JP7307721B2 - battery pack - Google Patents

Description

The present invention relates to a battery pack comprising a battery core pack having a plurality of battery cells held by cell holders and a case accommodating the battery core pack.

For example, as described in Japanese Unexamined Patent Application Publication No. 2016-534518, as a battery pack detachably mounted on an electric vehicle or the like, a battery core pack having a plurality of battery cells held in a cell holder, and the battery core pack It is known to provide a case for housing the .

In this type of battery pack, it is conceivable to provide a support frame for supporting the battery core pack inside the case in order to suppress rattling of the battery core pack in the case and improve durability.

Inside the case, the inner surface of the corner of the case faces the outer surface of the corner of the support frame. In addition, at least the corner portions of the case and the support frame are curved. In other words, at least the corners of the case are rounded. In this case, in order to further improve the durability of the battery pack by suppressing rattling between the case and the support frame, for example, the same curvature as that of the case is provided at the corners of the support frame. It requires high-precision processing and is complicated.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a battery pack having a simple configuration and capable of easily improving durability.

One aspect of the present invention is a battery pack comprising: a battery core pack having a plurality of battery cells held by a cell holder; and a case accommodating the battery core pack, wherein the battery core pack The case has a rectangular tube shape, the wall forming one side of the rectangular tube is a first case wall , and the other side of the rectangular tube is formed When the wall portion that intersects the first case wall is the second case wall, the case has a curved case corner portion that is formed on the ridges of the first case wall and the second case wall. , the support frame has a first frame wall, a second frame wall, and frame corners formed at the ridges of the first frame wall and the second frame wall; The inner surface faces the outer surface of the frame corner portion and at least partially fills a space between the inner surface of the first case wall and the outer surface of the first frame wall that face each other inside the case. An abutment is provided, and a second abutment is provided that at least partially fills a gap between the inner surface of the second case wall and the outer surface of the second frame wall that face each other inside the case.

In this battery pack, regardless of whether or not the frame corners are curved the same as the curvature of the case corners, the case and the support frame can be connected by a simple configuration in which the first contact portions and the second contact portions are provided. It is possible to suppress rattling with. That is, the durability of the battery pack can be easily improved with a simple configuration.

1 is a schematic perspective view of a battery pack according to an embodiment of the invention; FIG. 1 is an exploded perspective view of a battery pack in which a bottom case, an outer shell case, and a top case are disassembled; FIG. 3 is an exploded perspective view of a support frame and a battery group; FIG. FIG. 4 is a plan cross-sectional view of the battery pack for explaining the first contact portion and the second contact portion; FIG. 4 is a perspective view of an outer shell case for explaining a first contact portion and a second contact portion; 1 is an exploded perspective view of a battery core pack; FIG. FIG. 11 is a cross-sectional plan view of a battery pack for explaining a first contact portion and a second contact portion according to a modification;

A preferred embodiment of a battery pack according to the present invention will be described in detail with reference to the accompanying drawings. In the drawings below, constituent elements having the same or similar functions and effects are denoted by the same reference numerals, and repeated description may be omitted.

The battery pack 10 shown in FIG. 1 can be suitably applied, for example, to a portable drive power source that is detachably mounted on an electric vehicle (not shown) such as an electrically assisted bicycle, an electric motorcycle, or an electric vehicle. . Therefore, an example in which the battery pack 10 is mounted on an electric vehicle will be described below. The vertical direction of the battery pack 10 is based on the vertical direction (the directions of arrows X1 and X2 in FIG. 1) when the battery pack 10 is mounted on the electric vehicle. However, the battery pack 10 is not particularly limited to these, and can be applied to various devices that require power.

As shown in FIG. 2, the battery pack 10 includes a case 12 forming an exterior, a battery group 16 connecting two battery core packs 14a and 14b, and a battery group 16 (battery core pack 14a) inside the case 12. , 14b), a battery management unit (BMU) 20, and a connector section (not shown).

