The technique disclosed in the present specification relates to an external connection bus bar holding structure, and specifically relates to a structure for holding an external connection bus bar that is connected to at least one of a pair of output electrode terminals in a power storage element group composed of multiple power storage elements.
Conventionally, an external connection bus bar disclosed in Patent Document 1 has been known as an example of an external connection bus bar that is connected to output electrode terminals of a power storage element group. Patent Document 1 discloses external connection bus bars 19B that are connected to electrode terminals of power storage elements on both ends of a power storage element group, in a battery module (power storage module) M1 with a configuration in which a pair of output electrode terminals are the electrode terminals of the power storage elements on both ends. In view of this, the external connection bus bars 19B are held by resin protectors (insulating protectors) 20 along with bus bars 19 that connect the electrode terminals of the power storage elements.
Patent Document 1: JP 2014-127229A
However, if the arrangement of the power storage element group is the same as in the above-described Patent Document 1, the pair of output electrode terminals are the electrode terminals of the power storage elements on the same end of the power storage element group. In this case, the external connection bus bar to be connected to one of the pair of output electrode terminals needs to be disposed over a long distance to the other end of the power storage element group. For this reason, a technique is desired in which the outer connection bus bar disposed over the long distance is held easily and stably.
The technique disclosed in the present specification has been completed based on the above-described circumstances, and provides an external connection bus bar holding structure that can, with a simple configuration, stably hold an external connection bus bar disposed over a long distance.
An external connection bus bar holding structure disclosed in the present specification is an external connection bus bar holding structure for an external connection bus bar to be connected to a power storage element group that is composed of a plurality of power storage elements and has a pair of output electrode terminals for outputting power to an exterior, wherein the external connection bus bar has a thin plate shape and includes one end portion configured to be connected to at least one of the pair of output electrode terminals and another end portion configured to be connected to an external device, and the holding structure includes: a first protector that holds the one end portion of the external connection bus bar; a second protector that is arranged at an interval from the first protector and holds the other end portion of the external connection bus bar; and an intermediate protector including a first held portion that is held in the first protector and a second held portion that is held in the second protector, the intermediate protector holding the external connection bus bar at the first held portion and the second held portion and between the first protector and the second protector.
According to this configuration, in addition to the first protector and the second protector, an intermediate protector that includes the first held portion that is held overlapping with the first protector and the second held portion that is held overlapping with the second protector is provided as a protector that holds the external connection bus bar. For this reason, even if the external connection bus bar needs to be disposed over a long distance between both ends of the power storage element group, the external connection bus bar can be held easily and stably. Also, since a thin plate-shaped external connection bus bar can be held in the first protector and the second protector while being held in the intermediate protector, deformation of the external connection bus bar can be suppressed and the external connection bus bar can be attached to the first protector and the second protector. Furthermore, in the first held portion and the second held portion, which are coupling portions for the multiple protectors, it is possible to suppress a case in which the thin plate-shaped external connection bus bar deforms. For this reason, according to the external connection bus bar holding structure of this configuration, the external connection bus bar disposed over a long distance can be held stably with a simple configuration.
With the above-described external connection bus bar holding structure, the intermediate protector may have a shape that covers a lower surface, both side surfaces extending in a lengthwise direction, and both end surfaces extending in the lengthwise direction on an upper surface, of the external connection bus bar, the first protector may have a first locking portion that locks the external connection bus bar via the first held portion of the intermediate protector, and the second protector may have a second locking portion that locks the external connection bus bar via the second held portion of the intermediate protector.
According to this configuration, the external connection bus bar can be held more stably using the configuration of the intermediate protector in which the external bus bar is held so as to be covered, and the configurations of the first locking portion and the second locking portion.
Also, with the above-described external connection bus bar holding structure, the intermediate protector may be constituted by synthetic resin that elastically deforms.
According to this configuration, the task of attaching the external connection bus bar to the intermediate protector can be simplified.
