JP7044576B2 - Charger - Google Patents

Description

The present invention relates to a charger.

A charger is used to charge the battery. In recent years, various chargers have been developed, for example, as described in Patent Documents 1 and 2.

Patent Document 1 describes a charger for supplying electric power to a mobile phone. The charger has an attachable and removable connector. Patent Document 1 describes that a charger can be used for various types of mobile phones by exchanging connectors according to the type of mobile phone.

Patent Document 2 describes a charger having a floating connector. In Patent Document 2, the battery unit is housed in the accommodating portion, and the floating connector is movable in a direction intersecting the insertion direction of the battery unit into the accommodating portion.

Further, Patent Document 3 describes attaching a battery pack to a portable personal computer (PC).

Utility Model Registration No. 312392 Japanese Unexamined Patent Publication No. 2013-140710 Japanese Patent Application Laid-Open No. 2003-91335

The present inventor has studied the structure of a charger for charging a battery pack having a plurality of stacked battery cells (for example, a lithium ion secondary battery).

An object of the present invention is to provide a charger having a novel structure.

According to the present invention
With the housing
A first holder that is removable and removable from the housing and can hold the battery pack,
A connector that can be attached to and removed from the housing and can be electrically connected to the battery pack.
A charger is provided.
According to the present invention
A housing having an upper surface on which a circuit board is mounted, a first side surface, and a second side surface opposite to the first side surface.
A first holder that is removable and removable from the first side of the housing and can hold the battery pack.
A second holder that is removable and removable from the second side of the housing and can hold the battery pack.
A charger is provided.
According to the present invention
With the housing
A connector that can be movably attached to the housing and is removable from the housing and can be electrically connected to the battery pack.
A charger is provided.

According to the present invention, a charger having a novel structure is provided.

It is a perspective view of the charger which concerns on embodiment. It is a top view of the charger shown in FIG. (A) is a perspective view of the holding body shown in FIG. 1, and (b) is a perspective view of the holding body shown in (a) as viewed from the side opposite to (a). It is a perspective view of the connector shown in FIG. It is a figure for demonstrating an example of the details of a movable part. It is a perspective view of an example of a battery pack that can be mounted on the charger shown in FIG. 1. 6 is a perspective view of the battery pack shown in FIG. 6 as viewed from the opposite side of FIG. 6 is a perspective view of a battery module housed in the case of the battery pack shown in FIGS. 6 and 7. It is a figure for demonstrating the 1st modification of FIG. It is a figure for demonstrating the 2nd modification of FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. In all drawings, similar components are designated by the same reference numerals, and description thereof will be omitted as appropriate.

FIG. 1 is a perspective view of the charger 20 according to the embodiment.

The outline of the charger 20 will be described with reference to FIG. The charger 20 includes a housing 300, a holder 310, and a connector 400. The holding body 310 is capable of holding the battery pack 10. The connector 400 is electrically connectable to the battery pack 10. The holding body 310 is attachable to and removable from the housing 300. The connector 400 is attachable and removable to the housing 300.

According to the above-described configuration, even if the battery pack 10 is not compatible with the holding body 310, the battery pack 10 can be charged only by replacing the holding body 310 without replacing the entire charger 20. To prevent interconnection of chargers and battery packs that are not electrically compatible with each other, the charger holder may only be mechanically compatible with battery packs that are electrically compatible with the charger. In this case, if the holder is integrated with the housing, it is necessary to replace the entire charger with another charger in order to charge the battery pack that is not mechanically compatible with the holder. On the other hand, in the above-described configuration, the holding body 310 is attachable to and removable from the housing 300. Therefore, even if the battery pack 10 is not compatible with the holding body 310, the battery pack 10 can be charged only by replacing the holding body 310 without replacing the entire charger 20.

According to the above-described configuration, even if the holding body 310 is damaged, the charger 20 can be maintained only by replacing the holding body 310 without replacing the entire charger 20. If the holder is integrated with the housing, the entire charger will need to be replaced with another charger if the holder is damaged. On the other hand, in the above-described configuration, the holding body 310 is attachable to and removable from the housing 300. Therefore, even if the holding body 310 is damaged, the charger 20 can be maintained only by replacing the holding body 310 without replacing the entire charger 20. That is, the charger 20 can be maintained at low cost.

According to the above-described configuration, even if the battery pack 10 is not compatible with the connector 400, the battery pack 10 can be charged only by replacing the connector 400 without replacing the entire charger 20. To prevent interconnection of chargers and battery packs that are not electrically compatible with each other, the connector of the charger may only be mechanically compatible with the battery pack that is electrically compatible with the charger. In this case, if the connector is integrated with the housing, it is necessary to replace the entire charger with another charger in order to charge the battery pack that is not mechanically compatible with the connector. On the other hand, in the above-described configuration, the connector 400 is attachable to and removable from the housing 300. Therefore, even if the battery pack 10 is not compatible with the connector 400, the battery pack 10 can be charged only by replacing the connector 400 without replacing the entire charger 20.

