JP6585663B2 - Bicycle battery - Google Patents

Description

  The present invention relates to a bicycle battery.

  A bicycle battery holder that detachably holds a bicycle battery is known (for example, Patent Document 1).

Japanese Patent No. 3606027

  Since the weight of the battery can be reduced as the electric capacity of the battery decreases, the vehicle body becomes lighter. For this reason, a driver | operator's burden becomes small. On the other hand, as the electric capacity of the battery increases, it is possible to travel for a long distance using the battery. Thus, the optimal electrical capacity and weight of the bicycle battery vary depending on the bicycle application. For this reason, the battery holder and battery which can mount the battery according to a driver | operator's request | requirement are calculated | required.

  The objective of this invention is providing the battery for bicycles which contributes to the improvement of usability.

  A bicycle battery according to a first aspect of the present invention includes a first battery capable of supplying electric power to an electric component, and the first battery is configured to be electrically connectable to a second battery. The power is configured to be able to be supplied to the electric component.

  The bicycle battery according to the second aspect according to the first aspect further includes the second battery.

  In the bicycle battery according to the third aspect according to the second aspect, the first battery and the second battery include terminals that electrically connect each other.

  In the bicycle battery according to the fourth aspect according to the third aspect, each of the first battery and the second battery includes a connector connected to an electric wire that electrically connects each other.

  In the bicycle battery according to the fifth aspect according to any one of the first to fourth aspects, the first battery is configured to be electrically connectable to a bicycle battery holder.

  In the bicycle battery according to the sixth aspect according to the second aspect, the first battery includes a first terminal and a second terminal, and the second battery is electrically connected to the first terminal of the first battery. The second terminal of the first battery is configured to be electrically connectable to a terminal of the bicycle battery holder.

  In the bicycle battery according to the seventh aspect according to any one of the second to sixth aspects, the first battery and the second battery are configured to be mechanically connectable.

  In the bicycle battery according to the eighth aspect according to any one of the first to seventh aspects, the first battery and the second battery independently supply electric power to the electric component.

  In the bicycle battery according to the ninth aspect according to any one of the first to eighth aspects, the second battery and the first battery simultaneously supply power to the electric component.

  In the bicycle battery according to the tenth aspect according to any one of the first to eighth aspects, the first battery and the second battery sequentially supply power to the electric component.

  In the bicycle battery according to the eleventh aspect according to any one of the first to tenth aspects, the electric component includes a motor, and the motor is configured to be capable of assisting bicycle propulsion.

  The bicycle battery according to the present invention contributes to improvement of usability.

The left view of the bicycle carrying the battery holder for bicycles of an embodiment. The side view of the battery holder of FIG. 1 (a state in which a plurality of batteries are mounted). The top view of the battery holder of FIG. 1 (state which abbreviate | omitted the battery). The side view which expanded a part of battery holder of FIG. Sectional drawing of the 5-5 line | wire of the battery holder of FIG. 4 (state which abbreviate | omitted the battery). The side view of the battery of one Embodiment which can be mounted in the battery holder of FIG. The perspective view when the battery of FIG. 6 is seen from one end side. The perspective view when the battery of FIG. 6 is seen from the other end side. The side view which shows the state which mounted the small battery in the battery holder of FIG. The side view which shows the state which mounted the battery larger than FIG. 9 in the battery holder of FIG. The side view of the battery holder of a 1st modification. The top view of the battery holder of FIG. The side view which expanded a part of battery holder of the 2nd modification. Sectional drawing of the 14-14 line | wire of the battery holder of FIG. 13 (state which abbreviate | omitted the battery). The side view which expanded a part of battery holder of the 3rd modification. FIG. 16 is a cross-sectional view taken along line 16-16 of the battery holder of FIG. The perspective view when the battery of a modification is seen from the other end side. The side view which shows the state which connected the battery of FIG. 17 in multiple numbers and mounted in the battery holder of FIG. The side view of the holding member of the battery of one Embodiment. The perspective view of the battery holder of the modification which mounts the battery of FIG.

  A bicycle battery holder (hereinafter referred to as a battery holder) and a bicycle battery according to an embodiment will be described with reference to FIGS.

