JP2018064408A - Battery pack and charging plug - Google Patents

Battery pack and charging plug Download PDF

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JP2018064408A
JP2018064408A JP2016202278A JP2016202278A JP2018064408A JP 2018064408 A JP2018064408 A JP 2018064408A JP 2016202278 A JP2016202278 A JP 2016202278A JP 2016202278 A JP2016202278 A JP 2016202278A JP 2018064408 A JP2018064408 A JP 2018064408A
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connection terminal
battery
parallel connection
terminal
pole
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JP6750445B2 (en
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裕人 佐藤
Hiroto Sato
裕人 佐藤
正彰 鈴木
Masaaki Suzuki
正彰 鈴木
西垣 研治
Kenji Nishigaki
研治 西垣
筒井 雄介
Yusuke Tsutsui
雄介 筒井
俊雄 小田切
Toshio Odagiri
俊雄 小田切
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Toyota Industries Corp
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Toyota Industries Corp
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E60/00Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
    • Y02E60/10Energy storage using batteries

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Abstract

PROBLEM TO BE SOLVED: To provide a battery pack with which it is possible to mechanically switch the connection relation of secondary batteries by wiring in the battery pack.SOLUTION: A battery pack 1 is configured by including: first and second batteries B, B; a first parallel connection terminal Tconnected to one pole of the first battery B; a first series connection terminal Tand a second parallel connection terminal Tconnected to the other pole; a second series connection terminal Tand a third parallel connection terminal Tconnected to one pole of the second battery B; a fourth parallel connection terminal Tconnected to the other pole; first to third jumper wires J-J; a separation component 11 for separating the second jumper wire Jfrom the first and third parallel connection terminals T, Tand the third jumper wire Jfrom the second and fourth parallel connection terminals T, T; and a movable component 12 for moving the jumper wire Jconnected to the first and second series connection terminals T, Tand the separation component 11.SELECTED DRAWING: Figure 1

Description

本発明は、電池パック及び充電プラグに関する。   The present invention relates to a battery pack and a charging plug.

電池パックに含まれる複数の二次電池の接続関係を電池パックに接続されたプラグ内の配線によって切り替える技術が知られている。例えば、特許文献1を参照。
また、関連する技術として、充電器が接続されると、直列接続されていた複数の二次電池が相互に切り離される電池パックが知られている。例えば、特許文献2を参照。 A technique is known in which the connection relationship between a plurality of secondary batteries included in a battery pack is switched by wiring in a plug connected to the battery pack. See, for example, US Pat.
As a related technique, a battery pack is known in which a plurality of secondary batteries connected in series are disconnected from each other when a charger is connected. See, for example, US Pat.

特開昭64−24370号公報JP-A 64-24370 特開2009−72059号公報JP 2009-72059 A

しかしながら、複数の二次電池の接続関係をプラグ内の配線によって切り替える上述の技術では、複数の二次電池夫々の正極端子又は負極端子に接続する各電力線をプラグ内に延伸する必要がある。この結果、電池パックとプラグとを繋ぐ接続端子の数が増加し、接続端子に物が触れてショートや漏電等の不具合が発生する虞が増加する。   However, in the above-described technique for switching the connection relationship of the plurality of secondary batteries by the wiring in the plug, it is necessary to extend each power line connected to the positive terminal or the negative terminal of each of the plurality of secondary batteries into the plug. As a result, the number of connection terminals connecting the battery pack and the plug increases, and there is an increased possibility that an object touches the connection terminal and causes a problem such as a short circuit or leakage.

本発明の一側面に係る目的は、電池パック内の配線によって二次電池の接続関係を機械的に切り替えられる電池パックを提供することである。   The objective which concerns on one side of this invention is to provide the battery pack which can switch the connection relationship of a secondary battery mechanically by the wiring in a battery pack.

本発明に係る一つの形態である電池パックは、第1の電池及び第2の電池を含む。また、電池パックは、第1の並列接続端子、第2の並列接続端子、第3の並列接続端子、第4の並列接続端子、第1の直列接続端子、及び第2の直列接続端子を含む。さらに、電池パックは、第1のジャンパ線、第2のジャンパ線、第3のジャンパ線、切り離し部品、及び可動部品を含む。   A battery pack according to one embodiment of the present invention includes a first battery and a second battery. The battery pack includes a first parallel connection terminal, a second parallel connection terminal, a third parallel connection terminal, a fourth parallel connection terminal, a first series connection terminal, and a second series connection terminal. . Further, the battery pack includes a first jumper line, a second jumper line, a third jumper line, a separation part, and a movable part.