The case 12 can be made of, for example, metal such as aluminum, resin (including fiber-reinforced resin), or the like, and accommodates a battery group 16 (battery core packs 14a, 14b) having a substantially quadrangular prism shape. The case 12 includes a bottom case 22 that covers the bottom surface of the battery group 16, an outer shell case 24 that covers side surfaces 16a, 16b, 16c, and 16d (see FIG. 3) of the battery group 16, and a top case that covers the upper surface of the battery group 16. 26.

The bottom case 22 is a housing whose upper end is open. For example, hollow cylindrical or truncated cone-shaped protrusions 28 are provided at each of the four corners of the bottom surface to protrude upward (toward the arrow X1). ing. An insertion hole 28a through which a shaft portion of a bolt 30 (see FIG. 3), which will be described later, is inserted is formed in the tip surface of the protrusion 28. As shown in FIG. In addition, the connector portion and the like are accommodated inside the bottom case 22 .

The connector portion is exposed to the outside of the case 12 through, for example, a notch formed in the bottom wall of the bottom case 22, and is connected to a power supply port of an electric vehicle or a charging device for charging the battery group 16. It is possible to connect to Note that the notch, the power supply port, and the charging device are not shown. By connecting the connector portion to the power supply port or the charging device, it is possible to electrically connect the power supply port or the charging device and the battery group 16 via the BMU 20 with a lead wire or the like (not shown).

As shown in FIGS. 4 and 5, the outer shell case 24 has a rectangular tubular shape, and includes a pair of first case walls 32 facing each other, a set of second case walls 36 facing each other, and a first case wall 36 facing each other. It has a curved case corner portion 40 formed at each edge of the case wall 32 and the second case wall 36 . That is, the case corner portions 40 are formed at the four corners of the outer shell case 24, respectively.

Further, as shown in FIG. 4, in a cross section orthogonal to the ridge direction (directions of arrows X1 and X2) of the outer shell case 24, the first case wall 32 and the second case wall 36 are connected via the curved case corner portion 40. are in a row. In other words, the case corner portion 40 is rounded. The radius of the radius of the case corner portion 40 is not particularly limited, and can be appropriately set according to the specifications of the battery pack 10 and the like.

On the inner side surface 32a of the first case wall 32, near the case corner portion 40, a first projection protrudes along the direction perpendicular to the inner side surface 32a and extends along the ridge direction of the case corner portion 40. 1 contact portion 44 is integrally provided. Further, on the inner side surface 36a of the second case wall 36, in the vicinity of the case corner portion 40, a ridge projecting along the direction perpendicular to the inner side surface 36a and extending along the ridge direction of the case corner portion 40 is provided. A second contact portion 46 is integrally provided.

As shown in FIG. 5, in the present embodiment, each of the first contact portion 44 and the second contact portion 46 extends from one end of the outer shell case 24 in the ridge direction to the other end. Also, the length of protrusion of the first contact portion 44 with respect to the inner side surface 32 a of the first case wall 32 is smaller than the thickness of the first case wall 32 . The projection length of the second contact portion 46 with respect to the inner side surface 36 a of the second case wall 36 is smaller than the thickness of the second case wall 36 . The projection length of the first contact portion 44 and the projection length of the second contact portion 46 may be the same or different. Furthermore, the tip surface 44a of the first contact portion 44 and the tip surface 46a of the second contact portion 46 are flat surfaces.

As shown in FIGS. 2 and 5, the upper end of the outer shell case 24 is provided with an upper opening 24a, and the lower end of the outer shell case 24 is provided with a lower opening 24b. With the lower opening 24b covered by the bottom case 22 and the upper opening 24a covered by the top case 26, the bottom case 22, outer shell case 24, and top case 26 are integrated (see FIG. 1). reference). The battery group 16, the support frame 18, the BMU 20, and the like are accommodated in the internal space of the case 12 formed thereby.