  As shown in FIG. 1, the bicycle B is mounted with a drive unit D that is an electric component, a battery holder 10, and a battery 40 that supplies power to the drive unit D. The drive unit D includes a control device and a motor (not shown), and assists the manual driving force applied to the crankshaft C using electric power supplied from the battery 40. The control device drives the motor in response to detection by a sensor that detects human power driving force. The bicycle B may be a mountain bike or a road bike. The drive unit D may be disposed near the crankshaft C and drive the front sprocket, or may be configured on the rear wheel or the front wheel.

  The battery holder 10 can be attached to the frame F of the bicycle B. The battery holder 10 is preferably attached to the down tube FA or the seat tube FB of the frame F.

  The battery holder 10 includes a first support portion 12 capable of supporting the battery 40, a second support portion 14 capable of supporting the battery 40 together with the first support portion 12, and the second support portion 14 as the first support portion. 12 is provided with a moving mechanism 16 for moving with respect to 12, and a lock mechanism 18 (see FIG. 2).

  As shown in FIG. 2, the first support portion 12 and the second support portion 14 are disposed on the frame F at positions separated from each other.

  The first support portion 12 is detachable from the frame F. The first support portion 12 is attached to the frame F via bolts S. As shown in FIG. 3, the first support portion 12 is on the second support portion 14 side, and a terminal 22 that can be electrically connected to the battery 40 is provided on the facing surface 20 facing the battery 40. Is provided. Around the terminal 22, a fourth fitting portion 20A protruding from the periphery of the facing surface 20 is provided. The fourth fitting portion 20A can support the battery 40 at the first support position PA by fitting the first fitting portion 42A, which is a recess formed in the end portion 42 of the battery 40. The first support position PA corresponds to the position of the facing surface 20 in the frame F. A guide portion 20B is provided on the facing surface 20 of the first support portion 12 at a position different from that of the fourth fitting portion 20A. The guide part 20B is provided on the outer side in the width direction than the fourth fitting part 20A. The guide portion 20B protrudes from the facing surface 20 toward the second support portion 14 and toward the outer side in the width direction of the bicycle B.

  The second support portion 14 can be attached to and detached from the frame F. The second support portion 14 is attached to the frame F via the moving mechanism 16. The second support portion 14 has a shape that can be fitted into a recess 40 </ b> B formed on the side surface 40 </ b> A of the battery 40. As shown in FIG. 2, the second support portion 14 has a trapezoidal shape when the bicycle B is viewed from the side.

  The facing surface 14D of the second support portion 14 facing the first support portion 12 is curved so as to approach the first support portion 12 from one side in the width direction of the bicycle B toward the other. A groove 14E extending in the width direction of the bicycle B is formed on the facing surface 14D. The groove 14 </ b> E guides the contact portion 40 </ b> D provided in the recess 40 </ b> B of the battery 40 when the battery 40 is attached, and suppresses the battery 40 from being detached to the upper side in FIG. 2 with the battery 40 attached. The second support portion 14 can support the battery 40 at the second support position PB by fitting the recess 40B into the second support portion 14. The second support position PB corresponds to the position of the second support portion 14 in the frame F.

  The moving mechanism 16 includes a rail 24 for sliding the second support portion 14 and a fixing mechanism 26. The rail 24 can be attached to the frame F via bolts S. The rail 24 can be attached to and detached from the frame F. The rail 24 extends along the frame F. As shown in FIG. 5, a groove 24 </ b> B extending in the longitudinal direction of the rail 24 is formed in an intermediate portion in the width direction of the rail 24, and is formed on the lower surface of the second support portion 14 in this groove 24 </ b> B. The guide part 14C is fitted. The groove 24 </ b> B includes a wide portion 24 </ b> C having a wide groove width at a portion on the frame F side. 14 C of guide parts have a part extended on the both sides of the width direction so that it may fit in this wide part 24C. Thus, the second support portion 14 is prevented from coming out upward in FIG. Since the second support portion 14 is movably attached to the rail 24, the second support portion 14 is movable with respect to the frame F of the bicycle B.