According to the above-described configuration, even if the connector 400 is damaged, the charger 20 can be maintained only by replacing the connector 400 without replacing the entire charger 20. If the connector is integrated with the housing, the entire charger will need to be replaced with another charger if the connector is damaged. On the other hand, in the above-described configuration, the connector 400 is attachable to and removable from the housing 300. Therefore, even if the connector 400 is damaged, the charger 20 can be maintained only by replacing the connector 400 without replacing the entire charger 20. That is, the charger 20 can be maintained at low cost.

The details of the housing 300 will be described with reference to FIG.

The housing 300 has a bottom surface 302a, a top surface 302b, a first side surface 304a, a second side surface 304b, a third side surface 304c, and a fourth side surface 304d. The top surface 302b is on the opposite side of the bottom surface 302a. The first side surface 304a is inclined outward from the upper surface 302b toward the bottom surface 302a. The second side surface 304b is on the opposite side of the first side surface 304a and is inclined outward from the upper surface 302b toward the bottom surface 302a. The third side surface 304c is located between the first side surface 304a and the second side surface 304b. The fourth side surface 304d is on the opposite side of the third side surface 304c.

The holding body 310 can be attached to the first side surface 304a or the second side surface 304b of the housing 300. That is, the battery pack 10 can be attached to the first side surface 304a or the second side surface 304b of the housing 300 via the holding body 310. Due to the inclination of the first side surface 304a and the second side surface 304b, the upper portion of the battery pack 10 is inclined toward the inside of the housing 300 and mounted on the housing 300. Therefore, the battery pack 10 can be stably mounted on the housing 300, and the risk of the battery pack 10 being detached from the housing 300 can be suppressed.

In the example shown in FIG. 1, each of the first side surface 304a and the second side surface 304b has a groove 306. The groove 306 extends in the direction from the upper surface 302b toward the bottom surface 302a. The holding body 310 can be attached to the first side surface 304a or the second side surface 304b so that at least a part of the holding body 310 is embedded in the groove 306. That is, the battery pack 10 can be attached to the first side surface 304a or the second side surface 304b so that at least a part of the battery pack 10 is embedded in the groove 306. By embedding at least a part of the battery pack 10 in the groove 306, the battery pack 10 can be stably mounted. Further, by embedding at least a part of the battery pack 10 in the groove 306, it is possible to suppress the bulkiness of the battery pack 10 when the battery pack 10 is mounted in the housing 300.

In the example shown in FIG. 1, the upper end of the groove 306 intersects the upper surface 302b of the housing 300, and the lower end of the groove 306 does not reach the bottom surface 302a of the housing 300. Therefore, the holding body 310 and the battery pack 10 can be inserted into the groove 306 from the upper surface 302b of the housing 300. Further, the holding body 310 and the battery pack 10 can be stably supported at the lower end of the groove 306.

A circuit board 320 is mounted on the upper surface 302b of the housing 300. As will be described in detail later with reference to FIG. 2, the circuit board 320 has a circuit for controlling charging of the battery pack attached to the housing 300.

A handle 330 is attached to the upper surface 302b of the housing 300. The user of the charger 20 can carry the charger 20 by grasping the handle 330. In the example shown in FIG. 1, the handle 330 is provided so as to straddle the circuit board 320.

The connector 400 can be movably attached to the housing 300. That is, the connector 400 can function as a floating connector. Therefore, the connector 400 can follow the battery pack 10 within the movable range of the connector 400. Therefore, the degree of freedom for connecting the battery pack 10 to the connector 400 can be increased.

In the example shown in FIG. 1, the connector 400 can be attached to the housing 300 via the movable portion 410. The movable portion 410 is movable with respect to the housing 300. Therefore, the connector 400 becomes movable with respect to the housing 300 via the movable portion 410.

The connector 400, that is, the movable portion 410 may be movable in a direction intersecting the insertion direction of the battery pack 10 into the connector 400, more specifically, in an orthogonal direction. In the example shown in FIG. 1, the movable portion 410 is movable in the width direction (direction d1 in FIG. 1) and the height direction (direction d2 in FIG. 1) of the connector 400.

FIG. 2 is a top view of the charger 20 shown in FIG. In FIG. 2, the handle 330 shown in FIG. 1 is removed for the sake of explanation.