第1の並列接続端子は第1の電池の一方の極に接続され、第1の直列接続端子及び第2の並列接続端子は第1の電池の他方の極に接続されている。第2の直列接続端子及び第3の並列接続端子は第2の電池の一方の極に接続され、第4の並列接続端子は第2の電池の他方の極に接続されている。   The first parallel connection terminal is connected to one pole of the first battery, and the first series connection terminal and the second parallel connection terminal are connected to the other pole of the first battery. The second series connection terminal and the third parallel connection terminal are connected to one pole of the second battery, and the fourth parallel connection terminal is connected to the other pole of the second battery.

第1のジャンパ線は、第1の直列接続端子と第2の直列接続端子とに接続される。第2のジャンパ線は、第1の並列接続端子と第3の並列接続端子とに接続される。第3のジャンパ線は、第2の並列接続端子と第4の並列接続端子とに接続される。   The first jumper line is connected to the first series connection terminal and the second series connection terminal. The second jumper line is connected to the first parallel connection terminal and the third parallel connection terminal. The third jumper line is connected to the second parallel connection terminal and the fourth parallel connection terminal.

切り離し部品は、第2のジャンパ線を第1の並列接続端子及び第3の並列接続端子から切り離し、第3のジャンパ線を第2の並列接続端子及び第4の並列接続端子から切り離す。可動部品は、第1のジャンパ線及び切り離し部品を移動させる。   The disconnecting part disconnects the second jumper line from the first parallel connection terminal and the third parallel connection terminal, and disconnects the third jumper line from the second parallel connection terminal and the fourth parallel connection terminal. The movable part moves the first jumper line and the separation part.

一実施形態に従った電池パックによれば、電池パック内の配線によって二次電池の接続関係を機械的に切り替えることができる。   According to the battery pack according to the embodiment, the connection relationship of the secondary batteries can be mechanically switched by wiring in the battery pack.

実施形態に従った電池パック、並びに該電池パックに接続される放電プラグ及び充電プラグの構成例を示す図である。It is a figure which shows the structural example of the battery pack according to embodiment, and the discharge plug and charge plug which are connected to this battery pack.

以下図面に基づいて実施形態について詳細を説明する。
図1は、実施形態に従った電池パック、並びに該電池パックに接続される放電プラグ及び充電プラグの構成例を示す図である。図1に示す一例では、電池パック1は、第1の電池B及び第2の電池Bを含む。また、電池パック1は、第1の並列接続端子TP1、第2の並列接続端子TP2、第3の並列接続端子TP3、第4の並列接続端子TP4、第1の直列接続端子TD1、第2の直列接続端子TD2、第1の外部端子TO1、及び第2の外部端子TO2を含む。さらに、電池パック1は、第1のジャンパ線J、第2のジャンパ線J、第3のジャンパ線J、切り離し部品11、及び可動部品12を含む。 Hereinafter, embodiments will be described in detail with reference to the drawings.
FIG. 1 is a diagram illustrating a configuration example of a battery pack according to an embodiment, and a discharge plug and a charge plug connected to the battery pack. In the example illustrated in FIG. 1, the battery pack 1 includes a first battery B 1 and a second battery B 2 . In addition, the battery pack 1 includes a first parallel connection terminal T P1 , a second parallel connection terminal T P2 , a third parallel connection terminal T P3 , a fourth parallel connection terminal T P4 , and a first series connection terminal T. D1 , a second series connection terminal T D2 , a first external terminal T O1 , and a second external terminal T O2 . Further, the battery pack 1 includes a first jumper line J 1 , a second jumper line J 2 , a third jumper line J 3 , a separation part 11, and a movable part 12.

第1の電池B及び第2の電池Bは、例えば、鉛蓄電池、リチウムイオン電池、又はリチウムイオンキャパシタといった1つ以上の二次電池セルである。
第1の並列接続端子TP1は第1の電池Bの一方の極(図1では正極)に接続され、第2の並列接続端子TP2は第1の電池Bの他方の極(図1では負極)に接続されている。第3の並列接続端子TP3は第2の電池Bの一方の極(図1では正極)に接続され、第4の並列接続端子TP4は第2の電池Bの他方の極(図1では負極)に接続されている。 The first battery B 1 and the second battery B 2 are one or more secondary battery cells such as a lead storage battery, a lithium ion battery, or a lithium ion capacitor, for example.
The first parallel connection terminals T P1 is connected to a first one pole of the battery B 1 (in FIG. 1 positive), the second parallel connection terminals T P2 first battery B 1 of the other pole (Fig. 1 is connected to the negative electrode). The third parallel connection terminals T P3 of being connected to a second one pole of the battery B 2 (in FIG. 1 positive), the parallel connection terminals T P4 of the fourth second battery B 2 of the other pole (Fig. 1 is connected to the negative electrode).

