TW201237446A - Battery, battery system and manufacturing method thereof - Google Patents

Abstract

A battery includes a plurality of battery cells, a plurality of detecting units and at least one interface. The battery cells are isolated by a plurality of isolating plates. The detecting units are coupled to the battery cells to detect statuses of the battery cells. The interface is coupled to the detecting units and receives detecting results of the statuses of the battery cells from the detecting units. The battery cells and detecting units are packaged in the battery after the battery is packaged.

Description

201237446 六、發明說明： 【發明所屬之技術領域】 本發明係有關—種電池，特別關於一種電池、電池系統 及其製造方法。 【先前技術】 通常，電池已經被廣泛地應用在電子裝置的供電上。圖 1所不為現有技術中的―種電池的示意圖。如圖i所示，電 102已δ夕個被隔離板隔離的多個電池單元 104一 1-1〇4_5。在電池102被密封後，電池1〇2的正極與負極 凸出來’位於電池1〇2的外部。透過電池撤的正極和負極 可檢測電池102的狀態。然而，由於電池1〇2是被密封的， 且只有電池搬的正極和負極凸出位於電池102的外部，告 用戶檢測内部電池單元刚—μ刚—5的狀態時，必須在電二 1〇2的相應位置上鑽孔，將外部檢測單元與内部電池單元耗 ^财林許乡雜。首先，雜f會透過孔侵入 202内部’進而影響電池搬的性能。其次，檢測單元 終與内部電池單元输二:二檢測單元不能保持始 既古士4 接弟二’由於電池單元104 1-1〇4 5 液’如果用戶鑽孔的位置不夠準確，在電池—上 的孔會茂露電解液，進而損壞電池。 此外’將外部檢測單元钱在％池上會改魏池的形狀 201237446 或尺寸。因此，使電料再適合某些紅，或者叫種方式 修改產品才能適應檢測單元。 【發明内容】 本發明要解決的技術問題在於提供一種無需在電池上 額外鑽孔’即可檢測内部電池單元的狀態的電池、電池 及其製造方法。 ，為解决上述技術問題，本發明提供—種電池，包含：多 個電池單元，被多個隔離板隔離；多個檢測單元，與該多個 電池單元祕，並檢顺多個電池單元❹個狀態；以及至 ^一個介面，與該多個檢測單元雛，並接收來自於該多個 :測單=且表示該多個電池單元的該多個狀態的多個檢測 、…果’其中’在該電池被密封後，該多個電池單元和該多個 檢測單元被輯姻電池巾。 本發明進―步提供了—種電池製造方法，包含·由至少201237446 VI. Description of the Invention: [Technical Field] The present invention relates to a battery, and more particularly to a battery, a battery system and a method of manufacturing the same. [Prior Art] Generally, batteries have been widely used for power supply of electronic devices. Figure 1 is a schematic view of a prior art battery. As shown in Figure i, the battery 102 has a plurality of battery cells 104 1-1 〇 4_5 isolated by the isolation plate. After the battery 102 is sealed, the positive and negative electrodes of the battery 1〇2 protrude out of the outside of the battery 1〇2. The state of the battery 102 can be detected by the positive and negative electrodes withdrawn from the battery. However, since the battery 1〇2 is sealed, and only the positive electrode and the negative electrode of the battery are protruded outside the battery 102, the user must detect the state of the internal battery unit just after the -5 state. Drilling in the corresponding position of 2, the external detection unit and the internal battery unit consumes a lot of money. First, the impurity f will invade the inside of the 202 through the hole, thereby affecting the performance of the battery. Secondly, the detection unit ends up with the internal battery unit. Two: The second detection unit cannot keep the start of both Guss 4 and the second one. 'Because the battery unit 104 1-1〇4 5 liquid 'if the user drills the position is not accurate enough, in the battery — The holes in the holes will expose the electrolyte and damage the battery. In addition, the external detection unit money will change the shape of Weichi 201237446 or size on the % pool. Therefore, the electric material can be adapted to some red, or the product can be modified to adapt to the detection unit. SUMMARY OF THE INVENTION The technical problem to be solved by the present invention is to provide a battery, a battery, and a method of manufacturing the same that can detect the state of an internal battery unit without additional drilling on the battery. In order to solve the above technical problem, the present invention provides a battery comprising: a plurality of battery cells separated by a plurality of isolation plates; a plurality of detection units, and the plurality of battery cells are secreted, and one of the plurality of battery cells is inspected a state; and to an interface, and the plurality of detection units, and receiving the plurality of detections from the plurality of: the test order = and indicating the plurality of states of the plurality of battery cells, After the battery is sealed, the plurality of battery cells and the plurality of detecting units are engraved with the battery towel. The present invention further provides a battery manufacturing method comprising:

一隔離板將一啻、4 + A 电池中的多個電池單元隔離；將多個檢測單 嵌在該電池中 二 从核測該多個電池單元的多個狀態，·透過與 :夕個檢解％輪的_介面輸出自該多個檢測單元 示該多個電池置- 双 凡的該多個狀態的多個檢測結果；以及將 多個電池單元_ 孩夕個檢測單元密封在該電池中。 本考X月進1提供了—種電池系統，包含：由 離板隔開的多個命^ 00 _ __ ㈣ 电池早元；多個檢測單元，該多個檢測單元 4 201237446 _多個電池單元轉’並檢測該多個電池料的 =以及，管叫，娜崎卿綠 來自於該多個檢測單元且 接收 態的多個檢騎果，趣射的該多個狀 施，其中，該電池管理單H 採取對應的措 、 里早兀經由一介面與一外部裴置A spacer separates a plurality of battery cells in one 啻, 4 + A battery; a plurality of test cells are embedded in the battery; and two states of the plurality of battery cells are checked from the core, and The _ interface output of the % wheel is shown from the plurality of detecting units to display a plurality of detection results of the plurality of states of the plurality of batteries; and sealing the plurality of battery units _ the detection unit in the battery . This test provides a battery system, including: a plurality of life 00 _ __ (four) battery early separated from the board; a plurality of detection units, the plurality of detection units 4 201237446 _ multiple battery units Turning 'and detecting the plurality of battery materials = and, the pipe call, Nasaki Green is from the plurality of detection units and receiving a plurality of check-in fruits, the plurality of applications of the fun, wherein the battery The management order H takes the corresponding measures, and the 兀 兀 兀 via an interface and an external device

=該==封後’該電池單元、該檢測單砂該電。 早凡被密封在該電池中。 sI 電、也==_比，本發明的電池、電池製造方法以及 電池系統無需在電池上額外鑽孔，即可檢勒部電池單元 因此’保持了電池的完整性’且避免電池受到雜 以下結合附圖和具體實施例對本發明的技術方案進行 詳細的說明，以使本發明的特性和優點更為明顯。 【實施方式】 以下將對本發_實麵給崎㈣說明。雖缺本發 明將結合實施例進行《述，但應理解這並非意指將本發; 限定於這些實施例。減地，本發明意在料由後附申請 專利範圍所界定的本發_神和範圍_定義的各種^ 化、修改和均等物。= = = = After sealing the battery unit, the test single sand the electricity. It is sealed in the battery. sI electric, also ==_ ratio, the battery of the invention, the battery manufacturing method and the battery system do not need to be additionally drilled on the battery, so that the battery unit of the inspection unit can 'maintain the integrity of the battery' and avoid the battery being contaminated The technical solutions of the present invention will be described in detail in conjunction with the accompanying drawings and specific embodiments to make the features and advantages of the present invention more obvious. [Embodiment] The following is a description of the present invention. Although the present invention is not described in connection with the embodiments, it should be understood that this is not intended to limit the present invention; The present invention is intended to be varied, modified, and equivalent, as defined by the scope of the appended claims.

^外，在以下對本發_詳_述巾，_大量的具 節以提供針對本發_全面輯。然而，本技術領域 201237446 中具有通常知識者應理解，沒有這些具體細節，本發明同 樣可以實施。在其他實财，對於f知方法、流程、x元件 和電路未作詳細描述，以便於凸顯本發明之主旨。 在-個實施例中’本發明公開了—種包含多個電池單元 的電池，射，鮮個電池單元由_板關，並透過多個 電動杆串聯。錢制單元與該多個電池單元_，以檢測 該多個電池單元雜態。在電池被密封後，綱好個檢測單 =嵌在電池中，並透過電池外㈣多個介面輸出該多個檢測 單元的檢測結果。優點在於’好無料電池鑽孔，即可檢 測内部電池單㈣狀態。因此，保持了電池的完整性，且不 會給電池引入雜質。 圖2A和圖2C所示分別為根據本發明的—個實施例的含 有嵌入式檢測單元的電池2〇2A和搬c的示意圖。電池皿A 或202C包含多個被隔離板隔離的電池單元（圖s'中未示 出）。在電池202A或2〇2C被密封後，輕接器观的多則 腳以及電池搬A或就的正極撕和負極獅位於電池 202A或202C的表面。在一個實施例中，輕接器施 '正極 204和負極206位於電池202A或2〇2C的頂部面板上。輕接 器208、正極204和負極206的位置不是固定的，可以根據 内部電池單元而變化。 在一個實施例中，多個檢測單元（圖2A中未示出）嵌 201237446 在電池202A或202c中，以檢測内部電池單元的狀態。輕接 處的引腳與嵌人式檢測單姑接，每個㈣分別盘 檢測單元祕。在電池观A或2〇2C被密封之前，在 舰W侧丨腳與嵌人編桿元她的轉接 電路。因此’在電池贿或騰被㈣愤，雛電路喪在 電池202A或2G2C中。因此，電池管理單元透過引腳監測内 部電池料的狀態’並根據狀態採取預設的措施。舉例而 言，如果電池管理單元檢_電池單元發生異常狀態（例 如’内部電池單元的電壓高於預設閾值）’電池管理單元採 取保護措施。 優點在於，當使用電池202A或202C時，嵌入式檢測單 元檢測電池202A或202C中的電池單元的狀態，檢測結果經 由耦接器208輸出。因此，用戶無需對電池2〇2A或2〇2c鑽 孔或女裝外部檢測單元。因此’保持了電池2〇2A或202C的 完整性’無需鑽孔，進而不會給電池202A或202C引入雜質。 此外’由於用戶無需在電池202A或202C上安裳額外的元 件’電池202A或202C的尺寸和形狀無需改變。因此，電池 202A或202C可應用于現有技術中的應用系統，而無需改變 應用系統。因此，設計者可以設計一種將電池202A或202C 安装到各種應用系統中的通用安裝固定裝置。 另外，耦接器208進一步包含與電池202A或202C的正 201237446 極2〇4和負極2〇6搞接的引聊。在電池搬a或搬c被密封 之刖在電池202A或202C的内部配置將引腳與正極2〇4 矛負極206轉接的搞接電路。因此，在電池搬入或a·被 密封後’將_電路嵌在電池2G2A或2G2C中。因此，電池 笞理單元還透過耦接态208監測電池2〇2A或202C的狀態。 優點在於’省略了將電池管理單元與正極2〇4和負極2〇6耦 接的電路，進而降低了成本並減小了尺寸。 在另一個貫施例中，耦接器2〇8位於電池2〇2b或2020 外部的任何地方，如圖2B或圖2D所示。在電池202B或202D 被密封後，從電池202B或2〇2D開始延伸出電纜21〇，在電 纜210中，多個電線並排排列，相互耦接、纏繞在一起或編 織成麻花狀，以形成單個裝置。在電池2〇2B或202D中，電 缓210的電線相互隔離，且與後入式檢測單元搞接，以傳送 表示内部電池單元的狀態的資料。在電池2〇2B或202D被密 封之前’在電池202B或202D的内部配置將電規210中的電 線與嵌入式檢測單元耦接的耦接電路。因此，在電池202B 或202D被密封後’耦接電路嵌在電池202B或202D中。耦 接器208與電池202B或202D外部的電纜210的一端耦接。 此外，電纜210中的電線與電池202B或202D的正極 204和負極206耦接，以傳送表示電池202B或202D的狀態 的資料。因此，耦接器208還透過相應的引腳接收資料以及 201237446 輸出資料。 優點在於，耦接器208的位置更加靈活，無需安裝電池 202B或202D上。此外，電池202B或2〇2D的形狀更加簡 單，進而簡化了將電池202B或202D安裝到應用系統中安裝 固定裝置的設計。 圖3A所示為根據本發明的一個實施例的含有嵌入式檢 測單兀的電池（例如，圖2A中的電池202A或圖2B中的電 池202B)的内部結構的示意圖。^ In addition, in the following _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ However, it will be understood by those of ordinary skill in the art that the present invention can be practiced without these specific details. In other real money, the method, the flow, the x component and the circuit are not described in detail in order to highlight the gist of the present invention. In one embodiment, the present invention discloses a battery comprising a plurality of battery cells, the fresh battery cells being closed by a plate and connected in series by a plurality of motorized rods. The money making unit and the plurality of battery cells _ are used to detect the plurality of battery cells in a hybrid state. After the battery is sealed, a test list is embedded in the battery, and the detection results of the plurality of detecting units are output through a plurality of interfaces outside the battery. The advantage is that the battery can be drilled and the internal battery (4) status can be detected. Therefore, the integrity of the battery is maintained and no impurities are introduced into the battery. 2A and 2C are schematic views respectively showing a battery 2A2A and a carrying c including an embedded detecting unit according to an embodiment of the present invention. Battery Pack A or 202C contains a plurality of battery cells isolated by a separator (not shown in Figure s'). After the battery 202A or 2〇2C is sealed, the plurality of feet of the lighter and the positive and negative lions of the battery A or the battery are located on the surface of the battery 202A or 202C. In one embodiment, the lighter application 'positive electrode 204 and negative electrode 206 are located on the top panel of battery 202A or 2〇2C. The positions of the light connector 208, the positive electrode 204, and the negative electrode 206 are not fixed and may vary depending on the internal battery unit. In one embodiment, a plurality of detection units (not shown in Figure 2A) are embedded in 201237446 in battery 202A or 202c to detect the status of the internal battery cells. The pins of the light connection are connected with the embedded detection unit, and each (4) is separately detected by the unit. Before the battery view A or 2〇2C is sealed, the transfer circuit is clamped on the side of the ship W with the embedded manipulator element. Therefore, in the battery bribe or rush (four) anger, the young circuit is lost in the battery 202A or 2G2C. Therefore, the battery management unit monitors the state of the internal battery material through the pins and takes predetermined measures according to the status. For example, if the battery management unit detects that the battery unit has an abnormal state (e.g., the voltage of the internal battery unit is higher than a preset threshold), the battery management unit takes protective measures. An advantage is that when the battery 202A or 202C is used, the embedded detecting unit detects the state of the battery cells in the battery 202A or 202C, and the detection result is output via the coupler 208. Therefore, the user does not need to drill the battery or the external wear detection unit for the battery 2〇2A or 2〇2c. Therefore, 'the integrity of the battery 2〇2A or 202C is maintained' without drilling, and thus the battery 202A or 202C is not introduced with impurities. Further, since the user does not need to install additional components on the battery 202A or 202C, the size and shape of the battery 202A or 202C need not be changed. Therefore, the battery 202A or 202C can be applied to an application system in the prior art without changing the application system. Therefore, the designer can design a universal mounting fixture that mounts the battery 202A or 202C into various application systems. In addition, the coupler 208 further includes a chat with the positive 201237446 pole 2〇4 and the negative pole 2〇6 of the battery 202A or 202C. After the battery is moved or the load c is sealed, a plug-in circuit for transferring the pin to the positive electrode 2〇4 spear negative electrode 206 is disposed inside the battery 202A or 202C. Therefore, the _circuit is embedded in the battery 2G2A or 2G2C after the battery is loaded or a· is sealed. Therefore, the battery processing unit also monitors the state of the battery 2〇2A or 202C through the coupled state 208. The advantage is that the circuit for coupling the battery management unit to the positive electrode 2〇4 and the negative electrode 2〇6 is omitted, thereby reducing the cost and reducing the size. In another embodiment, the coupler 2〇8 is located anywhere outside the battery 2〇2b or 2020, as shown in Figure 2B or Figure 2D. After the battery 202B or 202D is sealed, the cable 21A is extended from the battery 202B or 2〇2D. In the cable 210, a plurality of wires are arranged side by side, coupled to each other, entangled or woven into a twist shape to form a single body. Device. In the battery 2〇2B or 202D, the wires of the snubber 210 are isolated from each other and connected to the back-in type detecting unit to transmit information indicating the state of the internal battery unit. A coupling circuit that couples the wires in the electrical gauge 210 to the embedded detection unit is disposed inside the battery 202B or 202D before the battery 2〇2B or 202D is sealed. Therefore, the coupling circuit is embedded in the battery 202B or 202D after the battery 202B or 202D is sealed. Coupler 208 is coupled to one end of cable 210 external to battery 202B or 202D. In addition, the wires in the cable 210 are coupled to the positive and negative electrodes 206 and 206 of the battery 202B or 202D to convey information indicative of the status of the battery 202B or 202D. Therefore, the coupler 208 also receives the data and the 201237446 output data through the corresponding pins. The advantage is that the position of the coupler 208 is more flexible, eliminating the need to mount the battery 202B or 202D. In addition, the shape of the battery 202B or 2〇2D is simpler, thereby simplifying the design of mounting the battery 202B or 202D to the mounting system in the application system. Figure 3A is a schematic illustration of the internal structure of a battery containing an embedded test unit (e.g., battery 202A in Figure 2A or battery 202B in Figure 2B) in accordance with one embodiment of the present invention.

