JP2015201330A - battery pack - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a battery pack that is able to hinder erroneous fitting of wiring.SOLUTION: A battery pack 1 comprises: a battery module 20 containing a plurality of battery units 21; a control device 30 for controlling the battery module 20; a plurality of terminals 40 including a power supply terminal 41 for supplying power to the control device 30; and a wiring unit 50 for electrically connecting the control device 30 and power supply terminal 41. The wiring unit 50 has first wiring 51 connected to the control device, second wiring 52 connected to the power supply terminal 41, and a relay connector 53 electrically connecting the first wiring 51 and second wiring 52. The wiring unit 50 is configured so that while the first wiring 51 and second wiring 52 are electrically connected to each other by the relay connector 53, and the first wiring 51 is connected to the control device 30, the second wiring 52 is connectable to only a power supply terminal 41.

Description

  The present invention relates to a battery pack.

  Patent Document 1 describes a battery assembly. The battery assembly includes a plurality of single batteries stacked in a predetermined direction, a pair of holding plates arranged so as to sandwich the plurality of single batteries from both sides in a predetermined direction, and one holding plate to the other holding A plurality of rods extending to reach the plate. This battery assembly is modularized by fastening a plurality of single batteries by fastening a pair of holding plates to each other via a rod.

JP-A-8-148187

  By the way, the battery pack may be configured using the battery assembly as described above. As an example, the battery pack in this case further includes a control device for controlling the battery assembly, and wiring for electrically connecting the control device to a predetermined terminal for supplying power to the control device. . In such a battery pack, when there are a plurality of terminals to which the wiring from the control device can be connected, there is a possibility that the wiring is erroneously assembled.

  That is, when the wiring from the control device should be connected to the positive terminal, there is a possibility that it will be mistakenly connected to the negative terminal. Such incorrect wiring assembly causes a failure of the control device. Or even if it is a terminal of appropriate polarity, there is a possibility that the wiring from the control device may be connected to another terminal provided via a fuse with respect to the terminal to be originally connected. In that case, when the fuse is blown, power is not supplied to the control device, and proper operation of the battery pack is hindered.

  This invention is made | formed in view of such a situation, and it aims at providing the battery pack which can suppress the incorrect assembly | attachment of wiring.

  In order to solve the above problems, a battery pack according to the present invention includes a battery module including a plurality of battery units, a control device for controlling the battery module, and a power supply terminal for supplying power to the control device. A wiring unit for electrically connecting the control device and the power supply terminal, the wiring unit being connected to the first wiring connected to the control device and the power supply terminal. A second wiring and a relay connector that electrically connects the first wiring and the second wiring to each other, and the wiring unit includes the first wiring and the second wiring connected by the relay connector. The second wiring is configured to be connectable only to the power supply terminal among the plurality of terminals in a state where the second wiring is electrically connected to each other and the first wiring is connected to the control device. It is characterized by .

  In this battery pack, a wiring unit for electrically connecting the control device and the power supply terminal includes a first wiring connected to the control device, a second wiring connected to the power supply terminal, A relay connector that electrically connects the first wiring and the second wiring to each other; Therefore, in this battery pack, the first wiring and the second wiring are connected by the relay connector in a state where the first wiring of the wiring unit is connected to the control device and the second wiring is connected to the power supply terminal. When electrically connected, the control device and the power supply terminal are electrically connected. Here, the battery pack also includes terminals other than the power supply terminal. However, in the wiring unit, when the first wiring and the second wiring are electrically connected to each other by the relay connector and the first wiring is connected to the control device, the second wiring has a plurality of It is configured to be connectable only to the power supply terminal among the terminals. For this reason, the incorrect assembly | attachment of the wiring which a control apparatus and terminals other than an electric power supply terminal will be electrically connected is suppressed. In this battery pack, the control device and the power supply terminal are connected using a relay connector. For this reason, compared with the case where a control apparatus and an electric power supply terminal are connected directly, workability | operativity of wiring work can be improved according to the arrangement position of a relay connector.

  In the battery pack according to the present invention, the first wiring includes one end connected to the control device and the other end connected to the relay connector, and the second wiring is connected to the relay connector. A relay connector, the first connector part holding the other end part of the first wiring and the one end part of the second wiring, and the other end part connected to the power supply terminal, A second connector portion holding a jumper wire, wherein the first wiring and the second wiring are connected to each other via the jumper wire by coupling the first connector portion and the second connector portion. It may be electrically connected. In this case, the control device and the power supply terminal can be easily electrically connected by coupling the first connector portion and the second connector portion.