The housing 300 has a plurality of grooves 306, that is, a first groove 306a, a second groove 306b, a third groove 306c, and a fourth groove 306d. The first groove 306a and the third groove 306c are formed on the first side surface 304a of the housing 300, and the second groove 306b and the fourth groove 306d are formed on the second side surface 304b of the housing 300. The first groove 306a and the third groove 306c are arranged along the direction along the first side surface 304a (first direction D1 in the drawing) when viewed from the upper surface 302b of the housing 300, and the first groove 306a and the third groove 306c are arranged. The second groove 306b is arranged along a direction orthogonal to the first direction D1 (second direction D2 in the drawing), and the third groove 306c and the fourth groove 306d are arranged along the second direction D2. There is.

The holding body 310 shown in FIG. 1 has a first groove 306a (first portion of the first side surface 304a), a second groove 306b (first part of the second side surface 304b), and a third groove 306c (first side surface 304a). It can be attached to each of the second portion) and the fourth groove 306d (the second portion of the second side surface 304b).

The structure for attaching the holding body 310 to the housing 300 is not limited to the grooves (grooves 306) shown in FIGS. 1 and 2. In another example, the retainer 310 may be mounted on a flat side surface (eg, first side surface 304a or second side surface 304b where the groove 306 is not formed) within the housing 300.

The circuit board 320 has a first region 320a, a second region 320b, a third region 320c, and a fourth region 320d. The first region 320a has a circuit for controlling the charging of the battery pack attached to the first groove 306a, and the second region 320b controls the charging of the battery pack attached to the second groove 306b. The third region 320c has a circuit for controlling the charging of the battery pack attached to the third groove 306c, and the fourth region 320d has a fourth groove 306d. It has a circuit to control the charging of the battery pack attached to. That is, a single circuit board (circuit board 320) shares a circuit for controlling the battery pack attached to each groove 306.

The first region 320a, the second region 320b, the third region 320c, and the fourth region 320d of the circuit board 320 are the first grooves in the first groove 306a, the second groove 306b, the third groove 306c, and the fourth groove 306d. It is closest to the 306a, the second groove 306b, the third groove 306c and the fourth groove 306d, respectively. Therefore, the distance between the battery pack attached to each groove 306 and the circuit for controlling the charging of the battery pack can be shortened.

In the example shown in FIG. 2, in the circuit board 320, one end of the circuit board 320 is located between the first groove 306a and the third groove 306c, and the opposite end of the circuit board 320 is the second groove. It extends in the second direction D2 so as to be located between the 306b and the fourth groove 306d.

At least a part of the first region 320a and at least a part of the third region 320c of the circuit board 320 may be located between the first groove 306a and the third groove 306c, and in the example shown in FIG. 2, the circuit board 320 A part of the first region 320a and a part of the third region 320c are located between the first groove 306a and the third groove 306c. That is, the convex region between the first groove 306a and the third groove 306c functions as a region for arranging a part of the circuit board 320.

At least a part of the second region 320b and at least a part of the fourth region 320d of the circuit board 320 may be located between the second groove 306b and the fourth groove 306d, and in the example shown in FIG. 2, the circuit board 320 A part of the second region 320b and a part of the fourth region 320d are located between the second groove 306b and the fourth groove 306d. That is, the convex region between the second groove 306b and the fourth groove 306d functions as a region for arranging a part of the circuit board 320.

FIG. 3A is a perspective view of the holding body 310 shown in FIG. FIG. 3B is a perspective view of the holding body 310 shown in FIG. 3A as viewed from the side opposite to FIG. 3A.

The holding body 310 has a bottom plate 312, a first side wall 314a, a second side wall 314b, and a third side wall 314c. The first side wall 314a is on the bottom plate 312. The second side wall 314b is on the bottom plate 312 on the opposite side of the first side wall 314a. The third side wall 314c is located between the first side wall 314a and the second side wall 314b on the bottom plate 312. A space for the battery pack 10 to enter is defined by a bottom plate 312, a first side wall 314a, a second side wall 314b and a third side wall 314c, and this space is open outward on the opposite side of the third side wall 314c. Has been done. Therefore, it is possible to pass the battery pack from the opposite side of the third side wall 314c toward the third side wall 314c.

The holding body 310 has a guide path 316. The guide path 316 is for guiding the battery pack. In the example shown in FIG. 3, the holding body 310 has a plurality of guide paths 316, that is, a first guide path 316a, a second guide path 316b, a third guide path 316c, and a fourth guide path 316d. The first guideway 316a is on the first side wall 314a. The second guideway 316b is on the second side wall 314b. The third guideway 316c is on the first side wall 314a and is closer to the third side wall 314c than the first guideway 316a. The fourth guideway 316d is on the second side wall 314b and is closer to the third side wall 314c than the second guideway 316b.