在圖3A的貝施例中’表示圖2A中的電池2〇2A或圖2B 中的電池2G2B的電池3.電池3G2A包含多個被隔離板隔 離的電池單it 304_1-綱_6。電池3G2A可包含任意數目的電 池單元。 隔離板312_1在電池302A的一側隔離電池3〇2a。隔離 板3U—2隔離電池單元304」和電池單元3〇4_2。正極板 306-1和負極板306—2作為電池單元3〇4—j的正極和負極， 配置在電池單元綱-1巾，分別與隔離板312」和3i2—2相 鄰。在電池單元3〇4一1的電極306」和3〇6—2之間的空隙中 注入電解液’例如，酸性液。相似地’電池單元3〇4_2_3〇4_6 的正極板和負極板分別配置在電池單元304—2-304-—6中，並 分別與相應的隔離板相鄰。 電動杆（例如，錯酸杆308—υ麵接在電池單元3〇4丄 S.· 9 201237446 的負極板306—2和電池單元3〇4—2的正極板3〇6—3之間，進 而，將電池單元304」與電池單元綱_2串聯。相似地，相 應的電動杆輕接在電池單元304一2和304—3，304 3和 3〇4-4 ’ 3〇4-4和3〇4-5 ’以及304—5和304—6相鄰的電板之 間，進而’將電池單元304_2-3〇4—6串聯。 此外’多個檢測單元分別與電池單元3〇4—㈣4—6耦 2，以檢測電池單元綱—剛_6的狀態。在—個實施例中， 屯棒31〇」（例如’金屬棒）部分地嵌入電動杆308 1，以 檢測電池單元姻-1和304-2的狀態，例如，輸出電料元 3〇4一1的負極電壓和電池單元3〇4—2的正極電壓。 。所示為根據本發明的一個實施例的將檢測單元# ' 鱗在電池單元304」的電板3〇6〜2 * 3〇6 3之 部表面有—個孔。孔的直徑大㈣棒 電知3l〇J透過孔部分地插在電殼308_1，中， 並保持—段時間，其間，透過孔和電捧31()」 二 ^態，（例如，液態錯），直到液態錯充滿電殼遍二 錯變成固態，形成電動杆和，同時將電棒 ~牛口地安裝在電動杆308J上。 相似地，參見圖3A，電棒31〇 2 310 5八μ i 對應的_ 310·>310-5刀別部分地嵌在 中’以檢測電池單元3〇4_2_3〇4〜6的狀態。此 201237446 ^作為電池的正極2〇4和負極2〇6的電棒分別固定在電池 早凡304—1的正極板綱—！和電池單元綱—㈣負極板鳩」 x核測電池302的正極電壓和負極電壓。因此，電路板 經由圖ίΑ中所示的電棒31(U_310-5、正極204和負極2〇6 ’、電池單疋304—U4—6減。在電路板上配置將輕接器施 的引腳與電棒310」-310_5輕接的麵接電路。 圖3C所不為根據本發明的另一個實施例的含有嵌入式 Μ單tl的電池（例如’圖2C中的電池2〇2c或圖犯中的 電池202D)的内部結構的示意圖。 在圖3C的實施例中，表示圖2C巾的電池2〇2c或圖扣 中的電池202D的電池覧包含多個被隔離板隔離的電池單 兀354_>354_8。電池302C可包含任意數目的電池單元。 %離板352—1在電池302c的一側隔離電池3〇2c。隔離 板352—2隔離電池單元354—i和電池單元354—2。電板说—1 和^6—2作為電池單元3Ί的正極板和負極板，配置在電 ’也單元354_1中’分別與隔離板说」和352—2相鄰。在電 池單元354」的電極356J和356_2之間的雜中注入電解 液’例如，酸性液。相似地，電池單元354—2-354一8的正極 板和負極板分別配置在電池單元354—二8巾，並分別與 相應的隔離板相鄰。 電動杆（例如，鉛酸杆）耦接在電池單元354J的負極 11 201237446 板356—2和電、冰σ。一 電池單元354 ;早元Μ2的正極板356—3之間，進而，將 動杆輕接在電池^電池單元354—2串聯。相似地’相應的電 和 35”，354 5 : 354一2 和 A3 ’ 3Μ-3 和 3Μ-4，说、4 354 8 i ^ 354-6，354一6 和 354_7，以及 354 7 和 35〇相鄰的電板 - 聯。 進而將電池早疋354—2-354—8串 電棒358__1和7从& ^ 354⑼4 8的狀離/ 測單元，以檢測電池單元 -- 〜、。在一個實施例中，電棒358 1檢測電 池單元354_1和354 2的贴能^ 〜的狀心，例如，輸出電池單元354 1 的負極電壓和電池單元354_2的正極電麗。 、 在另一個實施例中，電棒说w位於電池302d 有中間區域，如圖3D所示。圖士扣门 汁不圖4C中與圖3C中標記相似地 元件具有相似地功能，為了簡潔和清楚起見，不再贅述。 圖3E所示為根據本發明的另—個實施例的將檢測單元 嵌到電池中示意圖。如圖3B所示，外部模具（未示出）放 在電板356—2和356—3的表面上。透過模具上的孔往模夏中 注入液態金屬（例如’贿㈤直·㈣充齡部模星。 因此，當液態錯變成固態，形成具有預設高度的電動杆 358」。 相似地’參見圖3C或圖3D，形成具有預設高度的電棒 358—2-极一7，以檢測電池單元358—2·358—δ的狀態。此外， 12 201237446 作為電池的正極204和負極2〇6的電棒固定在電池單元 354_1 ^jE^^ 356_1 ^ 354_8 g 356_4 _L. 以松測電池302C或3G2D的正極電壓和負極電壓。因此，電 路板經由圖3C或圖3D中所示的電棒观―U—7、正極2〇4 和負極206與電池單元说-⑶"輕接。在電路板上形成 將柄接器208的引腳與電棒358—1姻—7、正極2〇4和負極 206輕接的電路。優點在於，採用更為簡單的製作工序形成 檢測單it ’例如電棒358—Μ%—7。因此，檢測單元更為牢 固地形成在電池單元354 1-354 8上。 — ，丄- 圖3F所示為根據本發明的另—個實施例的含有嵌入式 檢測單元的電池（例如，圖2C +的電池2〇2C或圖犯中的 4池202D)的内部結構的示意圖。圖中與圖3c中標兰己 相似地的元件具有相似地功能，為了簡潔和清楚起見，不再 贅述。 在圖3F的實施例中，電棒（例如’鉛酸杆）358ja與 電池單元354—1的負極電板356一2耦接，電棒358_1B與電 單元354—2的正極電板356一3耦接。相似地，相應的電棒 358—2A-358—7A 和 358—2B-358—7B 與電池單元 354_2_354〜8 的相鄰的電板耦接。 ~ 電棒358—1A-358—7A和358—1B七8一7B作為檢測單元， 以檢測電池單元354)354^的狀態U實施例中，電In the embodiment of Fig. 3A, 'represents the battery 2〇2A in Fig. 2A or the battery 2G2B in Fig. 2B. The battery 3G2A includes a plurality of battery sheets it is 301_1- -6 which are separated by the separator. Battery 3G2A can contain any number of battery cells. The spacer 312_1 isolates the battery 3〇2a on one side of the battery 302A. The spacer 3U-2 isolates the battery unit 304" and the battery unit 3〇4_2. The positive electrode plate 306-1 and the negative electrode plate 306.2 are used as the positive electrode and the negative electrode of the battery unit 3〇4-j, and are disposed adjacent to the separators 312" and 3i2-2, respectively. An electrolyte [e.g., an acidic liquid is injected into the gap between the electrodes 306" and 3" 6-2 of the battery cells 3? Similarly, the positive electrode plates and the negative electrode plates of the battery cells 3〇4_2_3〇4_6 are respectively disposed in the battery cells 304-2-304--6, and are respectively adjacent to the respective separator plates. The electric pole (for example, the wrong acid rod 308 is connected between the negative electrode plate 306-2 of the battery unit 3〇4丄S.· 9 201237446 and the positive electrode plate 3〇6-3 of the battery unit 3〇4-2, Further, the battery unit 304" is connected in series with the battery unit _2. Similarly, the corresponding electric lever is lightly connected to the battery unit 304-2 and 304-3, 304 3 and 3〇4-4 '3〇4-4 and 3〇4-5' and between 304-5 and 304-6 adjacent to the electric board, and then 'connect the battery unit 304_2-3〇4-6. In addition, 'multiple detection units and battery unit 3〇4- (4) 4-6 couple 2 to detect the state of the battery cell - just _6. In an embodiment, the pry bar 31" (such as 'metal bar) is partially embedded in the electric rod 308 1, to detect the battery cell - The states of 1 and 304-2, for example, the negative electrode voltage of the output cell 3〇4-11 and the positive electrode voltage of the battery cell 3〇4-2. The detection unit # is shown according to an embodiment of the present invention. The surface of the electric plate 3〇6~2*3〇6 3 of the scale of the battery unit 304 has a hole. The diameter of the hole is large (four), and the rod is electrically inserted into the electric shell 308_1 through the hole. And for a period of time, during which, through the hole and the electric holding 31 ()" two state, (for example, liquid error), until the liquid is wrongly filled with the electric shell, the second step becomes solid, forming a power rod and at the same time the electric rod ~ The cow's mouth is mounted on the electric rod 308J. Similarly, referring to Fig. 3A, the electric rod 31〇2 310 5 8 μ corresponding to the _310·> 310-5 is partially embedded in the 'to detect the battery unit 3' 4_2_3〇4~6 state. This 201237446 ^ as the positive pole of the battery 2〇4 and the negative pole 2〇6 electric rods are respectively fixed in the battery positive 304-1 positive electrode plate -! and battery unit - (four) negative plate" x measures the positive voltage and the negative voltage of the battery 302. Therefore, the circuit board is subtracted via the electric bar 31 (U_310-5, positive electrode 204 and negative electrode 2〇6', battery cell 304-U4-6 shown in Fig. The circuit board is provided with a surface-connecting circuit for connecting the pins of the light connector to the electric bars 310"-310_5. Figure 3C is not a battery containing an embedded unit tl according to another embodiment of the present invention (e.g. A schematic diagram of the internal structure of the battery 2〇2c or the battery 202D) in Fig. 2C. In Fig. 3C In the embodiment, the battery pack 表示2c representing the battery of Fig. 2C or the battery pack 202D of the buckle includes a plurality of battery cells 354_> 354_8 isolated by the spacer. The battery 302C may include any number of battery cells. The board 352-1 isolates the battery 3〇2c on one side of the battery 302c. The spacer 352-2 isolates the battery unit 354-i and the battery unit 354-2. The boards say -1 and ^6-2 as the positive pole of the battery unit 3Ί The plate and the negative plate are disposed adjacent to the isolation plate and the 352-2 in the electric unit 354_1. An electrolyte [e.g., an acidic liquid is injected into the impurities between the electrodes 356J and 356_2 of the battery unit 354". Similarly, the positive electrode plate and the negative electrode plate of the battery unit 354 - 2-354 - 8 are respectively disposed in the battery unit 354 - 2 and 8 towels, and are respectively adjacent to the corresponding separation plates. A power rod (for example, a lead acid rod) is coupled to the negative electrode 11 201237446 plate 356-2 of the battery unit 354J and the electric and ice σ. A battery unit 354; between the positive plates 356-3 of the early element ,2, and further, the moving rod is lightly connected in series with the battery unit 354-2. Similarly 'corresponding electricity and 35', 354 5: 354-2 and A3 '3Μ-3 and 3Μ-4, say, 4 354 8 i ^ 354-6, 354-6 and 354_7, and 354 7 and 35〇 Adjacent electric board - united. In turn, the battery is 354-2-354-8 string bar 358__1 and 7 from the & ^ 354 (9) 4 8 off / test unit to detect the battery unit --~, in one implementation In the example, the electric bar 358 1 detects the centroid of the battery cells 354_1 and 354 2, for example, the negative electrode voltage of the battery cell 354 1 and the positive electrode of the battery cell 354_2. In another embodiment, the electric bar It is said that w is located in the middle portion of the battery 302d, as shown in Fig. 3D. The elements of the Figure 3C are similar to those of the elements in Fig. 3C, and will not be described again for the sake of brevity and clarity. A schematic view of embedding a detection unit in a battery according to another embodiment of the present invention is shown. As shown in Fig. 3B, an external mold (not shown) is placed on the surfaces of the electric plates 356.2 and 356-1. Injecting liquid metal into the mold summer through the hole in the mold (for example, 'Bile (five) straight · (4) filling the mold star. So When the liquid fault becomes solid, a motorized rod 358" having a preset height is formed. Similarly, referring to FIG. 3C or FIG. 3D, a pole 358-2 pole having a predetermined height is formed to detect the battery unit 358-2. The state of 358-δ. In addition, 12 201237446 as the positive electrode 204 and the negative electrode 2〇6 of the battery are fixed to the battery unit 354_1 ^jE^^ 356_1 ^ 354_8 g 356_4 _L. To test the positive voltage and negative electrode of the battery 302C or 3G2D Therefore, the board is lightly connected to the battery unit via the electric bar view "U-7", the positive electrode 2〇4, and the negative electrode 206 shown in FIG. 3C or FIG. 3D. The handle 208 is formed on the circuit board. The circuit of the pin and the electric rod 358-1, the positive electrode 2〇4 and the negative electrode 206 are lightly connected. The advantage is that a simpler manufacturing process is used to form the detection unit 'it', for example, the electric rod 358-Μ%-7. Therefore, The detecting unit is more firmly formed on the battery unit 354 1-354 8. —, 丄 - FIG. 3F shows a battery including an embedded detecting unit according to another embodiment of the present invention (for example, FIG. 2C+ The internal structure of the battery 2〇2C or the 4 pool 202D) In the drawings, the elements similar to those in Fig. 3c have similar functions, and are not described again for the sake of brevity and clarity. In the embodiment of Fig. 3F, the electric rod (for example, 'lead rod 358ja') and the battery unit The negative electrode plate 356-2 of the 354-1 is coupled, and the electric bar 358_1B is coupled to the positive electrode plate 356-3 of the electric unit 352-4. Similarly, the respective electrical bars 358-2A-358-7A and 358-2B-358-7B are coupled to adjacent electrical plates of battery cells 354_2_354~8. ~ The electric rods 358-1A-358-7A and 358-1B seven 8-7B are used as the detecting unit to detect the state of the battery unit 354) 354^. In the embodiment, the electric

