An electric vehicle includes a frame unit and a vehicle body cover unit. The vehicle body cover unit includes a thread board shielding left and right tread tubes of the frame unit between which a receiving space is defined to receive a battery box that receives and holds a battery. The battery box has two sides provided with support shafts. The battery box is rotatable between an open position and a storage position. A locking device is selectively set in releasable engagement with a positioning member provided on the battery box so as to selectively lock the battery box in the storage position. An operation unit is provided for controlling the locking device to engage with or disengage from the positioning member so as to allow the battery box to rotate from the storage position to the open position.

An electric vehicle includes a frame unit and a vehicle body cover unit. The frame unit includes tread tubes extending toward a rear side of a vehicle body and arranged pairwise as a left tread tube and a right tread tube. The vehicle body cover unit includes a tread board that shields the left and right tread tubes. The frame unit receives a battery box that receives and holds therein a battery and has two sides provided with support shafts to be pivotally supported thereon. The battery box is shaft-supported by the support shafts on the frame unit. The battery box includes a battery access opening, which is provided with a protection cover that covers and closes the battery access opening. The battery is securely held in the battery box without being moved by inertial forces. Dust resistance of the battery box can be improved.

An electric vehicle includes a frame unit and a vehicle body cover unit. The frame unit includes tread tubes extending toward a rear side of a vehicle body. The tread tubes are arranged in a left and right pairwise form as a left tread tube and a right tread tube, and a first cross tube and a second cross tube connected to the tread tubes. The vehicle body cover unit includes a thread board shielding the left and right tread tubes. A battery box that receives and holds a battery is shaft-supported on the frame unit. The battery box is shaft-supported on the frame unit by support shafts in a vehicle body front-rear direction. The battery box is rotatable about a rotation center defined by the support shafts in a vehicle body left-right direction to an open position to facilitate removal of the battery from the battery box.

An electric vehicle includes a frame unit and a vehicle body cover unit. The frame unit includes tread tubes extending toward a rear side of a vehicle body. The tread tubes are arranged pairwise leftward and rightward as a left tread tube and a right tread tube. The vehicle body cover unit includes a tread board shielding the left tread tube and the right tread tube. A battery box that receives and holds a battery is shaft-supported on the frame unit. The battery box has two sides provided with support shafts. The battery box is shaft-supported on the frame unit by the support shafts in a left-right direction. The battery box is rotatable by a drive device about a rotation center defined by the support shafts in a front-rear direction to an open position or a storage position so as to facilitate removal of the battery from the battery box.

An electric vehicle includes a frame unit and a vehicle body cover unit. The frame unit includes tread boards extending toward a rear side of a vehicle body. The tread tubes are arranged in a left and right pairwise form as a left tread tube and a right tread tube. The vehicle body cover unit includes a thread board shielding the left tread tube and the right tread tube. A battery box that receives and holds a battery is shaft-supported on the frame unit. The battery box has two sides provided with support shafts. The battery box is shaft-supported on the frame unit by the support shafts in a left-right direction. The battery box is rotatable about a rotation center defined by the support shafts in a front-rear direction to an open position or a storage position so as to facilitate removal of the battery from the battery box.

An onboard battery includes predetermined members such as battery modules, and a housing case. An internal space of the housing case is partitioned by a partition plate into an upper space and a lower space in which the predetermined members are disposed, and the battery modules are disposed below the partition plate. The housing case has a bottom surface on which the battery modules are disposed, a front surface that has a front-side tightening part, and a rear surface that has a rear-side tightening part. The partition plate has a partition base that partitions the internal space of the housing case into the upper space and the lower space, a front-side fixation target part that is continuous with a front end of the partition base, and a rear-side fixation target part that is continuous with a rear end of the partition base.

An electric vehicle includes a frame unit and a vehicle body cover unit. The vehicle body cover unit includes a thread board shielding left and right tread tubes of the frame unit between which a receiving space is defined to receive a battery box that receives and holds a battery. The battery box has two sides provided with support shafts. The battery box is rotatable between an open position and a storage position. A locking device is selectively set in releasable engagement with a positioning member provided on the battery box so as to selectively lock the battery box in the storage position. An operation unit is provided for controlling the locking device to engage with or disengage from the positioning member so as to allow the battery box to rotate from the storage position to the open position.

An electric vehicle includes a frame unit and a vehicle body cover unit. The frame unit includes tread tubes extending toward a rear side of a vehicle body. The tread tubes are arranged pairwise leftward and rightward as a left tread tube and a right tread tube. The vehicle body cover unit includes a tread board shielding the left tread tube and the right tread tube. A battery box that receives and holds a battery is shaft-supported on the frame unit. The battery box has two sides provided with support shafts. The battery box is shaft-supported on the frame unit by the support shafts in a left-right direction. The battery box is rotatable by a drive device about a rotation center defined by the support shafts in a front-rear direction to an open position or a storage position so as to facilitate removal of the battery from the battery box.

A scalable power unit for powering one or more electric motors of a riding vehicle and/or a piece of outdoor power equipment. The scalable power unit includes a number of interconnected battery packs. The battery packs can be received in a battery tray or stacked to form the scalable power unit. Each battery pack can be removed and used separately or added to a combination of battery packs. A control unit selectively opens and closes switching elements to separately control the connections between the battery packs and an electrical load, such as a motor. During charging, the control unit opens and closes the switching elements to control the charging rate of the individual battery packs. When the battery packs are connected to an electric load, the control unit controls the state of the switching elements to selectively discharge the battery packs to power the riding vehicle and/or electric loads.

Disclosed are a power freely-configurable plug-in battery pack, a vehicle, and a battery replacement method. The battery pack includes an installation box provided with a plurality of cell channels; a cell module pluggably installed in the cell channel, where a cell quick-replacement connector is provided between the cell module and the cell channel; and a controller, where the controller is electrically connected to the cell module through the cell quick-replacement connector and controls an operation of the cell module. The present application provides the cell channel in the battery pack and provides the cell quick-replacement connector, so that the cell module can be quickly plugged and unplugged relative to the cell channel, realizing the quick replacement of the cell module and improving the replacing efficiency of the battery pack.