第1の並列接続端子TP1、第2の並列接続端子TP2、第3の並列接続端子TP3、及び第4の並列接続端子TP4は、第1の電池B及び第2の電池Bが並列に接続される場合に用いられる。具体的には、第1の電池B及び第2の電池Bが並列接続される場合、第1の並列接続端子TP1と第3の並列接続端子TP3とは、第2のジャンパ線Jを介して接続される。また、第2の並列接続端子TP2と第4の並列接続端子TP4とは、第3のジャンパ線Jを介して接続される。 The first parallel connection terminal T P1 , the second parallel connection terminal T P2 , the third parallel connection terminal T P3 , and the fourth parallel connection terminal T P4 are the first battery B 1 and the second battery B. Used when 2 are connected in parallel. Specifically, if the first battery B 1 and the second battery B 2 are connected in parallel, a first parallel connection terminals T P1 and the third parallel connection terminals T P3, a second jumper wire It is connected via a J 2. In addition, the second parallel connection terminal TP2 and the fourth parallel connection terminal TP4 are connected via a third jumper line J3.

第1の直列接続端子TD1は第1の電池Bの他方の極(図1では負極)に接続され、第2の直列接続端子TD2は、第2の電池Bの一方の極(図1では正極)に接続されている。 The first series connection terminals T D1 is connected to the first battery B 1 of the other pole (in FIG. 1 negative), a second series connection terminals T D2, the second one pole of the battery B 2 ( In FIG. 1, it is connected to the positive electrode).

第1の直列接続端子TD1及び第2の直列接続端子TD2は、第1の電池B及び第2の電池Bを直列に接続するために用いられる。具体的には、第1の電池B及び第2の電池Bが直列接続される場合、第1の直列接続端子TD1と第2の直列接続端子TD2とは、第1のジャンパ線Jを介して接続される。 First series connection terminals T D1 and second series connection terminals T D2 is used to connect the first battery B 1 and the second battery B 2 in series. Specifically, if the first battery B 1 and the second battery B 2 are connected in series, the first series connection terminals T D1 and the second series connection terminals T D2, the first jumper wire It is connected via J 1.

第1の外部端子TO1は第1の電池Bの一方の極(図1では正極)に接続され、第2の外部端子TO2は第2の電池Bの他方の極(図1では負極)に接続されている。
第1の外部端子TO1及び第2の外部端子TO2は、放電プラグ2を通じて第1の電池B及び第2の電池Bから負荷(不図示)に放電する場合に用いられる。具体的には、第1の電池B及び第2の電池Bが負荷に放電する場合、第1の外部端子TO1は、放電プラグ2の一方の極(図1では正極)の放電端子TDC1に接続される。また、第2の外部端子TO2は、放電プラグ2の他方の極(図1では負極)の放電端子TDC2に接続される。 The first external terminal T O1 is connected to a first one pole of the battery B 1 (in FIG. 1 positive), the second external terminal T O2 in the other pole (Fig. 1 of the second battery B 2 Negative electrode).
First external terminal T O1 and the second external terminal T O2 is used when discharged through the discharge plug 2 from the first battery B 1 and the second battery B 2 to the load (not shown). Specifically, if the first battery B 1 and the second battery B 2 is discharged to a load, a first external terminal T O1, the discharge terminal of one pole of the discharge plug 2 (in FIG. 1 positive) Connected to TDC1 . The second external terminal T O2 is connected to the discharge terminal T DC2 of the other pole of the discharge plug 2 (in FIG. 1 negative).

また、第1の外部端子TO1及び第2の外部端子TO2は、充電プラグ3を通じて充電器(不図示)が第1の電池B及び第2の電池Bを充電する場合に用いられる。具体的には、充電器が第1の電池B及び第2の電池Bを充電する場合、第1の外部端子TO1は、充電プラグ3の一方の極(図1では正極)の充電端子TC1に接続される、また、第2の外部端子TO2は、充電プラグ2の他方の極(図1では負極)の充電端子TC2に接続される。 The first external terminal T O1 and the second external terminal T O2 is used when a charger (not shown) to charge the first battery B 1 and the second battery B 2 through charge plug 3 . Specifically, when the charger charges the first battery B 1 and the second battery B 2 , the first external terminal TO 1 is charged on one electrode (positive electrode in FIG. 1) of the charging plug 3. is connected to the terminal T C1, also, a second external terminal T O2 is connected to the charging terminal T C2 of the other pole of the charging plug 2 (in FIG. 1 negative).