S 13 201237446 棒358—1A檢測電池單元3 山-， 〜貞極電板的狀態，例如，輪 出電池早tl 354—1的負極電壓 ...! 1包棒358_汨檢測電池單元 354—i正極電板隨f、 早兀 電壓。 輪出電池單元354—2的正極 W ^另一個實施例中’電棒HA-358—7A和 —1B-358一7B位於電池單 端，如㈣所示。圖二Γ -8的電極的另一 相似地功▲，為了簡潔和清楚起見，不再贅述。，、有 圖3H所示為根據本發 ._ . 嵌到電池中示意n 另—個貫施例的將檢測單元 • %奉358-1A_358」B以與圖3E所示的 電棒=相類似的方式加工而成，因此具有相似地功能。 ，4B所示為根據本發㈣卜 多個介面（例如，网^ ^ 直村 圖八和/或圖2B中耦接器208)的引腳盥 :在電池中的多個檢測單喊接的電路板働A的示意圖。、 回4A和圖4B結合圖2A和圖3a進行描述。 *為電路板400A的平面示意圖。圖4B所示為 電路板400A的立雜_立 汀丁馮 池迦的尺寸電路板400A的尺寸和形狀與電 不形狀相匹配。因此，電路板400A盥 遍的内部電池單元相匹配。 /、電池 4〇4 1二示意圖所示’電路板4〇〇A上的孔 -、位置與電池302A中的電棒31〇—1_31〇_5、正 201237446 極204和負極206的位置相匹配；孔姻—^撕一？的尺寸與 電棒310_1-310_5、正極204和負極206的尺寸相匹配。因 此，當電路板400A放在電池302A的電池單元3〇4」3〇4_6 上時，電棒310一 1-310一5、正極204和負極206經由相應的 孔404—1-404_7穿過電路板4〇〇A。 此外，電路板400A上孔406一1-406一6的位置與電池單 兀304—1-304一6的正極板和負極板之間的空隙的位置相匹 配。因此，當電路板400A放在電池302A上時，孔406J-406 ό 直接穿過電池單元304—1 ·3〇4_6的正極板和負極板之間的空 隙。在電路板400Α放在電池302Α上後，透過孔概—μ〇6—6 在電池單元304J-304—6的正極板和負極板之間的空隙中注 入電解液。 如圖4Β中的立體示意圖所示，孔4〇6—μ〇6—6所在的 電路板400Α的中間區域與電路板4〇〇Α的其他區域相比向下 凹陷。另外，孔4G4_M()4_7财間區域的通道與電路板魏 的其他區域相比也向下凹陷。因此，將輕接器通的引_ 電棒3UU_310—5、正極2〇4和負極2〇6輕接的輕接電路位 於通道和中f驅域。伽在於，_電路的躲不再從電路 板舰的表面凸出來，因此，電路板魏的表面相對較平。 因此，電池舰做好準備，在隨後的操作中進行被密封。 圖4C和圖4D所示為根據本發明的另一個實施例的配置 S'· 15 201237446 將多個介面（例如’圖％和/或圖2D中祕器雇）的弓⑽ 與嵌在電池中的多個檢測單福接的板4ggc的示意 圖。圖4C和圖4D結合圖2C和圖3C進行描述。 w 圖4C所示為電路板4〇〇c的平面示意圖。圖犯所示為 電路板400C的立體示意圖。電路板4〇〇c的尺寸和形狀與電 池302C的尺寸和職相匹配。因此，電路板_c與電^ 302C的内部電池單元相匹配。 如圖4C中的平面示意圖所示，電路板400C上的孔 454_1-454_9的位置與電池3〇2C中的電棒358—丨-娜-?、正 極204和負極206的位置相匹配；孔454一的尺寸與 電棒358一1-358—7、正極204和負極2〇6的尺寸相匹配。因 此，當電路板400C放在電池302C的電池單元3〇4_1-304 8 上時，電棒358_1-358一7、正極204和負極206經由相應的 孔454_>454_9穿過電路板400C。 此外，電路板400C上孔456—M56_8的位置與電池單 元354—1-354—8的正極板和負極板之間的空隙的位置相匹 配。因此，當電路板400C放在電池302C上時，孔456_1 -456_8 直接穿過電池單元354_1-354_8的正極板和負極板之間的空 隙。在電路板400C放在電池302C上後，透過孔456_1-456__8 在電池單元354_1-354一6的正極板和負極板之間的空隙中注 入電解液。 16 201237446 如圖4D的立體示意圖所示，孔456j_456—8所在的電 路板400C的中間區域與電路板4〇〇C的其他區域相比向下凹 陷。另外，孔454—1-454—9到中間區域的通道與電路板4〇〇c 的其他區域相比也向下凹陷。因此，將轉器的引腳與 電棒358—1-358一7、正極204和負極施麵接_接電路位 於通道和巾間區域。優點在於，祕電路的電線不再從電路 板400C的表面凸出來，因此，電路板4〇〇c的表面相對較平。 因此’電池3G2C做好準備’在隨後的操作中進行密封。 在另-個實施例中，孔456)456)位於電路板働£ 的邊緣區域，孔454—i-454」和454_5_454_7位於電路板纖 有中間區域，如圖4E所示。圖4E中與圖4C和圖4D中標 記相似地元件，以如上所述的方式工作。 圖4F所示為根據本發明的另一個實施例的配置將多個 介面（例如，® 2C和/或圖2D中祕器遞）的引腳與後在 電池中的多個檢測單元祕的電路板伽F的示意圖。圖仲 結合圖2C和圖3F進行描述。 電路板400F的尺寸和形狀與電池避的尺寸和形狀相 匹配。因此’電路板譬與電池詹的内部電池單元相匹 配。 如圖4F中的平面示意圖所示，電路板4〇〇f上的孔 454_1A 454_7A > 454_1B-454_7B » 454_8 j ^ 454_9 17 201237446 與電池卿中的電棒说―1A-358—7A，358 IB-358 7B和 正極204和負極206的位置相匹配；孔454J_454_9的尺寸 與電棒358_>358_7、正極204和負極2〇6的尺寸相匹配。 因此，當電路板400F放在電池302F的電池單元354_1-354_8 上時，電棒 358一 1A-358一7A、358—1B-358一7B、正極 204 和負 極 206 經由相應的孔 454—1A_454—7A、454—1b_454—7B、454_8 和454_9穿過電路板4〇〇F。 此外’電路板400F上孔456_1-456_8的位置與電池單元 354_1-354一8的正極板和負極板之間的空隙的位置相匹配。 因此’當電路板400F放在電池302F上時，孔456_1-456_8 直接穿過電池單元354_1-354_8的正極板和負極板之間的空 隙。在電路板400F放在電池302F上後，透過孔456_1-456_8 在電池單元354_1-354_8的正極板和負極板之間的空隙中注 入電解液。 在另一個實施例中，孔454 1A-454 3A， 454一5A-454_7A，454—1B-454—3B 和 454_5B-454_7B 位於電 路板400G的中間區域’孔456__1-456_8位於電路板400G的 邊緣區域，如圖4G所示。圖4G中與圖4F中標記相似地元 件，以如上所述的方式工作。S 13 201237446 Bar 358-1A detection battery unit 3 mountain -, ~ the state of the bungee plate, for example, the battery is turned off the battery tl 354-1 negative voltage ...! 1 package rod 358_汨 detection battery unit 354 - i positive electrode board with f, early 兀 voltage. The positive electrode W of the battery unit 354-2 is rotated. In another embodiment, the electric bars HA-358-7A and -1B-358-7B are located at the single end of the battery, as shown in (d). Another similar work of the electrodes of Fig. 2 -8 is omitted for brevity and clarity. Figure 3H shows the detection unit according to the present invention, which is embedded in the battery, and the detection unit is 358-1A_358"B, which is similar to the electric rod shown in Fig. 3E. It is machined and therefore has similar functions. 4B shows the pin 盥 according to the multiple interfaces of the present invention (for example, the network ^^ 直村图8 and/or the coupler 208 in FIG. 2B): multiple detection orders in the battery Schematic diagram of the board 働A. Back to 4A and FIG. 4B are described in conjunction with FIGS. 2A and 3a. * is a schematic plan view of the circuit board 400A. Fig. 4B shows that the size and shape of the size circuit board 400A of the circuit board 400A is matched with the electric shape. Therefore, the internal battery cells of the circuit board 400A are matched. /, the battery 4〇4 1 2 schematic diagram of the 'holes on the circuit board 4〇〇A, the position and the battery 302A in the battery rod 31〇-1_31〇_5, the positive 201237446 pole 204 and the position of the negative electrode 206; Kong marriage - ^ tear one? The dimensions match the dimensions of the bars 310_1-310_5, the positive electrode 204 and the negative electrode 206. Therefore, when the circuit board 400A is placed on the battery unit 3〇4」3〇4_6 of the battery 302A, the electric poles 3101-310-5, the positive electrode 204 and the negative electrode 206 pass through the corresponding holes 404-1-404_7 through the circuit board. 4〇〇A. Further, the position of the hole 406 - 1-406 - 6 on the circuit board 400A matches the position of the gap between the positive and negative plates of the battery unit 304 - 1-304 - 6. Therefore, when the circuit board 400A is placed on the battery 302A, the holes 406J-406 ό directly pass through the gap between the positive and negative plates of the battery unit 304-1·3〇4_6. After the circuit board 400 is placed on the battery 302, the electrolyte is injected into the gap between the positive and negative plates of the battery cells 304J-304-6 through the holes. As shown in the perspective view in Fig. 4A, the intermediate portion of the circuit board 400A where the holes 4〇6-μ〇6-6 are located is recessed downward compared to other areas of the circuit board 4〇〇Α. In addition, the channel of the hole 4G4_M() 4_7 is also recessed downward compared to other areas of the board Wei. Therefore, the light-connecting circuit in which the light-connector's lead-wire 3UU_310-5, the positive pole 2〇4, and the negative pole 2〇6 are lightly connected is located in the channel and the medium-drive domain. The gamma lies in that the hiding of the _ circuit no longer protrudes from the surface of the circuit board, so the surface of the board Wei is relatively flat. Therefore, the battery ship is ready to be sealed in subsequent operations. 4C and 4D illustrate a configuration S'·15 201237446 according to another embodiment of the present invention. A plurality of interfaces (eg, '% of the figure and/or the device of FIG. 2D') are embedded in the battery. A schematic diagram of a plurality of boards 4ggc for detecting a single board. 4C and 4D are described in conjunction with Figs. 2C and 3C. w Figure 4C shows a schematic plan view of the circuit board 4〇〇c. The figure is shown as a perspective view of the circuit board 400C. The size and shape of the circuit board 4〇〇c matches the size and position of the battery 302C. Therefore, the board_c matches the internal battery unit of the battery 302C. As shown in the plan view in FIG. 4C, the positions of the holes 454_1-454_9 on the circuit board 400C match the positions of the electric bars 358-丨-na-?, the positive electrode 204, and the negative electrode 206 in the battery 3〇2C; The dimensions are matched to the dimensions of the bars 358-1-358-7, the positive electrode 204 and the negative electrode 2〇6. Therefore, when the circuit board 400C is placed on the battery cells 3〇4_1-304 8 of the battery 302C, the electric bars 358_1-358-7, the positive electrode 204, and the negative electrode 206 pass through the circuit board 400C via the corresponding holes 454_>454_9. Further, the positions of the holes 456 - M56_8 on the circuit board 400C match the positions of the gaps between the positive and negative plates of the battery cells 354 - 1-354 - 8. Therefore, when the circuit board 400C is placed on the battery 302C, the holes 456_1 - 456_8 directly pass through the gap between the positive and negative plates of the battery cells 354_1 - 354_8. After the circuit board 400C is placed on the battery 302C, the electrolyte is injected into the gap between the positive electrode plate and the negative electrode plate of the battery cells 354_1-354-6 through the holes 456_1-456__8. 16 201237446 As shown in the perspective view of Fig. 4D, the intermediate portion of the circuit board 400C where the holes 456j_456-8 are located is recessed downward compared to other areas of the circuit board 4A. In addition, the passages of the holes 454 - 1-454 - 9 to the intermediate portion are also recessed downward as compared with other regions of the circuit board 4 〇〇 c. Therefore, the pins of the converter and the electric bars 358-1-358-7, the positive electrode 204 and the negative electrode are connected to the circuit between the channel and the inter-shield area. The advantage is that the wires of the secret circuit no longer protrude from the surface of the circuit board 400C, and therefore, the surface of the circuit board 4〇〇c is relatively flat. Therefore, 'Battery 3G2C is ready' to be sealed in the subsequent operation. In another embodiment, the apertures 456) 456) are located in the edge region of the circuit board, and the apertures 454-i-454" and 454_5_454_7 are located in the intermediate portion of the circuit board, as shown in Figure 4E. Elements in Figure 4E that are similar to those in Figures 4C and 4D operate in the manner described above. 4F shows a circuit for configuring a pin of a plurality of interfaces (eg, 2C and/or 2D) and a plurality of detection units in the battery according to another embodiment of the present invention. Schematic diagram of the plate gamma F. Figure 2 is described in conjunction with Figures 2C and 3F. The size and shape of the circuit board 400F matches the size and shape of the battery. Therefore, the board 匹 matches the internal battery unit of the battery. As shown in the plan view in Fig. 4F, the holes 454_1A 454_7A > 454_1B-454_7B » 454_8 j ^ 454_9 17 201237446 on the circuit board 4〇〇f are said to be "1A-358-7A, 358 IB- The positions of 358 7B and the positive electrode 204 and the negative electrode 206 are matched; the size of the hole 454J_454_9 matches the size of the electric bar 358_>358_7, the positive electrode 204, and the negative electrode 2〇6. Therefore, when the circuit board 400F is placed on the battery cells 354_1-354_8 of the battery 302F, the electric bars 358-1A-358-7A, 358-1B-358-7B, the positive electrode 204 and the negative electrode 206 pass through the corresponding holes 454-1A_454-7A. 454-1b_454-7B, 454_8, and 454_9 pass through the circuit board 4〇〇F. Further, the positions of the holes 456_1 - 456_8 on the circuit board 400F match the positions of the gaps between the positive and negative plates of the battery cells 354_1 - 354 - 8. Therefore, when the circuit board 400F is placed on the battery 302F, the holes 456_1 - 456_8 directly pass through the gap between the positive and negative plates of the battery cells 354_1 - 354_8. After the circuit board 400F is placed on the battery 302F, the electrolyte is injected into the gap between the positive electrode plate and the negative electrode plate of the battery cells 354_1-354_8 through the holes 456_1-456_8. In another embodiment, the holes 454 1A-454 3A, 454-5A-454_7A, 454-1B-454-3B, and 454_5B-454_7B are located in the intermediate portion of the circuit board 400G. The holes 456__1-456_8 are located at the edge region of the circuit board 400G. , as shown in Figure 4G. Elements in Figure 4G that are similar to those in Figure 4F operate in the manner described above.