  The length and mounting position of the rail 24 are set to be suitable for the battery to be mounted. Specifically, the position of the end of the rail 24 opposite to the first support 12 in the longitudinal direction is farther from the first support 12 than the second support position PB suitable for the battery that can be mounted. It attaches to the flame | frame F so that it may become. Further, the rail 24 is attached to the frame F so that the end portion on the first support portion 12 side of the rail 24 is positioned on the first support portion 12 side with respect to the second support position PB suitable for the battery that can be mounted.

  The second support position PB suitable for the battery is, for example, a state where only the first battery 40X shown in FIG. 9 is mounted, a state where a battery BT larger than the first battery 40X shown in FIG. 10 is mounted, or It is determined based on the state where the two batteries 40X and 40Y shown in FIG. 2 are mounted.

  As shown in FIG. 5, the fixing mechanism 26 includes two brackets 28, a shaft 30, an eccentric cam 32, and an operation unit 33.

  The two brackets 28 are respectively attached to both side surfaces 14A and 14B of the second support portion 14. A convex portion 28 </ b> A that can be fitted into a concave portion 24 </ b> A formed on the side surface of the rail 24 is formed at the lower end portion of the two brackets 28. As shown in FIG. 2, a plurality of the recesses 24 </ b> A are provided along the rails 24 at a predetermined interval. The second support position PB can be changed between the recess 24A formed at one end in the longitudinal direction of the rail 24 and the recess 24A formed at the other end. For this reason, the second support position PB can be changed discontinuously according to the position of the recess 24A.

  The second support position PB can be changed continuously. For example, the bracket 28 is not formed with a convex portion and the rail 24 is not formed with a concave portion 24 </ b> A, and the bracket 28 is fixed to the rail 24 by a frictional force sandwiching the rail 24. And With such a configuration, the position of the second support portion 14 with respect to the rail 24 and the second support position PB can be continuously changed.

  As shown in FIG. 5, the shaft 30 passes through the second support portion 14 and the two brackets 28 in the width direction. A stopper 30 </ b> A larger than the diameter of the shaft 30 is attached to one end of the shaft 30. One bracket 28 is sandwiched between the stopper 30 </ b> A and the first side surface 14 </ b> A that is one side surface in the width direction of the second support portion 14.

  The eccentric cam 32 is attached to the other end of the shaft 30. The other bracket 28 is sandwiched between the eccentric cam 32 and the second side surface 14B which is the other side surface in the width direction of the second support portion 14. The eccentric cam 32 is attached to the shaft 30 so as to be rotatable around a direction orthogonal to the axial direction of the shaft 30. The operation unit 33 is connected to the eccentric cam 32 and is used to move the rotational position of the eccentric cam 32 between the fixed position and the release position.

  When the rotational position of the eccentric cam 32 is at the fixed position shown by the solid line in FIG. 5, the cam surface 32 </ b> A of the eccentric cam 32 moves the other bracket 28 to the second side surface 14 </ b> B of the second support portion 14 and the side surface of the rail 24. Press. The stopper 30 </ b> A presses one bracket 28 against the first side surface 14 </ b> A of the second support portion 14 and the side surface of the rail 24. Thereby, the position with respect to the rail 24 and the flame | frame F of the 2nd support part 14 is fixed. When the rotational position of the eccentric cam 32 is at the release position indicated by a two-dot chain line in FIG. 5, the cam surface 32 </ b> A of the eccentric cam 32 is separated from the other bracket 28. For this reason, the convex portions 28 </ b> A of the two brackets 28 can be removed from the concave portions 24 </ b> A of the rail 24. For this reason, the second support portion 14 can move with respect to the rail 24.

  As shown in FIG. 4, the lock mechanism 18 includes a cylinder lock 34 fixed to the second support portion 14, and a latch 36 that can be retracted by the cylinder lock 34. The cylinder lock 34 can be rotated by a key (not shown). As the cylinder lock 34 rotates, the latch 36 is switched between a state protruding above the second support portion 14 and a state accommodated in the second support portion 14. When the latch 36 protrudes from the second support portion 14, the latch 36 is fitted into a hole 40 </ b> C formed in the recess 40 </ b> B of the battery 40. Thereby, it is suppressed that the battery 40 detaches | leaves from the 2nd support part 14 undesirably. When the latch 36 is not retracted by the cylinder lock 34, the latch 36 protrudes above the second support portion 14 by an elastic member (not shown). For this reason, when the latch 40 and the hole 40C do not face each other, for example, when the position is adjusted to attach the battery 40 to the battery holder 10, it is pushed down by the bottom surface of the battery 40. When the battery 40 is mounted at a holding position where the latch 36 and the hole 40C face each other, the battery 40 is fitted into the hole 40C.