As shown in FIG. 2, the top case 26 is a housing with an open bottom end, and is provided with a handle 26a that can be gripped when carrying the battery pack 10 on the top side. Female threads (not shown) are provided at the four corners of the bottom surface of the top case 26, for example, to engage with male threads 50a provided on the shafts of bolts 50 (see FIG. 3), which will be described later. The support frame 18 is connected to the lower surface side of the top case 26 via screw engagement of these male threads 50a and female threads.

As shown in FIG. 3, the support frame 18 is made of metal, for example, and has a first frame 52 and a second frame 54 . The first frame 52 is provided along a ridgeline on one side surface 16a of the pair of side surfaces 16a and 16b of the battery group 16 facing each other. The second frame 54 is provided along the ridgeline of the battery group 16 on the side of the other side surface 16b.

Specifically, each of the first frame 52 and the second frame 54 is configured by connecting the bottom member 60 and the covering member 62 . A bottom member 60 of the first frame 52 extends along the bottom of the side surface 16 a of the battery group 16 . The covering member 62 of the first frame 52 includes a pair of side portions 62a along a pair of vertically extending sides of the sides 16a of the battery group 16 excluding the bottom side, and an upper end portion along the upper side. 62b. An extending portion 62c along a part of the bottom side of the side surface 16a of the battery group 16 is provided at the lower end of the side portion 62a.

A bottom member 60 of the second frame 54 extends along the bottom of the side surface 16 b of the battery group 16 . The covering member 62 of the second frame 54 includes a pair of side portions 62a along a pair of vertically extending sides of the sides 16b of the battery group 16 excluding the bottom side, and an upper end portion along the upper side. 62b. An extending portion 62c along a part of the bottom side of the side surface 16b of the battery group 16 is provided at the lower end of the side portion 62a.

The side portions 62a of the first frame 52 and the second frame 54 are composed of a first frame wall 64, a second frame wall 66, and frames formed at the ridges of the first frame wall 64 and the second frame wall 66. corner portions 68, respectively. As shown in FIG. 4 , the frame corner portions 68 are provided so as to cover the ridges at the four corners of the battery group 16 respectively. Inside the outer shell case 24, the outer side surface 68a of the frame corner portion 68 faces the inner side surface 40a of the case corner portion 40 with a space therebetween. Note that the frame corner portion 68 may or may not be curved.

The first frame wall 64 covers part of the side surface 16 a or the side surface 16 b of the battery group 16 . Inside the outer shell case 24, the outer side surface 64a of the first frame wall 64 faces the inner side surface 32a of the first case wall 32 with a gap therebetween. Further, the tip surface 44a of the first contact portion 44 projecting from the inner surface 32a of the first case wall 32 abuts against the outer surface 64a of the first frame wall 64 . In the cross section of the side portion 62a orthogonal to the ridge direction of the frame corner portion 68, the length of the first frame wall 64 in the direction along the first case wall 32 (directions of arrows Y1 and Y2) is the first contact length in the same direction. longer than the length of portion 44. Therefore, the space between the outer side surface 64 a of the first frame wall 64 and the inner side surface 32 a of the first case wall 32 is partially filled by the first contact portion 44 .

The second frame wall 66 covers part of the side surface 16c or side surface 16d of the battery group 16 . Inside the outer shell case 24, the outer side surface 66a of the second frame wall 66 faces the inner side surface 36a of the second case wall 36 with a gap therebetween. Further, the tip surface 46a of the second contact portion 46 protruding from the inner surface 36a of the second case wall 36 abuts against the outer surface 66a of the second frame wall 66 . In the cross section of the side portion 62a perpendicular to the ridge direction of the frame corner portion 68, the length of the second frame wall 66 in the direction along the second case wall 36 (directions of arrows Z1 and Z2) is the second contact point in the same direction. longer than the length of portion 46. Therefore, the space between the outer side surface 66 a of the second frame wall 66 and the inner side surface 36 a of the second case wall 36 is partially filled by the second contact portion 46 .

