Device, method and system for swapping and/or charging a battery of a mobile robot

We claim: 1. A battery station, for use by at least one mobile robot, the battery station comprising: (a) a battery charging unit configured to perform at least one of: (i) holding at least one battery, and/or (ii) charging at least one battery; and (b) a battery load/unload position configured to facilitate loading and unloading of a battery to and from a mobile robot; and (c) a battery handling mechanism configured to operate on a reaching range, said reaching range comprising: (i) the battery of the mobile robot positioned in the battery load/unload position, and (ii) the battery charging unit; and (d) a localization element configured to at least one of detect and locate at least one of the following: (i) at least one battery of the mobile robot, wherein the mobile robot is positioned in the battery load/unload position, and/or (ii) at least one battery positioned in the battery charging unit; and (e) a guiding element configured to indicate to the at least one mobile robot the battery load/unload position. 2. The battery station according to claim 1 , wherein the localization element comprises at least one sensor device and wherein the sensor device comprises at least one of: (a) at least one inductive sensor, and/or (b) at least one capacitive sensor. 3. The battery station according to claim 1 , wherein the localization element is configured to locate the at least one battery with a precision of at least 2 mm. 4. The battery station according to claim 1 , wherein the battery station is configured to at least one of: (a) grab a battery from at least one of: (i) the mobile robot positioned in the battery load/unload position, and/or (ii) the charging unit; and/or (b) transport a battery from a mobile robot to the battery charging unit and/or from the battery charging unit to the mobile robot, said mobile robot positioned in the battery load/unload position, and/or from the charging unit to another charging unit. 5. The battery station according to claim 1 , wherein the battery handling mechanism comprises a battery grabber element configured to grab the battery positioned within the reaching range of the battery handling mechanism. 6. The battery station according to claim 5 , wherein the battery grabber element further comprises at least one flexural joint configured to increase a tolerable misalignment between the battery handling mechanism and the battery said tolerable misalignment comprising at least one of the following: (a) maximum incorrect positioning of the battery relative to the battery station such that the battery station is able to load and unload the battery, and/or (b) maximum incorrect positioning of the battery station relative to the battery such that the battery station is able to load and unload the battery. 7. The battery station according to claim 5 , wherein the battery handling mechanism further comprises at least one actuator, configured to move the battery grabber element to any location within reaching range of the battery handling mechanism. 8. The battery station according to claim 1 , wherein the battery station further comprises at least one wheel configured to facilitate movement of battery station. 9. A system for swapping and/or charging at least one battery comprising: at least one mobile robot comprising at least one battery; and at least one battery station, for use by the at least one mobile robot, wherein the at least one battery station comprises: (a) a battery charging unit configured to perform at least one of: (i) holding at least one battery, and/or (ii) charging at least one battery; and (b) a battery load/unload position configured to facilitate loading and unloading of a battery to and from the at least one mobile robot; and (c) a battery handling mechanism configured to operate on a reaching range, said reaching range comprising: (i) at least one battery of a mobile robot positioned in the battery load/unload position, and (ii) the battery charging unit; (d) a localization element configured to at least one of detect and locate at least one of: (i) at least one battery of a mobile robot positioned in the battery load/unload position, and/or (ii) at least one battery positioned in the battery charging unit; and (e) a guiding element configured to indicate to the at least one mobile robot the battery load/unload position. 10. The system according to claim 9 , wherein the at least one mobile robot is configured to seek service from the at least one battery station when at least one of the following occurs: (a) an energy level of the at least one battery of the at least one mobile robot is below a threshold level, said threshold level being programmable on the at least one mobile robot, and/or (b) a service life of the at least one battery of the at least one mobile robot is over as it has reached a predefined number of charge-discharge cycles, and/or (c) the at least one battery of the at least one mobile robot is malfunctioning. 11. The system according to claim 9 , wherein the at least one mobile robot further comprises at least one of optical sensor and camera, configured to sense the at least one guiding element of the battery station. 12. The system according to claim 9 , wherein the at least one mobile robot and the at least one battery station are configured to communicate with each other so as to facilitate the battery swapping and/or charging process of the at least one battery of the at least one mobile robot by the at least one battery station. 13. The system according to claim 9 , wherein the system further comprises a server and wherein: (a) the at least one mobile robot is configured to communicate with the server so as to facilitate the battery swapping and/or charging process of the at least one battery of the at least one mobile robot by the at least one battery station, and (b) the at least one battery station is configured to communicate with the server so as to facilitate the battery swapping and/or charging process of the at least one battery of the at least one mobile robot by the at least one battery station. 14. The system according to claim 9 , wherein the system further comprises a hub and wherein the hub comprises at least one of the at least one battery station and the hub is configured to serve, house, and/or maintain at least one of the at least one mobile robot. 15. A method for swapping and/or charging at least one battery of a mobile robot, the method comprising: (a) providing at least one battery station comprising at least one station battery holder, and providing at least one mobile robot comprising at least one battery and at least one robot battery holder; (b) positioning the at least one mobile robot in a battery load/unload position, wherein the at least one battery station comprises a guiding element configured to indicate to the at least one mobile robot the battery load/unload position; (c) locating the at least one battery of the at least one mobile robot; (d) unloading a discharged battery from the at least one robot battery holder of the at least one mobile robot; (e) transporting and loading the discharged battery to an unoccupied station battery holder of the at least one battery station; (f) unloading a charged battery from at least one occupied station battery holder of the at least one battery station; and (g) transporting and loading the charged battery to the at least one robot battery holder of the at least one mobile robot. 16. The method according to claim 15 , wherein the at least one battery station compris