第1のジャンパ線Jは、第1の電池B及び第2の電池Bが直列接続される場合に、第1の直列接続端子TD1と第2の直列接続端子TD2とに接続される。第2のジャンパ線Jは、第1の電池B及び第2の電池Bが並列接続される場合に、第1の並列接続端子TP1と第3の並列接続端子TP3とに接続される。第3のジャンパ線Jは、第1の電池B及び第2の電池Bが並列接続される場合に、第2の並列接続端子TP2と第4の並列接続端子TP4とに接続される。 First jumper line J 1, when the first battery B 1 and the second battery B 2 are connected in series, connected in a first series connection terminals T D1 and the second series connection terminals T D2 Is done. The second jumper line J 2, when the first battery B 1 and the second battery B 2 are connected in parallel, connected to the first parallel connection terminals T P1 and the third parallel connection terminals T P3 Is done. Third jumper line J 3, when the first battery B 1 and the second battery B 2 are connected in parallel, connected to the second parallel connection terminals T P2 and fourth parallel connection terminals T P4 Is done.

切り離し部品11は、第2のジャンパ線Jを第1の並列接続端子TP1及び第3の並列接続端子TP3から切り離し、第3のジャンパ線Jを第2の並列接続端子TP2及び第4の並列接続端子TP4から切り離すように作動する。 Disconnecting parts 11, a second jumper line J 2 separated from the first parallel connection terminals T P1 and third parallel connection terminals T P3, the third jumper wire J 3 second parallel connection terminals T P2 and It operates so as to be disconnected from the fourth parallel connection terminal TP4 .

第1のジャンパ線J及び切り離し部品11は可動部品12に固着される。なお、図1に示すように、切り離し部品11は、バネ等の弾性部品13を介して可動部品12に固着されてもよい。 The first jumper line J 1 and the separation part 11 are fixed to the movable part 12. As shown in FIG. 1, the separation component 11 may be fixed to the movable component 12 via an elastic component 13 such as a spring.

図1(A)に示した構成例では、可動部品12は、第1の外部端子TO1と第2の外部端子TO2とが設けられた表面と同じ表面内に設けられ、該表面から電池パック1の内部方向に移動可能に設けられる。 In the configuration example shown in FIG. 1A, the movable component 12 is provided in the same surface as the surface on which the first external terminal T O1 and the second external terminal T O2 are provided. It is provided so as to be movable in the inner direction of the pack 1.

また、図1(A)に示した構成例では、可動部品12は、第1の直列接続端子TD1及び第2の直列接続端子TD2を電池パック1の内部に物理的に遮蔽する。即ち、第1の直列接続端子TD1、第2の直列接続端子TD2、及び第1のジャンパ線Jは、可動部品12の表面よりも内側(稼動部品12の表面から見て放電プラグ2または充電プラグ3とは反対側)にある。第1の直列接続端子TD1及び第2の直列接続端子TD2が外部から接触できないように物理的に遮蔽されることで、第1の直列接続端子TD1及び第2の直列接続端子TD2に物が触れてショートや漏電したりする虞をなくすことができる。 1A, the movable component 12 physically shields the first series connection terminal TD1 and the second series connection terminal TD2 from the inside of the battery pack 1. That is, the first series connection terminal T D1 , the second series connection terminal T D2 , and the first jumper wire J 1 are located on the inner side of the surface of the movable part 12 (when viewed from the surface of the working part 12, the discharge plug 2 Or on the opposite side of the charging plug 3). The first series connection terminal TD1 and the second series connection terminal TD2 are physically shielded so that the first series connection terminal TD1 and the second series connection terminal TD2 cannot be contacted from the outside. It is possible to eliminate the possibility of a short circuit or leakage due to an object touching.

可動部品12は、第1の外部端子TO1及び第2の外部端子TO1が未接続の場合に定位置に配置される。また、図1(A)に示すように、第1の外部端子TO1が一方の極の放電端子TDC1に接続され、第2の外部端子TO2が他方の極の放電端子TDC2に接続された場合、可動部品12は定位置に配置される。すなわち、可動部品12は、電池パック1に接続された放電プラグ2の任意の部分によって移動させられない。ただし、第1の外部端子TO1が一方の極の放電端子TDC1に接続され、第2の外部端子TO2が他方の極の放電端子TDC2に接続される場合、可動部品12は、第1のジャンパ線Jが第1の直列接続端子TD1と第2の直列接続端子TD2とに接続されない程度まで移動させられてもよい。 The movable component 12 is disposed at a fixed position when the first external terminal T O1 and the second external terminal T O1 are not connected. Further, as shown in FIG. 1A, the first external terminal T O1 is connected to the discharge terminal T DC1 of one pole, and the second external terminal T O2 is connected to the discharge terminal T DC2 of the other pole. In such a case, the movable part 12 is placed at a fixed position. That is, the movable part 12 is not moved by any part of the discharge plug 2 connected to the battery pack 1. However, when the first external terminal T O1 is connected to the discharge terminal T DC1 of one pole and the second external terminal T O2 is connected to the discharge terminal T DC2 of the other pole, 1 jumpers J 1 may be moved to the extent which is not connected to the first series connection terminals T D1 and the second series connection terminals T D2.

