JP7011632B2 - Battery pack - Google Patents

Description

The present invention relates to a battery pack mounted on an electric vehicle or the like.

In recent years, electric vehicles such as electric vehicles using a motor as a drive source and hybrid vehicles using an engine and a battery as a drive source have been known in place of gasoline-powered vehicles equipped with only an engine as a drive source. These electric vehicles are equipped with a battery that supplies electric power to the motor. For example, in the electric vehicle described in Patent Document 1, a battery case accommodating a plurality of batteries is mounted under the floor.

In such an electric vehicle, it is necessary to mount more batteries in order to extend the mileage that can be traveled by the motor. In order to mount a larger number of batteries, it is conceivable to form one battery pack by vertically stacking and fixing two battery cases each containing a battery.

Japanese Unexamined Patent Publication No. 2011-60542

However, when the two battery cases are stacked and fixed in the vertical direction, if the fixing portion is provided at a position avoiding the batteries accommodated in the two battery cases, the horizontal dimension of the battery pack becomes large. Further, if the fixing portion is provided in the overlapping region of the batteries accommodated in the two battery cases, the size of the battery pack in the vertical direction becomes large.

The present invention provides a battery pack capable of suppressing an increase in size by a fixing portion for fixing the first case and the second case arranged one above the other.

The present invention comprises a lower cell laminate in which a plurality of battery cells are laminated, and a lower cell laminate.
An upper cell laminate in which multiple battery cells are laminated, and
A first case including a first case body for accommodating the lower cell laminate and a first case cover for covering an upper opening of the first case body.
A battery pack provided above the first case cover and comprising a second case for accommodating the upper cell laminate.
The upper cell laminate is arranged so as to project to one side in the first direction orthogonal to the lower cell laminate in the vertical direction.
Seen from above
The upper cell laminate and the lower cell laminate have an overlapping region in which the upper cell laminate and the lower cell laminate overlap.
In the first direction , on one side of the overlapping region and at a position that overlaps with the upper cell laminate and does not overlap with the lower cell laminate when viewed from above , and below the upper cell laminate. A first fixing portion for fixing the first case cover and the bottom plate of the second case is provided.
In the first direction , on the other side of the overlapping region , at a position that overlaps with the lower cell laminate and does not overlap with the upper cell laminate when viewed from above , above the lower cell laminate. A second fixing portion for fixing the one case cover and the bottom plate of the second case is provided.
In the first fixing portion, the first case cover projects downward, and the first case cover protrudes downward.
In the second fixing portion, the bottom plate projects upward.

According to the present invention, it is possible to prevent the battery pack from becoming large due to the fixing portion for fixing the first case and the second case arranged one above the other.

It is a perspective view of the battery pack of 1st Embodiment of this invention. It is an exploded perspective view of the battery pack of FIG. It is a top view which shows the positional relationship between the upper cell laminated body and the lower cell laminated body inside the battery pack of FIG. FIG. 3 is a cross-sectional view taken along the line AA of FIG. It is an enlarged view of the main part of FIG. It is sectional drawing of the main part of the battery pack of the modification of 1st Embodiment. It is an exploded perspective view of the battery pack of the 2nd Embodiment of this invention. It is a top view which shows the positional relationship between the upper cell laminated body and the lower cell laminated body inside the battery pack of FIG. FIG. 8 is a cross-sectional view taken along the line BB of FIG.

Hereinafter, embodiments of the battery pack of the present invention will be described with reference to the accompanying drawings. In the drawing, the front of the battery pack is shown as Fr, the rear is shown as Rr, the left side is shown as L, the right side is shown as R, the upper side is shown as U, and the lower side is shown as D. The front, back, left, right, top and bottom of this battery pack are irrelevant to the front, back, left, right, top and bottom of the vehicle on which the battery pack is mounted.

<First Embodiment>
As shown in FIGS. 1 and 2, the battery pack 1 of the present embodiment includes a first battery pack 10 and a second battery pack 20 arranged on the upper portion of the first battery pack 10.

The first battery pack 10 includes a plurality of (four in this example) battery modules (hereinafter referred to as “lower battery modules”) 11 and a first case 10A accommodating the lower battery modules 11. The first case 10A is composed of a first case main body 12 and a first case cover 13 that closes an opening above the first case main body 12.