Also, with the above-described external connection bus bar holding structure, the intermediate protector may have a bottom portion with which the lower surface of the external connection bus bar comes into contact, and at least two protrusions that extend in the lengthwise direction of the intermediate protector may be formed on a surface of the bottom portion opposite to the surface that comes into contact with the lower surface of the external connection bus bar.
According to this configuration, the rigidity of the intermediate protector can be increased using the configuration of the protrusion.
Also, with the above-described external connection bus bar holding structure, the intermediate protector may have a bottom portion with which the lower surface of the external connection bus bar comes into contact, and both end portions in a width direction of the bottom portion may be formed as thin portions that do not come into contact with the lower surface of the external connection bus bar.
According to this configuration, the intermediate protector deforms more easily due to the thin portion, even if the material of the intermediate protector is a hard synthetic resin material. For this reason, the task of attaching the external connection bus bar to the intermediate protector can be simplified.
With the external connection bus bar holding structure disclosed in the present application, the external connection bus bar disposed over a long distance can be held stably with a simple configuration.
An embodiment will be described with reference to
1. Configuration of Anode External Connection Bus Bar (External Connection Bus Bar)
An anode external connection bus bar 40 according to the present embodiment is connected to an anode output terminal OUTN of a pair of output terminals (OUTP, OUTN) for outputting power to an external device, of the power storage element group 60 (see
The anode external connection bus bar 40 has a flat plate shape (see
The one end portion 40A is provided with a through hole 41 for connecting the anode external connection bus bar 40 to the cathode output terminal OUTN. Also, the other end portion 40B is provided with a connection terminal portion 42 for connecting the anode external connection bus bar 40 to an external device.
2. Configuration of External Connection Bus Bar Holding Structure
As shown in
The first protector 10 is made of an insulating member such as synthetic resin, and as shown in
The bus bar holding portion 11 insulates and holds the one end portion 40A of the anode external connection bus bar 40. Specifically, a portion of the intermediate portion 40C of the anode external connection bus bar 40 is also held via a later-described first held portion 31 of the intermediate protector 30.
As shown in
The extended portion 14 is extended in the width direction of the intermediate portion 30C of the cathode external connection bus bar 40 from the bus bar holding portion 11, and the locking piece 15 is formed on the leading end portion of the extended portion 14. The locking piece 15 engages with locking grooves 66 (see
The second protector 20 is made of an insulating member such as synthetic resin, similarly to the first protector 10, and as shown in
The first bus bar holding portion 21 insulates and holds the other end portion 40B of the anode external connection bus bar 40. Specifically, a portion of the intermediate portion 40C of the anode external connection bus bar 40 is also held via a later-described second held portion 32 of the intermediate protector 30.
As shown in
A second bus bar holding portion 23 holds a cathode external connection bus bar 50. As shown in
The extended portion 24 is extended in the width direction of the intermediate portion 30C of the anode external connection bus bar 40 from the first bus bar holding portion 21, and the locking pieces 25A and 25B are formed on both end portions of the extended portion 24. The locking pieces 25A and 25B are engaged with the locking grooves 66 (see
The intermediate protector 30 is made of synthetic resin that elastically deforms, and for example, is formed through extrusion molding. The intermediate protector 30 has a shape that covers a lower surface 40R, both side portions 40S extending in the lengthwise direction (i.e., both side portions 40S in the width direction (the direction indicated by arrow Y in
As indicated surrounded by the broken line in
Specifically, the end portions 30A of the intermediate protector 30 are inserted into the spaces between the bottom portion and the second locking portions 22 of the second protector 20, whereby the intermediate protector 30 is locked by the second locking portions 22. Accordingly, the anode external connection bus bar 40 is locked by the second protector 20. Note that the locking configuration of the intermediate protector 30 and the second protector 20 at the second held portion 32 is a locking configuration that is similar for the intermediate protector 30 and the first protector 10 at the first held portion 31 as well, although this is not illustrated.
The intermediate protector 30 holds the anode external connection bus bar 40 at the first held portion 31 and the second held portion 32, and between the first protector 10 and the second protector 20. That is, the anode external connection bus bar 40 is held overlapping with the first protector 10 at the first held portion 31 and overlapping with the second protector 20 at the second held portion 32.