可動部品12が定位置に配置されている場合、第1のジャンパ線Jは第1の直列接続端子TD1及び第2の直列接続端子TD2から切り離され、切り離し部品11は作動しない。切り離し部品11が作動しない場合、第2のジャンパ線Jは第1の並列接続端子TP1及び第3の並列接続端子TP3に接続され、第3のジャンパ線Jは第2の並列接続端子TP2及び第4の並列接続端子TP4に接続される。この結果、第1の電池B及び第2の電池Bの夫々の一方の端子(図1では正極端子)は、第1の並列接続端子TP1、第2のジャンパ線J、及び第3の並列接続端子TP3を介して相互に接続される。また、第1の電池B及び第2の電池Bの夫々の他方の端子(図1では負極端子)は、第2の並列接続端子TP2、第3のジャンパ線J、及び第4の並列接続端子TP4を介して相互に接続される。したがって、第1の電池B及び第2の電池Bは並列に接続される。 When the movable part 12 is arranged in position, the first jumper line J 1 is disconnected from the first series connection terminals T D1 and second series connection terminals T D2, disconnecting parts 11 does not operate. If a detach part 11 does not operate, the second jumper line J 2 is connected to the first parallel connection terminals T P1 and third parallel connection terminals T P3, the third jumper line J 3 a second parallel connection The terminal TP2 and the fourth parallel connection terminal TP4 are connected. As a result, one terminal (the positive terminal in FIG. 1) of each of the first battery B 1 and the second battery B 2 is the first parallel connection terminal T P1 , the second jumper line J 2 , and the second battery B 2 . Are connected to each other via three parallel connection terminals TP3 . The other terminals (the negative terminal in FIG. 1) of each of the first battery B 1 and the second battery B 2 are the second parallel connection terminal T P2 , the third jumper line J 3 , and the fourth terminal. Are connected to each other via parallel connection terminals TP4 . Thus, the first battery B 1 and the second battery B 2 are connected in parallel.

並列接続された複数の二次電池は、単一の二次電池と比較して長時間に渡って所定の電圧を負荷に供給することができる。
一方、図1(B)に示すように、第1の外部端子TO1が一方の極の充電端子TC1に接続され、第2の外部端子TO2が他方の極の充電端子TC2に接続された場合、可動部品12は、充電プラグ3の駆動部31によって移動させられる。駆動部31によって可動部品12が移動させられると、可動部品12は、第1のジャンパ線J及び切り離し部品11を移動させる。 The plurality of secondary batteries connected in parallel can supply a predetermined voltage to the load for a long time compared to a single secondary battery.
On the other hand, as shown in FIG. 1B, the first external terminal T O1 is connected to the charging terminal T C1 of one pole, and the second external terminal T O2 is connected to the charging terminal T C2 of the other pole. In this case, the movable component 12 is moved by the drive unit 31 of the charging plug 3. When the movable part 12 is moved by the drive unit 31, the movable part 12 moves the first jumper line J 1 and the separation part 11.

図1(B)に示す構成例では、駆動部31は、一方の極の充電端子TC1と他方の極の充電端子TC2とが設けられた表面から充電プラグ3の外部へ突出した凸部である。第1の外部端子TO1が一方の極の充電端子TC1に接続され、第2の外部端子TO2が他方の極の充電端子TC2に接続されると、駆動部31は、電池パック1の内部方向へ可動部品12を押し込む。駆動部31によって可動部品12が押し込まれると、可動部品12は、第1のジャンパ線J及び切り離し部品11を電池パック1の内部方向に押し込む。 In the configuration example shown in FIG. 1 (B), the drive unit 31 has a protruding portion that protrudes to the outside of the charging plug 3 from the surface where the charging terminal T C1 of one pole and the charging terminal T C2 of the other pole are provided. It is. When the first external terminal T O1 is connected to the charging terminal T C1 of one polarity, the second external terminal T O2 is connected to the charging terminal T C2 of the other pole, the drive unit 31, the battery pack 1 The movable part 12 is pushed in the inner direction. When the movable part 12 is pushed by the drive unit 31, the movable part 12 pushes the first jumper wire J 1 and the separation part 11 toward the inside of the battery pack 1.

