• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Battery system (10) with overload and / or underload protection including at least one electric accumulator having a first pole (12) electrically connected to a first electrode, a second pole (14) electrically connected to the second electrode , a fast discharge unit (16) for electrically discharging the accumulator and having a first branch connected to the first pole (12), a second branch (262, 362) connected to the second pole (14). The battery system includes a trigger unit (17) having a mechanical electrically conductive component for triggering the fast discharge unit (16).
    公开号:FR3041178A1
    申请号:FR1658349
    申请日:2016-09-08
    公开日:2017-03-17
    发明作者:Marcel Wilka
    申请人:Lithium Energy and Power GmbH and Co KG;
    IPC主号:
    专利说明:

    Field of the invention
    The present invention relates to a battery system with overload and / or underload protection comprising an electric accumulator having a first pole electrically connected to a first electrode of the accumulator, a second pole electrically connected to the second electrode of the accumulator, a fast discharge unit for electrically discharging the electric accumulator and having a first connection electrically connected to the first pole, a second branch electrically connected to the second pole.
    State of the art
    DE 10 2011 015 829 A1 discloses an electrochemical cell comprising a power cut-off device for cutting the electrical connection of the cell used for the operation of the cell. The cell is further equipped with a discharge facility which allows the total or partial discharge of the cell if one of the electrical connections of the cell provided for the operation of the cell is interrupted by the power failure installation. This makes it possible to discharge the cell and to secure the transport and the prolonged storage of the accumulator cell and at the same time it prevents the continued operation of the cell possibly damaged by its overload.
    Document DE 2012 219 082 A1 describes a safety device for a lithium-ion battery cell having at least one metallic conductor made in the form of a flat surface, in particular a metal circuit plate or a metallic film provided with a insulation layer and having a polar contact to be electrically connected to a pole of the cell, the conductor having a heating resistor installed on the insulation layer with first and second contacts which allow the passage of electric current through the heat resistence.
    Description and advantages of the invention
    The present invention relates to a battery system of the type defined above, characterized in that it comprises a tripping unit having an electrically conductive mechanical component for triggering the fast discharge unit.
    The battery system according to the invention has the advantage vis-à-vis the state of the art, to be equipped with a trigger unit with a mechanical component electrically conductive to trigger the fast discharge unit , which allows to advantageously discharge, very quickly, the battery of the battery system battery and pass the battery system in a secure state.
    Advantageously, the fast discharge unit comprises a conductor made of an electrically conductive material connected to the first branch of the fast discharge unit and which at least partially has a bimetal ribbon electrically conductive, which makes it possible to advantageously achieve and without additional electrical and / or electronic components, the electrical connection between the conductor and the trip unit. The fast discharge unit has an electrically conductive contact electrically connected to the second branch of the fast discharge unit. The electrically conductive contact advantageously allows an electrical connection between the conductor and the electroconductive contact, allowing the passage of intense electric currents through the electrical connection.
    The contact material, that of the bimetal ribbon and / or the coating of the bimetal ribbon is chosen to allow the passage of current through the electrically conductive connection between the conductor and the contact between the first and second poles of an electrical connection irreversible between the contact and the driver. This advantageously results in an electric accumulator of the battery system which is then separated from the electrical circuit of the battery system and is put in a secure state.
    The mechanical component of the trigger unit is reversibly or irreversibly deformed by a force acting on the mechanical component, for example the pressure build-up in the battery system. The reversible deformation after the return of the electric accumulator in a normal operating state cuts the electrically conductive connection between the conductor and the contact of the fast discharge unit so that the electric accumulator is again available in the system. of battery. If the mechanical component is irreversibly deformed, the electric accumulator remains permanently cut off from the battery system, which advantageously avoids the restarting of this electric accumulator.
    The mechanical component of the trip unit may be a separate component and / or a pressure relief valve, for example made by the existing component.
    The mechanical component is connected by the electroconductive housing of the accumulator and / or an electrical connection directly to the second pole. The electrical connection by the electrically conductive housing advantageously saves drivers. If the mechanical component is connected directly by an electrical connection to the second pole, the conditions of protection against contact with the electrically conductive housing are smaller and are simpler for the geometry of the electrically conductive housing because it has not not to be adapted to the passage of a maximum current.
    The first connection of the fast discharge unit is electrically connected directly to the first pole and the second branch is connected to the fast discharge unit by the electroconductive housing with the second pole of the electric accumulator and / or by a connection electric, directly with the second pole. The direct electrical connection of the first branch of the fast discharge unit and the first pole provides isolation from the potential of the second pole. If the second connection of the fast discharge unit is connected by the electrically conductive housing of the second pole of the electric energy accumulator, it has the advantage of not requiring any other conductor. If the second connection of the fast discharge unit is directly connected by an electrical connection to the second pole, it has the advantage of avoiding the adaptation of the geometry of the electrically conductive housing.