3. Configuration of Power Storage Module.
As shown in
3-1. Power Storage Element Group and Power Storage Element
The power storage elements 61 of the present embodiment are secondary batteries, for example. As shown in
The power storage elements 61 have flat cuboid-shaped outer shapes, and as shown in
On the electrode arrangement surface 62 of each power storage element 61, locking grooves 66 with which the locking piece 15 of the first protector 10 and the locking pieces 25A and 25B of the second protector 20 are engaged are provided near the pair of electrode terminals 63. The locking grooves 66 have rectangular openings and have a form that is recessed in a recessed shape from the electrode arrangement surface 62 (see
The multiple power storage elements 61 are aligned such that electrode terminals 63 with different polarities are adjacent to each other on two adjacent power storage elements 61 (i.e., such that a cathode terminal 63A of one power storage element 61 and an anode terminal 63B of another power storage element 61 adjacent thereto are adjacent to each other). Also, as shown in
3-2. Battery Connection Module.
The battery connection module 70 is a member that is attached to the surface constituted by the electrode arrangement surfaces 62 of the power storage elements 61 in the power storage element group 60. As shown in
The bus bars 80 are formed by punching out metal plates, and as shown in
In the present embodiment, two insulating protectors 71 are aligned in the alignment direction of the multiple power storage elements 61. The insulating protectors 71 are constituted by an insulating member such as synthetic resin. As shown in
The bus bar holding portions 72 include rectangular tube-shaped containing walls 73 inside of which the bus bars 80 are held in a state of being insulated from adjacent bus bars 80, and the containing walls 73 also function as protection walls for the adjacent electrode terminals 63. Also, each insulating protector 71 is provided with engagement portions 78 and engagement receiving portions 79 for coupling with an adjacent insulating protector 71.
4. Method for Assembling Power Storage Module.
When the power storage module 100 of the above-described present embodiment is assembled, first, two insulating protectors 71 are coupled to each other through the engagement portions 78 and the engagement receiving portions 79. Next, the bus bars 80 are contained in the bus bar holding portions 72 of the insulating protectors 71.
The thus-assembled battery connection module 70 is placed on the electrode arrangement surface 62 of the power storage element group 60. This state is shown in
Next, the external connection bus bar holding structure 1 to which the anode external connection bus bar 40 and the cathode external connection bus bar 50 are attached is attached to the power storage element group 60 from above the battery connection module 70. At this time, the locking pieces 15, 25A, and 25B of the external connection bus bar holding structure 1 are engaged with the locking grooves 66 of the power storage elements 61 via the opening portions 74 of the battery connection module 70.
Note that the intermediate protector 30 is attached to the intermediate portion 40C of the anode external connection bus bar 40 before the anode external connection bus bar 40 is attached to the external connection bus bar holding structure 1. That is, when the anode external connection bus bar 40 is attached to the external connection bus bar holding structure 1, the first held portion 31 of the intermediate protector 30 is held in the first protector 10 and the second held portion 32 is held in the second protector 20. For this reason, the intermediate portion 40C of the anode external connection bus bar 40 does not come into direct contact with the first locking portion 12 of the first protector 10 and the second locking portion 22 of the second protector 20.
Also, a bolt 82 is engaged with the screw hole 64 of the anode output terminal OUTN of the power storage element group 60 via the through hole 41 of the anode external connection bus bar 40 and a bolt 82 is engaged with the screw hole 64 of the cathode output terminal OUTP of the power storage element group 60 via the through hole 51 of the cathode external connection bus bar 50. Accordingly, the external connection bus bar holding structure 1, the anode external connection bus bar 40, and the cathode external connection bus bar 50 are attached to the power storage element group 60 from above the battery connection module 70. Thus, the power storage module 100 shown in
5. Effect of the Present Embodiment
In the present embodiment, the first protector 10, the second protector 20, and the intermediate protector 30 that includes the first held portion 31 that is held overlapping with the first protector 10 and the second held portion 32 that is held overlapping with the second protector 20 are provided as protectors that hold the anode external connection bus bar (external connection bus bar) 40. For this reason, even if it is necessary to dispose the anode external connection bus bar 40 over a long distance between both ends of the power storage element group 60, the anode external connection bus bar 40 can be held easily and stably.
