為—種應用於筆記型電腦可攜帶充電式電池 模組之複合電路基板,使電路連結方式更為簡單,以 節省組裝空間,更可使不同電極間導體不致 擦導致短路,以達安全性% 摩 旺杈间之功效。以下將以實施 麟-步說明本案創作之内容,然而可應用本案技術 Φ 之複合電路基板並不限於所提之實施例而已,其他任 何適用本案技術之複合電路基板,在此皆可併入參 考。 ^明參考第二圖,揭示本案第一較佳實施例之電池 模組,包含複數個電池組21 ;複數個導電片U,設 置於該複數個電池組21之間,用以使該複數個電池 組21呈一串聯接合;一電路基板23 ;以及一撓性複 &基板24 ,具有一導電層241及一絕緣包覆膜242 ; 其中該導電層241連接該複數個導電片22至該電路 基板23,而該絕緣包覆膜242則包覆於該導電層241 未與該導電片22及該電路基板23接觸之部份,俾使 該複數個電池組21之電力得以匯整於該電路基板 - 23。其中該複數個導電片22為一鎳金屬片。 •在實際應用時,該電池模組更包含一連接器2 5, 連接至該電路基板23,用以將匯整於該電路基板23 11 •M285125 之忒複數個電池組21之電力連接至所需模組。此 - 外,該電池模組亦可包含一電池上蓋26與一電池下 • 蓋27,用以包覆該複數個電池組21、該複數個導電 片22、該電路基23板及該撓性複合基板24。形成一 το整之電池模組,並透過該連接器25導接電力。 第三圖(A)及第三圖(B ),分別揭示本案電池模組 之俯視圖及正視圖。根據本案另一態樣,同樣包含複 • 數個電池組21 ;複數個導電片22,設置於該複數個 電池組21之間,用以使該複數個電池組21呈一串聯 接合;一電路基板23 ;以及一撓性複合基板24,其 中该撓性複合基板由複數個導電層及複數個絕緣包 覆膜組合而成,如第四圖(A)所示,揭示本案較佳實 施例之撓性複合基板。第四圖(B)更進一步揭示第四 圖(A)中撓性複合基板之分解圖式。如圖所示,該撓 確I 性複合基板24包含有複數個導電層2411、2412及複 數個絕緣包覆膜2421、2422、2423,其中該複數個 導電層2411、2412與該複數個絕緣包覆膜2421、 2422、2423彼此間替排列,呈一多層板結構,而最 頂層為該絕緣包覆膜2421 ;而最底層亦為該絕緣包 、 覆膜2423。所以在第三圖(A)及第三圖(B)所示之實施 , 例中,該複數導電層分別連接該複數個導電片22至 該電路基板23 ;而該複數個絕緣包覆膜則包覆於該 12 •M285125 複數個導電層去彻4 $ a , 电3禾與該導電片22及該電路基板23接觸 之邛伤,並使該複數個導電層彼此絕緣,俾使該複數 個電池組21之電力得以匯整於該電路基板23。 根據本案另一實施態樣,本案更提供一種電池 模組之導接裝置,請參閱第五圖(A)及第五圖(B),其 係揭不本案另一較佳實施例之電池模組之導接裝 置。其至少包含:複數個導電片22,分別連接該電 池模、、且之複數個電池組2 1,使該複數個電池組2 1呈 串聯接s,一電路基板23 ;以及一撓性複合基板 24,具有一導電層241及一絕緣包覆膜242;其中該 導電層241連接該複數個導電片22至該電路基板 23;而該絕緣包覆膜242則包覆於該導電層241未與 該導電片22及該電路基板23接觸之部份,俾使該電 池模組21之電力得以匯整於該電路基板23。在實際 應用時’該導接裝置更包含一連接器25,連接至該 電路基板23,用以將匯整於該電路基板之該電池模 組之電力連接至所需模組,其中該導電層241可由一 金屬或一有機導電材料所構成;而該絕緣包覆膜242 由一絕緣材料所構成。 明參閱第六圖’揭不本案再一較佳實施例之電 池模組。其包含:複數個電池組21,以複數個導電 片22導接;一電路基板23;以及一撓性複合基板24, 13 • M285125 具有複數個導電層241及複數個絕緣包覆膜242;其 中該複數導電層241分別連接該複數個電池組21至 該電路基板而該複數個絕緣包覆膜242則包覆 於該複數個導電層241未與該電池組21及該電路基 板23接觸之部份,並使該複數個導電層μ彼此絕 緣,俾使該複數個電池組21之電力得以匯整於該電 路基板。 • 、綜上所述’本案提供一種可攜帶充電式電池模 組之複合電路基板,使電路連結方式更為簡單,而不 同電極間導體不致因交錯摩擦導致短路,以節省組裝 2間,並提高其安全性,此為f知技藝無法達成者。 此外,本案的應用並不限於筆記型電腦,手機、pDA、 MP3播放器等各種攜帶型裝置都是它的應用範疇。 縱使本創作已由上述之實施例詳細敘述而可由 ^ 熟悉本技藝之人士任施匠思而為諸般修飾,然皆不脫 如附申請專利範圍所欲保護者。 【圖式簡單說明】 第一圖:揭示一習知之可攜帶充電式電池模組内部電 路連結結構示意圖。 第二圖:揭示本案第一較佳實施例之電池模組。 第三圖(A)及第三圖(B):分別揭示本案電池模組之 -M285125 " 俯視圖及正視圖。 弟四圖(A)及第四圖(B):分別揭示本案較佳實施例之 撓性複合基板結構及其分解圖。 弟五圖(A)及第五圖(B):揭示本案另一較佳實施例 之電池模組之導接裝置。 弟六圖:揭示本案再一較佳實施例之電池模組。The rubbing leads to a short circuit, so as to achieve the effect of improving safety, it is a creation of more than one. ~ + J [New Content] This & summarize some of the features of this case, other features will be described in the following paragraphs. This application is defined by the scope of the appended patent application, which is hereby incorporated by reference. The main purpose of this case is to provide a composite circuit substrate with a rechargeable battery module, which replaces the traditional wire with a metal or organic conductive composite soft substrate, so that the circuit connection method is simpler, and the assembly space is more economical. . In order to achieve the above object, the present invention provides a battery module comprising a plurality of battery packs; a plurality of conductive sheets disposed between the plurality of battery packs for causing the plurality of battery packs to be connected in series; a circuit • M285125 a substrate; and a flexible composite substrate having a metal or organic conductive layer and an insulating coating film; wherein the conductive layer connects the plurality of conductive sheets to the circuit substrate; and the insulating coating film is coated on the conductive layer The portion of the layer that is not in contact with the conductive sheet and the circuit substrate allows the power of the plurality of battery packs to be integrated on the circuit substrate. According to the present invention, the conductive sheet is a conductive metal or organic conductive material. According to the present invention, the battery module further includes a connector connected to the circuit substrate for electrically connecting the plurality of battery packs integrated on the circuit substrate to the required module. According to the present invention, the battery module further includes a battery upper cover and a battery lower cover for covering the plurality of battery packs, the plurality of conductive sheets, the circuit substrate, and the flexible composite substrate. According to another aspect of the present invention, the present invention further provides a battery module comprising: a plurality of battery packs; a plurality of conductive sheets disposed between the plurality of battery packs for causing the plurality of battery packs to be connected in series; a circuit substrate; and a flexible composite substrate having a plurality of conductive layers and a plurality of insulating coating films; wherein the plurality of conductive layers respectively connect the plurality of conductive sheets