A frame for an electric vehicle (10) comprising: a head pipe (12) and at least two rear tubes (13) extending rearwardly from the head pipe (12); an electric battery module (24) used as a power source for powering the electric vehicle comprising at least one battery located below rear portion (13B) of said rear tubes (13); a protective frame structure (23) for securely mounting said battery module (24); wherein said protective frame structure (23) is fixed to said rear tubes (13) of said frame and provided substantially centrally and downwardly of said vehicle (10).

A frame for an electric vehicle (10) comprising: a head pipe (12) and at least two rear tubes (13) extending rearwardly from the head pipe (12); an electric battery module (24) used as a power source for powering the electric vehicle comprising at least one battery located below rear portion (13B) of said rear tubes (13); a protective frame structure (23) for securely mounting said battery module (24); wherein said protective frame structure (23) is fixed to said rear tubes (13) of said frame and provided substantially centrally and downwardly of said vehicle (10).

A drive unit is configured to be provided to a human-powered vehicle. The drive unit includes a base on which a crankshaft is provided, and a holder mount provided on the base. The holder mount is configured to selectively mount a battery holder, which is configured to hold a battery unit, at a plurality of positions in a predetermined linear direction.

The present application relates to an electric riding vehicle, wherein the battery is used as an energy storage power source. The electric riding vehicle includes an electric riding vehicle and an inverter. The electric riding vehicle includes an electric bicycle, an electric motorcycle car, an electric scooter, an electric balance car, an electric two-wheeled vehicle, an electric tricycle and an electric four-wheeled vehicle. The electric riding vehicle includes a controller, at least one battery, and one motor. The at least one battery is detachably arranged on the frame of the electric riding vehicle as a power source and is electrically connected to the controller. The controller is electrically connected to the motor. The inverter is electrically connected to the battery. The current output by the battery is changed by the inverter to power an electrical equipment and the battery is converted into an energy storage power source.

An ebike includes a front wheel, a rear wheel, a frame assembly supported on the front wheel and the rear wheel, a battery, and a battery latching assembly to secure the battery to the frame assembly. The battery latching assembly includes a latch member movable among (1) a secured position in which the latch member is configured to secure the battery in a fully mounted position, (2) an open position in which the latch member is configured to maintain the battery in a partially mounted position, and (3) a released position in which the latch member is configured to release the battery. The battery latching assembly also includes a release member coupled to the latch member and movable among (1) a first position in which the latch member is maintained in the secured position, (2) a second position in which the latch member is maintained in the open position and (3) a third position in which the latch member is maintained in the release position.

An ebike includes a front wheel, a rear wheel, a frame assembly supported on the front wheel and the rear wheel, a battery, and a battery latching assembly to secure the battery to the frame assembly. The battery latching assembly includes a latch member movable among (1) a secured position in which the latch member is configured to secure the battery in a fully mounted position, (2) an open position in which the latch member is configured to maintain the battery in a partially mounted position, and (3) a released position in which the latch member is configured to release the battery. The battery latching assembly also includes a release member coupled to the latch member and movable among (1) a first position in which the latch member is maintained in the secured position, (2) a second position in which the latch member is maintained in the open position and (3) a third position in which the latch member is maintained in the release position.

A straddle-type electric vehicle includes two approximately rectangular parallelepiped batteries, a battery case in which the batteries are housed, battery-side terminals provided on bottom surfaces of the batteries, and case-side terminals engaged with the battery-side terminals. The two batteries are arranged next to each other in a vehicle width direction. An operation lever for connecting or separating the battery-side terminals and the case-side terminals to/from each other is provided. The operation lever is arranged in a middle in the vehicle width direction between the two batteries, and the battery-side terminals and the case-side terminals are arranged nearer outer sides in the vehicle width direction. A pair of front and rear link mechanisms for coupling the operation lever and the case-side terminals to each other is provided in front of and behind the battery case.

A straddle-type electric vehicle includes two approximately rectangular parallelepiped batteries, a battery case in which the batteries are housed, battery-side terminals provided on bottom surfaces of the batteries, and case-side terminals engaged with the battery-side terminals. The two batteries are arranged next to each other in a vehicle width direction. An operation lever for connecting or separating the battery-side terminals and the case-side terminals to/from each other is provided. The operation lever is arranged in a middle in the vehicle width direction between the two batteries, and the battery-side terminals and the case-side terminals are arranged nearer outer sides in the vehicle width direction. A pair of front and rear link mechanisms for coupling the operation lever and the case-side terminals to each other is provided in front of and behind the battery case.

A holding device for releasably holding an accumulator, in particular, a bicycle accumulator, at a frame, in particular, at a bicycle frame. The holding device includes at least one carrier unit for at least partially receiving and/or guiding the accumulator. The holding device also includes at least one locking unit situated at the carrier unit, in particular, at least mostly within the frame, for releasably, in particular, axially fixing the accumulator at the carrier unit on one side.

A holding device for releasably holding an energy store, in particular, a bicycle energy store, at a frame, in particular, at a bicycle frame. The holding device includes at least one carrier unit, which includes at least one carrier element, in particular, a guide bar for at least partially receiving and/or guiding the energy store, and including at least one support unit for securing the energy store in a form-fit manner at the carrier unit. The support unit includes at least one support element situated at the carrier element, which secures the energy store at the carrier element in a state in which the energy store is situated at the carrier element at least along a direction extending transversely to a longitudinal axis of the carrier element.