The retainer 310 has a hole 318. The hole 318 is formed in the third side wall 314c. The connector 400 (FIG. 1) of the charger 20 is exposed from the hole 318 and can be connected to the connector 200 (FIG. 7 described later) of the battery pack 10. That is, the connector 400 (FIG. 1) is provided so as to be exposed from the third side wall 314c of the holding body 310.

FIG. 4 is a perspective view of the connector 400 shown in FIG.

The connector 400 has a base 400a, a first terminal 402a, a second terminal 402b, a third terminal 402c, a first guide portion 404a, and a first guide portion 404a. The first terminal 402a, the second terminal 402b, the third terminal 402c, the first guide portion 404a, and the first guide portion 404a project from the base 400a.

The first terminal 402a is one of the power supply terminal and the ground terminal, the second terminal 402b is the other of the power supply terminal and the ground terminal, and the third terminal 402c is a sense terminal. In the example shown in FIG. 3, the first terminal 402a and the second terminal 402b are separated from each other with the third terminal 402c interposed therebetween. Therefore, it is possible to secure the withstand voltage between the first terminal 402a and the second terminal 402b.

The first guide portion 404a and the first guide portion 404a are separated from each other with the first terminal 402a, the second terminal 402b, and the third terminal 402c interposed therebetween. The first guide portion 404a is located next to the first terminal 402a. The first guide portion 404a is located next to the second terminal 402b.

FIG. 5 is a diagram for explaining a detailed example of the movable portion 410.

The movable portion 410 has a first surface 412, a second surface 414, and a hole 416. The second surface 414 is on the opposite side of the first surface 412. The hole 416 penetrates the movable portion 410 from the first surface 412 to the second surface 414.

The housing 300 has a shaft member 350. The shaft member 350 penetrates the hole 416 of the movable portion 410. The width of the hole 416 is wider than the width of the shaft member 350. Therefore, the movable portion 410 is movable in the width direction (direction d1 in FIG. 5) and the axial direction (direction d2 in FIG. 5) of the shaft member 350. In this way, as shown in FIG. 1, the movable portion 410 becomes movable in the width direction (direction d1 in FIG. 1) and the height direction (direction d2 in FIG. 1) of the connector 400.

A fixture 550 is attached to the shaft member 350. The fixture 550 is embedded in the shaft member 350 from the second surface 414 side to the first surface 412 side of the movable portion 410. In the example shown in FIG. 2, the fixative 550 is a screw.

The housing 300 has a stopper 352, and the fixative 550 has a stopper 552. The shaft member 350 is located between the stopper 352 and the stopper 552. The stopper 352 and the stopper 552 limit the movable range of the shaft member 350 in the movable portion 410 in the axial direction (direction d2 in FIG. 5).

FIG. 6 is a perspective view of an example of a battery pack 10 that can be mounted on the charger 20 shown in FIG. FIG. 7 is a perspective view of the battery pack 10 shown in FIG. 6 as viewed from the opposite side of FIG.

The battery pack 10 has a case 110, a plurality of slide portions 116, and a connector 200.

The case 110 has a plurality of surfaces, that is, a bottom surface 112a, an upper surface 112b, a first side surface 114a, a second side surface 114b, a third side surface 114c, and a fourth side surface 114d. The top surface 112b is on the opposite side of the bottom surface 112a. The first side surface 114a, the second side surface 114b, the third side surface 114c, and the fourth side surface 114d are located between the bottom surface 112a and the top surface 112b. The second side surface 114b is on the opposite side of the first side surface 114a. The third side surface 114c is between the first side surface 114a and the second side surface 114b. The fourth side surface 114d is on the opposite side of the third side surface 114c.

The case 110 has a height direction between the bottom surface 112a and the top surface 112b, a length direction between the first side surface 114a and the second side surface 114b, and a third side surface 114c and a fourth side surface. It has a width direction between 114d. In the example shown in FIGS. 6 and 7, the length of the case 110 in the length direction (the length between the first side surface 114a and the second side surface 114b) is the length in the width direction of the case 110 (third side surface 114c). And the length between the fourth side surface 114d).

The case 110 houses the battery module 12, which will be described later with reference to FIG. In the example shown in FIGS. 6 and 7, the case 110 has a first case member 110a and a second case member 110b. The first case member 110a and the second case member 110b are joined to each other so as to define a space for accommodating the battery module 12 (FIG. 8). The first case member 110a constitutes the bottom surface 112a of the case 110, and constitutes a part of each of the first side surface 114a, the second side surface 114b, the third side surface 114c, and the fourth side surface 114d of the case 110, and the battery module 12 It covers the lower part of (Fig. 8). The second case member 110b constitutes the upper surface 112b of the case 110, and constitutes a part of each of the first side surface 114a, the second side surface 114b, the third side surface 114c, and the fourth side surface 114d of the case 110, and the battery module 12 It covers the upper part of (Fig. 8).