  The configuration of the battery 40 will be described with reference to FIG. 2 and FIGS. The battery 40 of the present embodiment is configured by connecting a plurality of batteries.

  As shown in FIG. 2, the battery 40 includes a first battery 40X and a second battery 40Y that is a bicycle battery. The first battery 40X and the second battery 40Y have housings 41X and 41Y, respectively, and include rechargeable batteries (not shown) including a plurality of cells in the housings 41X and 41Y. The first battery 40X and the second battery 40Y are configured to be mechanically connectable. The first battery 40X is formed with the aforementioned recess 40B. The second battery 40 </ b> Y is disposed between the first battery 40 </ b> X and the first support portion 12 when the battery 40 is attached to the battery holder 10. As shown in FIG. 6, the second battery 40Y has a substantially rectangular parallelepiped shape.

  As shown in FIG. 7, a first terminal 44 is provided at the first end 42 in one direction of the second battery 40Y. The first terminal 44 can be electrically connected to the terminal 22 of the first support portion 12 of the battery holder 10 shown in FIG. In a state in which the battery 40 is attached to the battery holder 10, the first terminal 44 contacts the terminal 22 of the first support portion 12. The first end portion 42 is a first portion. The first end portion 42 includes a first fitting portion 42 </ b> A having a concave shape around the first terminal 44.

  As shown in FIG. 8, a second terminal 48 is provided at the second end 46 in one direction of the second battery 40Y. As shown in FIG. 2, the second terminal 48 can be electrically connected to the first terminal 44X of the first battery 40X, which is the first terminal of another battery. The second end portion 46 is a second portion. The second end portion 46 includes a second fitting portion 46 </ b> A having a convex shape around the second terminal 48. The first fitting portion 42A and the second fitting portion 46A are formed in a complementary shape.

  The first terminal 44X of the first battery 40X is formed in the same shape as the first terminal 44 of the second battery 40Y. The first end portion 49 in one direction of the first battery 40X has a third fitting portion 49A having a concave shape around the first terminal 44, and a concave portion 49B similar to the concave portion 40B (see FIG. 9). ). The end portion 49 of the first battery 40X has the same shape as the end portion 42 of the second battery 40Y.

  When the first battery 40X is connected to the second fitting portion 46A, the first terminal 44X of the first battery 40X is connected to the second terminal 48. At this time, the power of the second battery 40Y can be supplied to the drive unit D (see FIG. 1) of the bicycle B independently of the first battery 40X. Moreover, the electric power of the first battery 40X can supply electric power to the drive unit D (see FIG. 1) of the bicycle B independently of the second battery 40Y.

  The second battery 40Y is stably supported by the first support portion 12 by fitting the first insertion portion 42A into the fourth insertion portion 20A. The third fitting portion 49A has the same shape as the first fitting portion 42A. Therefore, when the second battery 40Y is removed, the third fitting portion 49A of the first battery 40X is fitted into the first fitting portion 42A of the battery holder 10 as shown in FIG. The terminal 44X and the terminal 22 can be electrically connected.

  With reference to FIGS. 2-5, the 1st example of the attachment method to the battery holder 10 of the 1st battery 40X and the 2nd battery 40Y is demonstrated.

  First, the operator operates the operation unit 33 to rotate the eccentric cam 32 to the release position. Next, the operator pulls out the convex portions 28 </ b> A of the two brackets 28 from the concave portions 24 </ b> A of the rail 24. Next, the operator adjusts the second support portion according to the distance from the end portion 42 attached to the first support portion 12 of the battery 40 in which the first battery 40X and the second battery 40Y are combined to the recess 40B. 14 is moved.