圖5A所示為根據本發明的一個實施例的將電路板（例 如，將如圖4A和/或圖4B所示電路板400A)安裝到電池302A 201237446 上後的電池500A(例如，圖3A巾的電池3〇2A)的示意圖。 如圖5A所示，在電路板400A放在電池302Λ上後，電 #310—1_31〇_5 '正極204和負極206穿過電路板400A，内 部電池單元撕—丨姻』的其他部分密封在電路板働A之 下電棒310—1-310—5、正極204和負極206的頂部與電路 板4〇〇A的頂部在一個平面上。另外，孔4〇6—卜條―6直接 穿k電池單元304—1-304一6的正極板和負極板之間的空隙。 在圖5A中，電池單元3〇4J_3〇4—6的位置以虛線標示在電 池302A上。 圖5B所示為根據本發明的一個實施例的將電路板（例 如’圖4C和/或圖4中的電路板400c)安裝到電池搬以 後的電池500B (例如，圖3C中的電池302C)的示意圖。 如圖5B所示，在電路板4〇〇c放在電池3〇2c上後電 棒358—1-358—7、正極2〇4和負極206穿過電路板4,，内 部電池單元354_>354_8的其他部分密封在電路板魏之 下。電棒358一1-358—7、正極204和負極2〇6的頂部與電路 板400C的頂部在一個平面上。另外，孔456—】韻—8直接 穿過電池單元354_>354—8的正極板和負極板之間的空隙。 在圖5B中’電池單元心⑽』驗置以虛線標示在電 池302C上。 在另-個實施例中，可修改電池5〇〇B，使其分別與放在 19 2012374465A shows a battery 500A after mounting a circuit board (eg, the circuit board 400A as shown in FIGS. 4A and/or 4B) to battery 302A 201237446 (eg, FIG. 3A), in accordance with an embodiment of the present invention. Schematic diagram of the battery 3〇2A). As shown in FIG. 5A, after the circuit board 400A is placed on the battery 302, the electric #310-1_31〇_5 'the positive electrode 204 and the negative electrode 206 pass through the circuit board 400A, and the other portions of the internal battery unit tear-seal are sealed. Below the board 働A, the tops of the electric bars 3101-310-5, the positive electrode 204 and the negative electrode 206 are on the same plane as the top of the circuit board 4A. Further, the hole 4〇6-branch-6 directly penetrates the gap between the positive electrode plate and the negative electrode plate of the k battery unit 304-1-304-6. In Fig. 5A, the position of the battery unit 3〇4J_3〇4-6 is indicated by a broken line on the battery 302A. 5B shows a battery 500B (eg, battery 302C in FIG. 3C) after mounting a circuit board (eg, 'circuit board 400c of FIG. 4C and/or FIG. 4) to the battery pack, in accordance with an embodiment of the present invention. Schematic diagram. As shown in FIG. 5B, after the circuit board 4〇〇c is placed on the battery 3〇2c, the electric bars 3581-355-7, the positive electrode 2〇4 and the negative electrode 206 pass through the circuit board 4, and the internal battery unit 354_>354_8 The other part is sealed under the board Wei. The tops of the electric bars 3581-355-7, the positive electrode 204 and the negative electrode 2〇6 are in a plane with the top of the circuit board 400C. Further, the hole 456 - rhyme - 8 directly passes through the gap between the positive electrode plate and the negative electrode plate of the battery unit 354_>354-8. In Fig. 5B, the 'battery unit core (10)' inspection is indicated by a broken line on the battery 302C. In another embodiment, the battery 5〇〇B can be modified to be placed separately with 19 201237446