第1のジャンパ線J及び切り離し部品11が可動部品12により移動させられた場合、第1のジャンパ線Jは、第1の直列接続端子TD1及び第2の直列接続端子TD2に接続される。また、切り離し部品11は、作動して、第2のジャンパ線Jを第1の並列接続端子TP1及び第3の並列接続端子TP3から切り離し、第3のジャンパ線Jを第2の並列接続端子TP2及び第4の並列接続端子TP4から切り離す。この結果、第1の電池Bの他方の極(図1では負極)と第2の電池Bの一方の極(図1では正極)とは、第1の直列接続端子TD1、第1のジャンパ線J、及び第2の直列接続端子TD2を介して相互に接続される。したがって、第1の電池B及び第2の電池Bは直列に接続される。 When the first jumper wire J 1 and disconnecting component 11 is moved by the movable component 12, the first jumper line J 1 is connected to a first series connection terminals T D1 and second series connection terminals T D2 Is done. Also, disconnecting parts 11 is operated, the second jumper line J 2 separated from the first parallel connection terminals T P1 and third parallel connection terminals T P3, the third jumper wire J 3 second parallel connection disconnected from terminal T P2 and fourth parallel connection terminals T P4. As a result, the other electrode of the first battery B 1 (the negative electrode in FIG. 1) and the one electrode of the second battery B 2 (the positive electrode in FIG. 1) are connected to the first series connection terminal T D1 , first Are connected to each other via a jumper line J 1 and a second series connection terminal TD 2 . Thus, the first battery B 1 and the second battery B 2 are connected in series.

並列接続された状態で各二次電池が充電される場合には、各二次電池に供給される所定の電流が合流する充電経路には大電流が流れる。しかしながら、直列接続された状態で各二次電池が充電される場合には充電経路に大電流は流れない。このため、充電経路を構成する電流経路(例えば、ケーブルやバスバー等)に大電流を流すための対策を施さなくてもよい。   When each secondary battery is charged in a state of being connected in parallel, a large current flows through a charging path where a predetermined current supplied to each secondary battery joins. However, when each secondary battery is charged in a state of being connected in series, a large current does not flow through the charging path. For this reason, it is not necessary to take measures for flowing a large current through a current path (for example, a cable or a bus bar) constituting the charging path.

このように、放電プラグ2が電池パック1に接続された場合には、電池パック1内の配線によって、第1の電池B及び第2の電池Bは、並列接続に機械的に切り替えられる。一方、充電プラグ3が電池パック1に接続された場合には、電池パック1内の配線によって、第1の電池B及び第2の電池Bは直列接続に機械的に切り替えられる。したがって、実施形態に従った電池パック並びに対応する放電プラグ及び充電プラグによれば、電池パック内の配線によって二次電池の接続関係を機械的に切り替えることができる。 Thus, when the discharge plug 2 is connected to the battery pack 1, the wires in the battery pack 1, the first battery B 1 and the second battery B 2 are switched mechanically connected in parallel . On the other hand, when the charge plug 3 connected to the battery pack 1, the wires in the battery pack 1, the first battery B 1 and the second battery B 2 is switched mechanically connected in series. Therefore, according to the battery pack and the corresponding discharge plug and charge plug according to the embodiment, the connection relationship of the secondary batteries can be mechanically switched by the wiring in the battery pack.

また、充電プラグが電池パックに接続されない場合には、第1の電池B及び第2の電池Bは直列に接続されない。例えば、第1の外部端子TO1と第2の外部端子TO2とが未接続の場合には、第1の電池B及び第2の電池Bは直列に接続されない。直列接続された複数の二次電池から外部端子に出力される電圧は、並列接続された複数の二次電池から外部端子に出力される電圧と比較して高圧である。したがって、実施形態に従った電池パックによれば、二次電池が直列接続された場合に、二次電池が並列接続された場合と比較して高電圧が印加された外部端子が未接続状態に置かれることがないため、高電圧が印加された外部端子に物が触れてショートしたり短絡する等の不具合の発生を回避できる。 Further, when the charge plug is not connected to the battery pack, the first battery B 1 and the second battery B 2 it is not connected in series. For example, if the first external terminal T O1 and the second external terminal T O2 is not connected, the first battery B 1 and the second battery B 2 is not connected in series. The voltage output from the plurality of secondary batteries connected in series to the external terminal is higher than the voltage output from the plurality of secondary batteries connected in parallel to the external terminal. Therefore, according to the battery pack according to the embodiment, when the secondary batteries are connected in series, the external terminal to which a high voltage is applied is in an unconnected state as compared with the case where the secondary batteries are connected in parallel. Since it is not placed, it is possible to avoid the occurrence of problems such as short-circuiting or short-circuiting when an object touches an external terminal to which a high voltage is applied.

なお、本発明は、以上の実施の形態に限定されるものでなく、本発明の要旨を逸脱しない範囲内で種々の改良、変更が可能である。
例えば、図1には、電池パック内の配線によって直並列が機械的に切り替えられる2つの二次電池(第1の電池B及び第2の電池B)が電池パックに含まれる構成例を示したが、実施形態に従った電池パックに含まれる二次電池の数は3つ以上であってもよい。 In addition, this invention is not limited to the above embodiment, A various improvement and change are possible within the range which does not deviate from the summary of this invention.
For example, FIG. 1 shows a configuration example in which two secondary batteries (first battery B 1 and second battery B 2 ) that are mechanically switched between series and parallel by wiring in the battery pack are included in the battery pack. Although shown, the number of secondary batteries included in the battery pack according to the embodiment may be three or more.

