According to one aspect, energy management or battery pack distribution may be achieved by receiving a location associated with a portable battery dispensing vehicle which carries or stocks modular battery replacement packs for electric vehicles, determining a location of a mobile device associated with the system for energy management, displaying the location associated with the portable battery dispensing vehicle and the location associated with the mobile device, receiving a request associated with a purchase of one of the modular battery replacement packs carried by the portable battery dispensing vehicle, and generating an instruction to credit an associated account with a virtual energy credit based on the request associated with the purchase of one or more of the modular battery replacement packs.

Battery exchange system for an electric vehicle, comprising: a battery unit; a battery receiving unit adapted for being fixed at or near a bottom surface of an electric vehicle and comprising a housing with an opening at a bottom side of housing for at least partially receiving the battery unit in the housing through the opening, wherein the battery receiving unit has a central axis which extends through the opening; wherein the battery receiving unit is adapted for allowing movement of the battery unit along its central axis between an unmounted position below the battery receiving unit and a mounted position at least partially within the battery receiving unit, wherein the battery unit comprises first engagement elements and the battery receiving unit comprises second engagement elements, each of the first and second engagement elements being adapted for engaging each other while moving relative to each other along an associated sloping path in order to lift the battery unit from the unmounted position to the mounted position or lower the battery unit from the mounted position to the unmounted position, wherein said associated sloping path slopes with respect to a plane normal to the central axis.

Battery exchange system for an electric vehicle, comprising: a battery unit; a battery receiving unit adapted for being fixed at or near a bottom surface of an electric vehicle and comprising a housing with an opening at a bottom side of housing for at least partially receiving the battery unit in the housing through the opening, wherein the battery receiving unit has a central axis which extends through the opening; wherein the battery receiving unit is adapted for allowing movement of the battery unit along its central axis between an unmounted position below the battery receiving unit and a mounted position at least partially within the battery receiving unit, wherein the battery unit comprises first engagement elements and the battery receiving unit comprises second engagement elements, each of the first and second engagement elements being adapted for engaging each other while moving relative to each other along an associated sloping path in order to lift the battery unit from the unmounted position to the mounted position or lower the battery unit from the mounted position to the unmounted position, wherein said associated sloping path slopes with respect to a plane normal to the central axis.

A modularized extendable battery changing station device and a charging rack are disclosed, which belong to the technical field of electric vehicle battery charging and swapping. The present technical solutions aim to the solve problems of occupying a large area, a low modularity degree and poor extendibility of the existing battery changing station. For this purpose, the battery changing station device provided in the present technical solutions comprises a charging rack and a battery transfer device; the charging rack comprises at least a battery storage module, the battery storage module being able to realize the storage and charging of a battery, and the battery transfer device being able to pass through the battery storage module. The extendable battery changing station device provided in the technical solutions is able to integrate the functions of power battery transfer, storage and charging.

A modularized extendable battery changing station device and a charging rack are disclosed, which belong to the technical field of electric vehicle battery charging and swapping. The present technical solutions aim to the solve problems of occupying a large area, a low modularity degree and poor extendibility of the existing battery changing station. For this purpose, the battery changing station device provided in the present technical solutions comprises a charging rack and a battery transfer device; the charging rack comprises at least a battery storage module, the battery storage module being able to realize the storage and charging of a battery, and the battery transfer device being able to pass through the battery storage module. The extendable battery changing station device provided in the technical solutions is able to integrate the functions of power battery transfer, storage and charging.

Disclosed is a cloud storage-based battery swap system for an electric vehicle, which is intended to solve the problems of the existing electric vehicles, such as inconvenient use of an energy supply system, and excessive individual difference and excessive cost of a battery pack. The system comprises: a battery pack information storage apparatus for storing battery pack information of an electric vehicle; a battery pack allocation station for storing battery packs and charging the battery packs; and a battery swap station for replacing a battery pack for the electric vehicle, and communicating with the battery pack information storage apparatus to transmit the battery pack information to the battery pack information storage apparatus. In addition, a battery management system for the battery pack is disposed on the electric vehicle outside the battery pack. Also disclosed is a method for the system. The system and the method not only make the energy supply of the electric vehicle more convenient, but also reduce the battery pack supply cost, thereby making the large-scale construction of battery swap stations become possible.

Disclosed is a cloud storage-based battery swap system for an electric vehicle, which is intended to solve the problems of the existing electric vehicles, such as inconvenient use of an energy supply system, and excessive individual difference and excessive cost of a battery pack. The system comprises: a battery pack information storage apparatus for storing battery pack information of an electric vehicle; a battery pack allocation station for storing battery packs and charging the battery packs; and a battery swap station for replacing a battery pack for the electric vehicle, and communicating with the battery pack information storage apparatus to transmit the battery pack information to the battery pack information storage apparatus. In addition, a battery management system for the battery pack is disposed on the electric vehicle outside the battery pack. Also disclosed is a method for the system. The system and the method not only make the energy supply of the electric vehicle more convenient, but also reduce the battery pack supply cost, thereby making the large-scale construction of battery swap stations become possible.

A power storage device management system includes a storage device configured to store power storage devices that are removably mounted on an electric power device using electric power and a server device communicatively connected to the storage device. The server device includes a first storage unit storing identification information of a power storage device shared by a plurality of users among the power storage devices as storage identification information. The storage device includes a second storage unit storing the storage identification information received from the server device and a determiner configured to determine whether or not reception of the power storage device is possible on the basis of the storage identification information stored in the second storage unit when the power storage device has been received from a user.

A battery-retention system employs a retention jaw assembly and a battery-retention mechanism to secure a battery within a battery compartment of a material-handling vehicle. The retention jaw includes a battery-contact portion operatively associated with a barrier portion that is movable between a battery-retention position when the battery contacts the battery-contact portion and a battery-release position when the battery does not contact the battery-contact portion. The battery-retention mechanism includes a stopper block that is operable to be positioned within the battery compartment when the battery compartment door is in a closed position and operable to be positioned external to the battery compartment when the battery compartment door is in an open position.

A battery-retention system employs a retention jaw assembly and a battery-retention mechanism to secure a battery within a battery compartment of a material-handling vehicle. The retention jaw includes a battery-contact portion operatively associated with a barrier portion that is movable between a battery-retention position when the battery contacts the battery-contact portion and a battery-release position when the battery does not contact the battery-contact portion. The battery-retention mechanism includes a stopper block that is operable to be positioned within the battery compartment when the battery compartment door is in a closed position and operable to be positioned external to the battery compartment when the battery compartment door is in an open position.