  In the battery pack according to the present invention, the other end portion of the first wiring and the one end portion of the second wiring may be connected to a recess opening in the same direction in the first connector portion. In this case, erroneous assembly of the wiring to the terminal on the side opposite to the opening direction of the concave portion in the first connector portion is reliably suppressed.

  According to the present invention, it is possible to provide a battery pack capable of suppressing erroneous assembly of wiring.

It is a typical top view of the battery pack concerning this embodiment. It is the elements on larger scale of the wiring unit shown by FIG.

  Hereinafter, an embodiment of a battery pack according to the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic plan view of the battery pack according to the present embodiment. FIG. 2A is a partially enlarged view of the battery pack shown in FIG. FIG. 2B is a partially enlarged view of the wiring unit shown in FIG. As shown in FIGS. 1 and 2, the battery pack 1 according to the present embodiment includes a housing 10, a plurality of (for example, five) battery modules 20, a control device 30, a plurality of terminals 40, and a wiring unit. 50.

  The housing 10 includes a first wall portion 11 and a second wall portion 12 erected on the first wall portion 11. The first wall portion 11 has, for example, a rectangular plate shape. The second wall portion 12 has, for example, a rectangular ring shape along the outer edge of the first wall portion 11. Therefore, the housing 10 is configured by the first wall portion 11 and the second wall portion 12, for example, in a rectangular box shape (bottomed tubular shape) having the opening 13. The second wall 12 defines the opening 13 of the housing 10. More specifically, the opening 13 of the housing 10 is defined by the edge of the second wall 12 opposite to the first wall 11. The opening 13 of the housing 10 can be sealed with a lid (not shown).

  The battery module 20 is disposed in the housing 10 and is fixed to the housing 10. Here, the battery module 20 is fixed to the first wall portion 11 of the housing 10 via a predetermined fixing member (not shown). The battery module 20 is configured by integrating a plurality of (for example, seven) battery units 21. The plurality of battery units 21 are, for example, fixed and integrated with each other by a pair of end plates (not shown) arranged on both sides in the predetermined direction in a state of being arranged in a predetermined direction. Each battery unit 21 includes a battery cell that is a nonaqueous electrolyte secondary battery such as a lithium secondary battery. The battery module 20 includes electronic components such as a monitoring ECU (Electronic Control Unit) and an FET relay (both not shown) for monitoring the temperature and voltage of the battery unit 21, for example.

  The control device 30 is a control ECU configured mainly with a computer, for example. The control device 30 is disposed in the housing 10 and is fixed to the housing 10. Here, the control device 30 is fixed to the first wall portion 11 of the housing 10 via a predetermined fixing member (not shown). The control device 30 controls the battery module 20. As an example, the control device 30 is electrically connected to the monitoring ECU of the battery module 20 and controls the state of 20 based on a signal from the monitoring ECU. As an example, the control device 30 is electrically connected to both a plurality of external ECUs (not shown) and the battery module 20, and charges the battery module 20 and supplies power from the battery module 20 to the outside. Control etc.

  For such control, the control device 30 includes a plurality of connectors to which wires such as communication lines and power lines are connected. As an example, the plurality of connectors include a power connector 33 to which wiring for supplying power to the control device 30 is connected, and a plurality of control connectors to which wiring for controlling the battery module 20 described above is connected ( (Not shown). The plurality of connectors are provided on a side surface 30 s of the control device 30 that does not face the opening portion 13 of the housing 10 (that is, the side surface facing the inner surface of the first wall portion 11 of the housing 10).

  The plurality of terminals 40 are arranged in the housing 10. The plurality of terminals 40 include at least a power supply terminal 41 for supplying power to the control device 30 and other terminals 42 and 43, and can be connected to a second wiring 52 described later. ing. The power supply terminal 41 is a terminal to be electrically connected to the power supply connector 33 of the control device 30, and is a positive electrode side terminal as an example. For example, the power supply terminal 41 is installed (electrically connected) to a positive electrode bus bar 45 in which harnesses (not shown) connected to the positive electrodes of the plurality of battery modules 20 are aggregated and connected.

  The terminals 42 and 43 are terminals that should not be connected to the power supply connector 33 of the control device 30. More specifically, when the power supply terminal 41 is a positive-side terminal as described above, the terminal 42 is a negative-side terminal as an example. In that case, the terminal 42 is installed (electrically connected) to the negative electrode bus bar 46 to which, for example, harnesses (not shown) connected to the negative electrodes of the plurality of battery modules 20 are aggregated and connected. That is, the terminal 42 is a terminal having a polarity different from that of the power supply terminal 41.

