A method and system for mobile charging and exchange includes a vehicle having a vehicle storage space and a selectively removable charging bin mounted into the vehicle storage space. The selectively removable charging bin has one or more form fitted receptacle slots for receiving a battery device and each receptacle slot has a connection therein to a power source of the vehicle. A processor is operatively connected for computer communication to the vehicle and a user device using a server over a network. The processor receives an exchange request from the user device and calculates an exchange cost for the exchange request. The processor manages access to the vehicle storage space according to the exchange request and the exchange cost to allow removal of the battery device from the receptacle slot and insertion of a used user battery device into the receptacle slot.

A loaded body housing device includes: an upper table which rotates about a rotation axis extending along a Z-axis and supports a plurality of batteries in a plurality of first storage spaces around the rotation axis; a lower table which rotates about a rotation axis extending along the Z-axis and supports a plurality of batteries in a plurality of second storage spaces around the rotation axis; and a casing having openings each of which exposes one storage space when viewed in a negative direction of the Z-axis. The upper table is positioned to have overlapping between a part of the plurality of first storage spaces and the plurality of second storage spaces and no overlapping between the plurality of first storage spaces and a second storage space when viewed in the negative direction of the Z-axis. A direction in which the rotation axis of the upper table and the rotation axis of the lower table are arranged to intersect with a direction in which the plurality of first storage spaces and the plurality of second storage spaces are arranged.

A method and system for mobile charging and exchange includes a vehicle having a vehicle storage space and a selectively removable charging bin mounted into the vehicle storage space. The selectively removable charging bin has one or more form fitted receptacle slots for receiving a battery device and each receptacle slot has a connection therein to a power source of the vehicle. A processor is operatively connected for computer communication to the vehicle and a user device using a server over a network. The processor receives an exchange request from the user device and calculates an exchange cost for the exchange request. The processor manages access to the vehicle storage space according to the exchange request and the exchange cost to allow removal of the battery device from the receptacle slot and insertion of a used user battery device into the receptacle slot.

A method and system for mobile charging and exchange includes a vehicle having a vehicle storage space and a selectively removable charging bin mounted into the vehicle storage space. The selectively removable charging bin has one or more form fitted receptacle slots for receiving a battery device and each receptacle slot has a connection therein to a power source of the vehicle. A processor is operatively connected for computer communication to the vehicle and a user device using a server over a network. The processor receives an exchange request from the user device and calculates an exchange cost for the exchange request. The processor manages access to the vehicle storage space according to the exchange request and the exchange cost to allow removal of the battery device from the receptacle slot and insertion of a used user battery device into the receptacle slot.

A battery expansion cradle is attachable to an electric scooter (eScooter) handlebar. The battery expansion cradle includes a battery connection terminal disposed on a face of the battery expansion cradle, where the battery connection terminal electrically connects with a power bus of the electric scooter. A battery module is removably attachable to the face of the battery expansion cradle and the back terminal of another battery. The battery module includes a connector electrically coupling the first rechargeable battery to the eScooter power bus, and includes a mobile device holder disposed on a face of the first battery module with holding means for securing a mobile device to the face of the battery module, which may be offset from the center of the external battery to allow for a clear forward view of the scooter using the smartphone's front camera, and the user's face using the rear camera.

A battery expansion cradle is attachable to an electric scooter (eScooter) handlebar. The battery expansion cradle includes a battery connection terminal disposed on a face of the battery expansion cradle, where the battery connection terminal electrically connects with a power bus of the electric scooter. A battery module is removably attachable to the face of the battery expansion cradle and the back terminal of another battery. The battery module includes a connector electrically coupling the first rechargeable battery to the eScooter power bus, and includes a mobile device holder disposed on a face of the first battery module with holding means for securing a mobile device to the face of the battery module, which may be offset from the center of the external battery to allow for a clear forward view of the scooter using the smartphone's front camera, and the user's face using the rear camera.

This application provides a support, a battery assembly, an electric device, and a battery swapping system, and relates to the field of batteries. The support may include a support body and a magnetic element, where the support body may be configured for mounting a battery. The magnetic element may be mounted on the support body, where the magnetic element may be configured for detection by a positioning apparatus of a battery swapping device, for positioning the support body and the battery swapping device.

This application provides a support, a battery assembly, an electric device, and a battery swapping system, and relates to the field of batteries. The support may include a support body and a magnetic element, where the support body may be configured for mounting a battery. The magnetic element may be mounted on the support body, where the magnetic element may be configured for detection by a positioning apparatus of a battery swapping device, for positioning the support body and the battery swapping device.

The present application describes power tier management for a battery of a light electric vehicle. In examples, a power tier of a battery may have an associated threshold power and time to exert a battery energy over the time of the power tier. Power tiers may be adjusted to lengthen or shorten an overall battery life and remaining battery life of the battery of the light electric vehicle. In an aspect, a processor may control or limit power to specific components and/or functions of the light electric vehicle to stay within or enter a determined power tier. Information may be received and processed by the processor to determine and apply one or more power tiers.

The present application describes power tier management for a battery of a light electric vehicle. In examples, a power tier of a battery may have an associated threshold power and time to exert a battery energy over the time of the power tier. Power tiers may be adjusted to lengthen or shorten an overall battery life and remaining battery life of the battery of the light electric vehicle. In an aspect, a processor may control or limit power to specific components and/or functions of the light electric vehicle to stay within or enter a determined power tier. Information may be received and processed by the processor to determine and apply one or more power tiers.