  Next, the operator fits the first fitting portion 42 </ b> A of the second battery 40 </ b> Y into the fourth fitting portion 20 </ b> A of the first support portion 12. As a result, the first terminal 44 comes into contact with the terminal 22. Next, the operator fits the recess 40 </ b> B of the first battery 40 </ b> X into the second support portion 14 and locks it with the lock mechanism 18. Next, the worker moves the first battery 40 </ b> X together with the second support portion 14 in a direction approaching the first support portion 12. At this time, the operator fits the first fitting portion 42A of the second battery 40Y into the third fitting portion 49A of the first battery 40X, and the first terminal 44 to the second terminal of the battery 40. 48.

  Next, the operator fits the convex portions 28A of the two brackets 28 into the concave portions 24A of the rails 24 formed at corresponding positions. Next, the operator operates the operation unit 33 to rotate the eccentric cam 32 to a fixed position. Through these operations, the two batteries 40 are supported by the battery holder 10.

  When the lengths of the first battery 40X and the second battery 40Y that are connected in advance are determined, the second support 14 is moved to the position farthest away from the first support 12 when the second support 14 is moved. The rail 24 may be formed so that the portion 14 is positioned to fit into the recess 24A. Further, when the battery 40 having the same combination of the batteries 40X and 40Y is mounted, the work of moving the second support portion 14 can be omitted after the second time. Further, a mark may be provided on the rail 24 in accordance with a predetermined combination of the batteries 40X and 40Y, and the second support portion 14 may be moved to the position of the mark in accordance with the battery 40X and 40Y to be combined.

  With reference to FIG. 2 and FIG. 3, the 2nd example of the attachment method to the battery holder 10 of the 1st battery 40X and the 2nd battery 40Y is demonstrated. In the second example of the attachment method, the second support portion 14 is fixed to the rail 24 so that the second support position PB is a position corresponding to the length of the battery 40 to be attached in advance.

  First, the operator prepares the battery 40 in a state where the third fitting portion 49A of the first battery 40X and the second fitting portion 46A of the second battery 40Y are fitted together. Next, the operator aligns the positions of the concave portion 42 </ b> B of the battery 40 and the guide portion 20 </ b> B of the first support portion 12. At this time, the operator supports the battery 40 such that the opening of the recess 42B is fitted into the tip of the guide portion 20B and the second battery 40Y is positioned outside the frame F with respect to the second support portion 14. . Next, the worker turns and moves the battery 40 around the guide portion 20B so that the contact portion 40D of the second battery 40Y is along the groove 14E of the second support portion 14. Note that only the battery BT or the first battery 40X can be attached to the battery holder 10 using the second example of this attachment method.

  The operation of the battery holder 10 will be described with reference to FIG. 2, FIG. 9, and FIG.

  The battery holder 10 can change the second support position PB of the second support portion 14. Specifically, as shown in FIG. 2, when the first battery 40X and the second battery 40Y are mounted on the bicycle B, the second support position PB is the first battery on the side away from the first support position PA. It is set at the position of the 40X recess 40B. As shown in FIG. 9, when only the first battery 40X is mounted on the bicycle B, the second support position PB is set to the position of the recess 40B of the first battery 40X. As shown in FIG. 10, when the battery BT larger than the first battery 40X is mounted on the bicycle B, the second support position PB is set to the position of the recess BTX of the battery BT. Note that one end BTA of the battery BT has the same shape as the end 42 of the second battery 40Y. Therefore, the end portion BTA of the battery BT is supported by the first support portion 12. As described above, the battery holder 10 can support the number of batteries 40 desired by the driver or the battery BT having a different size from the battery 40.

  The battery holder 10 has the following effects.

  (1) The battery holder 10 can change the second support position PB. For this reason, the number of batteries 40X and 40Y mounted on the bicycle B can be changed. In addition, the battery B, the first battery 40X, and the battery BT having different electric capacities and weights can be mounted on the bicycle B. For this reason, usability can be improved.

  (2) The second support portion 14 is movable with respect to the bicycle B. Therefore, the second support position PB can be easily changed as compared with the configuration in which the second support position PB is changed by attaching and detaching the second support portion 14 to and from the frame F.

  (3) The battery holder 10 includes the moving mechanism 16 including the rail 24. For this reason, the second support position PB can be easily moved by sliding the second support portion 14 to the rail 24.