    The mechanical component and / or the direct connection with the second pole has greater resistance than the conductor, the contact and / or the direct connection between the second branch and the fast discharge unit and the second pole. This results in the advantage that the short-circuit current passes between the first and the second pole of the electric accumulator through the conductor and the electroconductive contact.
    Advantageously, the battery system is applied to a vehicle having at least one electric accumulator so that the applicable safety standards will be respected with the implementation of relatively small means.
    Advantageously, the electric energy accumulator is a lithium-ion or lithium-sulfur and / or lithium-air battery. In particular, such electric accumulators can be quickly put in a secure state, advantageous to avoid the consequences of chemical reactions.
    drawings
    The present invention will be described hereinafter in more detail with the aid of various embodiments of battery systems shown in the drawings in which: FIG. 1 shows a first embodiment of a battery system according to FIG. FIG. 2a shows a second embodiment of the battery system according to the invention, FIG. 2b shows the second embodiment of the battery system according to the invention in the case of an abnormal operating state of the battery. 2c shows the second embodiment of the battery system according to the invention in the case of an abnormal operating state of the electric accumulator with triggering of the fast discharge unit, FIG. a third embodiment of the battery system of the invention for the normal operation of the electric accumulator, FIG. 4a shows a first embodiment embodiment of a mechanical component of the trigger unit of the battery system according to the invention, FIG. 4b shows a second embodiment of the mechanical component of the trigger unit of the battery system according to the invention, and FIG. 4c shows a third embodiment of a mechanical component of a trigger unit of the battery system according to the invention.
    Detailed description of embodiments
    In the description below, the references apply to the same component of the device in all the figures.
    FIG. 1 shows a first embodiment of the battery system 10 according to the invention comprising at least one electric accumulator having a first pole 12 connected to the first electrode of the electric accumulator, a second pole 14 electrically connected to the second electrode of the electric accumulator, a fast discharge unit 16 for rapidly discharging (electric discharge) the accumulator with a first connection electrically connected to the first pole, for example by an electrical connection 13, a second branch connected electrically to the second pole, by example by an electrical connection 15, a trigger unit 17 for triggering the fast discharge unit 16 and the housing 11 of the electric accumulator. The triggering unit 17 is performed both as a complementary component or as an existing component, for example a pressure relief valve in the case of rigid housing cells, thereby saving components.
    FIG. 2a shows a second embodiment of the battery system 20 according to the invention during normal operation of the electric accumulator. The electric accumulator comprises a first pole 22, for example the negative pole connected by the electrical connection 23, to the first branch 261 of a fast discharge unit 26 and a second pole 24, for example the positive pole of the an electric accumulator connected to the electrically conductive housing 21 of the electric accumulator being connected via the second connection 262 to the fast discharge unit 26. There is also provided a trigger unit 27 comprising an electromechanical component 29 The mechanical component 29 of the trigger unit 27 is reversibly or irreversibly deformable, for example under the effect of an applied force. to the mechanical component 29. The fast discharge unit 26 comprises a conductor 25 electrically connected by the first interface 261 to the link its electrical 23. The fast discharge unit 26 further comprises an electrically conductive contact connected by the second branch 262, electrically to the second pole 24 of the accumulator.
    According to a first embodiment, the conductor 25 comprises at least one bimetal ribbon 25b. According to a second embodiment, the conductor 25 comprises a relay 25a.
    During normal operation of the electric accumulator, there is no connection between the mechanical component 29 of the trip unit 27 and the conductor 25 of the fast discharge unit 26.
    FIG. 2b shows the second embodiment of the battery system 20 according to the invention in the case of the normal operating state of the electric accumulator. The operating state of the accumulator is abnormal, for example if the charge is made with a charging current too high, which can produce for example an increase in the pressure inside the housing 21 of the accumulator. The rise in pressure when it exceeds a preset pressure reversibly or irreversibly deforms the mechanical component 29 of the trigger unit 27. This results in an electrical connection between the mechanical component 29, the trigger unit 27 and the driver 25 of the fast discharge unit 26. This electrical connection passes current between the second pole 24 and the first pole 22 through the conductive housing 21, the mechanical component 29, the conductor 25 and the line 23.
    FIG. 2c shows the second embodiment of the battery system 20 according to the invention in the event of an abnormal operating state of the electric accumulator by the fast discharge unit 26.
    In the first embodiment of the conductor 25, the bimetal tape 25b is heated by the current flowing through the mechanical component 29 of the trigger unit 27 and the lead 25; the component thus deforms and electrically connects the electroconductive contact 28 and the conductor 25. The material chosen for the electrically conductive contact and / or the bimetal tape 25b creates an irreversible electrical connection.