to the circuit substrate; and the plurality of insulating coating films are Coating the portion of the plurality of conductive layers that are not in contact with the conductive sheet and the circuit substrate, and insulating the plurality of conductive layers from each other', so that the power of the plurality of battery packs is integrated on the circuit substrate 7 M285125 Board 0 According to the present invention, the conductive sheet is a conductive metal or organic conductive material. According to the present invention, the battery module further includes a connector connected to the circuit substrate for connecting the power of the plurality of battery packs integrated on the circuit substrate to the required module. According to the present invention, the battery module further includes a battery upper cover and a battery lower cover for covering the plurality of battery packs, the plurality of conductive sheets, the circuit substrate, and the flexible composite substrate. In order to achieve the above objective, the present invention further provides a battery module comprising: a plurality of battery packs; a circuit substrate; and a flexible composite substrate having a plurality of conductive layers and a plurality of insulating coating films; wherein the plurality of conductive layers respectively Connecting the plurality of battery packs to the circuit substrate, and the plurality of insulating coating films are coated on the portion of the plurality of conductive layers that are not in contact with the battery pack and the circuit substrate, and the plurality of conductive layers are mutually Insulation, the power of the plurality of battery packs is integrated on the circuit substrate. According to the present invention, the battery module further includes a connector connected to the circuit substrate for electrically connecting the plurality of battery packs integrated on the circuit substrate to the required module. According to the present invention, the battery module further includes a battery upper cover and a battery lower cover for covering the plurality of battery packs, the circuit substrate, and the 8-M285125 flexible composite substrate. A further object of the present invention is to provide a composite circuit substrate capable of carrying a rechargeable battery module, which uses a metal composite material flexible substrate instead of a conventional wire to make the conductors between different electrodes not cause short circuits due to staggered friction, thereby achieving safety improvement. In order to achieve the foregoing objective, the present invention further provides a conductive device for a battery module, comprising: a circuit substrate; and a flexible composite substrate having a plurality of conductive layers and a plurality of insulating coating films; wherein the plurality of conductive layers Connecting a plurality of battery packs of the battery module to the circuit substrate respectively; and the plurality of insulating coatings are coated on the portion of the plurality of conductive layers that are not in contact with the plurality of battery packs and the circuit substrate, and The plurality of conductive layers are insulated from each other, so that the power of the battery module is integrated on the circuit substrate. According to the present invention, the guiding device further includes a connector connected to the circuit substrate for electrically connecting the battery module integrated on the circuit substrate to the required module. According to the present invention, the plurality of conductive layers are composed of a conductive metal or an organic conductive material. According to the present invention, the plurality of insulating coating films are composed of an insulating material. According to the present invention, the plurality of conductive layers and the plurality of insulating coating films are arranged alternately with each other to form a multi-layered plate structure, and the topmost layer of the M. 285125 layer and the bottom layer are the insulating coating film. According to another aspect of the present invention, the present invention further provides a battery module guiding device, comprising: a plurality of conductive sheets respectively connected to a plurality of battery packs of the battery module, wherein the plurality of battery packs are connected in series; a circuit substrate; and a flexible composite substrate having a conductive layer and an insulating coating film; wherein the conductive layer connects the plurality of conductive sheets to the circuit substrate; and the insulating coating film is coated on the conductive layer The portion in contact with the conductive sheet and the circuit substrate allows