A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). To avoid theft and tampering of the portable electrical energy storage devices, by default, each portable electrical energy storage device is locked in and operably connected to the vehicle to which it provides power unless the vehicle comes within the vicinity of a collection, charging and distribution machine or other authorized external device such as that in a service center. Once within the vicinity of a collection, charging and distribution machine or other authorized external device a locking mechanism in the vehicle or within the portable electrical energy storage device unlocks and allows the portable electrical energy storage device to be exchanged or serviced.

This intermediate grasping tool of a charging cable is mounted on a charging cable that extends from a charging stand, is provided with a cylindrical part which is hung on a hook provided on the charging stand and which is formed such that the charging cable passes through said cylindrical part, and is also provided with a gripping part which extends from the cylindrical part and is grasped. By means of such a configuration, charging operations can be performed while grasping the intermediate grasping tool of the charging cable with the hand that is not grasping the charging connector. In this way, the operability during charging can be improved.

A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). To charge, the machines employ electrical current from an external source, such as the electrical grid or an electrical service of an installation location. The charging and distribution machines may distribute portable electrical energy storage devices of particular performance characteristics and other attributes based on customer preferences and/or customer profiles. The charging and distribution machines may provide instructions to or otherwise program portable electrical energy storage devices stored within the charging and distribution machines to perform at various levels according to user preferences and user profiles.

A two-way distribution, charging, and vending system permits a subscriber to exchange one or more partially or completely discharged portable electric energy storage devices for a comparable number of charged portable electric energy storage devices. The two-way distribution, charging, and vending system includes a number of charging modules, each with a dedicated power converter, communicably coupled to at least one two-way distribution system controller and to a power distribution grid. Upon receipt of a discharged portable electric energy storage device, the at least one two-way distribution system controller validates a manufacturer identifier and a subscriber identifier stored in a nontransitory storage media carried by the discharged portable electric energy storage device. Responsive to a successful authentication and validation, the at least one two-way distribution system controller dispenses a charged portable electric energy storage device to the subscriber.

An electric vehicle charging station having a console, a cable and a vehicle connector. The cable is connected with a break-away system that allows for a controlled structural failure of one of the cable connections when the vehicle connector is pulled away from the console with a critical level of force. The break-away system could be a body positioned along the length of the cable, and could be a connection between the cable and either the console or the vehicle connector.

A charging cable to charge an electric power storage device mounted on a vehicle with electric power from an external power source includes a switcher that switches the charging cable between a charging enable state where a charging of the electric power storage device is enabled and a charging disable state where the charging of the electric power storage device is disabled, a connection plug to be connected to the external power source, and a connection determinator that determines whether a connection state between the connection plug and the external power source changes between a conduction state and a non-conduction state. The switcher puts the charging cable into the charging enable state in accordance with a command from a user. The switcher puts the charging cable into the charging disable state when the connection state changes.

The invention relates to a method for connecting/disconnecting an electric vehicle to/from a charging terminal, which includes at least one sensor arranged to detect the state of at least one element of said charging terminal, said method including at least one iteration of the following steps: measuring at least one value of at least one parameter by said sensor; comparing the value of said parameter with at least one predetermined value; and transmitting at least one datum, referred to as a notification datum, relating to said connection/disconnection. The invention also relates to a system for connecting/disconnecting an electric vehicle to/from a charging terminal, as well as to a charging terminal implemented in such a method and in such a system.

A network of collection, charging and distribution machines collect, charge and distribute portable electrical energy storage devices (e.g., batteries, supercapacitors or ultracapacitors). Locations of collection, charging and distribution machines having available charged portable electrical energy storage devices are communicated to or acquired by a mobile device of a user, or displayed on a collection, charging and distribution machine. The locations are indicated on a graphical user interface on a map on a user's mobile device relative to the user's current location. The user may use their mobile device select particular locations on the map to reserve an available portable electrical energy storage device. The system nay also warn the user that the user is near an edge of the pre-determined area having portable electrical energy storage device collection, charging and distribution machines. Reservations may also be made automatically based on information regarding a potential route of a user.

A locking apparatus for covering and releasing a charging interface of a motor vehicle. The locking apparatus comprises a cover element, which is pivotable relative to the charging interface and which can be displaced between a closed position and an open position. The locking apparatus is equipped with a flexible connection element, which is rigidly connected to the cover element at one upper end region of the cover element in the direction of the vehicle along the transverse extent of the cover element. The cover element is at the same time permanently and in every position coupled by the connection element for protecting the charging interface with a part that is stationary relative to the charging interface.

A method for checking a control pilot, referred to below as CP, line of a charging socket of an electrically drivable transportation means. The method includes closing the charging socket, as a result of which an electrical, in particular galvanic, connection is closed between the CP line and a line of the charging socket providing electrical energy, and checking a signal received via the CP line in response to the closing. Also disclosed is a corresponding apparatus.