  (4) The moving mechanism 16 includes a fixing mechanism 26 that can fix the position of the second support portion 14 by the rotation of the eccentric cam 32. For this reason, the movement of the 2nd support part 14 and the position of the 2nd support part 14 can be fixed easily.

  (5) The second support portion 14 has a shape of a convex portion that fits into the concave portion 40 </ b> B of the battery 40. For this reason, the 2nd support part 14 can support the battery 40 stably.

  (6) The second support portion 14 includes a lock mechanism 18. For this reason, it can suppress that the battery 40 remove | deviates from the 2nd support part 14. FIG.

  The battery 40 has the following effects.

  (1) The battery 40 has a first fitting portion 42A configured to be supported by the battery holder 10 and a second fitting that can be connected to another battery 40 in a portion other than the first fitting portion 42A. 46A. For this reason, since the battery 40 can be connected and mounted on the battery holder 10, the user can mount a desired number of batteries 40 on the bicycle B, and usability is improved.

  (2) In the battery 40, the first terminal 44 can be connected to the terminal 22 of the battery holder 10 and the second terminal 48 of another battery 40. For this reason, since it can electrically connect with the other battery 40 using the 1st terminal 44, the drive unit D can connect and use the some battery 40 in order sequentially or simultaneously.

  Specific forms that the bicycle battery holder and the bicycle battery can take are not limited to the forms exemplified in the above embodiment. The bicycle battery holder and the bicycle battery can take various forms different from the above embodiment. The modification of the said embodiment shown below is an example of the various forms which the battery holder for bicycles and the battery for bicycles can take.

  -The battery holder 10 can also be changed into the battery holder 50 shown by FIG. 11 and FIG. The battery holder 50 includes a holding unit 52. The holding unit 52 includes a first portion 54 and a second portion 56. The holding part 52 holds the side surface 40 </ b> A that is a part different from the first support part 12 and the second support part 14 in the battery 40. The second portion 56 is fixed to the first support portion 12. The first portion 54 is connected to the second portion 56 so as to be slidable with respect to the second portion 56. The first portion 54 and the second portion 56 are respectively provided on both sides in the width direction of the first support portion 12 and the second support portion 14. One end portion 54 </ b> A of the first portion 54 is attached to the side surface of the first support portion 12. The other end 56 </ b> A of the second portion 56 is attached to the side surface of the second support portion 14. For this reason, the holding part 52 connects the first support part 12 and the second support part 14. The length of the holding portion 52 is changed when the distance between the first support portion 12 and the second support portion 14 is changed when the second support portion 14 moves on the rail 24. .

  -The moving mechanism 16 of the battery holder 10 can also be changed to the moving mechanism 60 shown by FIG. 13 and FIG. The moving mechanism 60 includes a rail 62 and a fixing mechanism 64. On the side surface of the rail 62, a groove 62A extending along the longitudinal direction of the rail 62 is formed. The rail 62 has a U-shaped cross section. The lower part of the second support portion 14 is fitted into the U-shaped opening 62B. The U-shaped opening 62 </ b> B is slightly larger than the second support portion 14. The fixing mechanism 64 includes a shaft 66 that penetrates the second support portion 14 and is fitted into the groove 62A, and a lever 68. The lever 68 is attached to one end of the shaft 66. A stopper 66 </ b> A having a diameter larger than that of the shaft 66 is attached to the other end of the shaft 66.

  In the above modification, when the rotation position of the lever 68 is at the fixed position, the stopper 66A presses against the side surfaces 14A and 14B of the second support portion 14 via the rail 62. Thereby, the position with respect to the rail 62 and the flame | frame F of the 2nd support part 14 is fixed. When the rotation position of the lever 68 is in the release position, a gap is formed between the rail 62 and the side surfaces 14A and 14B of the second support portion 14. Therefore, the second support portion 14 can move along the groove 62 </ b> A of the rail 62.

  -The 2nd support part 14 of the battery holder 10 can also be changed into the 2nd support part 70 shown in FIG.15 and FIG.16. The second support portion 70 includes a holder 72 that can be attached to the frame F. The holder 72 includes a first holder 72A extending from one side surface 70A of the second support portion 70 and a second holder 72B extending from the other side surface 70A of the second support portion 70. The holder 72 can cover the outer periphery of the frame F. By fixing the end of the first holder 72A and the end of the second holder 72B with a bolt S or the like, the position of the second support 70 with respect to the frame F is fixed. When changing the second support position PB, the holder 72 is removed from the frame F, and the second support portion 70 is attached to a desired position of the frame F.