  Similarly, when the power supply terminal 41 is a positive-side terminal as described above, the terminal 43 is a positive-side terminal electrically connected to the power supply terminal 41 via the fuse H, and is externally connected. Is connected to wiring C. That is, the terminal 43 is a terminal having the same polarity as that of the power supply terminal 41, but is a terminal in which the fuse H is electrically interposed between the battery module 20 and the terminal 43.

  However, the polarity of the power supply terminal 41 is determined by the polarity of the potential to be applied to the control device 30 via the power connector 33 of the control device 30. Therefore, contrary to the case described above, it may be assumed that the power supply terminal 41 is a negative terminal. In this case, the terminal 42 becomes a positive terminal and the terminal 43 becomes a negative terminal. Here, as an example, the plurality of terminals 40 are arranged along a predetermined direction.

  The wiring unit 50 electrically connects the control device 30 and the power supply terminal 41. More specifically, the wiring unit 50 includes a first wiring 51, a second wiring 52, a relay connector 53, and a jumper line 54. The first wiring 51 includes one end 51 a connected to the power connector 33 of the control device 30 and the other end 51 b connected to the relay connector 53. The second wiring 52 includes one end 52 a connected to the relay connector 53 and the other end 52 b connected to the power supply terminal 41.

  The relay connector 53 electrically connects the first wiring 51 and the second wiring 52 to each other. More specifically, the relay connector 53 includes a first connector portion 53a and a second connector portion 53b. The first connector portion 53 a holds the other end portion 51 b of the first wiring 51 and the one end portion 52 a of the second wiring 52. The second connector portion 53 b holds both end portions of the jumper wire 54. In the relay connector 53, the first wiring 51 and the second wiring 52 are connected via the jumper line 54 by coupling (fitting) the first connector part 53a and the second connector part 53b to each other. Are electrically connected to each other.

  Therefore, the control device 30 connects the first connector 51 to the power connector 33 and connects the other end 52b of the second wire 52 to the power supply terminal 41 in the first connector. The portion 53a and the second connector portion 53b are coupled to each other, and the first wiring 51 and the second wiring 52 are electrically connected to each other via the jumper line 54, whereby the power supply terminal 41 is electrically connected. Connected to. As a result, power can be supplied to the control device 30 from the power supply terminal 41 (that is, from the battery module 20).

  The relay connector 53 is attached to the fixing member 55 attached to the first wall portion 11 of the housing 10 before or after the coupling between the first connector portion 53a and the second connector portion 53b. It is installed and fixed to the housing 10 via the fixing member 55. As an example, the installation position of the relay connector 53 can be a position between the power supply terminal 41 and the terminal 43 in the arrangement direction of the plurality of terminals 40. In the relay connector 53, the other end portion 51b of the first wiring 51 and the one end portion 52a of the second wiring 52 are connected to one of the first connector portions 53a along the arrangement direction of the plurality of terminals 40. To the side (the power supply terminal 41 side). That is, the other end portion 51b of the first wiring 51 and the one end portion 52a of the second wiring 52 are portions of the first connector portion 53a opposite to the second connector portion 53b (opening in the same direction). Connected to the recess).

  Here, in a battery pack having a plurality of terminals like the battery pack 1, there is a possibility that incorrect assembly of wiring occurs. That is, when the wiring from the control device should be connected to the positive terminal, there is a possibility that it will be mistakenly connected to the negative terminal. Such incorrect wiring assembly causes a failure of the control device. Or even if it is a terminal of appropriate polarity, there is a possibility that the wiring from the control device may be connected to another terminal provided via a fuse with respect to the terminal to be originally connected. In that case, when the fuse is blown, power is not supplied to the control device, and proper operation of the battery pack is hindered.

  Therefore, in the battery pack 1 according to the present embodiment, the wiring unit 50 has the following characteristic configuration in order to suppress such incorrect wiring assembly. That is, in the battery pack 1, the wiring unit 50 includes a first wiring 51 and a second wiring 52 that are electrically connected to each other by the relay connector 53, and the first wiring 51 is connected to the control device 30 (power supply). The second wiring 52 is configured to be connectable only to the power supply terminal 41 among the plurality of terminals 40 in a state where it is connected to the connector 33). That is, the lengths of the first wiring 51, the second wiring 52, and the relay connector 53, and the arrangement position of the wiring unit 50 in the housing 10 are relayed between the first wiring 51 and the second wiring 52. In a state where the connectors 53 are electrically connected to each other and the first wiring 51 is connected to the control device 30 (power connector 33), the second wiring 52 supplies power from the plurality of terminals 40. It is determined so that only the terminal 41 can be connected.

