The present invention relates to a battery pack that accommodates a battery cell in a case.
Patent document 1 discloses an example of a battery module that accommodates battery cells that are connected and integrated with one another in a frame.
Patent Document 1: Japanese Laid-Open Patent Publication No. 2013-171796
Each battery cell of patent document 1 includes a discharge valve that discharges gas, which is generated in the battery cell, out of the battery cell. However, when gas is discharged from the battery cell and into the frame, the pressure in the frame increases. This may damage the frame.
It is an object of the present invention to provide a battery pack that limits excessive increases in the pressure of the frame while ensuring hermetic sealing of the frame.
A battery pack that solves the above problem is provided with a case including a frame, which has a through hole, and a lid, which is fixed to the frame to close the through hole. The frame includes a through hole surrounding portion that surrounds the through hole. The lid is fixed to the through hole surrounding portion by a bolt. When internal pressure of the case rises, a portion of the lid is deformed in a direction in which the portion is separated from the through hole surrounding portion to relieve the internal pressure. A battery cell is accommodated in the case. A seal is located between the lid and the through hole surrounding portion to hermetically seal the case. A spacer is located between the lid and the through hole surrounding portion to maintain a gap between the lid and the through hole surrounding portion.
In the above structure, the seal hermetically seals the case. Further, when the internal pressure of the case rises, the lid deforms and relieves the internal pressure of the case.
When the tightening force of the bolt compresses the seal, the above structure hermetically seals the case. However, depending on the tightening force of the bolt, the compression ratio of the seal may be insufficient and result in insufficient hermetic sealing of the case. Alternatively, the seal may be damaged if excessively compressed.
In this regard, the spacer restricts movement of the lid toward the through hole surrounding portion when the bolt is tightened. Accordingly, the spacer allows the compression ratio of the seal to be regulated and allows the seal to be compressed in a suitable manner.
One embodiment of a battery pack 10 will now be described.
As shown in
The frame 18 includes a main body 12 having the form of a square box. The main body 12 includes an opening, a bottom wall (not shown), and four side walls extending from the edges of the bottom wall. The frame 18 further includes a flat plate 17 that covers the opening of the main body 12. The main body 12 and the flat plate 17 are joined with each other by, for example, an adhesive.
As shown in
As shown in
As shown in
As shown in
The lid 33, the two spacers 37, and the through hole surrounding portion 32 are arranged so that the insertion holes 35, the insertion holes 38, and the fastening holes 34 are in alignment. Bolts B1 are inserted through the insertion holes 35 of the lid 33 and the insertion holes 38 of the spacers 37 and fastened to the fastening holes 34 to fix the lid 33, the seal 36, and the two spacers 37 to the through hole surrounding portion 32. In this manner, the bolts B1 are inserted through each spacer 37.
As shown in
The operation of the battery pack 10 in the present embodiment will now be described.
When an abnormality occurs in a battery cell 22 and opens the corresponding discharge valve 29, gas is discharged into the case 11 from the battery case 23. The gas discharged from the battery cell 22 raises the internal pressure of the case 11. As shown in
The two spacers 37 are located between the lid 33 and the through hole surrounding portion 32 in correspondence with the portions where the bolts B1 are inserted. Thus, when the bolts B1 are fastened, the spacers 37 restrict the tightening of the bolts B1. The force applied to the seal 36 through the lid 33 when the bolts B1 are tightened may be regulated by the relationship between the deformation resistance of the spacers 37 and the deformation resistance of the seal 36, the positional relationship of the spacers 37, the seal 36, and the bolts B1, the relationship between the thickness of the spacers 37 and the thickness of the seal 36, and the like. Thus, the compression ratio of the seal 36 may be regulated and excessive or insufficient compression of the seal 36 may be avoided by the selection of the thickness of the spacers 37, the deformation resistance of the spacers 37, and the locations of the spacers 37.
The above embodiment has the advantages described below.
(1) The spacers 37 are located between the lid 33 and the through hole surrounding portion 32. The spacers 37 allow the compression ratio of the seal 36 to be regulated. Thus, when tightening the bolts B1, situations may be avoided in which the compression of the seal 36 is insufficient or excessive. This allows the seal 36 to be compressed in a suitable manner.
(2) The spacers 37 have a higher deformation resistance than the seal 36. Thus, the tightening of the bolts B1 may be regulated in a suitable manner, and excessive compression of the seal 36 may be avoided.