電池302D、302F和302G上的電路板400E、400F和40〇G 相匹配。 圖6A所示為根據本發明的一個實施例的電路板（例如， 圖4A和/或4B所示的電路板4〇〇上的電路600A)的示意圖。 圖6A結合圖2A，圖3A和圖4A和/或4B進行描述。 在圖6A的實施例中，耦接器280安裝在電路板4〇〇a 上。當電路板400A放在電池302A上，電棒310_1-310 5、 正極204和負極206透過相應的孔穿過電路板4〇〇a。如上所 述，作為檢測單元的電棒310一1-310—5檢測内部電池單元 304一1-304—6的狀態’正極204和負極206表示電池302A的 正極和負極。電線耦接在檢測單元（例如， 電棒310_1 -31 〇一5、正極204和負極206 )與耦接器208之間， 並位於電路板400A凹陷的通道和中間區域。因此，電線 604A—1-604A—7在中間區域並排排列，最終耦接到耦接器 208對應的引腳。 在操作中，電池管理單元透過與檢測單元（例如，電棒 310—1-310一5、正極204和負極206)耦接的耦接器2〇8的相 應引腳監測内部電池單元綱—^4—6和電池3的狀 態，例如，内部電池單元3〇4一和電池3〇2a的電壓。 另外，在電路板4〇〇A安裝在電池302A上後，透過孔 概―D在電解元氣剛_6的正極板和負極板之 201237446 間的空隙中注入電解液，直到電解液充滿電池單元 304—1-304—6的正極板和負極板之間的空隙。然後，被密封 孔406_1-406—6以防止電解液洩露。 在電線604A_1-604A一7安裴在電路板400A和孔 406—1-406一6被密封後，用蓋板密封電池3〇2A。如圖2A所 示，蓋板密封住除正極204、負極2〇6和耦接器2〇8之外的 其他元件。 圖6B所示為根據本發明的另一個實施例的電路板6〇〇B (例如，圖4A和/或4B中的電路板4〇〇)的示意圖。圖6B 中與圖6A的中標記相似地元件具有相似地功能，為了簡潔 和清楚起見，不再贅述。圖6B結合圖2B、圖3B和圖4A和 /或4B進行描述。 在圖6B的實施例中，當電路板4〇〇入放在電池3〇2A上 時，電棒310—1-310—5、正極204和負極206透過相應的孔 穿過電路板400A。如上所述，作為檢測單元的電棒 310_1-310_5檢測内部電池單元304-^304-6的狀態，正極 204和負極206表示電池302A的正極和負極。麵接在檢測單 元（例如’電棒310一1-31〇_5、正極204和負極1〇6)與耦接 器208之間的電線604B一1-604B一7位於電路板400A凹陷的 通道和中間區域。因此’電線604B_1-604B_7在中間區域並 排排列，並裝入柔軟的媒介物中形成帶狀結構，如電纜21〇。 21 201237446 在電池302A被密封後，包含電線6〇4A_16〇4A—7的電 纜210從電池202B向外延伸，並與耦接器2〇8耦接。如圖 2B所示，輕接器208相應的引腳經由電纜21〇中的電線 604B_1-604B_7與檢測單元（例如，電棒31〇 ι_3ΐ〇 5、正 極204和負極206)搞接。 圖6C所示為根據本發明的一個實施例的電路板（例如， 圖4C和/或4D所示的電路板400C)上的電路60〇〇的示意 圖。圖6C結合圖2C，圖3C和圖4C和/或4D進行描述。 在圖6C的實施例中，耦接器28〇安裝在電路板4〇〇c 上。當電路板400C放在電池302C上，電棒358 1-358 7、 正極204和負極206透過相應的孔穿過電路板4〇〇c。如上所 述，作為檢測單元的電棒358一1-358一7檢測内部電池單元 304_1-304_6的狀態，正極204和負極2〇6表示電池3〇2c的 正極和負極。電線654C一1-654C—9耦接在檢測單元（例如， 電棒358_1-358—7、正極204和負極206)與搞接器208之間， 並位於電路板400C凹陷的通道和中間區域。因此，電線 654CJ-654C—9在中間區域並排排列，最終輕接到輕接器2〇8 對應的引腳。 在操作中，電池管理單元透過與檢測單元（例如，電棒 358_1-358_7、正極204和負極206)耦接的耦接器2〇8的相 應引腳監測内部電池單元354_1-354_8和電池3〇2C的狀 22 201237446 態，例如，内部電池單元354_1-354一8和電池302C的電壓。 另外，在電路板400C安裝在電池302C上後，透過孔 456-1_456-8在電池單元354—1-354一8的正極板和負極板之 間的空隙中注入電解液，直到電解液充滿電池單元 354一1-354—8的正極板和負極板之間的空隙。然後，密封孔 456一1-456一8以防止電解液洩露。 在一個實施例中，電線054C_1-6S4C一9用鉛錫合金焊 接，將電棒358—1-358_7、正極204和負極206與麵接器208 的引腳耦接。在另一個實施例中’多個金屬片（例如，銅片） 知接在電棒358一1-358—7、正極204，負極206和麵接器208 的引腳上。隨後，電線654CJ-654C-9的端頭由鉛錫合金焊 接在金屬片上，將電棒358_1-358_7、正極2〇4，負極206和 轉接器208的引腳輕接。 在電線654C一1-654C_9烊接在電路板400C上和在孔 456—1-456一6被密封後，用蓋板密封電池3〇2C。如圖2c所 示，蓋板密封住除正極204、負極206和耦接器208之外的 其他元件。 圖6D所示為根據本發明的另一個實施例的在電路板（例 如’圖4A和/或4B上的電路板）600D的示意圖。圖6D中 的元件與圖6C中的元件標記相似，具有相似地功能，為了 簡潔和清楚起見，不再贅述。圖6D結合圖2C、圖3C和圖 23 201237446 4C和/或4D進行描述。 在圖6D的實施例中，當電路板4〇〇c放在電池3〇2匸上 時，電棒358—1-358—7、正極204和負極206透過相應的孔 穿過電路板400C。如上所述，電棒358j_358-7作為檢測單 元，檢測内部電池單元354一1-354_8和表示電池302C的正 極和負極的正極204和負極206的狀態。檢測單元（例如， 電棒358-1-358—7、正極204和負極1〇6 )與輕接器2〇8耦接 的電線654D一1-654D_9位於電路板400C凹陷的通道和中間 區域。隨後，電線654D—1-654D—9在中間區域並排排列’並 政入柔軟的媒介物中形成帶狀結構，如電镜21〇。 在電池302C被密封後，包含電線654D—1-654D 9的電 纜210從電池202D向外延伸，並與耦接器208耦接。如圖 2D所示，耦接器2〇8相應的引腳經由電纜21〇中的電線 654D_1-654D一9與檢測單元（例如，電棒1-358 7、正 —— 極204和負極2〇6)耦接。 在另一個實施例中，可修改電路板6〇〇c和600D，使其 分別與放在電池302D、3〇2F和302G上的電路板400E、400F 和400G相匹配。電線以如上所述的方式排列。 圖7所示為根據本發明的另一個實施例的電路板7〇〇的 示意圖。圖7結合圖2A、圖3A，圖4A和/或4B進行描述。 在圖7所示的實施例中，電路板7〇〇的結構與圖从和/ 24 201237446 或圖4B中的電路板400A的結構相類似。因此，當電路板 700安裝在電池302A上，電棒310—1-310—5、正極204和負 極206透過相應的孔穿過電路板7〇〇。另外，透過相應的孔 406__1-406_6給電池單元3〇4J_3〇4—6的正極板和負極板之 間的空隙注入電解液。 然而，與電路板400A相比，電路板（例如，印刷電路 板702)固疋在除去孔4〇6_1_4〇6_6所占區域之外的電路板 700的中間區域。® 7所示的陰影區麵電路板·的印刷 電路板702。在一個實施例中’麵接器2〇8安裝在印刷電路 板702上。而且’在印刷電路板7()2上形成（例如，鑽出） 焊接孔7〇6-1_7〇6-7。焊接孔706—1-706—7位於與電棒 310_1-310_5、正極204和負極2〇6相對應的通道附近。在印 刷電路板702上，焊接孔寫―^—7經由在非導通概底上 層壓的銅片職刻的導通路徑、軌跡或信號路徑與稱接器 208相應的引腳耦接。 在電路板700安裝在電池3〇2A上後，電棒 310J-310—5、正極204和負極206透過電棒和孔之間的電線 704)704^與相應的焊接孔7〇6—讓—7輕接。如上所述， 焊接孔706—1-706-7經由印刷電路板7〇2上的導通路徑、軌 跡或信號路徑與墟器寫相應的引腳_。作為檢測單元 的電棒310—1-310一5檢測内部電池單元3〇4—13〇4—6的狀Circuit boards 400E, 400F, and 40A on batteries 302D, 302F, and 302G are matched. Figure 6A shows a schematic diagram of a circuit board (e.g., circuit 600A on circuit board 4A shown in Figures 4A and/or 4B) in accordance with one embodiment of the present invention. Figure 6A is described in conjunction with Figures 2A, 3A and 4A and/or 4B. In the embodiment of Figure 6A, the coupler 280 is mounted on the circuit board 4A. When the circuit board 400A is placed on the battery 302A, the electric bars 310_1-310 5, the positive electrode 204, and the negative electrode 206 pass through the corresponding holes through the circuit board 4A. As described above, the electric bar 310 as 1-310-5 as the detecting unit detects the state of the internal battery unit 304-1 - 304-6. The positive electrode 204 and the negative electrode 206 indicate the positive electrode and the negative electrode of the battery 302A. The wires are coupled between the sensing unit (eg, the electrical bars 310_1 - 31 , the positive pole 204 , and the negative pole 206 ) and the coupler 208 and are located in the recessed channel and intermediate region of the circuit board 400A. Therefore, the wires 604A-1 - 604A-7 are arranged side by side in the intermediate portion and finally coupled to the corresponding pins of the coupler 208. In operation, the battery management unit monitors the internal battery unit through the corresponding pins of the coupler 2〇8 coupled to the detecting unit (eg, the electric bars 310-1-310-5, the positive electrode 204, and the negative electrode 206). -6 and the state of the battery 3, for example, the voltage of the internal battery unit 3〇4 and the battery 3〇2a. In addition, after the circuit board 4A is mounted on the battery 302A, the electrolyte is injected into the gap between the positive electrode plate of the electrolytic cell _6 and the negative electrode plate 201237446 until the electrolyte fills the battery unit 304. —1—304—6 The gap between the positive and negative plates. Then, holes 406_1 - 406-1 are sealed to prevent electrolyte leakage. After the wires 604A_1 - 604A - 7 are sealed in the circuit board 400A and the holes 406 - 1-406 - 6 are sealed, the battery 3 〇 2A is sealed with a cover. As shown in Fig. 2A, the cover plate seals other components than the positive electrode 204, the negative electrode 2〇6, and the coupler 2〇8. Figure 6B is a schematic illustration of a circuit board 6A (e.g., circuit board 4A of Figures 4A and/or 4B) in accordance with another embodiment of the present invention. Elements in Fig. 6B that are similar to those in Fig. 6A have similar functions, and are not described again for the sake of brevity and clarity. Figure 6B is described in conjunction with Figures 2B, 3B and 4A and / or 4B. In the embodiment of Fig. 6B, when the circuit board 4 is placed on the battery 3A2A, the electric bars 310-1 to 10-10, the positive electrode 204, and the negative electrode 206 pass through the corresponding holes through the circuit board 400A. As described above, the electric bars 310_1-310_5 as the detecting unit detect the state of the internal battery cells 304-^304-6, and the positive electrode 204 and the negative electrode 206 indicate the positive electrode and the negative electrode of the battery 302A. The wires 604B-1-604B-7, which are connected between the detecting unit (for example, 'electric bar 310-1-31〇_5, positive electrode 204 and negative electrode 1〇6) and the coupler 208, are located in the recessed passage of the circuit board 400A and Middle area. Therefore, the electric wires 604B_1 - 604B_7 are arranged side by side in the intermediate portion, and are loaded into a flexible medium to form a belt-like structure such as a cable 21 〇. 21 201237446 After the battery 302A is sealed, the cable 210 containing the wires 6〇4A_16〇4A-7 extends outward from the battery 202B and is coupled to the coupler 2〇8. As shown in Fig. 2B, the corresponding pins of the optical connector 208 are coupled to the detecting unit (e.g., the electric bars 31〇ι_3ΐ〇5, the positive pole 204, and the negative pole 206) via the wires 604B_1-604B_7 in the cable 21〇. Figure 6C is a schematic illustration of circuit 60A on a circuit board (e.g., circuit board 400C shown in Figures 4C and/or 4D) in accordance with one embodiment of the present invention. Figure 6C is described in conjunction with Figures 2C, 3C and 4C and/or 4D. In the embodiment of Figure 6C, the coupler 28 is mounted on the circuit board 4〇〇c. When the circuit board 400C is placed on the battery 302C, the electric bars 358 1-358 7 , the positive electrode 204 and the negative electrode 206 pass through the corresponding holes through the circuit board 4 〇〇 c. As described above, the electric bars 358 - 1-158 - 7 as the detecting unit detect the state of the internal battery cells 304_1 - 304_6, and the positive electrode 204 and the negative electrode 2 〇 6 indicate the positive and negative electrodes of the battery 3 〇 2c. The wires 654C-1-654C-9 are coupled between the detecting unit (for example, the electric bars 358_1-358-7, the positive electrode 204, and the negative electrode 206) and the adapter 208, and are located in the recessed passage and intermediate portion of the circuit board 400C. Therefore, the wires 654CJ-654C-9 are arranged side by side in the middle area, and finally lightly connected to the corresponding pins of the lighter 2〇8. In operation, the battery management unit monitors the internal battery cells 354_1-354_8 and the battery 3〇2C through respective pins of the coupler 2〇8 coupled to the detection unit (eg, the electrical bars 358_1-358_7, the positive pole 204, and the negative pole 206). The state of the 2012 22,446, for example, the internal battery cells 354_1-354-8 and the voltage of the battery 302C. In addition, after the circuit board 400C is mounted on the battery 302C, the electrolyte is injected into the gap between the positive electrode plate and the negative electrode plate of the battery cells 354-1-354-8 through the holes 456-1_456-8 until the electrolyte is filled with the battery. The gap between the positive and negative plates of unit 354-1-354-8. Then, the holes 456 - 1-456 - 8 are sealed to prevent electrolyte leakage. In one embodiment, wires 054C_1-6S4C-9 are soldered with a tin-lead alloy, and electrical bars 358-1-358_7, positive electrode 204, and negative electrode 206 are coupled to the pins of face connector 208. In another embodiment, a plurality of metal sheets (e.g., copper sheets) are attached to the pins of the bars 358-1-358-7, the cathode 204, the cathode 206, and the facet 208. Subsequently, the ends of the wires 654CJ-654C-9 are soldered to the metal piece by a lead-tin alloy, and the pins of the electric bars 358_1-358_7, the positive electrode 2〇4, the negative electrode 206, and the adapter 208 are lightly connected. After the wires 654C-1546C_9 are attached to the circuit board 400C and the holes 456-1-456-6 are sealed, the battery 3〇2C is sealed with a cover. As shown in Figure 2c, the cover seals other components than the positive electrode 204, the negative electrode 206, and the coupler 208. Figure 6D is a schematic illustration of a circuit board (e.g., circuit board of Figures 4A and/or 4B) 600D in accordance with another embodiment of the present invention. The elements in Fig. 6D are similar to those in Fig. 6C and have similar functions, and are not described again for the sake of brevity and clarity. Figure 6D is described in conjunction with Figures 2C, 3C and 23 201237446 4C and / or 4D. In the embodiment of Fig. 6D, when the circuit board 4〇〇c is placed on the battery 3〇2匸, the electric bars 3581-355-7, the positive electrode 204 and the negative electrode 206 pass through the corresponding holes through the circuit board 400C. As described above, the electric bars 358j_358-7 function as detection units, and detect the states of the internal battery cells 354-1-354_8 and the positive electrode 204 and the negative electrode 206 indicating the positive and negative electrodes of the battery 302C. The wires 654D-1-654D_9, to which the detecting unit (e.g., the electric bars 358-1-358-7, the positive electrode 204, and the negative electrode 1〇6) are coupled to the lighter 2〇8, are located in the recessed passage and intermediate portion of the circuit board 400C. Subsequently, the wires 654D - 1-654D - 9 are arranged side by side in the middle portion and form a strip-like structure, such as an electron microscope 21 , into a soft medium. After the battery 302C is sealed, the cable 210 containing the wires 654D - 1-654D 9 extends outwardly from the battery 202D and is coupled to the coupler 208. As shown in FIG. 2D, the corresponding pins of the coupler 2〇8 are connected to the detecting unit via the wires 654D_1-654D-9 in the cable 21 (for example, the electric bars 1-558 7, the positive pole 204 and the negative pole 2〇6). ) coupled. In another embodiment, the boards 6〇〇c and 600D can be modified to match the boards 400E, 400F, and 400G placed on the batteries 302D, 3〇2F, and 302G, respectively. The wires are arranged in the manner described above. Fig. 7 is a schematic view showing a circuit board 7A according to another embodiment of the present invention. Figure 7 is described in conjunction with Figures 2A, 3A, 4A and/or 4B. In the embodiment shown in Fig. 7, the structure of the circuit board 7 is similar to that of the circuit board 400A of / 24 201237446 or Fig. 4B. Therefore, when the circuit board 700 is mounted on the battery 302A, the electric bars 310-1 - 310 - 5, the positive electrode 204 and the negative electrode 206 pass through the corresponding holes through the circuit board 7 。. Further, an electrolyte solution is injected into the gap between the positive electrode plate and the negative electrode plate of the battery unit 3〇4J_3〇4-6 through the corresponding holes 406__1 to 406_6. However, in comparison with the circuit board 400A, the circuit board (e.g., the printed circuit board 702) is fixed in the intermediate portion of the circuit board 700 except the area occupied by the holes 4?6_1_4?6_6. The printed circuit board 702 of the shaded area circuit board shown in ® 7 . In one embodiment, the "face connector 2" 8 is mounted on the printed circuit board 702. Further, solder holes 7?6-1_7?6-7 are formed (e.g., drilled) on the printed circuit board 7(). The soldering holes 706-1-706-7 are located near the channels corresponding to the electric bars 310_1-310_5, the positive electrode 204, and the negative electrode 2〇6. On the printed circuit board 702, the soldering holes are coupled to the corresponding pins of the scale 208 via the conductive paths, tracks or signal paths of the copper pads laminated on the non-conducting substrate. After the circuit board 700 is mounted on the battery 3〇2A, the electric bars 310J-310-5, the positive electrode 204 and the negative electrode 206 pass through the electric wires 704) 704^ between the electric bars and the holes and the corresponding welding holes 7〇6—the light is 7 Pick up. As described above, the soldering holes 706-1-706-7 are written to the corresponding pins _ via the conduction path, track or signal path on the printed circuit board 7〇2. The electric rods 3101-3310- 5 as the detecting unit detect the internal battery unit 3〇4—13〇4-6