    In the second embodiment of the conductor 25, the passage of the current triggers a relay 25a which electrically connects the electrically conductive contact 28 and the conductor 25.
    The short circuit thus formed between the first pole 22 and the second pole 24 discharges the electric accumulator and the cutting of the charging current. The electric accumulator is thus secured.
    Figure 3 shows a third embodiment of the battery system 30 according to the invention during normal operation of the electric accumulator. The first branch 361 of the fast discharge unit 36 is electrically connected to the first pole of the accumulator; the second branch 362 of the fast discharge unit 36 is connected by the electrical connection 310 directly to the second pole of the electric accumulator. In the embodiment shown, the housing 31 of the electric accumulator is not electrically conductive. A mechanical component 39 of the tripping unit 37 is directly connected by the electrical connection 390 to the second pole of the electric accumulator. In the event of an abnormal operating state of the accumulator, for example due to the rise in pressure inside the battery housing 31, the mechanical component 39 of the tripping unit 37 mechanically deforms so well. that the current passes through the electrical connection between the first and the second pole through the electrical connection 390, the mechanical component 39, the conductor 35 and the electrical connection 33. The electrical connection triggers the discharge unit 36 with a short circuit. circuit between the first pole and the second pole through the electrical connection 310, the conductor 35 and the electrical connection 33 to the first pole. In the embodiment shown, the resistance of the electrical connection 390 is greater than the resistance of the electrical connection 310.
    FIG. 4a shows a first embodiment of a mechanical component 49a of a trigger unit of the battery system according to the invention. The mechanical component 49a is electrically connected to the housing 41 of the electric accumulator. The mechanical component 49a of the tripping unit presented is reversibly or irreversibly deformable. The mechanical component 49a of the embodiment shown is in the form of a membrane. As the material, an electrically conductive metal or a metallization, a support material with an electroconductive coating and / or an electrically conductive plastics material is used. The shape chosen for the mechanical component 49a produces a rise in pressure inside the electric accumulator which has regular repercussions on it. The material chosen for the mechanical component 49a is associated with a predefined force beyond which the mechanical component 49a deforms.
    FIG. 4b shows a second embodiment of a mechanical component 49b of a trigger unit of the battery system according to the invention. The mechanical component 49b and electrically connected to the housing 41 of the electric accumulator. The chosen form of the mechanical component 49b is translated during deformation by a lower resistance between the mechanical component 49b and the conductor.
    FIG. 4c shows a third embodiment of a mechanical component 49c of a trigger unit of the battery system according to the invention. The chosen form of the mechanical component 49c results in a connection with a large surface between the mechanical component 49c and a conductor. In addition, the movements of the housing 41 of the electric accumulator are compensated, which prevents the mechanical component 49c from being damaged.
    NOMENCLATURE OF THE MAIN ELEMENTS 10, 20, 30 Battery systems 11 Housing of the electric accumulator 12 First pole 13 Electrical connection 14 Second pole 15 Electrical connection 16 Rapid discharge unit 17 Trigger unit 21 Electro-conductive housing 22 First pole 23 Link electrical 24 Second pole 25 Conductor 25a Relay 25b Bimetal strip 26 Fast discharge unit 261 First connection of the fast discharge unit 262 Second branch 27 Trip unit 28 Electro-conductive contact 29 Mechanical electro-conductive component 31 Non-electrostatic housing conductor 310 Electrical connection 33 Electrical connection 35 Conductor 36 Rapid discharge unit 361 First connection 362 Second connection 37 Trigger unit 39 Mechanical component 390 Electrical connection 49a Mechanical component 49b Mechanical component 49c Mechanical component
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    1) battery system (10, 20, 30) with an overload protection and / or underload protection comprising at least one electric accumulator having a first pole (12, 22) electrically connected to the first electrode of the accumulator, a second pole (14, 24) electrically connected to the second electrode of the accumulator, a fast discharge unit (16, 26, 36) for electrically discharging the electric accumulator and having a first branch (261, 361) electrically connected to the first pole (12, 22), a second branch (262, 362) electrically connected to the second pole (14, 24), battery system characterized in that it comprises a tripping unit (17, 27, 37). ) having an electrically conductive mechanical component (29, 39, 49a, 49b, 49c) for triggering the fast discharge unit (16, 26, 36).
    [0002]
    Battery system (10, 20, 30) according to claim 1, characterized in that the fast discharge unit (16, 26, 36) has a conductor (25, 35) electrically connected to the first connection (261). 361) of the fast discharge unit (16, 26, 36) and having at least partially electrically conductive bimetal tape (25b) and / or a relay (25a).