(3) The seal 36 is in contact with the entire peripheral region of the lid 33. The spacers 37 are located toward the inner side from the seal 36. That is, the spacers 37 are located toward the inner side from the portions where the seal 36 contacts the lid 33. Thus, the spacer 37 is surrounded by the seal 36 and not exposed to ambient air. This impedes deterioration of the spacers 37.
(4) A plurality of the bolts B1 are inserted through each spacer 37. When a separate spacer 37 is provided for each bolt B1, the spacer 37 may be displaced before the bolt B1 is tightened and cause difficulties when the bolt B1 is tightened. The tightening of the bolts B1 is facilitated when a plurality of the bolts B1 share the same spacer 37 like in the present embodiment.
(5) The spacers 37 are formed from resin. Thus, the spacers 37 do not rust. This avoids situations in which rust on the lid 33 and the through hole surrounding portion 32 interferes with the deformation of the lid 33.
(6) A seal (e.g., O-ring) may be fitted into an annular groove formed in at least one of the lid 33 and the through hole surrounding portion 32. In such a structure, rust may cause the lid 33 to become stuck to the through hole surrounding portion 32 and interfere with deformation of the lid 33. The spacers 37 arranged between the lid 33 and the through hole surrounding portion 32 maintain the gap between the lid 33 and the through hole surrounding portion 32 and decrease the area of contact between the lid 33 and the through hole surrounding portion 32. This avoids situations in which rust fixes the lid 33 to the through hole surrounding portion 32.
The above embodiment may be modified as described below.
In the above embodiment, the spacers 37 may be formed from metal. In this case, the seal 36 is also in contact with the entire peripheral region of the lid 33. Thus, exposure of the spacers 37 to the ambient air is restricted. This avoids situations in which rust forms on the metal spacers 37 and causes the lid 33 and the through hole surrounding portion 32 to be stuck to the spacers 37. Even when the spacers 37 rust, the spacers 37 are located toward the inner side from the seal 36. Thus, deformation of the lid 33 is subtly affected, and the influence of rust is small.
The spacers 37 may be located toward the outer side from the seal 36. In this case, it is preferred that the spacers 37 are formed from a resin or the spacers 37 are formed by applying a resin coating to metal in order to restrict the formation of rust.
In the above embodiment, a side wall 14 of the frame 18 includes the through holes 31, and the seal 36 and the spacers 37 are located between the lid 33 and the through hole surrounding portion 32 of the side wall 14. However, through holes may be located anywhere in the frame 18. That is, the seal 36 and the spacers 37 need only be located between a through hole surrounding portion and a lid, which closes a through hole.
The spacers 37 may be members having a lower deformation resistance than the seal 36.
A spacer 37 that receives only one bolt B1 may be used.
The spacers 37 may have any shape. For example, a frame-like spacer that surrounds the through hole 31 may be used. The number of the spacers 37 is not limited to two and may be greater than two or less than two.
In the above embodiment, the bolts B1 are all inserted through the spacers 37. Instead, only some of the bolts B1 may be inserted through the spacers 37. For example, bolts B1 that are inserted through the spacers 37 and bolts B1 that are not inserted through the spacers 37 may be alternately arranged. Further, the bolts B1 need not be inserted through the spacers 37.
The set of the through hole 31 and the lid 33 may be increased in number, and the seal 36 and the spacers 37 may be arranged between each through hole surrounding portion 32 and the corresponding lid 33.
Number | Date | Country | Kind |
---|---|---|---|
2014-030758 | Feb 2014 | JP | national |
Filing Document | Filing Date | Country | Kind |
---|---|---|---|
PCT/JP2015/053685 | 2/10/2015 | WO | 00 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2015/125675 | 8/27/2015 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
5660944 | Sprengel et al. | Aug 1997 | A |
20130216874 | Endo et al. | Aug 2013 | A1 |
Number | Date | Country |
---|---|---|
202749428 | Feb 2013 | CN |
44 11 289 | Oct 1995 | DE |
2012-113899 | Jun 2012 | JP |
2013-089375 | May 2013 | JP |
2013-89375 | May 2013 | JP |
2013-171796 | Sep 2013 | JP |
2014-17270 | Jan 2014 | JP |
2014-107178 | Jun 2014 | JP |
2012149948 | Nov 2012 | WO |
Entry |
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Official Action in CN Appl. No. 201580009015.7 dated Mar. 3, 2017. |
Written Opinion of the International Searching Authority, including English-language translation thereof, for PCT/JP2015/053685 dated Apr. 28, 2015. |
Official Action in DE Appl. No. 11 2015 000 912.4 dated Jun. 19, 2017. |
Number | Date | Country | |
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20170012261 A1 | Jan 2017 | US |