S 25 201237446 恶，正極204和負極206表示電池302A的正極和負極。因 此铋測單元（例如，電棒310_1-310_5、正極204和負極 206)與耦接器208相應的引腳耦接。 在檢測單元（例如’電棒310_1-310一5、正極204和負 極2〇6)經由電線7〇4J_7〇4_7與耦接器細相應的引腳耦 接後，用蓋板密封電池302A。如圖2A所示，蓋板被密封住 除去電’也302A的正極204和負極206以及_接器208之外 的其他元件。 另外，其他檢測單元（例如，一個或多個熱敏電阻）可 肷在電池302A中’以檢測内部電池單元綱―的狀 態（例如’檢測電池單元綱上綱一6的溫度）。減器篇 相應的引腳與那㈣人式檢解元_，以接_些檢測單 兀的輸出。相似地’在電池302A被密封之前，在電池遍 中配置將那些檢測單元和_器鹰相應的引_接的搞接 電路，因此，在密封電池3G2A後，該祕電路也被密封。 在另一個實關巾，魏管理單元也可狀置在印刷電 路板7〇2上。檢測料（例如，電棒乳丨咖―$、正極綱 和負極挪）與電池管理單元_，並將表示電池地A的内 部電池單元陳態的檢騎果輪出給電池管理單元。電池其 202A的狀態。 26 201237446 此外，電池管理單元經由介面（例如，含有多個引腳的 耗接器）與外部裝置通信，且根據内部電池單元删丄3〇4_6 的狀態採取預設的措施，以防止内部電池單元删^綱^ 和電池202A損壞。在電池被密封後，電池管理單^和相關 的電路也被密封在電池中。 在另-個實施例中’可以修改電路板·，使其分別與 放在電池302D、302F和302G上的電路板彻E、4_和4祕 相匹配’ iUx如上所賴方式職焊接孔和排列電線。 圖8A所示為根據本發明的一個實施例的包含含有嵌入 式檢測單元的電池（例如，圖2A中的電池2〇2A或圖2C中 的電池202C)的應用系統800A的示意圖。圖8A結合圖2A， 圖2C’圖3A，圖3C’圖3D，圖3F和圖3G進行描述。 在應用系統800A中，電池202A或202C與電子裝置802 耦接，並為電子裝置802供電。此外，電池管理單元8〇4與 耗接裔208輕接，並監測内部電池單元304-1-304 6或 3Η_1-354一8和電池202A或202C的狀態，且採取預設的措 施’以防止内部電池單元304一1-304—6或354_1-354__8和電 池202A或202C損壞。 更具體地說，電池管理單元8〇4經由電纜806與耦接器 208的引腳耦接。因此，電池管理單元804經由與電池202A 或202C中嵌入式檢測單元（例如，電棒31〇_1-31〇_5，電棒S 25 201237446 Evil, positive electrode 204 and negative electrode 206 represent the positive and negative electrodes of battery 302A. Therefore, the sensing unit (e.g., the electric bars 310_1-310_5, the positive electrode 204, and the negative electrode 206) are coupled to the corresponding pins of the coupler 208. After the detecting unit (e.g., 'electric bars 310_1-310-5, positive electrode 204, and negative electrode 2〇6) are coupled to the pins of the coupler via wires 7〇4J_7〇4_7, the battery 302A is sealed with a cover. As shown in Fig. 2A, the cover plate is sealed to remove other elements other than the positive electrode 204 and the negative electrode 206 of the electric device 302A and the connector 208. In addition, other detection units (e.g., one or more thermistors) may be placed in the battery 302A to detect the state of the internal battery unit (e.g., 'detect the temperature of the battery unit). Subtractor The corresponding pin and the (4) human detection element _, to connect the output of the test 单. Similarly, before the battery 302A is sealed, a connection circuit for connecting the detection unit and the corresponding eagle is disposed in the battery, and therefore, after sealing the battery 3G2A, the secret circuit is also sealed. In another real towel, the Wei management unit can also be placed on the printed circuit board 7〇2. The test material (for example, the electric bar ― ― - $, the positive electrode and the negative electrode) and the battery management unit _, and the detection battery wheel indicating the internal battery unit of the battery ground A is sent out to the battery management unit. The battery has its 202A status. 26 201237446 In addition, the battery management unit communicates with an external device via an interface (for example, a multi-pin consumable), and preset measures are taken according to the state of the internal battery unit to remove 3〇4_6 to prevent internal battery cells. Delete the ^ and the battery 202A is damaged. After the battery is sealed, the battery management unit and associated circuitry are also sealed in the battery. In another embodiment, the board can be modified to match the boards E, 4, and 4 placed on the batteries 302D, 302F, and 302G, respectively. Arrange the wires. Figure 8A is a schematic illustration of an application system 800A including a battery containing an embedded detection unit (e.g., battery 2A2A in Figure 2A or battery 202C in Figure 2C), in accordance with one embodiment of the present invention. Figure 8A is described in conjunction with Figure 2A, Figure 2C' Figure 3A, Figure 3C' Figure 3D, Figure 3F and Figure 3G. In application system 800A, battery 202A or 202C is coupled to electronic device 802 and provides power to electronic device 802. In addition, the battery management unit 8〇4 is connected to the consumer 208, and monitors the status of the internal battery unit 304-1-304 6 or 3Η_1-354-8 and the battery 202A or 202C, and takes preset measures to prevent The internal battery unit 304- 1-304-6 or 354_1-354__8 and the battery 202A or 202C are damaged. More specifically, battery management unit 8〇4 is coupled to the pins of coupler 208 via cable 806. Therefore, the battery management unit 804 is connected to the embedded detection unit in the battery 202A or 202C (for example, the electric bar 31〇_1-31〇_5, the electric bar

S 27 201237446 358—1-358—7 或電棒 358_ia-358—7A 和電棒 358_1B_358J7B ) 輕接的耦接器208的相應引腳監測内部電池單元 3〇4_1-3〇4—6或354—1-354—8的狀態。在一個實施例令，電池 管理單元804透過計算檢測單元（例如，電棒31〇_131〇 $ , 電棒358一1-358—7或電棒358—1A-358—7A和電棒 358一 1B-358—7B )檢測到的内部電池單元3〇4—1-3〇4 6或 354—1、354—8的正極板和負極板之間的電壓差監測内部電池 單元304-1-304_6或354—1-354—8的電壓。如果電池管理單 兀804檢測到内部電池單元304-^304—6或354 1 $中 有一個電池單元的電壓大於預設閾值，則判定那個電池單元 發生異常狀況。因此，電池管理單元S04採取保護措施，以 防止電池單元損壞。 此外，電池管理單元804還經由與正極2〇4和負極2〇6 耦接的耦接器208相應的引腳監測電池2〇2a或2〇2c的狀 態。在一個實施例中，電池管理單元8〇4透過計算正極2〇4 和負極206處電池202A或202C的正極和負極之間的電壓差 監測電池202A或202C的電壓。如果電池管理單元8〇4檢測 到電池202A或202C的電壓大於預設閾值，則判定電池2〇2a 或202C發生異常狀況。因此，電池管理單元8〇4採取保護 措施’以防止電池202A或2〇2C損壞。 在一個貫施例中，電池管理單元8〇4嵌在電子裝置 28 201237446 電池管理單元804也可位於S 27 201237446 358—1-358—7 or electric bar 358_ia-358-7A and electric bar 358_1B_358J7B) The corresponding pin of the lightly coupled coupler 208 monitors the internal battery unit 3〇4_1-3〇4-6 or 354-1 The state of 354-8. In one embodiment, the battery management unit 804 passes through the calculation detection unit (eg, the electric bar 31〇_131〇$, the electric bar 3581-355-7 or the electric bar 358-1A-358-7A and the electric bar 358-1B-358). 7B) The detected voltage difference between the positive and negative plates of the internal battery unit 3〇4-1-3〇4 6 or 354-1, 354-8 monitors the internal battery unit 304-1-304_6 or 354-1 -354-8 voltage. If the battery management unit 804 detects that the voltage of one of the internal battery units 304-^304-6 or 354 1$ is greater than a preset threshold, it is determined that an abnormal condition has occurred in that battery unit. Therefore, the battery management unit S04 takes protective measures to prevent damage to the battery unit. Further, the battery management unit 804 monitors the state of the battery 2〇2a or 2〇2c via pins corresponding to the coupler 208 coupled to the positive electrode 2〇4 and the negative electrode 2〇6. In one embodiment, battery management unit 〇4 monitors the voltage of battery 202A or 202C by calculating the voltage difference between the positive and negative terminals of battery 202A or 202C at positive electrode 2〇4 and negative electrode 206. If the battery management unit 8〇4 detects that the voltage of the battery 202A or 202C is greater than a preset threshold, it is determined that the battery 2〇2a or 202C has an abnormal condition. Therefore, the battery management unit 8〇4 takes protective measures' to prevent damage to the battery 202A or 2〇2C. In one embodiment, the battery management unit 8〇4 is embedded in the electronic device. 28 201237446 The battery management unit 804 can also be located.