As shown in FIGS. 2 and 4, the lower battery module 11 includes a lower cell laminated body 4 formed by laminating a plurality of battery cells 11a in the front-rear direction, a power distribution member 14 arranged at the upper portion, and a lower portion. A pair of end plates 15 arranged on both sides of the cell laminate 4 in the front-rear direction are provided. The lower battery modules 11 are arranged side by side in the left-right direction orthogonal to the front-rear direction. The power distribution member 14 is, for example, a bus bar plate that holds a plurality of bus bars that connect adjacent terminals to each other.

As shown in FIGS. 1 and 2, the second battery pack 20 includes two battery modules (hereinafter referred to as “upper battery modules”) 21 and a second case 20A for accommodating the upper battery modules 21. .. The second case 20A includes a bottom plate 23 on which two upper battery modules 21 are installed, and a second case cover 24 that covers the bottom plate 23.

Each upper battery module 21 includes an upper cell laminated body 5 formed by stacking a plurality of battery cells 21a in the left-right direction, and a power distribution member arranged on the upper portion. The upper battery modules 21 are arranged side by side in the left-right direction, which is the same direction as the stacking direction of the battery cells 21a.

The second battery pack 20 arranged on the upper part of the first battery pack 10 is arranged in front of the first battery pack 10. Therefore, the height of the battery pack 1 is high in the front and low in the rear so as to be along the seat surface of the vehicle. This allows the battery pack 1 to be placed under the seat of the vehicle without compromising occupant comfort.

As shown in FIG. 2, the first communication hole 13a and the second communication hole 13b are provided in the vicinity of both ends of the first case cover 13 in the left-right direction. Near both ends of the bottom plate 23 of the second battery pack 20 in the left-right direction, there are first communication holes 23a and second communication holes 23b that communicate with the first communication holes 13a and the second communication holes 13b of the first case cover 13. It is provided. The lower battery module 11 and the upper battery module 21 are electrically connected by a conductive member (not shown) passing through the first communication holes 13a and 23a and the second communication holes 13b and 23b.

As shown in FIGS. 3 and 4, the upper cell laminated body 5 is arranged so as to project forward with respect to the lower cell laminated body 4, and when viewed from above, the upper cell laminated body 5 and the lower cell laminated body 4 are arranged. Has overlapping regions R (hatched portions in FIG. 3) that overlap each other.

The first battery pack 10 and the second battery pack 20 are fixed to each other by a fastening member 33 such as a bolt. Specifically, the first case cover 13 of the first case 10A and the bottom plate 23 of the second case 20A are fixed by the fastening member 33. Here, if the fixed portion is provided in the overlapping region R of the upper cell laminated body 5 and the lower cell laminated body 4, the size of the battery pack 1 becomes large. On the other hand, a flange is provided so as to avoid the overlapping region R of the upper cell laminate 5 and the lower cell laminate 4 and project outward from the upper cell laminate 5 and the lower cell laminate 4, and the fixing portion is arranged on this flange. However, since the flange overhangs in the horizontal direction, the size of the battery pack 1 becomes large.

Therefore, in the battery pack 1 of the present embodiment, as shown in FIGS. 3 to 5, the first case cover 13 and the second case 20A are located on the front side of the overlapping region R and below the upper cell laminated body 5. A first fixing portion 31 for fixing the bottom plate 23 of the above is provided. Further, a second fixing portion 32 for fixing the first case cover 13 and the bottom plate 23 of the second case 20A is provided on the rear side of the overlapping region R and above the lower cell laminated body 4.

As shown in FIGS. 4 and 5, in the first fixing portion 31, the first case cover 13 protrudes downward, and in the second fixing portion 32, the bottom plate 23 protrudes upward.

According to the above configuration, the first fixing portion 31 is arranged below the upper cell laminated body 5 at a position avoiding the overlapping region R where the upper cell laminated body 5 and the lower cell laminated body 4 overlap, and the overlapping region R is provided. By arranging the second fixing portion 32 above the lower cell laminated body 4 at a position avoiding the above, the horizontal dimension of the battery pack 1 becomes larger due to the first fixing portion 31 and the second fixing portion 32. Can be suppressed. Further, since the first case cover 13 protrudes downward in the first fixing portion 31 and the bottom plate 23 protrudes upward in the second fixing portion 32, the entire first case cover 13 and the bottom plate 23 are made thick. It is not necessary, and by projecting only the fixing portions 31 and 32, it is possible to suppress the increase in the vertical dimension of the battery pack 1.

As shown in FIG. 5, the upper surface 11s of the lower battery module 11 is located above the lower end 31a of the first fixing portion 31. According to this configuration, the clearance between the upper surface 11s of the lower battery module 11 and the first case cover 13 can be reduced, and the height dimension of the battery pack 1 can be suppressed.