The plurality of slide portions 116 are arranged on the bottom surface 112a side (first case member 110a) of the case 110, and are arranged closer to the bottom surface 112a than the top surface 112b.

The plurality of slide portions 116 include a first slide portion 116a, a second slide portion 116b, a third slide portion 116c, and a fourth slide portion 116d. The first slide portion 116a and the third slide portion 116c are arranged along the third side surface 114c. The first slide portion 116a is closer to the first side surface 114a than the third slide portion 116c. In the example shown in FIGS. 6 and 7, the first slide portion 116a is closer to the first side surface 114a than the second side surface 114b, and the third slide portion 116c is closer to the second side surface 114b than the first side surface 114a. Near. The second slide portion 116b and the fourth slide portion 116d are arranged along the fourth side surface 114d. The second slide portion 116b is closer to the first side surface 114a than the fourth slide portion 116d. In the example shown in FIGS. 6 and 7, the second slide portion 116b is closer to the first side surface 114a than the second side surface 114b, and the fourth slide portion 116d is located on the first side surface 114a rather than the second side surface 114b. Near.

In the first slide portion 116a, the second slide portion 116b, the third slide portion 116c, and the fourth slide portion 116d of the case 110, the second side surface 114b of the case 110 faces the third side wall 314c (FIG. 3) of the holding body 310. As such, the holding body 310 is slidable along the first guide path 316a, the second guide path 316b, the third guide path 316c, and the fourth guide path 316d (FIG. 3). In this way, the guide path 316 of the holding body 310 can guide the battery pack 10.

The first slide portion 116a and the third slide portion 116c of the case 110 may not be compatible with the second guide path 316b or the fourth guide path 316d (FIG. 3) of the holding body 310, and the second slide portion of the case 110 may not be fitted. The portions 116b and the fourth slide portion 116d may not be compatible with the first guide path 316a or the third guide path 316c (FIG. 3) of the holding body 310. In this case, the battery pack 10 is attached to the holder 310 in the wrong direction, that is, the battery pack 10 is attached to the holder 310 so that the first side surface 114a of the case 110 faces the third side wall 314c of the holder 310. It can be prevented from being attached. In one example, the shape of the first slide portion 116a and the shape of the third slide portion 116c may be asymmetric with respect to the shape of the second slide portion 116b and the shape of the fourth slide portion 116d, respectively, and the shape of the first guide path may be asymmetrical. The shape of the 316a and the shape of the third guideway 316c may be asymmetric with respect to the shape of the second guideway 316b and the shape of the fourth guideway 316d, respectively. Alternatively, the distance from the bottom surface 112a of the case 110 to the third slide portion 116c and the distance from the bottom surface 112a to the fourth slide portion 116d may be different. Further, the distance from the bottom plate 312 of the holding body to the first guide path 316c and the distance from the bottom plate 312 to the third guide path 316d may be different.

In the present embodiment, the slide portion 116 (FIG. 7) of the case 110 is a concave portion, and the guide path 316 (FIG. 3) of the holding body 310 is a convex portion compatible with the slide portion 116 (concave portion). In another example, the slide portion 116 (FIG. 7) of the case 110 may be a convex portion, and the guide path 316 (FIG. 3) of the holding body 310 may be a concave portion compatible with the slide portion 116 (convex portion). ..

The connector 200 is arranged on the second side surface 114b side of the case 110. The connector 200 is arranged on the bottom surface 112a side of the case 110 (first case member 110a), and is arranged closer to the bottom surface 112a than the top surface 112b.

The connector 200 has a first terminal 202a, a second terminal 202b, a third terminal 202c, a first adjuster 204a, and a second adjuster 204b. The first terminal 202a, the second terminal 202b, the third terminal 202c, the first adjuster 204a and the second adjuster 204b are exposed from the case 110.

The first terminal 202a is one of the power supply terminal and the ground terminal, the second terminal 202b is the other of the power supply terminal and the ground terminal, and the third terminal 202c is a sense terminal. In the example shown in FIG. 7, the first terminal 202a and the second terminal 202b are separated from each other with the third terminal 202c interposed therebetween. Therefore, it is possible to secure the withstand voltage between the first terminal 202a and the second terminal 202b.

The first adjuster 204a and the second adjuster 204b are separated from each other with the first terminal 202a, the second terminal 202b, and the third terminal 202c interposed therebetween. The first adjuster 204a is located next to the first terminal 202a. The second adjuster 204b is located next to the second terminal 202b.