また、図1には、駆動部31によって可動部品12が押し込まれ、第1のジャンパ線J及び切り離し部品11が可動部品12によって押し込まれる構成例を示した。しかしながら、例えば、充電プラグの駆動部によって可動部品が引き出され、第1のジャンパ線及び切り離し部品が可動部品によって押し込まれるように電池パック及び充電プラグを構成してもよい。 Further, in FIG. 1, the movable part 12 is pushed by the driving portion 31, the first jumper wire J 1 and disconnecting parts 11 shows a configuration example is pushed by the movable part 12. However, for example, the battery pack and the charging plug may be configured such that the movable part is pulled out by the driving unit of the charging plug, and the first jumper line and the separation part are pushed in by the moving part.

1 電池パック
2 放電プラグ
3 充電プラグ
11 切り離し部品
12 可動部品
13 弾性部品
31 駆動部
第1のジャンパ線
第2のジャンパ線
第3のジャンパ線
C1 一方の極の充電端子
C2 他方の極の充電端子
D1 第1の直列接続端子
D2 第2の直列接続端子
DC1 一方の極の放電端子
DC2 他方の極の放電端子
O1 第1の外部端子
O2 第2の外部端子
P1 第1の並列接続端子
P2 第2の並列接続端子
P3 第3の並列接続端子
P4 第4の並列接続端子 1 charging terminal of the battery pack 2 discharge plug 3 charging plug 11 disconnected parts 12 movable part 13 resilient element 31 drive unit J 1 first jumper line J 2 second jumper line J 3 third jumper wire T C1 one pole T C2 other pole of the charging terminal T D1 first series connection terminals T D2 discharge terminal T O1 first of the second series connection terminals T DC1 one pole of the discharge terminal T DC2 other pole of the external terminal T O2 No. Two external terminals T P1 First parallel connection terminal T P2 Second parallel connection terminal T P3 Third parallel connection terminal T P4 Fourth parallel connection terminal

Claims (5)