的類似的方式工作。 中。然而，在另一個實施例中， 電子裝置802的外部，且與電^! 在如圖8B所示另一個實施例的應用系統8_中，電池 官理單7C 804也可以配置和被密封在電池（例如池 202A，202B， 202C或2020D)中，以管理内部電池單元並 經由耦接器208與電子裝置8G2通信^舉例而言，電池管理 單兀804配置在電路板4〇〇A，4〇〇c，4_、4,，4·和 /或電路板700上。如上所述，電池管理單元8〇4接收來自於 嵌入式檢測單元（例如，電棒Siojjioj，電棒358 7 或電棒 358—1A-358_7A 和電棒 358_1B-358_7B )正極 204 和 負極206且表示内部電池單元和電池的狀態的檢測結果，並 根據檢測結果監測内部電池單元和電池的狀態。電池管理單 元804經由耦接器208的多個引腳將内部電池單元 304—1-304—6或354_1-354_8的狀態傳送給電子裝置802，進 而’採取預設的措施以防止内部電池單元304__1-304_6或 354—1-354—8 和電池 202A，202B，202C 或 202D 損壞。 29 201237446 圖9所示為根據本發明的一個實施例的製造電池（例 如圖2A中的電池2〇2A，圖2B中的電池2〇2丑，圖2c中 的電池2〇2C或圖2D中的電池202D)的方法流程圖9〇〇。 在步驟902中，電池中的隔離板隔離多個電池單元。在 乂驟904中，將作為正極板和負極板的兩個電板分別安妒在 母個電池單元的兩邊，並與相應的隔離板相鄰。在步驟9〇6 中’將電動杆（例如’鉛杆）減在每兩個相鄰的電'、也單_ 的相鄰電板之間，進而將多個電池單元串連起來。在步驟= 中將夕個檢測單元嵌在電池中，以檢測電池單元的狀‘能。 在個實知例中’作為檢測單元的電棒直接檢測柏應 元的狀態，例如檢測電池單 .,早 产m心 負極電壓和/或溫 在另一個實施例中，將作為檢測單元的電棒嵌在每個 ::::壓~電一狀態，，檢:： 在步驟91G中’將電路板安裝在電池上。在步驟9 接檢測單71和介面_接電路安裝在電路板上。在牛驟 914中，透過電路板上的孔將 在ッ驟 和負極板之間的液^電池單元的正極板 —貝極板之間的工隙中’然後，密封這些孔。在 密封電池’進而’將魏情去 ’ ， 之外的元倾㈣起來。〃的姊貞極以及介面 因此，本發明提供了一種含有嵌入式檢測單元的電池。 30 201237446 沾在於⑽入式檢測單元檢測電池的内部電池單元的狀 '、’由夕個介面輸出檢測結果。因此’無需在電池上額 外航’即可檢測内部電池單元的狀態。因此，保持了電池 的二正^ ’且避免電池受到雜質侵害。此外，由於沒有額外 、牛安·Ε在電池表面上，電池的尺寸和形狀與财技術中 的電池相似。因此，電池可用于現有技術巾的應用***中， 而無需改變咖含有絲設備的應用系統。 上文具體實施方式和關僅為本發明之常用實施例。顯 然’曰在不獅申請專娜騎界定的本發鴨神和發明範圍的 前提下可以有各種增補、修改和賴。本領域技術人員應該理 解’本發明在實際翻中可根據具體的環境和功要求在不背 離發明準_前提下在形式、結構、佈局、_、材料、元件、 轉及其它方面麵變彳卜因此，在輯露之實_僅說明而 非限制’本發明之翻由後附申請翻翻及其合法等同物界 定，而不限於此前之描述。 【圖式簡單說明】 圖1所示為現有技術的一種電池的示意圖； 圖2Α所示為根據本發明的一個實施例的含有嵌入式檢 測單元的電池的示意圖； 圖2Β所示為根據本發明的另一個實施例的含有嵌入式 檢測單元的電池的示意圖； 圖2C所示為根據本發明的另一個實施例的含有嵌入式 S" 31 201237446 檢測早元的電池的不意圖， 圖2D所示為根據本發明的另一個實施例的含有嵌入式 檢測早元的電池的不意圖， 圖3A所示為根據本發明的一個實施例的含有嵌入式檢 測單元的電池内部結構的示意圖； 圖3B所示為根據本發明的一個實施例的將檢測單元嵌 到電池中的示意圖； 圖3C所示為根據本發明的另一個實施例的含有嵌入式 檢測單元的電池内部結構的示意圖； 圖3D所示為根據本發明的另一個實施例的含有嵌入式 檢測早元的電池内部結構的不意圖， 圖3E所示為根據本發明的另一個實施例的將檢測單元 嵌到電池中的示意圖； 圖3F所示為根據本發明的另一個實施例的含有嵌入式 檢測早元的電池内部結構的不意圖， 圖3G所示為根據本發明的另一個實施例的含有嵌入式 檢測單元的電池内部結構的示意圖； 圖3H所示為根據本發明的另一個實施例的將檢測單元 嵌到電池中的示意圖； 圖4A所示為根據本發明的一個實施例的電路板的平面 不意圖， 圖4B所示為根據本發明的一個實施例的電路板的立體 不意圖， 圖4C所不為根據本發明的另一個貫施例的電路板的平 面示意圖； 32 201237446 圖4D所示為根據本發明的另一個實施例的電路板的平 面示意圖； 圖4E所示為根據本發明的另一個實施例的電路板的平 面示意圖； 圖4F所示為根據本發明的另一個實施例的電路板的平 面示意圖； 圖4G所示為根據本發明的另一個實施例的電路板的平 面示意圖； 圖5A所示為根據本發明的一個實施例的安裝在電池上 的電路板的示意圖； 圖5B所示為根據本發明的另一個實施例的安裴在電池 上的電路板的示意圖； 圖6A所示為根據本發明的一個實施例的電路板上電路 的方框圖； 圖6B所示為根據本發明的另一個實施例的電路板上電 路的方框圖； 圖6C所示為根據本發明的另一個實施例的電路板上電 路的方框圖； 圖6D所示為根據本發明的另一個實施例的電路板上電 路的方框圖； 圖7所示為根據本發明的另一個實施例的電路板的示竟 圖； 圖8A所示為根據本發明的一個實施例的包含含有嵌入 式檢測單元的電池的應職統示意圖； 圖8B所示為根據本發明的另一個實施例的包含含有嵌 33 201237446 入式檢測早兀的電池的應用糸統不意圖，以及 圖9所示為根據本發明的一個實施例的製造含有嵌入式 檢測單元的電池的方法流程圖。 【主要元件符號說明】 102 :電池 104_1〜104_5 :電池單元 202A :電池 202B :電池 202C :電池 202D :電池 204 :正極 206 :負極 208 :耦接器 210 :電纜 302A :電池 302C :電池 302D :電池 302F :電池 302G :電池 304_1〜304_6 :電池單元 306_1〜306_4 :負極板 308_1 :鉛酸杆 308_1’ ：電殼 310 1〜310 5 :電棒 34 201237446 312_1〜312_2 :隔離板 352_1〜352_2 :隔離板 354_1〜354_8 :電池單元 356_1 〜356_4 :電極 358_1 〜358_7 :電棒 358_1A〜358_7B :電棒 400A :電路板 400C :電路板 400E :電路板 400F :電路板Work in a similar way. in. However, in another embodiment, the exterior of the electronic device 802, and in the application system 8_ of another embodiment as shown in FIG. 8B, the battery official list 7C 804 can also be configured and sealed. A battery (e.g., pool 202A, 202B, 202C or 2020D) is used to manage the internal battery unit and communicate with the electronic device 8G2 via the coupler 208. For example, the battery management unit 804 is disposed on the circuit board 4A, 4 〇〇c, 4_, 4, 4, and/or on the circuit board 700. As described above, the battery management unit 8〇4 receives the positive electrode 204 and the negative electrode 206 from the embedded detecting unit (for example, the electric bar Siojjioj, the electric bar 358 7 or the electric bar 357-1A-358_7A and the electric bar 358_1B-358_7B) and represents the internal battery unit and The detection result of the state of the battery, and the state of the internal battery unit and the battery are monitored based on the detection result. The battery management unit 804 transmits the states of the internal battery cells 304-1 - 304-6 or 354_1 - 354_8 to the electronic device 802 via a plurality of pins of the coupler 208, thereby taking 'preemptive measures to prevent the internal battery cells 304__1 -304_6 or 354-1-354-8 and battery 202A, 202B, 202C or 202D are damaged. 29 201237446 FIG. 9 illustrates the fabrication of a battery (eg, battery 2〇2A in FIG. 2A, battery 2〇2 in FIG. 2B, battery 2〇2C in FIG. 2c or FIG. 2D) in accordance with an embodiment of the present invention. Method of Battery 202D) Flowchart 9〇〇. In step 902, a separator in the battery isolates the plurality of battery cells. In step 904, the two boards, which are the positive and negative plates, are mounted on each side of the parent cell and adjacent to the respective spacer. In step 9〇6, the electric rod (for example, the lead rod) is reduced between two adjacent electric boards, which are also adjacent to each other, and a plurality of battery units are connected in series. In step =, the detection unit is embedded in the battery to detect the shape of the battery unit. In a practical example, the electric bar as the detecting unit directly detects the state of the Bai Yingyuan, for example, detecting the battery bill. The premature m core negative voltage and/or temperature. In another embodiment, the electric bar as the detecting unit is embedded in Each::::pressure~electric one state, check:: In step 91G, 'install the board on the battery. In step 9, the test unit 71 and the interface-connected circuit are mounted on the circuit board. In the bobbin 914, the holes are passed through the holes in the circuit board between the positive and negative plates of the liquid cell between the step and the negative plate, and then the holes are sealed. In the sealed battery, the other elements are turned upside down. The present invention provides a battery with an embedded detection unit. 30 201237446 The result is that the (10) input detection unit detects the shape of the internal battery unit of the battery, and outputs the detection result by the interface. Therefore, the state of the internal battery unit can be detected without 'outside the battery'. Therefore, the battery's two positives are maintained and the battery is protected from impurities. In addition, since there is no extra, Niu An on the surface of the battery, the size and shape of the battery are similar to those in the financial technology. Therefore, the battery can be used in an application system of the prior art towel without changing the application system of the coffee-containing wire device. The above specific embodiments and aspects are merely common embodiments of the invention. Obviously, there are various additions, modifications, and remedies under the premise that the lion does not apply for the definition of the fascinating duck god and the scope of the invention. Those skilled in the art should understand that the present invention can be changed in form, structure, layout, _, material, component, transfer and other aspects according to the specific environment and work requirements without departing from the invention. Therefore, the disclosure of the invention is merely illustrative and not limiting, and the invention is not limited to the foregoing description. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view of a battery of the prior art; FIG. 2A is a schematic view of a battery including an embedded detecting unit according to an embodiment of the present invention; FIG. FIG. 2C is a schematic diagram of a battery including an embedded S" 31 201237446 detecting early element according to another embodiment of the present invention, as shown in FIG. 2D. 3A is a schematic diagram of an internal structure of a battery including an embedded detecting unit according to an embodiment of the present invention; FIG. 3B is a schematic view of a battery including an embedded detecting element according to another embodiment of the present invention; Shown as a schematic view of embedding a detecting unit in a battery according to an embodiment of the present invention; FIG. 3C is a schematic view showing the internal structure of a battery including an embedded detecting unit according to another embodiment of the present invention; In view of the intention of the internal structure of the battery including the embedded detection early element according to another embodiment of the present invention, FIG. 3E shows the present invention. A schematic diagram of another embodiment of embedding a detecting unit in a battery; FIG. 3F is a schematic view showing the internal structure of the battery including the embedded detecting element according to another embodiment of the present invention, and FIG. 3G is based on FIG. 3H is a schematic view showing the internal structure of a battery including an embedded detecting unit according to another embodiment of the present invention; FIG. 3H is a schematic view showing the mounting of the detecting unit in the battery according to another embodiment of the present invention; The plane of the circuit board of one embodiment of the present invention is not intended, FIG. 4B is a perspective view of a circuit board according to an embodiment of the present invention, and FIG. 4C is not a circuit according to another embodiment of the present invention. Figure 4D is a plan view of a circuit board in accordance with another embodiment of the present invention; Figure 4E is a plan view of a circuit board in accordance with another embodiment of the present invention; Figure 4F A schematic plan view of a circuit board according to another embodiment of the present invention; and FIG. 4G is a plan view of a circuit board according to another embodiment of the present invention. 5A is a schematic view of a circuit board mounted on a battery according to an embodiment of the present invention; FIG. 5B is a schematic view showing a circuit board mounted on a battery according to another embodiment of the present invention; Figure 6A is a block diagram of circuitry on a circuit board in accordance with one embodiment of the present invention; Figure 6B is a block diagram of circuitry on a circuit board in accordance with another embodiment of the present invention; Figure 6C is a block diagram of a circuit in accordance with the present invention; A block diagram of circuitry on a circuit board of another embodiment; FIG. 6D is a block diagram of circuitry on a circuit board in accordance with another embodiment of the present invention; FIG. 7 illustrates a circuit board in accordance with another embodiment of the present invention. FIG. 8A is a schematic diagram showing the application of a battery including an embedded detection unit according to an embodiment of the present invention; FIG. 8B is a diagram showing the inclusion of a mosaic 33 according to another embodiment of the present invention. The application of the battery for detecting early batteries is not intended, and FIG. 9 shows a method flow for manufacturing a battery including an embedded detecting unit according to an embodiment of the present invention. Cheng Tu. [Main component symbol description] 102: Battery 104_1 104104_5: Battery unit 202A: Battery 202B: Battery 202C: Battery 202D: Battery 204: Positive electrode 206: Negative electrode 208: Coupling 210: Cable 302A: Battery 302C: Battery 302D: Battery 302F: Battery 302G: Battery 304_1~304_6: Battery unit 306_1~306_4: Negative plate 308_1: Lead acid bar 308_1': Electric case 310 1~310 5: Electric bar 34 201237446 312_1~312_2: Isolation plate 352_1~352_2: Isolation plate 354_1 ~ 354_8 : Battery unit 356_1 ~ 356_4 : Electrode 358_1 ~ 358_7 : Electric bar 358_1A ~ 358_7B : Electric bar 400A : Circuit board 400C : Circuit board 400E : Circuit board 400F : Circuit board