The first terminal 202a, the second terminal 202b, and the third terminal 202c of the connector 200 can be connected to the first terminal 402a, the second terminal 402b, and the third terminal 402c (FIG. 4) of the connector 400, respectively. In this way, the battery pack 10 can be electrically connected to the charger 20.

In the present embodiment, the first terminal 202a, the second terminal 202b, and the third terminal 202c (FIG. 7) of the connector 200 are recesses, respectively, and the first terminal 402a, the second terminal 402b, and the third terminal of the connector 400 are recessed. Each of the 402c (FIG. 4) is a convex portion compatible with each (concave portion) of the first terminal 202a, the second terminal 202b, and the third terminal 202c of the connector 200. In another example, each of the first terminal 202a, the second terminal 202b, and the third terminal 202c (FIG. 7) of the connector 200 is a convex portion, and the first terminal 402a, the second terminal 402b, and the third terminal of the connector 400 are convex portions. Each of the 402c (FIG. 4) may be a concave portion compatible with each (convex portion) of the first terminal 202a, the second terminal 202b, and the third terminal 202c of the connector 200.

The first adjuster 204a and the second adjuster 204b of the connector 200 are slidable along the first guide portion 404a and the second guide portion 404b (FIG. 4) of the connector 400, respectively. In this way, in the first guide portion 404a and the second guide portion 404b of the connector 400, the first terminal 202a, the second terminal 202b and the third terminal 202c of the connector 200 are the first terminal 402a and the second terminal of the connector 400. The first adjuster 204a and the second adjuster 204b of the connector 200 can be guided so as to be connected to the 402b and the third terminal 402c, respectively.

In the present embodiment, each of the first adjuster 204a and the second adjuster 204b (FIG. 7) of the connector 200 is a recess, and each of the first guide portion 404a and the second guide portion 404b (FIG. 4) of the connector 400 is a recess. , A convex portion compatible with each (concave portion) of the first adjuster 204a and the second adjuster 204b of the connector 200. In another example, each of the first adjuster 204a and the second adjuster 204b (FIG. 7) of the connector 200 is a convex portion, and each of the first guide portion 404a and the second guide portion 404b (FIG. 4) of the connector 400 is a convex portion. It may be a concave portion compatible with each (convex portion) of the first adjuster 204a and the second adjuster 204b of the connector 200.

FIG. 8 is a perspective view of the battery module 12 housed in the case 110 of the battery pack 10 shown in FIGS. 6 and 7.

The battery module 12 has a plurality of battery cells 100, a circuit board 120, a holder 122, wiring 124, and a connector 200.

Each battery cell 100 is a non-aqueous electrolyte secondary battery, for example, a lithium ion secondary battery, and has a positive electrode, a negative electrode, a separator, and an exterior material. The positive electrode, the negative electrode, and the negative electrode are laminated so that adjacent positive electrodes and negative electrodes are separated from each other by a separator. The exterior material seals a laminate including a positive electrode, a negative electrode, and a separator.

The plurality of battery cells 100 are mounted on the circuit board 120 via the holder 122. Each battery cell 100 is electrically connected to the circuit board 120 via the wiring 124. In the example shown in FIG. 3, the circuit board 120 is a Battery Management Unit (BMU).

The connector 200 is attached to the circuit board 120. The connector 200 is electrically connected to each battery cell 100 via the circuit board 120 and the wiring 124. Therefore, the electric power generated by each battery cell 100 can be supplied to the connector 200 via the wiring 124 and the circuit board 120.

FIG. 9 is a diagram for explaining the first modification of FIG. 1.

In the example shown in FIG. 9, at least a part (first terminal 402a and second terminal 402b) of the connector 400 is exposed from the bottom plate 312 of the holding body 310. In the example shown in FIG. 9, the battery pack 10 shown in FIGS. 6 and 7 has a connector 200 on the bottom surface 112a. In this case, when the battery pack 10 is attached to the holding body 310 so that the bottom surface 112a of the case 110 faces the bottom plate 312 of the housing 300, the connector 200 of the battery pack 10 and the connector 400 of the charger 20 are connected. Will be able to.

FIG. 10 is a diagram for explaining a second modification of FIG. 1.

In the example shown in FIG. 10, the connector 200 (FIG. 1) is located on the third side wall 314c side, except when the battery pack 10 (FIGS. 6 and 7) is attached to the holder 310. It is covered by a shutter 319. In one example, the shutter 319 may be mechanically opened when the battery pack 10 is attached to the retainer 310. In this example, for example, the shutter 319 can be opened by a member mechanically interlocked with the attachment of the battery pack 10 to the holder 310. In another example, the shutter 319 may be configured to electrically open when the battery pack 10 is attached to the retainer 310. In this example, for example, the shutter 319 can be opened by an electric signal indicating a detection result of attachment of the battery pack 10 to the holder 310.