  For example, as a specific example of the configuration of the wiring unit 50, the sum of the length of the first wiring 51 and the length of the second wiring 52 is determined by the distance from the power connector 33 to the power supply terminal 41 of the control device 30. For example, the lengths of the first wiring 51 and the second wiring 52 may be set so as to be longer and shorter than the distance from the power connector 33 to the other terminals 42 and 43.

  Alternatively, when the relay connector 53 is fixed to the housing 10 before the second wiring 52 is connected to the power supply terminal 41, the length of the second wiring 52 is changed from the relay connector 53 to the power supply terminal. It can be set to be longer than the distance to 41 and shorter than the distance from the relay connector 53 to the other terminals 42 and 43. In this case, the sum of the length of the first wiring 51 and the length of the second wiring 52 is longer than the distance from the power connector 33 to the power supply terminal 41, and from the power connector 33 to the other A case where the distance is longer than the distance to the terminals 42 and 43 can also be assumed.

  As described above, in the battery pack 1, when the one end portion 51 a of the first wiring 51 is connected to the power connector 33 of the control device 30 (or the relay connector 53 is fixed to the housing 10. However, the other end 52b of the second wiring 52 reaches the power supply terminal 41 to be connected, but does not reach the other terminals 42 and 43 that should not be connected. For this reason, according to the battery pack 1, the control device 30 and the terminals 42 and 43 other than the power supply terminal 41 are electrically connected via the first wiring 51 and the second wiring 52 (and the jumper line 54). Incorrect wiring assembly that is connected is suppressed.

  In particular, here, the plurality of terminals 40 are arranged along a predetermined direction, and the other end 51b of the first wiring 51 and the one end 52a of the second wiring 52 are along the predetermined direction. It is drawn out to one side of the first connector portion 53a. That is, the other end 51b of the first wiring and the one end 52a of the second wiring are connected to a portion of the first connector 53a opposite to the second connector 53b. For this reason, erroneous assembly of wiring to the terminal 43 located on the second connector portion 53b side with respect to the first connector portion 53a is reliably suppressed.

  Here, it is desirable to connect the wiring to the power connector 33 (electrical connection with the power supply terminal 41) after connecting other wirings from the viewpoint of preventing a failure of the control device 30. However, since the power connector 33 is provided on the side surface 30 s that does not face the opening 13 of the housing 10 in the control device 30, the wiring connection to the power connector 33 is obstructed by other wiring and the like. It can be difficult.

  On the other hand, in the battery pack 1, the power connector 33 and the power supply terminal 41 of the control device 30 are electrically connected using the relay connector 53. For this reason, for example, in a state where the first connector portion 53a and the second connector portion 53b are not coupled while the relay connector 53 is disposed at a position facing the opening portion 13 of the housing 10, the first wiring is previously provided. 51 is connected to the power connector 33 and the first connector portion 53a, and the second wiring 52 is connected to the power supply terminal 41 and the first connector portion 53a. The second connector portion 53b can be coupled to the first connector portion 53a to complete the electrical connection between the control device 30 and the power supply terminal 41. In this way, it is possible to improve the workability of the wiring work according to the arrangement of the relay connector 53 while preventing the control device 30 from malfunctioning.

  The above embodiment describes one embodiment of the battery pack according to the present invention. Therefore, the battery pack according to the present invention is not limited to the battery pack 1 described above.

  For example, in the above-described embodiment, the wiring unit 50 is configured such that the first wiring 51 and the second wiring 52 are electrically connected to each other by the relay connector 53, and the first wiring 51 is connected to the control device 30 (power source). As a configuration that allows the second wiring 52 to be connected only to the power supply terminal 41 of the plurality of terminals 40 in a state where it is connected to the connector 33), a specific example is given. However, such a configuration can be variously assumed and is not limited to a specific example.