Further, the height H1 of the pair of end plates 15 is lower than the height H2 of the lower cell laminated body 4, and the first fixing portion 31 is located above the end plates 15 located on the front side of the overlapping region R. is doing. According to this configuration, by locating the end plate 15 having a height lower than that of the lower cell laminated body 4 below the first fixing portion 31, the space above the end plate 15 is effectively utilized and the first fixing portion is formed. 31 can be arranged to suppress the increase in volume of the battery pack 1.

Further, a temperature control flow path 40 through which the temperature control medium flows is provided between the first case cover 13 and the bottom plate 23. The temperature control medium may be a liquid medium such as water, oil, ATF (Automatic Transmission Fluid), or a gas such as air. In other words, the temperature control flow path 40 may be a water-cooled type or an air-cooled type. By providing the temperature control flow path 40 in the space between the first case cover 13 and the bottom plate 23 in this way, the upper cell laminated body 5 can be effectively cooled with a small number of parts. Further, since the temperature control flow path 40 is arranged between the first fixing portion 31 and the second fixing portion 32 in the front-rear direction, the first case cover is covered by the pressure of the temperature control medium flowing through the temperature control flow path 40. It is possible to prevent the 13 and the bottom plate 23 from bending.

FIG. 6 is a cross-sectional view of a main part of the battery pack showing a modified example of the first embodiment. In this modification, a bending suppression structure for further preventing the first case cover 13 and the bottom plate 23 from bending due to the pressure of the temperature control medium flowing through the temperature control flow path 40 is mounted. Specifically, the first case cover 13 is provided with a first protrusion 16 extending upward in the temperature control flow path 40, and the bottom plate 23 is provided downward in the temperature control flow path 40. A second protrusion 17 extending toward the surface is provided. The first protrusion 16 and the second protrusion 17 are arranged adjacent to each other so as to be in contact with each other in the front-rear direction. According to this configuration, the first protrusion 16 of the first case cover 13 and the second protrusion 17 of the bottom plate 23 come into contact with each other, so that the pressure of the temperature control medium flowing through the temperature control flow path 40 causes the first case. It is possible to prevent the cover 13 from bending. The number, shape, and position of the first protrusion 16 and the second protrusion 17 can be appropriately changed.

<Second Embodiment>
Next, the battery pack 1 of the second embodiment will be described with reference to FIGS. 7 to 9.
The battery pack 1 of the second embodiment has a different configuration of the first battery pack 10 from the first embodiment. In the following, only the differences from the first embodiment will be described, and the same or equivalent configurations as those of the first embodiment will be designated by the same reference numerals and description thereof will be omitted.

As shown in FIG. 7, in the first battery pack 10 of the present embodiment, two lower battery modules 11 (hereinafter, also referred to as front lower battery modules 11F) are arranged side by side in the left-right direction at the front portion, and the two lower battery modules 11 are arranged side by side in the left-right direction. Four lower battery modules 11 (hereinafter, also referred to as rear lower battery modules 11R) are arranged side by side in the left-right direction behind the front lower battery module 11F. The lower cell laminate 4 of the front lower battery module 11F is configured by laminating a plurality of battery cells 11a in the left-right direction, and the lower cell laminate 4 of the rear lower battery module 11R has a plurality of battery cells 11a in the front-rear direction. It is composed of laminating.

As shown in FIG. 8, the upper cell laminated body 5 is arranged so as to project forward with respect to the lower cell laminated body 4 of the front lower battery module 11F, and the upper cell laminated body 5 and the front lower side are arranged when viewed from above. The lower cell laminate 4 of the battery module 11F has an overlapping region R (hatched portion in FIG. 8) that overlaps with each other.

Also in the battery pack 1 of the present embodiment, as shown in FIGS. 8 and 9, the first case cover 13 and the second case 20A are located on the front side of the overlapping region R and below the upper cell laminated body 5. A first fixing portion 31 for fixing the bottom plate 23 is provided. Further, a second fixing portion 32 for fixing the first case cover 13 and the bottom plate 23 of the second case 20A is provided on the rear side of the overlapping region R and above the lower cell laminated body 4. Further, in the first fixing portion 31, the first case cover 13 protrudes downward, and in the second fixing portion 32, the bottom plate 23 protrudes upward. As a result, it is possible to prevent the first fixing portion 31 and the second fixing portion 32 from increasing the horizontal dimension and the height dimension of the battery pack 1.