Although the embodiments of the present invention have been described above with reference to the drawings, these are examples of the present invention, and various configurations other than the above can be adopted.
Hereinafter, an example of the reference form will be added.
1. 1. With the housing
The first holder that can hold the battery pack and
Equipped with
The first holder is a charger that can be attached to and detached from the housing.
2. 2. 1. 1. In the charger described in
The first holder is a charger having a guide path for guiding the battery pack.
3. 3. 1. 1. Or 2. In the charger described in
The housing has a bottom surface, a top surface opposite the bottom surface, and a first side surface between the bottom surface and the top surface.
The first holding body is a charger that can be attached to the first portion of the first side surface.
4. 1. 1. Or 2. In the charger described in
The housing has a bottom surface, a top surface opposite the bottom surface, and a first side surface between the bottom surface and the top surface.
The first side surface of the housing has a first groove extending from the upper surface toward the bottom surface.
The first holding body is a charger that can be attached to the first side surface so that at least a part of the first holding body is embedded in the first groove of the first side surface.
5. 3. 3. Or 4. In the charger described in
The first side surface is a charger that is inclined outward from the upper surface toward the bottom surface.
6. 3. 3. In the charger described in
Further equipped with a second holder capable of holding the battery pack,
The second holder is attachable and removable to the housing, and is removable.
The housing has a second side surface opposite to the first side surface.
The second holder is a charger that can be attached to the first portion of the second side surface.
7. 6. In the charger described in
A third holder capable of holding the battery pack and a fourth holder capable of holding the battery pack are further provided.
The third holder is attachable and removable to the housing, and is removable.
The fourth holder is attachable and removable to the housing, and is removable.
The third holding body can be attached to the second portion of the first side surface.
The fourth holding body can be attached to the second portion of the second side surface.
The first portion of the first side surface and the second portion of the first side surface are arranged along a first direction along the first side surface when viewed from the upper surface of the housing. ,
The first portion of the first side surface and the first portion of the second side surface are arranged along a second direction orthogonal to the first direction when viewed from the upper surface of the housing. ,
The second portion of the first side surface and the second portion of the second side surface are chargers arranged along the second direction when viewed from the upper surface of the housing.
8. 7. In the charger described in
A circuit board mounted on the upper surface of the housing is provided.
The circuit board has a first region having a circuit for controlling charging of a battery pack attached to the first portion of the first side surface, and a battery pack attached to the first portion of the second side surface. A second region having a circuit for controlling the charging of the battery pack, a third region having a circuit for controlling the charging of the battery pack attached to the second portion of the first side surface, and the second side surface. A fourth region having a circuit for controlling charging of the battery pack attached to the second portion is included.
The first region of the circuit board is the first portion of the first side surface among the first portion and the second portion of the first side surface and the first portion and the second portion of the second side surface. Closest to the part,
The second region of the circuit board is the first portion of the second side surface among the first portion and the second portion of the first side surface and the first portion and the second portion of the second side surface. Closest to the part,
The third region of the circuit board is the second part of the first side surface in the first part and the second part of the first side surface and the first part and the second part of the second side surface. Closest to the part,
The fourth region of the circuit board is the second part of the second side surface in the first part and the second part of the first side surface and the first part and the second part of the second side surface. The charger closest to the part.
9. 1. 1. In the charger according to any one of 1 to 8.
It also has a connector that can be electrically connected to the battery pack.
The connector is a charger that can be attached to and detached from the housing.
10. 9. In the charger described in
The connector is a charger that can be movably attached to the housing.
11. 10. In the charger described in
The connector is a charger that is movable in a direction intersecting the insertion direction of the battery pack into the connector.
12. With the housing
With a connector that can be electrically connected to the battery pack,
Equipped with
The connector is a charger that can be attached to and detached from the housing.
13. 12. In the charger described in
The connector is a charger that can be movably attached to the housing.
14. 13. In the charger described in
The connector is a charger that is movable in a direction intersecting the insertion direction of the battery pack into the connector.