the power of the battery module to be integrated on the circuit substrate. According to the present invention, the guiding device further includes a connector connected to the circuit substrate for electrically connecting the battery module integrated on the circuit substrate to the required module. According to the present invention, the conductive layer is composed of a conductive metal or an organic conductive material. According to the present invention, the insulating coating film is composed of an insulating material. According to the concept of the present invention, the conductive layer is sandwiched between the insulating coating films, so that the inert composite substrate has a multi-layered plate structure. The case can be explained by the following figures and examples, and a clearer understanding is obtained. [Embodiment] The embodiment described in this paragraph explains the creation, but does not limit • M285125 • Ring. This creation is not limited to special materials, processing steps or sizes. This creation is defined by the scope of additional patent applications. The 纟 case is a composite circuit substrate that can be used in a notebook computer to carry a rechargeable battery module, so that the circuit connection method is simpler, the assembly space is saved, and the conductors between different electrodes are not rubbed to cause a short circuit for safety. Sex% The effect of Mowang. The following is a description of the creation of the present invention. However, the composite circuit substrate to which the technology of the present invention is applied is not limited to the embodiment, and any other composite circuit substrate to which the present technology is applied may be incorporated herein by reference. . Referring to the second figure, the battery module of the first preferred embodiment of the present invention includes a plurality of battery packs 21; a plurality of conductive sheets U are disposed between the plurality of battery packs 21 for making the plurality of battery packs 21 The battery pack 21 is connected in series; a circuit substrate 23; and a flexible composite substrate 24 having a conductive layer 241 and an insulating coating film 242; wherein the conductive layer 241 connects the plurality of conductive sheets 22 to the a circuit board 23, and the insulating coating film 242 is coated on a portion of the conductive layer 241 that is not in contact with the conductive sheet 22 and the circuit board 23, so that the power of the plurality of battery packs 21 is integrated Circuit board - 23. The plurality of conductive sheets 22 are a nickel metal sheet. In actual application, the battery module further includes a connector 25 connected to the circuit substrate 23 for connecting the power of the plurality of battery packs 21 integrated on the circuit substrate 23 11 • M285125 to the Module required. In addition, the battery module can also include a battery cover 26 and a battery cover 27 for covering the plurality of battery packs 21, the plurality of conductive sheets 22, the circuit board 23, and the flexible Composite substrate 24. A battery module is formed and the power is conducted through the connector 25. The third (A) and third (B) drawings respectively show a top view and a front view of the battery module of the present invention. According to another aspect of the present invention, a plurality of battery packs 21 are also included; a plurality of conductive sheets 22 are disposed between the plurality of battery packs 21 for causing the plurality of battery packs 21 to be connected in series; a substrate 23; and a flexible composite substrate 24, wherein the flexible composite substrate is composed of a plurality of conductive layers and a plurality of insulating coating films, as shown in FIG. 4(A), which discloses a preferred embodiment of the present invention. Flexible composite substrate. The fourth diagram (B) further discloses an exploded view of the flexible composite substrate in the fourth diagram (A). As shown in the figure, the flexible composite substrate 24 includes a plurality of conductive layers 2411, 2412 and a plurality of insulating coatings 2421, 2422, 2423, wherein the plurality of conductive layers 2411, 2412 and the plurality of insulating packages The coatings 2421, 2422, and 2423 are arranged alternately with each other to form a multi-layered board structure, and the topmost layer is the insulating coating film 2421; and the bottom layer is also the insulating package and the coating film 2423. Therefore, in the implementations shown in the third (A) and the third (B), the plurality of conductive layers are respectively connected to the plurality of conductive sheets 22 to the circuit substrate 23; and the plurality of