As shown in FIG. 9, the first case main body 12 has a side wall (front wall) 12a on the front side of the overlapping region R, and the side wall 12a is extended so as to be inclined forward as it goes upward. ing. When viewed from above, the first fixed portion 31 overlaps at least a part of the side wall 12a (hatched portion Q in FIG. 9). In this way, by inclining the side wall 12a of the first case main body 12 to set the draft, the first case main body 12 can be easily manufactured. Further, when viewed from above, the first fixing portion 31 overlaps with the side wall 12a, so that the volume increase of the battery pack 1 can be suppressed.

The present invention is not limited to the above-described embodiment, and can be appropriately modified, improved, and the like.
For example, in the above embodiment, the upper cell laminated body 5 is arranged so as to project forward with respect to the lower cell laminated body 4, and the first fixing portion 31 is provided on the front side of the overlapping region R. Although the second fixing portion 32 is provided on the rear side, the upper cell laminated body 5 is arranged so as to project rearward with respect to the lower cell laminated body 4, and protrudes downward to the rear side with respect to the overlapping region R. The first fixing portion 31 may be provided, and the second fixing portion 32 may be provided so as to project upward from the overlapping region R.

In addition, at least the following matters are described in this specification. The components and the like corresponding to the above-described embodiments are shown in parentheses, but the present invention is not limited thereto.

(1) A lower cell laminate (lower cell laminate 4) in which a plurality of battery cells (battery cells 11a) are laminated, and
An upper cell laminate (upper cell laminate 5) in which a plurality of battery cells (battery cells 21a) are laminated, and
A first case body including a first case body (first case body 12) for accommodating the lower cell laminate, and a first case cover (first case cover 13) for covering an upper opening of the first case body. Case (1st case 10A) and
A battery pack (battery pack 1) provided above the first case cover and including a second case (second case 20A) for accommodating the upper cell laminate.
The upper cell laminate is arranged so as to project on one side (front side) of the first direction (front-back direction) orthogonal to the lower cell laminate in the vertical direction.
Seen from above
The upper cell laminated body and the lower cell laminated body have an overlapping region (overlapping region R) in which the upper cell laminated body and the lower cell laminated body overlap.
In the first direction, the first case cover and the bottom plate (bottom plate 23) of the second case are fixed to one side of the overlapping region and below the upper cell laminate. A fixed portion (first fixed portion 31) is provided, and a fixed portion (first fixed portion 31) is provided.
A second fixing portion for fixing the first case cover and the bottom plate of the second case on the other side (rear side) of the overlapping region and above the lower cell laminate in the first direction (the second fixing portion). A second fixing portion 32) is provided,
In the first fixing portion, the first case cover projects downward, and the first case cover protrudes downward.
In the second fixing portion, the battery pack in which the bottom plate projects upward.

According to (1), at a position where the overlapping region where the upper cell laminated body and the lower cell laminated body overlap is avoided, the first fixed portion is arranged below the upper cell laminated body, and the overlapping region is avoided. By arranging the second fixing portion above the lower cell laminate, it is possible to prevent the first fixing portion and the second fixing portion from increasing the horizontal dimension of the battery pack. Further, since the first case cover protrudes downward in the first fixed portion and the bottom plate protrudes upward in the second fixed portion, it is not necessary to make the entire first case cover and bottom plate thick, and the fixed portion. By projecting only the battery pack, it is possible to suppress the increase in the vertical dimension of the battery pack.

(2) The battery pack according to (1).
The lower cell laminate constitutes a lower battery module (lower battery module 11) together with a power distribution member (distribution member 14) arranged at the upper part.
The upper surface (11s) of the lower battery module is a battery pack located above the lower end (31a) of the first fixing portion in the vertical direction.

According to (2), since the upper surface of the lower battery module is located above the lower end of the first fixing portion in the vertical direction, the clearance between the upper surface of the lower battery module and the first case cover can be reduced, and the battery pack can be reduced. The height dimension of the can be suppressed.

(3) The battery pack according to (1) or (2).
The lower cell laminate is configured by laminating the plurality of battery cells in the first direction.
The lower cell laminate constitutes a lower battery module together with a pair of end plates (end plates 15) arranged on both sides of the lower cell laminate in the first direction.
The height (height H1) of the pair of end plates is lower than the height (height H2) of the lower cell laminate.
The first fixing portion is a battery pack located above the end plate located on one side of the overlapping region in the first direction.

According to (3), by locating the end plate having a height lower than that of the lower cell laminate below the first fixing portion, it is possible to effectively utilize the space and suppress the increase in the volume of the battery pack.