As shown in FIG. 3, a pair of connecting members 70 are provided along a pair of sides of the bottom surface of the battery group 16 that are not covered with the bottom member 60, in other words, along the respective bottom sides of the side surfaces 16c and 16d. be done. The connecting member 70, the bottom member 60, and the extending portion 62c are stacked in the vertical direction, and the shaft portion of the bolt 30 is inserted through the mutually stacked portions from the upper side to the lower side. The shaft portion of the bolt 30 is also inserted through the insertion holes 28a (see FIG. 2) of the protrusions 28 provided at the four corners of the bottom surface of the bottom case 22, as described above. A nut 72 (see FIG. 3) or the like is attached to the tip of this shaft portion, so that the support frame 18 and the bottom case 22 are connected via the connecting member 70 .

A pair of connecting members 74 are provided along a pair of sides of the upper surface of the battery group 16 that are not covered by the upper end portion 62b of the covering member 62, in other words, along the respective upper sides of the side surfaces 16c and 16d. Protrusions 76 protruding upward are provided on both end sides of the upper end portion 62b of the covering member 62 in the extending direction. By providing the protrusions 76 in this manner, a space is provided between both ends of the upper end portion 62 b in the extending direction and the upper surface of the battery group 16 in which the heads of the bolts 50 can be arranged.

The projecting portion 76 and the connecting member 74 are stacked vertically, and the shaft portion of the bolt 50 is inserted through the stacked portions of each other from the bottom to the top. In this state, the male thread 50 a of the bolt 50 and the female thread of the top case 26 are screwed together to connect the support frame 18 and the top case 26 via the connecting member 74 .

The two battery core packs 14a, 14b that constitute the battery group 16 are configured in substantially the same manner. Therefore, the detailed description of the battery core pack 14b will be omitted below with the description of the battery core pack 14a.

As shown in FIG. 6 , the battery core pack 14a has a plurality of battery cells 80 and cell holders 82 . As shown in FIG. 2, in this embodiment, the battery group 16 is positioned at one end on the lower end thereof so as to form a space between the battery group 16 and the notch of the bottom case 22 for accommodating wiring and the like (not shown). It has a quadrangular prism shape with a notched portion.

The battery cell 80 has, for example, a cylindrical shape, and is provided with a positive electrode terminal 86 and a negative electrode terminal 88 at both ends in the axial direction. A suitable type of battery cell 80 is a lithium ion secondary battery, but is not limited to this. For example, a secondary battery such as a nickel hydrogen battery or a nickel cadmium battery may be used.

The cell holder 82 is configured by combining a positive electrode holder 82 a and a negative electrode holder 82 b, and has a holding portion 90 , a pressing plate portion 92 and a peripheral wall portion 94 . The holding part 90 has a plurality of holding holes 96 and holds the battery cells 80 in a state of being inserted through the holding holes 96 respectively. The holding holes 96 extend along the directions of the arrows Z1 and Z2, and expose the positive terminal 86 or the negative terminal 88 of the battery cell 80 through openings at both ends in the extending direction. In the plurality of battery cells 80 held by the holding portion 90, the positive terminals 86 are arranged flush with each other, and the negative terminals 88 are arranged flush with each other.

The holding plate portions 92 are provided on both end sides of the holding portion 90 in the directions of arrows Z1 and Z2, respectively, and exposed portions 98 formed of through holes are provided at positions corresponding to the openings of the holding holes 96 . The positive electrode terminal 86 is exposed to the outside of the cell holder 82 through the opening at one end of the holding hole 96 and the exposed portion 98 of the positive electrode holder 82a. Also, the negative electrode terminal 88 is exposed to the outside of the cell holder 82 through the opening on the other end side of the holding hole 96 and the exposed portion 98 of the negative electrode holder 82b.

A plurality of busbar plates 100 (see FIGS. 2 and 3) are attached to the pressing plate portion 92 so as to cover the exposed portion 98 exposing the positive electrode terminal 86 and the exposed portion 98 exposing the negative electrode terminal 88, respectively. be done. The pressing plate portion 92 is provided with a ridge portion 102 interposed between the busbar plates 100 to insulate them from each other.