insulating coatings are Covering the plurality of conductive layers of the 12•M285125 to remove 4 $ a, the electrical contact with the conductive sheet 22 and the circuit substrate 23, and insulating the plurality of conductive layers from each other, thereby making the plurality of conductive layers The electric power of the battery pack 21 is collected on the circuit board 23. According to another embodiment of the present invention, the present invention further provides a battery module guiding device. Referring to FIG. 5(A) and FIG. 5(B), a battery module according to another preferred embodiment of the present invention is disclosed. Group of guiding devices. The method includes at least a plurality of conductive sheets 22 connected to the battery module and a plurality of battery packs 2 1 , wherein the plurality of battery packs 2 1 are connected in series, a circuit substrate 23 , and a flexible composite substrate 24, having a conductive layer 241 and an insulating coating film 242; wherein the conductive layer 241 is connected to the plurality of conductive sheets 22 to the circuit substrate 23; and the insulating coating film 242 is coated on the conductive layer 241 The portion of the conductive sheet 22 that is in contact with the circuit board 23 allows the power of the battery module 21 to be integrated on the circuit board 23. In practical applications, the guiding device further includes a connector 25 connected to the circuit substrate 23 for connecting the power of the battery module integrated on the circuit substrate to a required module, wherein the conductive layer The 241 may be composed of a metal or an organic conductive material; and the insulating coating film 242 is composed of an insulating material. Referring to the sixth figure, a battery module according to still another preferred embodiment of the present invention is disclosed. The method includes: a plurality of battery packs 21 connected by a plurality of conductive sheets 22; a circuit substrate 23; and a flexible composite substrate 24, 13 • M285125 having a plurality of conductive layers 241 and a plurality of insulating coating films 242; The plurality of conductive layers 241 are respectively connected to the plurality of battery packs 21 to the circuit board, and the plurality of insulating coating films 242 are coated on the portions of the plurality of conductive layers 241 that are not in contact with the battery pack 21 and the circuit board 23 And separating the plurality of conductive layers μ from each other, so that the power of the plurality of battery packs 21 is integrated on the circuit substrate. • In summary, the present invention provides a composite circuit board that can carry a rechargeable battery module, which makes the circuit connection method simpler, and the conductors between different electrodes are not short-circuited due to staggered friction, thereby saving assembly 2 and improving Its safety, this is the unsuccessful skill of the art. In addition, the application of this case is not limited to notebook computers, mobile phones, pDA, MP3 players and other portable devices are its application. Even though the present invention has been described in detail by the above-described embodiments, it can be modified by those skilled in the art, and is not intended to be protected as claimed. [Simple diagram of the diagram] The first figure: reveals a schematic diagram of the internal circuit connection structure of a portable rechargeable battery module. Second: The battery module of the first preferred embodiment of the present invention is disclosed. Third (A) and third (B): The -M285125 " top view and front view of the battery module of the present invention are respectively disclosed. Four Diagrams (A) and (B): The flexible composite substrate structure and its exploded view of the preferred embodiment of the present invention are respectively disclosed. Figure 5 (A) and Figure 5 (B): A guide device for a battery module according to another preferred embodiment of the present invention. Sixth Diagram: A battery module according to still another preferred embodiment of the present invention is disclosed.
【主要元件符號說明】 1:電池模組 11、12、13:電池組 2:鎳片 3:電路板 4、41、42、43、44:導線 5:連接器 6:電池上蓋 7:電池下蓋 21:電池組 22:導電片 23:電路基板 24:撓性複合基板 241、 2411、2412:導電層 242、 2421、2422、2423:絕緣包覆膜 25:連接器 26:電池上蓋 27:電池下蓋 15[Main component symbol description] 1: Battery module 11, 12, 13: Battery pack 2: Nickel plate 3: Circuit board 4, 41, 42, 43, 44: Wire 5: Connector 6: Battery cover 7: Under the battery Cover 21: Battery pack 22: Conductive sheet 23: Circuit board 24: Flexible composite substrate 241, 2411, 2412: Conductive layers 242, 2421, 2422, 2423: Insulating cover film 25: Connector 26: Battery top cover 27: Battery Lower cover 15