  The first support portion 12 of the battery holder 10 can be movable with respect to the frame F. In this case, for example, the first support portion 12 may be disposed on the rail 24 and the moving mechanism 16 similar to the second support portion 14 may be provided. In this case, the second support portion 14 can be fixed to the frame F with a bolt or the like.

  -Guide part 20B can also be omitted. Also in this case, the first battery 40X and the battery BT can be attached to the battery holder 10 by the first example of the attachment method to the battery holder 10 shown in the embodiment.

  The battery 40 can be changed to the battery 80 shown in FIGS. The battery 80 includes a second battery 80Y shown in FIGS. 17 and 18 and a first battery 80X shown in FIG. The second battery 80 </ b> Y includes a first terminal 44 for connecting to the terminal 22 of the battery holder 10 at one end 82. The other end 84 of the battery 80 has a flat shape. A connector 86Y is formed on the side surface 81Y of the second battery 80Y. Further, the first battery 80X does not include a terminal at the end portion 88, and instead, a connector 86X is provided on the side surface 81X. By connecting the electric wire L to the connector 86Y of the first battery 80X and the second battery 80Y, the plurality of batteries 80X and 80Y can be electrically connected.

  The battery 40 may include three or more batteries 40X and 40Y. For example, when the battery 40 is constituted by one first battery 40X and two second batteries 40Y, one second battery 40Y is connected to the first support portion 12, and the first battery is connected to the second support portion 14. Connect 40X. Then, the other second battery 40Y is disposed between one second battery 40Y supported by the first support portion 12 and the first battery 40X supported by the second support portion 14. In this case, the other second battery 40Y corresponds to the other battery with respect to the one second battery 40Y.

  -Battery 40 can also be supported using a holding member. The holding member 90 shown in FIG. 19 includes two attachment portions 92 that can be attached to the two batteries 40. The two attachment portions 92 are formed at both ends of the plate-like holding member 90, respectively. The attachment portion 92 is a flange formed on the holding member 90. The holding member 90 covers a part of the side surface 40 </ b> A of the two batteries 40. One of the two attachment portions supports the end portion 42 of the battery 40 supported by the first support portion 12. The other of the two attachment portions supports the end portion 46 of the battery 40 supported by the second support portion 14. According to the holding member 90, it is difficult to deviate from the state in which the two batteries 40 are connected. For this reason, the holding member 90 can stably support the two batteries 40. A concave portion or a convex portion may be formed on the side surface of the battery 40, and the mounting portion 92 may be a convex portion or a concave portion that fits into the hole. In this case, the holding member 90 can support three or more batteries 40X and 40Y by providing three or more convex portions or concave portions.

  -The 2nd support part 14 can also form the recessed part which fits in the 2nd fitting part 46A of the battery 40. FIG. In this case, the battery 40 is supported by the second support portion 14 by the second fitting portion 46A. In this case, the recess 40B of the battery 40 can be omitted.

  A convex portion can be formed on the side surface 40 </ b> A of the battery 40. In this case, the 2nd support part 14 has the shape of the recessed part fitted in this convex part.

  The battery 40 can be changed to the battery 40 in which the first insertion portion 42A has a convex shape and the second insertion portion 46A has a concave shape. In this case, the facing surface 20 of the first support portion 12 has a concave shape capable of fitting the convex portion of the first fitting portion 42A.

  -The presentation part which can show the remaining amount of the battery 40 can also be provided in the side surface 40A of each battery 40X, 40Y. The presentation unit is, for example, an LED.

  A plurality of second batteries 40Y can be mounted on the bicycle B including the battery holder 100 shown in FIG. The lower side of the frame F of the bicycle B is open. The battery holder 100 is attached below the frame F via the rotating shaft 102. The battery holder 100 is open at the top. A space SA in which a plurality of batteries 40 can be placed is formed inside the battery holder 100. The space SA can accommodate, for example, three second batteries 40Y. For this reason, when one or two second batteries 40Y are accommodated in the battery holder 100, a box for accommodating a tool or the like may be disposed in the space SA. By accommodating the box, each second battery 40 </ b> Y is positioned and can be prevented from moving in the holder 100. The battery holder 100 is accommodated in a space SF formed in the frame F by rotating around the rotation shaft 102.