The battery group 16 is formed by connecting the two battery core packs 14a and 14b such that the negative terminal 88 side of one battery core pack 14a faces the positive terminal 86 side of the other battery core pack 14b. It is In addition, the positive terminal 86 side of one battery core pack 14a and the negative terminal 88 side of the other battery core pack 14b, in other words, the side surfaces 16a and 16b on both sides in the directions of arrows Z1 and Z2 of the battery group 16 are formed into outer shells. It faces the inner surface 32a of the case 24 .

Each of the plurality of bus bar plates 100 connects a predetermined number of positive terminals 86 or negative terminals 88 in parallel. A portion 104 is provided, for example by embossing.

The peripheral wall portion 94 is provided so as to surround the holding portion 90 and the exposed portion 98 . Further, the end surface of the peripheral wall portion 94 is provided with a plurality of grooves 94a into which the connecting end portions 106 (see FIGS. 2 and 3) of the busbar plate 100 are respectively inserted. By connecting the connection end portion 106 to the lead wire or the like, the plurality of bus bar plates 100 are connected in series to the connector portion via the BMU 20 .

As shown in FIG. 3, the upper end of the positive electrode holder 82a of the battery core pack 14a on the arrow Z1 side and the upper end of the negative electrode holder 82b on the arrow Z2 side of the battery core pack 14b are projected upward. A protruding wall 108 is provided. A BMU 20 is arranged between these projecting walls 108 .

The BMU 20 stores, for example, a control unit that controls charging and discharging of the battery group 16, a communication unit that communicates with the electric vehicle and the charging device, and the state of the battery group 16 detected from the temperature and voltage of the battery cell 80. (none of which is shown).

In the battery pack 10 according to the present embodiment, which is basically configured as described above, for example, the battery pack 10 can be held near the charging device by gripping the handle 26a, and the connector portion and the charging device can be connected. Thus, the battery cell 80 can be charged. On the other hand, for example, the battery cell 80 can be discharged by holding the handle 26a to carry the battery pack 10 and mounting the battery pack 10 on the electric vehicle so that the connector portion and the power supply port are connected. can be done.

As described above, in the battery pack 10, the relative positions of the first case wall 32 and the first frame wall 64 are fixed by the first contact portion 44 and the second contact portion 46, and the second case wall 36 and the second case wall 36 are fixed. The relative position with the second frame wall 66 is fixed. Therefore, regardless of whether the frame corner portion 68 has the same curvature as the case corner portion 40, the first contact portion 44 is provided between the first case wall 32 and the first frame wall 64, With a simple configuration in which the second contact portion 46 is provided between the second case wall 36 and the second frame wall 66, rattling between the case 12 and the support frame 18 can be suppressed.

That is, even if the case corner portion 40 and the frame corner portion 68 have different radiuses of curvature, rattling between the case 12 and the support frame 18 can be suppressed. Therefore, the durability of the battery pack 10 can be easily improved with a simple structure without requiring complicated processing such as aligning the radius of the round of the case corner portion 40 and the radius of the round of the frame corner portion 68.例文帳に追加can be done.

In the battery pack 10 according to the above embodiment, the first contact portion 44 is integrally formed with the case 12 (outer shell case 24) so as to protrude from the first case wall 32 toward the first frame wall 64. , the second contact portion 46 is integrally formed with the case 12 (outer shell case 24 ) so as to protrude from the second case wall 36 toward the second frame wall 66 .

In this case, the tip surface 44a of the first contact portion 44 protruding from the first case wall 32 contacts the outer side surface 64a of the first frame wall 64, and the second contact portion 46 protruding from the second case wall 36 abuts on the outer side surface 66a of the second frame wall 66. As shown in FIG. Thereby, rattling between the case 12 and the support frame 18 can be suppressed. As described above, the durability of the battery pack 10 can be easily improved by a simple configuration in which the case 12 is provided with the first contact portion 44 and the second contact portion 46 .