    [0003]
    Battery system (10, 20, 30) according to one of Claims 1 to 2, characterized in that the fast discharge unit (16, 26, 36) has an electrically-conducting contact (28) connected to it. electrically at the second branch (262, 362) of the fast discharge unit (16, 26, 36).
    [0004]
    4 °) battery system (10, 20, 30) according to one of claims 1 to 3, characterized in that the contact material (28), the bimetal strip (25b), the relay (25a) and / or the coating of the bimetal ribbon (25b) is chosen so that the current passing through the electrical connection between the conductor (25, 35) and the contact (28), is between the first pole (12, 22) and the second pole (14, 24) a reversible or irreversible electrical connection between the contact (28) and the conductor (25, 35).
    [0005]
    Battery system (10, 20, 30) according to one of Claims 1 to 4, characterized in that the mechanical component (29, 39, 49a, 49b, 49c) and the trigger unit (17, 27, 37) are reversibly or irreversibly deformable by a force applied to the mechanical component (29, 39, 49a, 49b, 49c).
    [0006]
    Battery system (10, 20, 30) according to one of Claims 1 to 5, characterized in that the mechanical component (29, 39, 49a, 49b, 49c) is electrically connected to the second pole (14, 24) by the electrically conductive housing (21, 41) of the electric accumulator and / or by a direct electrical connection (390).
    [0007]
    Battery system (10, 20, 30) according to one of Claims 1 to 6, characterized in that the first connection (261, 361) of the fast discharge unit (16, 26, 36) is connected directly to the first pole (12, 22) by an electrical connection (13, 23, 33) and directly to the second pole (14, 24) of the electric accumulator by the second branch (262, 362) of the fast discharge (16, 26, 36) by the electrically conductive housing (21, 41) and / or by an electrical connection (310).
    [0008]
    Battery system (10, 20, 30) according to one of Claims 1 to 7, characterized in that the mechanical components (29, 39, 49a, 49b, 49c) and / or the direct connection (390) with the second pole (14, 24) has a greater electrical resistance than the conductor (25, 35), the contact (28) and / or the direct connection (310) between the second branch (262, 362) of the fast discharge unit (16, 26, 36) and the second pole (14, 24).
    [0009]
    9 °) Application of a battery system (10, 20, 30) according to claims 1 to 8 to a vehicle equipped with at least one electric accumulator.
    [0010]
    10 °) Application of a battery system (10, 20, 30) according to claim 9, the electric accumulator being a lithium-ion battery, lithium-sulfur and / or lithium-air.
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    引用文献:
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    DE102011015829A1|2011-04-01|2012-10-04|Li-Tec Battery Gmbh|Electrochemical energy storage cell with current interruption device|
    CN103703590B|2012-03-15|2016-11-16|株式会社东芝|Lithium rechargeable battery|
    DE102012213697A1|2012-08-02|2014-02-06|Robert Bosch Gmbh|Sensor device and method for determining a pressure of a medium located within an electrochemical energy store, electrochemical energy store and method for producing the same|
    DE102012213919A1|2012-08-06|2014-02-06|Robert Bosch Gmbh|Battery cell i.e. lithium ion battery cell for battery in electric motor powered car, has electrically insulating seal provided between housing and current collector, where material of seal includes nanoparticles|
    DE102012215058A1|2012-08-24|2014-02-27|Robert Bosch Gmbh|Battery cell i.e. lithium-ion cell, for e.g. electric car, has built-in diaphragm in connection with thermostat, where diaphragm is pressed outwards and opens thermostat when pressure within housing is greater than predetermined pressure|
    DE102012219082A1|2012-10-19|2014-04-24|Robert Bosch Gmbh|Safety device for mounting in a battery cell of a lithium-ion battery, lithium-ion battery cell with safety device|
    DE102013213947A1|2013-07-16|2015-02-19|Robert Bosch Gmbh|Assembly for securing an electrochemical storage cell|EP3142165A1|2015-09-10|2017-03-15|Lithium Energy and Power GmbH & Co. KG|Battery system with an overcharge and/or deep discharge protection|
    DE102017204706A1|2017-03-21|2018-09-27|Robert Bosch Gmbh|Cell cover for a battery cell with quick-charging unit|
    CN109216641B|2017-06-30|2020-10-23|比亚迪股份有限公司|Battery protection cover plate assembly, power battery and electric automobile|
    法律状态:
    2017-09-25| PLFP| Fee payment|Year of fee payment: 2 |
    2018-07-13| PLSC| Publication of the preliminary search report|Effective date: 20180713 |
    优先权:
    申请号 | 申请日 | 专利标题
    EP15184658.1A|EP3142172A1|2015-09-10|2015-09-10|Battery system with an overcharge and/or deep discharge protection|
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