第1の電池及び第2の電池と、
前記第1の電池の一方の極に接続された第1の並列接続端子と、
前記第1の電池の他方の極に接続された第1の直列接続端子及び第2の並列接続端子と、
前記第2の電池の一方の極に接続された第2の直列接続端子及び第3の並列接続端子と、
前記第2の電池の他方の極に接続された第4の並列接続端子と、
前記第1の直列接続端子と前記第2の直列接続端子とに接続される第1のジャンパ線と、
前記第1の並列接続端子と前記第3の並列接続端子とに接続される第2のジャンパ線と、
前記第2の並列接続端子と前記第4の並列接続端子とに接続される第3のジャンパ線と、
前記第2のジャンパ線を前記第1の並列接続端子及び前記第3の並列接続端子から切り離し、前記第3のジャンパ線を前記第2の並列接続端子及び前記第4の並列接続端子から切り離す切り離し部品と、
前記第1のジャンパ線及び前記切り離し部品を移動させる可動部品と
を含む電池パック。 A first battery and a second battery;
A first parallel connection terminal connected to one pole of the first battery;
A first series connection terminal and a second parallel connection terminal connected to the other pole of the first battery;
A second series connection terminal and a third parallel connection terminal connected to one pole of the second battery;
A fourth parallel connection terminal connected to the other pole of the second battery;
A first jumper wire connected to the first series connection terminal and the second series connection terminal;
A second jumper line connected to the first parallel connection terminal and the third parallel connection terminal;
A third jumper line connected to the second parallel connection terminal and the fourth parallel connection terminal;
Disconnecting the second jumper line from the first parallel connection terminal and the third parallel connection terminal, and disconnecting the third jumper line from the second parallel connection terminal and the fourth parallel connection terminal. Parts,
A battery pack including the first jumper wire and a movable part that moves the separation part. 請求項1に記載の電池パックであって、
前記第1のジャンパ線が前記第1の直列接続端子及び前記第2の直列接続端子から切り離されると、前記第2のジャンパ線は前記第1の並列接続端子及び前記第3の並列接続端子に接続され、前記第3のジャンパ線は前記第2の並列接続端子及び前記第4の並列接続端子に接続され、
前記第1のジャンパ線が前記第1の直列接続端子及び前記第2の直列接続端子に接続されると、前記切り離し部品は、前記第2のジャンパ線を前記第1の並列接続端子及び前記第3の並列接続端子から切り離し、前記第3のジャンパ線を前記第2の並列接続端子及び前記第4の並列接続端子から切り離す
電池パック。 The battery pack according to claim 1,
When the first jumper line is disconnected from the first series connection terminal and the second series connection terminal, the second jumper line is connected to the first parallel connection terminal and the third parallel connection terminal. Connected, the third jumper wire is connected to the second parallel connection terminal and the fourth parallel connection terminal,
When the first jumper line is connected to the first series connection terminal and the second series connection terminal, the disconnecting part connects the second jumper line to the first parallel connection terminal and the second series connection terminal. A battery pack that is disconnected from the three parallel connection terminals and disconnects the third jumper wire from the second parallel connection terminal and the fourth parallel connection terminal. 請求項1に記載の電池パックであって、
前記第1の電池の一方の極に接続された第1の外部端子と、
前記第2の電池の他方の極に接続された第2の外部端子と
を更に含み、
前記第1の外部端子及び前記第2の外部端子が未接続の場合、前記第1のジャンパ線が前記第1の直列接続端子及び前記第2の直列接続端子から切り離され、且つ前記切り離し部品が作動しない位置に、前記可動部品は配置され、
前記第1の外部端子及び前記第2の外部端子が充電プラグの充電端子に接続された場合、前記第1のジャンパ線が前記第1の直列接続端子及び前記第2の直列接続端子に接続され、且つ前記切り離し部品が作動する位置に、前記可動部品は移動する
電池パック。 The battery pack according to claim 1,
A first external terminal connected to one pole of the first battery;
A second external terminal connected to the other electrode of the second battery,
When the first external terminal and the second external terminal are not connected, the first jumper wire is disconnected from the first series connection terminal and the second series connection terminal, and the disconnection component is In a position where it does not operate, the movable part is arranged,
When the first external terminal and the second external terminal are connected to a charging terminal of a charging plug, the first jumper wire is connected to the first series connection terminal and the second series connection terminal. And the movable part moves to a position where the separation part operates. 請求項3に記載の電池パックであって、
前記可動部品は、前記充電プラグの駆動部によって移動させられる
電池パック。 The battery pack according to claim 3,
The movable part is a battery pack that is moved by a drive unit of the charging plug. 請求項3に記載の電池パックに対応する充電プラグであって、
前記第1の外部端子に接続される一方の極の充電端子と、
前記第2の外部端子に接続される他方の極の充電端子と、
前記可動部品を移動させる駆動部と
を含む充電プラグ。 A charging plug corresponding to the battery pack according to claim 3,
A charging terminal of one pole connected to the first external terminal;
A charging terminal of the other pole connected to the second external terminal;
A charging plug including a driving unit that moves the movable part.
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Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2020000568A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000567A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000572A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000587A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000586A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000585A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000571A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000570A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000569A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JPWO2018235457A1 (en) * 2017-06-21 2020-04-16 日立オートモティブシステムズ株式会社 Battery system monitoring device and battery pack
JP2020108425A (en) * 2018-12-28 2020-07-16 株式会社三洋物産 Game machine
JP2020137957A (en) * 2019-03-01 2020-09-03 株式会社三洋物産 Game machine

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6424370A (en) * 1987-07-20 1989-01-26 Sanyo Electric Co Battery pack system
JPH05137265A (en) * 1991-11-06 1993-06-01 Matsushita Electric Ind Co Ltd Secondary battery system and charger
US20090085553A1 (en) * 2007-09-28 2009-04-02 Pavan Kumar Reconfigurable battery pack
JP2015122866A (en) * 2013-12-24 2015-07-02 三菱自動車工業株式会社 Charging and discharging system for electric vehicle

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS6424370A (en) * 1987-07-20 1989-01-26 Sanyo Electric Co Battery pack system
JPH05137265A (en) * 1991-11-06 1993-06-01 Matsushita Electric Ind Co Ltd Secondary battery system and charger
US20090085553A1 (en) * 2007-09-28 2009-04-02 Pavan Kumar Reconfigurable battery pack
JP2015122866A (en) * 2013-12-24 2015-07-02 三菱自動車工業株式会社 Charging and discharging system for electric vehicle

Cited By (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPWO2018235457A1 (en) * 2017-06-21 2020-04-16 日立オートモティブシステムズ株式会社 Battery system monitoring device and battery pack
JP2020000568A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000567A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000572A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000587A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000586A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000585A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000571A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000570A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020000569A (en) * 2018-06-29 2020-01-09 株式会社三洋物産 Game machine
JP2020108425A (en) * 2018-12-28 2020-07-16 株式会社三洋物産 Game machine
JP2020137957A (en) * 2019-03-01 2020-09-03 株式会社三洋物産 Game machine

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