Instead of the first contact portion 44 and the second contact portion 46 formed integrally with the case 12, the battery pack 10 has a first contact portion formed integrally with the support frame 18 as shown in FIG. A portion 110 and a second contact portion 112 may be provided. In this case, the first contact portion 110 is formed integrally with the side portion 62 a of the support frame 18 so as to protrude from the first frame wall 64 toward the first case wall 32 . Also, the second contact portion 112 is integrally formed with the side portion 62 a of the support frame 18 so as to protrude from the second frame wall 66 toward the second case wall 36 .

The projection length of the first contact portion 110 with respect to the outer side surface 64 a of the first frame wall 64 is smaller than the thickness of the first case wall 32 . The projection length of the second contact portion 112 with respect to the outer side surface 66 a of the second frame wall 66 is smaller than the thickness of the second case wall 36 . The projection length of the first contact portion 110 and the projection length of the second contact portion 112 may be the same or different. Further, the tip surface 110a of the first contact portion 110 is a flat surface along the inner side surface 32a of the first case wall 32, and the tip surface 112a of the second contact portion 112 is the inner surface of the second case wall 36. It is a flat surface along 36a.

In the cross section of the side portion 62a orthogonal to the ridge direction of the frame corner portion 68, the length of the first frame wall 64 in the direction along the first case wall 32 (directions of arrows Y1 and Y2) is the first contact length in the same direction. longer than the length of section 110 . Also, the length of the second frame wall 66 in the direction along the second case wall 36 (directions of arrows Z1 and Z2) is longer than the length of the second contact portion 112 in the same direction.

Therefore, when the tip surface 110a of the first contact portion 110 protruding from the first frame wall 64 comes into contact with the inner side surface 32a of the first case wall 32, the first contact portion 110 moves the first frame wall. The space between the outer surface 64a of 64 and the inner surface 32a of the first case wall 32 is partially filled. Similarly, when the tip surface 112a of the second contact portion 112 projecting from the second frame wall 66 contacts the inner side surface 36a of the second case wall 36, the second contact portion 112 causes the second frame wall The space between the outer surface 66a of 66 and the inner surface 36a of the second case wall 36 is partially filled. Also in this case, the durability of the battery pack 10 can be easily improved by a simple configuration in which the support frame 18 is provided with the first contact portion 110 and the second contact portion 112 .

In the battery pack 10 according to the above embodiment, each of the first contact portions 44, 110 and the second contact portions 46, 112 is a protrusion extending along the edge direction of the case corner portion 40. and In this case, rattling between the case 12 and the support frame 18 can be effectively suppressed with a simple configuration, and the durability of the battery pack 10 can be improved. The shape of each of the first contact portions 44, 110 and the second contact portions 46, 112 is not limited to the ridges described above.

In the above-described embodiment, the first contact portion 44 and the second contact portion 46 extend from one end to the other end in the ridge direction of the outer shell case 24 . That is, both end faces in the extending direction of the first contact portion 44 and both end faces in the ridge direction of the outer shell case 24 are flush with each other, and both end faces in the extending direction of the second contact portion 46 and the outer shell Both end faces of the case 24 in the ridge direction are flush with each other.

In this case, when the support frame 18 integrated with the battery group 16 is inserted into the outer shell case 24 along the ridge direction thereof, the lower end surface of the support frame 18 contacts the first contact portion 44 and the second contact portion 44 . Interference with the portion 46 can be suppressed. As a result, it becomes possible to easily assemble the battery pack 10 . In addition, the contact area between the first contact portion 44 and the first frame wall 64 in the extending direction of the first contact portion 44 and the second contact portion 46 can be increased. and the second frame wall 66 can be increased. This makes it possible to more effectively suppress rattling between the case 12 and the support frame 18 .

The extension lengths of the first contact portion 44 and the second contact portion 46 are not particularly limited to the lengths described above, and may be shorter than the length of the outer shell case 24 in the ridge direction. . Also, the first contact portions 44, 110 and the second contact portions 46, 112 may be intermittently provided in the ridge direction.