400G ： 400F 404_1〜404_7 :孔 406_1〜406_6 :孔 454_1〜454—9 :孔 454_1A〜454_7B :孔 456」〜456_8 :孔 500A :電池 500B :電池 600A ··電池 600B :電池 600D :電池 604A_1 〜604A_7 :電線 654C_1 〜604C_8 :電線 700 :電路板 702 :印刷電路板 35 201237446 704_1〜704_7 :孔 706_1〜706_7 :焊接孔 800A :應用系統 800B :應用系統 802 :電子裝置 804 :電池管理單元 806 :電纜 900 :方法流程圖 902〜916 :步驟 36400G: 400F 404_1~404_7: Holes 406_1~406_6: Holes 454_1~454-9: Holes 454_1A~454_7B: Holes 456"~456_8: Hole 500A: Battery 500B: Battery 600A · Battery 600B: Battery 600D: Battery 604A_1 ~ 604A_7 : Wire 654C_1 to 604C_8 : Wire 700 : Circuit board 702 : Printed circuit board 35 201237446 704_1 to 704_7 : Holes 706_1 to 706_7 : Soldering hole 800A : Application system 800B : Application system 802 : Electronic device 804 : Battery management unit 806 : Cable 900 : Method Flowchart 902~916: Step 36

Claims (1)

201237446 201237446 七 申清專利範圍： L 一種電池，包含： :個電池單元，被多個隔離板隔離； I:檢測單元，與該多個電池單福接，並檢測該多 個電池單元的多個狀態；以及 個介面，與該多個檢測單元搞接，並接收來自 個檢測單元且表示該多個電池單元的該多個狀 i雷檢測結果，其中，在該電池被㈣後，該多 2 早""和該多個檢辦元被密封在該電池中。 2.如令請專利範圍第！項的電池，進一步包含： :電路板，透職多個檢測單元與該多㈣池單元輛 时電路板上包含將該至少—個介面與該多個檢測 的二_路，其中，在該電池被密封後， 該電路板被雄、封在該電池中。 I 項的電池，其中，該電路板上包 在忒電路板安裝在該多個電池單元 ’Μ透：該多個孔給該多個電池單元注入一電解 液，且在>认該電解液後，該多個 4.如申請專利範圍第1項的電池，其中;;亥至少一個八 面與該電池的一正極和一胃;| 雪㈣姑貞極輕接’並接收來自於該 電池的該正極和負極的一狀態資訊。 5·如申請專利範圍第丨項的電池，其。η 兀具有預設高度的多個電棒，以檢測該多個電、、也^早 的多個電壓。 乂夕1口电也早π 6.如申請專利範圍第1項的電池Ha: 37 S"· 201237446 多個電動杆’分別輕接在相鄰的電池早元之間5並將 該多個電池單元串聯。 7. 如申請專利範圍第6項的電池，其中，該多個檢測單 元包含彼在該多個電動杆中的多個電棒，以檢測該多 個電池單元的多個電壓。 8. 如申請專利範圍第1項的電池，其中，該介面包含一 耦接器，該耦接器包含多個引腳，該多個引腳分別與 該多個檢測單元耦接，以接收該多個檢測結果。 9. 如申請專利範圍第1項的電池，其中，該多個檢測單 元包含至少一個熱敏電阻，以檢測該多個電池單元的 至少一個溫度。 10. 如申請專利範圍第1項的電池，進一步包含：一電池 管理單元接收來自於該至少一個介面的該多個檢測結 果，並根據該多個檢測結果採取對應的預設措施。 11. 一種電池製造方法，包含： 由至少一隔離板將一電池中的多個電池單元隔離； 將多個檢測單元嵌在該電池中，以檢測該多個電池單 元的多個狀態； 透過與該多個檢測單元耦接的一介面輸出自該多個檢 測單元且表示該多個電池單元的該多個狀態的多個檢 測結果；以及 將該多個電池單元和該多個檢測單元密封在該電池 中。 12. 如申請專利範圍第11項的電池製造方法，進一步包 含： 38 201237446 將一電路板安裝在該多個電池單元上； 在該電路板上設置將該介面與該多個檢測單元耦接的 一耦接電路；以及 將該電路板密封在該電池中。 13. 如申請專利範圍第12項的電池製造方法，進一步包 含： 在該電路板安裝在該多個電池單元上後，透過該電路 板上的多個孔給該多個電池單元注入一電解液；以及 在注入該電解液後，密封該多個孔。 14. 如申請專利範圍第11項的電池製造方法，進一步包 含： 透過將該介面與該電池的一正極和一負極耦接，以輸 出表示該電池的該多個狀態的該多個檢測結果。 15. 如申請專利範圍第11項的電池製造方法，其中，該多 個檢測單元具有預設高度的多個電棒，並檢測該多個 電池的多個電壓。 16. 如申請專利範圍第11項的電池製造方法，進一步包 含： 透過多個電動杆耦接該多個電池單元中相鄰的電池單 元，以串聯該多個電池單元。 17. 如申請專利範圍第16項的電池製造方法，其中，將該 多個檢測單元嵌在該電池中的步驟進一步包含： 將多個電棒嵌在該多個電動杆中，以檢測該多個電池 單元的多個電壓。 18. 如申請專利範圍第11項的電池製造方法，其中，輸出 S 39 201237446 多個檢測結果的步：:包二的該多個狀 接器的多個引腳輪出來自於該多 果该多個電池單元的該多個狀態的該多個檢:: 19· 11項的電池製造方法，其中，_ 將至小測早疋嵌在該電池中的步驟進一步包含：^ 池單二在該電池中，以檢測該多個電 2〇· 一種電池系統，包含： ，至少一隔離板隔開的多個電池 ί個==多：：剛單元與該多個電池單元輕 —n亥夕個電池早兀的多個狀態；以及 ⑶::單=:個:_接，並接收來 狀態的多個檢=果該多個 應的措施， 根據泫多個檢測結果採取對 二中，該電池管理單元經由一介面與一外部裳置通 電池被密封後’該電池單元、該檢測單元和 -電池官理單元被密封在該電池中。 =申睛專利範圍第2G項的電池系統，進—步包含. =路板，安裝在該多個電池單元上，該電路板上 :轉該電池管料元㈣乡個㈣單 :路以及將該電池管理單元和該介面叙接的IS ，在該電池被密職，該電魏被密封在該電池中。 40 201237446 22. 如申請專利範圍第21項的電池系統，其中，該電路板 上包含多個孔，在該電路板安裝在該多個電池單元上 後，透過該多個孔給該多個電池單元注入一電解液， 其中，在注入該電解液後，該多個孔被密封。 23. 如申請專利範圍第20項的電池系統，其中，該多個檢 測早元具有預設面度的多個電棒，並檢測該多個電池 單元的多個電壓。 24. 如申請專利範圍第20項的電池系統，進一步包含： 多個電動杆，分別耦接在相鄰的該多個電池單元之 間，將該多個電池早元串聯。 25. 如申請專利範圍第24項的電池系統，其中，該多個檢 測單元包含嵌在該多個電動杆中的多個電棒，以檢測 該多個電池單元的多個電壓。 26. 如申請專利範圍第20項的電池系統，其中，該檢測單 元進一步包含至少一個熱敏電阻，以檢測該多個電池 單元的至少一個溫度。 41201237446 201237446 Qi Shenqing Patent Range: L A battery comprising: a battery unit, isolated by a plurality of isolation plates; I: a detection unit, connected to the plurality of batteries, and detecting a plurality of the plurality of battery units a state, and an interface, is connected to the plurality of detecting units, and receives the plurality of detected i-ray detection results from the detecting unit and the plurality of battery units, wherein after the battery is (four), the multiple 2 Early "" and the plurality of inspectors are sealed in the battery. 2. If you order the patent scope! The battery of the item further comprises: a circuit board, the plurality of detecting units and the plurality of (four) pool units, the circuit board comprising the at least one interface and the plurality of detected two-way, wherein the battery After being sealed, the board is sturdy and sealed in the battery. The battery of item I, wherein the circuit board is packaged on the plurality of battery cells mounted on the plurality of battery cells: the plurality of holes injects an electrolyte into the plurality of battery cells, and the electrolyte is recognized in the > After the plurality of 4. The battery of the first item of claim 1, wherein; at least one of the eight sides with a positive electrode of the battery and a stomach; | snow (four) aunt is extremely lightly connected and receives from the battery A status information of the positive and negative electrodes. 5. If the battery of the scope of the patent application is applied, it shall be. η 兀 A plurality of electric bars having a preset height to detect a plurality of voltages of the plurality of electric, and early.乂 1 1 mouth electricity is also early π 6. As in the patent scope of the first item of the battery Ha: 37 S"· 201237446 multiple electric rods respectively lightly connected between the adjacent battery early 5 and the multiple batteries The units are connected in series. 7. The battery of claim 6, wherein the plurality of test cells comprise a plurality of electrical bars of the plurality of power rods to detect a plurality of voltages of the plurality of battery cells. 8. The battery of claim 1, wherein the interface comprises a coupler, the coupler comprising a plurality of pins respectively coupled to the plurality of detection units to receive the Multiple test results. 9. The battery of claim 1, wherein the plurality of detection units comprise at least one thermistor to detect at least one temperature of the plurality of battery cells. 10. The battery of claim 1, further comprising: a battery management unit receiving the plurality of detection results from the at least one interface, and taking corresponding preset measures according to the plurality of detection results. 11. A method of manufacturing a battery, comprising: isolating a plurality of battery cells in a battery by at least one isolation panel; embedding a plurality of detection units in the battery to detect a plurality of states of the plurality of battery cells; An interface coupled to the plurality of detecting units is outputted from the plurality of detecting units and represents a plurality of detecting results of the plurality of states of the plurality of battery cells; and sealing the plurality of battery cells and the plurality of detecting units In the battery. 12. The battery manufacturing method of claim 11, further comprising: 38 201237446 installing a circuit board on the plurality of battery cells; and disposing the interface on the circuit board and coupling the plurality of detecting units a coupling circuit; and sealing the circuit board in the battery. 13. The method of manufacturing a battery according to claim 12, further comprising: after the circuit board is mounted on the plurality of battery cells, injecting an electrolyte into the plurality of battery cells through a plurality of holes in the circuit board And sealing the plurality of holes after injecting the electrolyte. 14. The battery manufacturing method of claim 11, further comprising: coupling the interface to a positive electrode and a negative electrode of the battery to output the plurality of detection results indicating the plurality of states of the battery. 15. The method of manufacturing a battery according to claim 11, wherein the plurality of detecting units have a plurality of electric bars of a predetermined height, and detecting a plurality of voltages of the plurality of batteries. 16. The battery manufacturing method of claim 11, further comprising: coupling adjacent ones of the plurality of battery cells through a plurality of electric levers to connect the plurality of battery cells in series. 17. The method of manufacturing a battery according to claim 16, wherein the step of embedding the plurality of detecting units in the battery further comprises: embedding a plurality of electric rods in the plurality of electric rods to detect the plurality of electric rods Multiple voltages of the battery unit. 18. The method of manufacturing a battery according to claim 11, wherein the step of outputting the plurality of detection results of S 39 201237446: the plurality of pins of the plurality of connectors of the package 2 are from the multi-fruit The plurality of inspections of the plurality of states of the battery unit: the battery manufacturing method of the item 19:11, wherein the step of embedding the small measurement into the battery further comprises: In order to detect the plurality of electric batteries, a battery system includes: a plurality of batteries separated by at least one partition plate = == multiple:: a rigid unit and the plurality of battery units are light-n Multiple states early; and (3):: single =: one: _, and receive multiple checks of the status = the multiple measures that should be taken according to the multiple test results, the battery management After the unit is sealed with an external battery through an interface, the battery unit, the detection unit and the battery unit are sealed in the battery. = The battery system of the 2G item of the patent scope, the step-by-step includes: = road board, installed on the plurality of battery units, the circuit board: the battery tube material element (four) township (four) single: road and will The battery management unit and the interface-associated IS are in the battery, and the battery is sealed in the battery. The battery system of claim 21, wherein the circuit board includes a plurality of holes, and after the circuit board is mounted on the plurality of battery cells, the plurality of batteries are given through the plurality of holes The unit is injected with an electrolyte, wherein the plurality of holes are sealed after the electrolyte is injected. 23. The battery system of claim 20, wherein the plurality of detecting elements have a plurality of electric bars of a predetermined face and detecting a plurality of voltages of the plurality of battery cells. 24. The battery system of claim 20, further comprising: a plurality of electric levers coupled between adjacent ones of the plurality of battery cells, the plurality of batteries being connected in series. 25. The battery system of claim 24, wherein the plurality of detection units comprise a plurality of electrical bars embedded in the plurality of motorized rods to detect a plurality of voltages of the plurality of battery cells. 26. The battery system of claim 20, wherein the detecting unit further comprises at least one thermistor to detect at least one temperature of the plurality of battery cells. 41