B ... Bicycle, F ... Frame, PA ... First support position, PB ... Second support position, 10, 50 ... Battery holder, 12 ... First support portion, 14, 70 ... Second support portion, 16, 60 ... Movement mechanism, 18 ... Lock mechanism, 20A ... Projection, 22 ... Terminal, 24,62 ... Rail, 26,64 ... Fixing mechanism, 40,80 ... Battery, 40X ... First battery (other battery), 40Y ... 2nd battery (bicycle battery), 40B ... concave portion, 42 ... end (first portion), 42A ... first fitting portion, 44 ... first terminal, 46 ... end (second portion) 46A ... second fitting portion, 48 ... second terminal, 52 ... holding portion, 90 ... holding member, 92 ... mounting portion.

Claims (13)

A first battery capable of supplying power to the electric component;
The first battery includes a fitting portion that can be fitted into the second battery, is configured to be electrically connectable to the second battery, and is configured to be able to supply electric power of the first battery to an electric component,
The fitting portion of the first battery is configured to be fitted into a fitting portion provided in the battery holder,
Furthermore, the first battery is viewed contains a recess which can be fitted a support portion provided in the battery holder,
Before Symbol the recess of the first battery bicycle battery including an engaging portion for locking mechanism engages provided in the battery holder, and a contact portion which groove engages provided in the battery holder. A first battery capable of supplying power to the electric component;
The first battery includes a fitting portion that can be fitted into the second battery, is configured to be electrically connectable to the second battery, and is configured to be able to supply electric power of the first battery to an electric component,
The fitting portion of the first battery is configured to be fitted into a fitting portion provided in the battery holder,
Furthermore, the first battery includes a concave portion into which a support portion provided in the battery holder can be fitted, and the concave portion of the first battery includes an engaging portion that engages with a lock mechanism provided in the battery holder. See
Before Symbol first battery and the second battery is the first battery length and the second battery length and different bicycle battery in a direction aligned on the battery holder. A first battery capable of supplying power to the electric component;
The first battery includes a fitting portion that can be fitted into the second battery, is configured to be electrically connectable to the second battery, and is configured to be able to supply electric power of the first battery to an electric component,
The fitting portion of the first battery is configured to be fitted into a fitting portion provided in the battery holder,
Furthermore, the first battery is viewed contains a recess which can be fitted a support portion provided in the battery holder,
The recess before Symbol first battery includes an engaging portion that engages with the locking mechanism provided in the battery holder, and a contact portion which groove engages provided in the battery holder,
Before Symbol first battery and the second battery is the first battery length and the second battery length and different bicycle battery in a direction aligned on the battery holder. The bicycle battery according to any one of claims 1 to 3 , wherein the recess of the first battery is provided on a side surface of the first battery. The bicycle battery according to claim 1 , further comprising the second battery. The bicycle battery according to claim 5 , wherein the first battery and the second battery include terminals that electrically connect each other. The bicycle battery according to claim 6 , wherein the first battery and the second battery each include a connector connected to an electric wire that electrically connects each other. The bicycle battery according to any one of claims 5 to 7 , wherein the first battery is configured to be electrically connectable to a bicycle battery holder. The second battery includes a first terminal and a second terminal,
The second terminal of the second battery includes a terminal electrically connectable with the first terminal of the first battery,
The bicycle battery according to claim 5 , wherein the first terminal of the first battery is configured to be electrically connectable to a terminal of a bicycle battery holder. The bicycle battery according to any one of claims 5 to 9 , wherein the first battery and the second battery are configured to be mechanically connectable. The bicycle battery according to any one of claims 1 to 10 , wherein the second battery and the first battery simultaneously supply power to the electric component. The bicycle battery according to any one of claims 1 to 10 , wherein the first battery and the second battery sequentially supply power to the electric component. The electric component includes a motor,
The bicycle battery according to any one of claims 1 to 12, wherein the motor is configured to be capable of assisting bicycle propulsion.