(4) The battery pack according to (1) or (2).
The first case body has a side wall (side wall 12a) on one side of the overlapping region in the first direction.
The side wall is extended so as to incline to the one side as it goes upward.
Seen from above
The first fixing portion is a battery pack in which at least a part thereof overlaps with the side wall.

According to (4), the manufacturing of the first case main body can be facilitated by inclining the side wall of the first case main body and setting the draft. Further, when viewed from above, the volume increase of the battery pack can be suppressed by overlapping the first fixing portion with the side wall.

(5) The battery pack according to any one of (1) to (4).
A battery pack in which a temperature control flow path (temperature control flow path 40) through which a temperature control medium flows is provided between the first case cover and the bottom plate.

According to (5), by forming the temperature control flow path in the space between the first case cover and the bottom plate, the upper cell laminate can be effectively cooled with a small number of parts.

(6) The battery pack according to (5).
The first case cover is provided with a first protrusion (first protrusion 16) extending upward in the temperature control flow path.
The bottom plate is provided with a second protrusion (second protrusion 17) extending downward in the temperature control flow path.
A battery pack in which the first protrusion and the second protrusion are arranged adjacent to each other so as to be contactable in a direction orthogonal to the vertical direction.

According to (6), the contact between the first protrusion of the first case cover and the second protrusion of the bottom plate prevents the first case cover from bending due to the pressure flowing through the temperature control flow path. Can be done.

1 Battery pack 4 Lower cell laminate 5 Upper cell laminate 10A First case 11 Lower battery module 11a Battery cell 12 First case body 12a Side wall 13 First case cover 14 Power distribution member 15 End plate 16 First protrusion 17 Second Projection 20A 2nd case 21a Battery cell 23 Bottom plate 31 1st fixing part 32 2nd fixing part 40 Temperature control flow path H1 End plate height H2 Lower cell laminated body height R Overlapping area

Claims (6)

A lower cell laminate in which multiple battery cells are laminated, and
An upper cell laminate in which multiple battery cells are laminated, and
A first case including a first case body for accommodating the lower cell laminate and a first case cover for covering an upper opening of the first case body.
A battery pack provided above the first case cover and comprising a second case for accommodating the upper cell laminate.
The upper cell laminate is arranged so as to project to one side in the first direction orthogonal to the lower cell laminate in the vertical direction.
Seen from above
The upper cell laminate and the lower cell laminate have an overlapping region in which the upper cell laminate and the lower cell laminate overlap.
In the first direction , on one side of the overlapping region and at a position that overlaps with the upper cell laminate and does not overlap with the lower cell laminate when viewed from above , and below the upper cell laminate. A first fixing portion for fixing the first case cover and the bottom plate of the second case is provided.
In the first direction , on the other side of the overlapping region , at a position that overlaps with the lower cell laminate and does not overlap with the upper cell laminate when viewed from above , above the lower cell laminate. A second fixing portion for fixing the one case cover and the bottom plate of the second case is provided.
In the first fixing portion, the first case cover projects downward, and the first case cover protrudes downward.
In the second fixing portion, the battery pack in which the bottom plate projects upward. The battery pack according to claim 1.
The lower cell laminate constitutes a lower battery module together with a power distribution member arranged at the upper part.
A battery pack in which the upper surface of the lower battery module is located above the lower end of the first fixing portion in the vertical direction. The battery pack according to claim 1 or 2.
The lower cell laminate is configured by laminating the plurality of battery cells in the first direction.
The lower cell laminate comprises a lower battery module together with a pair of end plates arranged on both sides of the lower cell laminate in the first direction.
The height of the pair of end plates is lower than the height of the lower cell laminate.
The first fixing portion is a battery pack located above the end plate located on one side of the overlapping region in the first direction. The battery pack according to claim 1 or 2.
The first case body has a side wall on one side of the overlapping region in the first direction.
The side wall is extended so as to incline to the one side as it goes upward.
Seen from above
The first fixing portion is a battery pack in which at least a part thereof overlaps with the side wall. The battery pack according to any one of claims 1 to 4.
A battery pack in which a temperature control flow path through which a temperature control medium flows is provided between the first case cover and the bottom plate. The battery pack according to claim 5.
The first case cover is provided with a first protrusion extending upward in the temperature control flow path.
The bottom plate is provided with a second protrusion extending downward in the temperature control flow path.
A battery pack in which the first protrusion and the second protrusion are arranged adjacent to each other so as to be contactable in a direction orthogonal to the vertical direction.

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