This disclosure provides systems and methods for charging a vehicle. A vehicle and charging station can be designed such that an electric or hybrid vehicle can operate in a fashion similar to a conventional vehicle by being opportunity charged throughout a known route.
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1. A charging station for a vehicle, comprising: a charging mount;a rigid arm extending downward and away from the charging mount;one or more collector braces coupled to the rigid arm, wherein each collector brace of the one or more collector braces includes; a pair of spaced apart guiding strips; a
1. A charging station for a vehicle, comprising: a charging mount;a rigid arm extending downward and away from the charging mount;one or more collector braces coupled to the rigid arm, wherein each collector brace of the one or more collector braces includes; a pair of spaced apart guiding strips; andtwo or more contact pads, wherein different contact pads of the two or more contact pads are configured to contact different electrodes positioned on a roof of the vehicle; anda connection mechanism coupling the rigid arm to the charging mount, wherein the connection mechanism includes a pivot that allows the one or more collector braces and the rigid arm to rotate about a common axis passing through the pivot and extending perpendicular to a plane of travel of the vehicle. 2. The charging station of claim 1, wherein the pair of spaced apart guiding strips are configured to position the electrodes of the vehicle therebetween during charging. 3. The charging station of claim 1, wherein the pair of guiding strips of a collector brace form at least one pair of converging surfaces. 4. The charging station of claim 3, wherein each collector brace of the one or more collector braces comprises one or more forcing components for providing a force to a guiding strip of the collector brace, wherein the force is directed toward another guiding strip of the collector brace. 5. The charging station of claim 1, wherein the one or more collector braces include a pair of collector braces. 6. The charging station of claim 1, wherein the one or more collector braces includes a pair of collector braces, and the charging station further includes a spacing bar separating the pair of collector braces. 7. The charging station of claim 6, wherein the spacing bar is of variable length and enables the pair of collector braces to be kept at a given distance from each other. 8. The charging station of claim 7, further comprising a hydraulic, mechanical or electro-mechanical length adjustment system adapted to adjust the spacing bar to vary the distance between the pair of collector braces. 9. The charging station of claim 6, wherein the connection mechanism includes one or more spring elements therein. 10. The charging station of claim 9, wherein the connection mechanism is configured to allow the one or more collector braces to move horizontally with respect to the charging mount. 11. The charging station of claim 9, further comprising a mechanical or electro-mechanical height adjustment system adapted to move the one or more collector braces vertically with respect to the charging mount. 12. The charging station of claim 9, wherein the charging station includes a positioning bar connected to the connection mechanism, and at least one arm connected to the positioning bar and connected to a collector brace or the spacing bar. 13. The charging station of claim 1, wherein the one or more collector braces includes a pair of collector braces mounted to a crossbar that permits the collector braces to be movable with respect to one another. 14. The charging station of claim 13, wherein the pair of collector braces are mounted to the crossbar with a flexible connection such that the collector braces are movable with respect to the crossbar. 15. The charging station of claim 14, wherein the flexible connection includes at least one of the following: a spring, an elastic component, a hinge, a linkage, a pivot point, a pneumatic device, a magnet, a weight, a gear, hydraulics, or gravity. 16. The charging station of claim 1, wherein the one or more collector braces includes a pair of collector braces and the charging station further includes a system to return the pair of collector braces to a center position, the system including one of the following: a spring, an elastic component, a hinge, a linkage, a pivot point, a pneumatic device, a magnet, a weight, a gear, hydraulics, or gravity. 17. A charging station for a vehicle, comprising: a charging mount;a rigid arm extending downward and away from the charging mount;one or more collector braces coupled to the rigid arm, wherein each collector brace of the one or more collector braces includes: a pair of spaced apart guiding strips that extend along a direction of travel of the vehicle, andtwo or more contact pads, wherein different contact pads of the two or more contact pads are configured to contact different electrodes positioned on a roof of the vehicle; anda connection mechanism coupling the rigid arm to the charging mount, wherein the connection mechanism includes a pivot that allows the one or more collector braces and the rigid arm to rotate about a common axis passing through the pivot and extending perpendicular to a plane of travel of the vehicle. 18. The charging station of claim 17, wherein the pair of guiding strips are coupled to the two or more contact pads. 19. The charging station of claim 17, wherein the two or more contact pads include carbon pads. 20. A method for charging a vehicle using a charging station, the charging station including (i) a charging mount, (ii) a rigid arm extending downward and away from the charging mount, (iii) a collector brace coupled to the rigid arm, and (iv) a connection mechanism coupling the rigid arm to the charging mount, wherein the connection mechanism includes a pivot that allows the collector brace and the rigid arm to rotate about a common axis passing through the pivot and extending perpendicular to a plane of travel of the vehicle, wherein the collector brace includes two or more contact pads and a pair of spaced apart guiding strips extending along a direction of travel of the vehicle, comprising: moving the vehicle towards the charging mount;rotating the charging brace about the axis to make contact between different contact pads of the two or more contact pads with different electrodes positioned on a roof of the vehicle;establishing an electrical connection between the collector brace and the vehicle; andactivating charging of the vehicle. 21. The method of claim 20, wherein the charging is activated after receiving an activation signal from the vehicle. 22. The method of claim 20, wherein, prior to the step of establishing an electrical connection, conductive paths of said electrical connection are isolated with the aid of mechanical and/or electrical protective devices. 23. The method of claim 22, wherein the charging station allows energy flow after receiving an electronic message or via direct mechanical activation. 24. The method of claim 20, further comprising communicating to the vehicle that the electrical connection to the vehicle has been established. 25. The method of claim 20, further comprising monitoring a charge status of the vehicle. 26. The method of claim 25, further comprising communicating a charge status of the vehicle to a central station, a charging station, or another vehicle. 27. The method of claim 20, further comprising cleaning the electrodes of the vehicle as the vehicle enters the charging station. 28. The charging station of claim 1, wherein the different electrodes of the vehicle include an anode and a cathode. 29. The charging station of claim 17, wherein the different electrodes of the vehicle include an anode and a cathode. 30. The method of claim 20, wherein rotating the charging brace includes making contact between at least one contact pad of the two or more contact pads with an anode and a different contact pad of the two or more contact pads with a cathode, the anode and the cathode being the different electrodes of the vehicle.
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이 특허에 인용된 특허 (23)
Saunders David (13 Ermine Street Caxton ; Cambridge ; CB3 8PQ GBX), Battery powered vehicle systems.
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Nogaret, Philippe; Deleu, Arnaud, Method of and a system for controlling the supply of electrical power to an electrically propelled vehicle designed to operate in an external power supply mode or in an autonomous power supply mode.
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Andre, Jean-Luc, Electric power supply assembly with assisted establishment of electrical contact with a power-collecting track carried by an electrically powered vehicle.
Morris, Donald; Hill, Dale; Horth, John; Sarkar, Reuben; Abbott, Teresa J.; Reeves, William Joseph Lord; Wiens, Ryan Thomas, Electric vehicles and charging stations.
Zhou, Zhi; Wiegman, Herman Lucas Norbet; Berry, Irene Michelle; Salasoo, Lembit, Systems and methods for recharging vehicle-mounted energy storage devices.
Andre, Jean-Luc; Mandart, Didier; Binder, Christophe, Upper lateral structure for the occasional or continuous collection of main-drive or auxiliary electrical power by a land vehicle.
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