10 Battery pack 12 Battery module 20 Charger 100 Battery cell 110 Case 110a First case member 110b Second case member 112a Bottom 112b Top surface 114a First side surface 114b Second side surface 114c Third side surface 114d Fourth side surface 116 Sliding part 116a First Slide part 116b 2nd slide part 116c 3rd slide part 116d 4th slide part 120 Circuit board 122 Holder 124 Wiring 200 Connector 202a 1st terminal 202b 2nd terminal 202c 3rd terminal 204a 1st adjuster 204b 2nd adjuster 300 Housing 302a Bottom surface 302b Top surface 304a First side surface 304b Second side surface 304c Third side surface 304d Fourth side surface 306 Groove 306a First groove 306b Second groove 306c Third groove 306d Fourth groove 310 Holding body 312 Bottom plate 314a First side wall 314b Second side wall 314c 3rd side wall 316 Guideway 316a 1st guideway 316b 2nd guideway 316c 3rd guideway 316d 4th guideway 318 Hole 319 Shutter 320 Circuit board 320a 1st area 320b 2nd area 320c 3rd area 320d 4th area 330 Handle 350 Shaft member 352 Stopper 400 Connector 400a Base 402a 1st terminal 402b 2nd terminal 402c 3rd terminal 404a 1st guide part 404b 2nd guide part 410 Movable part 412 1st surface 414 2nd surface 416 Hole 550 Fixture 552 Stopper

Claims (14)

With the housing
A first holder that is removable and removable from the housing and can hold the battery pack,
A connector that can be attached to and removed from the housing and can be electrically connected to the battery pack.
A charger equipped with. In the charger according to claim 1 ,
The connector is a charger that can be movably attached to the housing. In the charger according to claim 2 ,
The connector is a charger that is movable in a direction intersecting the insertion direction of the battery pack into the connector. A housing having an upper surface on which a circuit board is mounted, a first side surface, and a second side surface opposite to the first side surface .
A first holder that is removable and removable from the first side of the housing and can hold the battery pack.
A second holder that is removable and removable from the second side of the housing and can hold the battery pack.
A charger equipped with. In the charger according to claim 4 ,
The first side surface of the housing has a first groove extending downward from the upper surface.
The first holding body is a charger that can be attached to the first side surface so that at least a part of the first holding body is embedded in the first groove of the first side surface. In the charger according to claim 4 or 5 .
The first side surface is a charger that is inclined outward as it goes downward from the upper surface. In the charger according to any one of claims 4 to 6 .
A third holding body that can be attached to and removed from a mounting portion different from the mounting portion of the first holding body on the first side surface of the housing and can hold the battery pack.
A fourth holder that can be attached to and removed from a mounting portion different from the mounting portion of the second holder on the second side surface of the housing and can hold the battery pack.
Further prepare
The mounting portion of the first holding body on the first side surface and the mounting portion of the third holding body on the first side surface are in a first direction along the first side surface when viewed from the upper surface of the housing. Lined up along the
The mounting portion of the first holding body on the first side surface and the mounting portion of the second holding body on the second side surface are in a second direction orthogonal to the first direction when viewed from the upper surface of the housing. Lined up along the
The mounting portion of the third holding body on the first side surface and the mounting portion of the fourth holding body on the second side surface are arranged along the second direction when viewed from the upper surface of the housing. Charger. In the charger according to claim 7,
The circuit board is
The mounting of the first holding body in the mounting portion of the first holding body, the mounting portion of the second holding body, the mounting portion of the third holding body, and the mounting portion of the fourth holding body. A first region, which is closest to the portion and has a circuit for controlling charging of the battery pack attached to the mounting portion of the first holder on the first side surface.
The mounting of the second holding body in the mounting portion of the first holding body, the mounting portion of the second holding body, the mounting portion of the third holding body, and the mounting portion of the fourth holding body. A second region, which is closest to the portion and has a circuit for controlling charging of the battery pack attached to the mounting portion of the second retainer on the second side surface.
The mounting portion of the third holding body among the mounting portion of the first holding body, the mounting portion of the second holding body, the mounting portion of the third holding body, and the mounting portion of the fourth holding body. A third region , which is closest to the portion and has a circuit for controlling charging of the battery pack attached to the mounting portion of the third holder on the first side surface.
The mounting portion of the fourth holding body among the mounting portion of the first holding body, the mounting portion of the second holding body, the mounting portion of the third holding body, and the mounting portion of the fourth holding body. A fourth region , which is closest to the portion and has a circuit for controlling charging of the battery pack attached to the mounting portion of the fourth holder on the second side surface.
Charger including . In the charger according to any one of claims 4 to 8, the charger
It also has a connector that can be electrically connected to the battery pack.
The connector is a charger that can be attached to and detached from the housing. In the charger according to claim 9,
The connector is a charger that can be movably attached to the housing. In the charger according to claim 10,
The connector is a charger that is movable in a direction intersecting the insertion direction of the battery pack into the connector. In the charger according to any one of claims 1 to 11 .
The first holder is a charger having a guide path for guiding the battery pack. With the housing
A connector that can be movably attached to the housing and is removable from the housing and can be electrically connected to the battery pack.
A charger equipped with. In the charger according to claim 13,
The connector is a charger that is movable in a direction intersecting the insertion direction of the battery pack into the connector.

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