Also, the thin plate-shaped anode external connection bus bar 40 can be held in the first protector 10 and the second protector 20 in a state of being held in the intermediate protector 30. For this reason, deformation of the anode external connection bus bar 40 can be suppressed and the anode external connection bus bar 40 can be attached to the first protector 10 and the second protector 20. Furthermore, at the first held portion 31 and the second held portion 32, which are coupling portions for multiple protectors, the anode external connection bus bar 40 is held by the first held portion 31 and the second held portion 32, and therefore it is possible to suppress a case in which the anode external connection bus bar 40 deforms. For this reason, according to the external connection bus bar holding structure 1 of the present embodiment, the anode external connection bus bar 40 that is disposed over a long distance can be held stably with a simple configuration.
Also, the anode external connection bus bar 40 can be held more stably with the configuration of holding such that almost the entirety of the anode external connection bus bar 40 is covered expect for part of the upper surface, and the configurations of the first locking portions 12 and the second locking portions 22, in the intermediate protector 30.
Also, since the intermediate protector 30 is constituted by synthetic resin that deforms elastically, the task of attaching the anode external connection bus bar 40 to the intermediate protector 30 can be simplified.
The technique disclosed in the present specification is not limited to the embodiment described by means of the description above and the drawings, and for example, the following embodiments are also encompassed in the technical scope.
(1) The cross-sectional shape of the intermediate protector 30 is not limited to that shown in
Also, as shown in
(2) The planar shape of the intermediate protector 30 is not limited to that shown in
(3) In the above-described embodiment, a configuration was used in which the first protector 10 has the first locking portion 12 and the second protector 20 has the second locking portion 22, but there is no limitation to this, and the first locking portion 12 and the second locking portion 22 may be omitted.
(4) In the above-described embodiment, a configuration was used in which the intermediate protector 30 is synthetic resin that elastically deforms, but there is not necessarily a limitation thereto, and the intermediate protector 30 may be synthetic resin that does not elastically deform.
(5) In the above-described embodiment, a configuration was used in which the second protector 20 includes the second bus bar holding portion 23 that holds the cathode external connection bus bar 50, but there is no limitation to this, and the second protector 20 need not include the second bus bar holding portion 23.
Also, an example was shown in which the anode external connection bus bar 40 connected to the anode output terminal OUTN is used as the external connection bus bar, but the cathode external connection bus bar 50 connected to the cathode output terminal OUTP may be used as the external connection bus bar.
Number | Date | Country | Kind |
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2016-061548 | Mar 2016 | JP | national |
Filing Document | Filing Date | Country | Kind |
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PCT/JP2017/009863 | 3/13/2017 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
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WO2017/163950 | 9/28/2017 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5804770 | Tanaka | Sep 1998 | A |
9960401 | Takase et al. | May 2018 | B2 |
20140322982 | Nakayama | Oct 2014 | A1 |
20150070025 | Nakayama et al. | Mar 2015 | A1 |
20160197330 | Takase et al. | Jul 2016 | A1 |
20170288199 | Nakayama et al. | Oct 2017 | A1 |
Number | Date | Country |
---|---|---|
2013-114951 | Jun 2013 | JP |
2014-078371 | May 2014 | JP |
2014-127229 | Jul 2014 | JP |
2015-056351 | Mar 2015 | JP |
2013021538 | Feb 2013 | WO |
2013084713 | Jun 2013 | WO |
2014002682 | Jan 2014 | WO |
2016035572 | Mar 2016 | WO |
Entry |
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Official Communication issued in International Bureau of WIPO Patent Application No. PCT/JP2017/009863, dated May 30, 2017. |
Number | Date | Country | |
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20190051873 A1 | Feb 2019 | US |