In the above-described embodiment, the distal end surface 44a of the first contact portion 44 and the distal end surface 46a of the second contact portion 46 are positioned on the outer surface 64a of the first frame wall 64 and the outer surface 66a of the second frame wall 66, respectively. A flat surface along the surface direction was used. Thereby, the contact area between the first contact portion 44 and the first frame wall 64 can be increased, and the contact area between the second contact portion 46 and the second frame wall 66 can be increased. As a result, rattling between the case 12 and the support frame 18 can be suppressed more effectively.

Further, the tip surface 110a of the first contact portion 110 and the tip surface 112a of the second contact portion 112 are flat surfaces along the inner side surface 32a of the first case wall 32 and the inner side surface 36a of the second case wall 36, respectively. bottom. Thereby, the contact area between the first contact portion 110 and the first case wall 32 can be increased, and the contact area between the second contact portion 112 and the second case wall 36 can be increased. As a result, rattling between the case 12 and the support frame 18 can be suppressed more effectively.

However, for example, the tip end surface 44a of the first contact portion 44 may be curved so that the outer side surface 64a of the first frame wall 64 and the tip end surface 44a of the first contact portion 44 are in line contact. A ridge may be provided on the surface 44a. Similarly, the tip surface 46a of the second contact portion 46 and the outer side surface 66a of the second frame wall 66, the tip surface 110a of the first contact portion 110 and the inner side surface 32a of the first case wall 32, the second contact The tip surface 112a of the portion 112 and the inner surface 36a of the second case wall 36 may be in line contact with each other.

In the battery pack 10 according to the above-described embodiment, the battery core packs 14a, 14b (battery group 16) are prismatic, and the frame corner portion 68 is formed between the side surfaces 16a, 16b, 16c, 16d of the battery core packs 14a, 14b. The case 12 has a rectangular tube-shaped outer shell case 24 that covers the side surfaces 16a, 16b, 16c, and 16d of the battery core packs 14a and 14b. , a second case wall 36 , and a case corner portion 40 .

More specifically, in the battery pack 10, the battery core packs 14a and 14b have a quadrangular prism shape, and the frame corner portions 68 are provided so as to cover the ridges at the four corners of the battery core packs 14a and 14b. The contact portion 44 and the second contact portion 46 are arranged in the vicinity of the case corner portions 40 provided at the four corners of the rectangular cylindrical outer shell case 24 . In this case, it is possible to more effectively suppress rattling between the case 12 and the support frame 18 with a simple configuration.

The present invention is not particularly limited to the above-described embodiments, and various modifications are possible without departing from the scope of the invention.

For example, in the above embodiment, the length of the first frame wall 64 in the directions of the arrows Y1 and Y2 is longer than the length of the first contact portions 44 and 110 in the same directions, and the first contact portions 44, 110 partially fills the space between the outer side surface 64a of the first frame wall 64 and the inner side surface 32a of the first case wall 32 . However, the length of the first contact portions 44 and 110 in the directions of the arrows Y1 and Y2 is equal to or greater than the length of the first frame wall 64 in the same direction, and the first contact portions 44 and 110 are not limited to this. The contact portions 44 and 110 may fill the entire space between the outer surface 64a of the first frame wall 64 and the inner surface 32a of the first case wall 32 . Similarly, the second abutment portions 46 and 112 may fill the entire space between the outer surface 66a of the second frame wall 66 and the inner surface 36a of the second case wall 36 .

In the above embodiment, the first contact portion 44 protrudes from the inner side surface 32a of the first case wall 32 and the second contact portion 46 protrudes from the inner side surface 36a of the second case wall 36 . However, either one of the first contact portion 44 and the second contact portion 46 does not have to protrude from the inner side surface 32a or the inner side surface 36a. That is, a portion of the inner side surface 32 a that contacts the outer side surface 64 a of the first frame wall 64 may constitute the first contact portion 44 . Alternatively, a portion of the inner side surface 36 a that contacts the outer side surface 66 a of the second frame wall 66 may constitute the second contact portion 46 .