  For example, in the battery pack 1, the position when the relay connector 53 is fixed to the housing 10 is set to the relay connector 53 (specifically, the second end 51 b of the first wiring 51 in the first connector portion 53 a and the second connector 51 a. The distance between the power supply terminal 41 and the distance between the one end 52a of the wiring 52 and the relay connector 53 (specifically, the other end 51b of the first wiring 51 and the second wiring 52 of the first connector 53a). The distance between the terminal 43 and the terminal 43 can be set to be substantially equal. In that case, it is considered that the second wiring 52 can reach both the power supply terminal 41 and the terminal 43.

  However, even when the fixing position of the relay connector 53 is set as described above, the portion holding the one end portion 52a of the second wiring 52 in the first connector portion 53a is connected from the terminal 43 to the power supply terminal 41. By forming the concave portion that opens in the direction toward the second wiring line, the second wiring line 52 reaches the power supply terminal 41 and does not reach the terminal 43 (that is, can be connected only to the power supply terminal 41). The unit 50 can be configured.

  Moreover, although the said embodiment demonstrated the case where the some terminal 40 of the battery pack 1 was arranged along the predetermined direction, arrangement | positioning of the some terminal 40 is not limited to this. As an example, the positive electrode bus bar 45 and the negative electrode bus bar 46 are arranged so as to overlap in the vertical direction (the direction from the first wall portion 11 of the housing 10 to the opening portion 13), whereby the power supply terminal 41 and the terminal 42. May be arranged so as to overlap in the vertical direction.

  Even in this case, as described above, the wiring unit 50 is connected to the power supply connector 33 although the second wiring reaches the power supply terminal 41 to be connected to the power supply connector 33 of the control device 30. If it is configured so that the second wiring does not reach the terminals 42 and 43 that should not be, the same effect can be obtained. That is, even in this case, the first wiring 51 and the second wiring 52 are electrically connected to each other by the relay connector 53 and the first wiring 51 is connected to the control device 30 ( If the second wiring 52 is configured to be connectable only to the power supply terminal 41 of the plurality of terminals 40 in a state of being connected to the power connector 33), the same effect can be obtained. .

  Moreover, in the said embodiment, the terminal installed in the bus bar (positive electrode bus bar 45) where the electrode of the battery module 20 was aggregated is illustrated as the power supply terminal 41 which should be connected to the power connector 33 of the control device 30, The power is supplied to the control device 30 inside the battery pack 1. However, power may be supplied to the control device 30 from the outside of the battery pack 1. In that case, the power supply terminal 41 to be connected to the power connector 33 of the control device 30 is a terminal electrically connected to an external power source of the battery pack 1.

  Furthermore, in the said embodiment, the case where the some connector containing the connector 33 for power supplies was provided with respect to the side surface 30s which does not face the opening part 13 of the housing | casing 10 in the control apparatus 30 was demonstrated. However, the arrangement of the plurality of connectors is not limited to this, and a plurality of connectors can be provided on any surface of the control device 30.

  DESCRIPTION OF SYMBOLS 1 ... Battery pack, 20 ... Battery module, 21 ... Battery unit, 30 ... Control apparatus, 40 ... Terminal, 41 ... Power supply terminal, 42, 43 ... Terminal, 50 ... Wiring unit, 51 ... First wiring, 51a ... One end portion, 51b ... the other end portion, 52 ... the second wiring, 52a ... one end portion, 52b ... the other end portion, 53 ... a relay connector, 53a ... a first connector portion, 53b ... a second connector portion, 54 ... Jumper wire.

Claims (3)

A battery module including a plurality of battery units;
A control device for controlling the battery module;
A plurality of terminals including a power supply terminal for supplying power to the control device;
A wiring unit for electrically connecting the control device and the power supply terminal;
With
The wiring unit electrically connects the first wiring connected to the control device, the second wiring connected to the power supply terminal, and the first wiring and the second wiring. A relay connector,
The wiring unit includes the second wiring in a state where the first wiring and the second wiring are electrically connected to each other by the relay connector and the first wiring is connected to the control device. Is configured to be connectable only to the power supply terminal of the plurality of terminals,
A battery pack characterized by that. The first wiring includes one end connected to the control device and the other end connected to the relay connector,
The second wiring includes one end connected to the relay connector and the other end connected to the power supply terminal,
The relay connector includes a first connector portion that holds the other end portion of the first wire and one end portion of the second wire, and a second connector portion that holds a jumper wire,
The first wiring and the second wiring are electrically connected to each other via the jumper wire by coupling the first connector portion and the second connector portion.
The battery pack according to claim 1. The other end portion of the first wiring and the one end portion of the second wiring are connected to a recess opening in the same direction in the first connector portion,
The battery pack according to claim 2.

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