Similarly, either one of the first contact portion 110 and the second contact portion 112 may not protrude from the outer surface 64a of the first frame wall 64 or the outer surface 66a of the second frame wall 66 . That is, a portion of the outer side surface 64 a that contacts the inner side surface 32 a of the first case wall 32 may constitute the first contact portion 110 . Alternatively, a portion of the outer side surface 66 a that contacts the inner side surface 36 a of the second case wall 36 may constitute the second contact portion 112 .

Also, the first contact portions 44 , 110 and the second contact portions 46 , 112 may be configured as separate members from both the case 12 and the support frame 18 . Each of the first contact portions 44 , 110 and the second contact portions 46 , 112 is provided between the inner surface of the bottom case 22 or the top case 26 and the outer surface of the support frame 18 instead of the outer shell case 24 . may be provided in The battery core packs 14a, 14b may have a prismatic shape other than a quadrangular prismatic shape. The battery pack 10 may include only one battery core pack, or may include a battery group in which three or more battery core packs are connected.

DESCRIPTION OF SYMBOLS 10... Battery pack 12... Case 14a, 14b... Battery core pack 18... Support frame 24... Outer shell case 32... First case wall 32a, 36a, 40a... Inside surface 36... Second case wall 40... Case corner part 44, DESCRIPTION OF SYMBOLS 110... 1st contact part 46, 112... 2nd contact part 64... 1st frame wall 64a, 66a, 68a... Outside surface 66... 2nd frame wall 68... Frame corner part 80... Battery cell 82... Cell holder

Claims (6)

A battery pack (10) comprising: a battery core pack (14a, 14b) having a plurality of battery cells (80) held in a cell holder (82); and a case (12) housing the battery core pack, ,
further comprising a support frame (18) for supporting the battery core pack inside the case;
The case has a rectangular tubular shape,
A wall portion forming one side of the square tube shape is a first case wall (32) , and a wall portion forming the other side of the square tube shape and crossing the first case wall is a second case wall (32). 36), the case has curved case corners (40 ) formed at the ridges of the first case wall and the second case wall,
The support frame comprises a first frame wall (64), a second frame wall (66) and frame corners (68) formed at the edges of the first and second frame walls. have
The inner surface (40a) of the case corner faces the outer surface (68a) of the frame corner,
A first abutment (44) is provided that at least partially fills in between the inner surface (32a) of the first case wall and the outer surface (64a) of the first frame wall that face each other inside the case. ,
A second abutment (46) is provided that at least partially fills between an inner surface (36a) of the second case wall and an outer surface (66a) of the second frame wall that face each other inside the case. , battery pack. The battery pack of claim 1,
The first contact portion is formed integrally with the case so as to protrude from the first case wall toward the first frame wall,
The battery pack, wherein the second contact portion is formed integrally with the case so as to protrude from the second case wall toward the second frame wall. The battery pack of claim 1,
The first contact portion is formed integrally with the support frame so as to protrude from the first frame wall toward the first case wall,
The battery pack, wherein the second contact portion is formed integrally with the support frame so as to protrude from the second frame wall toward the second case wall. In the battery pack according to claim 2 or 3,
The battery pack, wherein each of the first contact portion and the second contact portion is a ridge extending along a ridge direction of the case corner portion. In the battery pack according to any one of claims 1 to 4,
The battery core pack is prismatic,
The frame corners cover edges between side surfaces (16a, 16b, 16c, 16d) of the battery core pack,
The case has the square tube-shaped outer shell case (24) covering the side surface of the battery core pack, and the outer shell case includes the first case wall, the second case wall, and the case corners. and a battery pack. In the battery pack according to claim 5,
The battery core pack has a square prism shape,
The frame corner portions are provided so as to cover respective ridges at four corners of the battery core pack,
The battery pack, wherein the first contact portion and the second contact portion are respectively arranged in the vicinity of the case corner portions provided at the four corners of the rectangular cylindrical outer shell case.

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