Abstract: A battery configured to be attached to a battery holder for use by a mobile robot comprising: a battery body encapsulating the battery; at least two electrical connectors protruding from the battery body; at least one fixing unit located on the battery body said fixing unit configured to fix the battery to the battery holder; at least two damping pins protruding from the battery body; and at least one battery communication component configured to transmit battery status data. A battery holder configured to hold the battery and at least one of storing, swapping and charging a battery.

Abstract: A battery station, for use by at least one mobile robot, includes a battery charging unit configured to perform at least one of: holding at least one battery, and charging at least one battery. A battery load/unload position is configured to facilitate loading and unloading of a battery to and from a mobile robot. A battery handling mechanism is configured to operate on a reaching range, comprising at least one of the following: (i) the battery of the mobile robot positioned in the battery load/unload position, and (ii) the battery charging unit. A localization element is configured to at least one of detect and locate at least one of: at least one battery of the mobile robot, wherein the mobile robot is positioned in the battery load/unload position, and/or at least one battery positioned in the battery charging unit.

Abstract: A battery configured to be attached to a battery holder for use by a mobile robot comprising: a battery body encapsulating the battery; at least two electrical connectors protruding from the battery body; at least one fixing unit located on the battery body said fixing unit configured to fix the battery to the battery holder; at least two damping pins protruding from the battery body; and at least one battery communication component configured to transmit battery status data. A battery holder configured to hold the battery and at least one of storing, swapping and charging a battery.

Abstract: A battery station, for use by at least one mobile robot, includes a battery charging unit configured to perform at least one of: holding at least one battery, and charging at least one battery. A battery load/unload position is configured to facilitate loading and unloading of a battery to and from a mobile robot. A battery handling mechanism is configured to operate on a reaching range, comprising at least one of the following: (i) the battery of the mobile robot positioned in the battery load/unload position, and (ii) the battery charging unit. A localization element is configured to at least one of detect and locate at least one of: at least one battery of the mobile robot, wherein the mobile robot is positioned in the battery load/unload position, and/or at least one battery positioned in the battery charging unit.

Abstract: A signaling device for increasing visibility of a mobile robot. The signaling device comprises (a) a base section, attached with a rotational joint to a side of the mobile robot, said rotational joint allowing the device to rotate clockwise and/or anticlockwise relative to the mobile robot, the rotational joint constructed and adapted to return the device to an equilibrium position; and (b) a body section comprising a mast, the body section flexibly attached to the base section at a lower extreme of the body section.

Abstract: A signaling device for increasing visibility of a mobile robot. The signaling device comprises a signaling section, a body section, and a base section. The invention also discloses a system for increasing visibility of a mobile robot. The system comprises a mobile robot, a signaling device attached to the mobile robot and a remote terminal configured to at least one of monitoring and controlling at least one of the mobile robot and the signaling device.

Abstract: A signaling device for increasing visibility of a mobile robot. The signaling device comprises a signaling section, a body section, and a base section. The invention also discloses a system for increasing visibility of a mobile robot. The system comprises a mobile robot, a signaling device attached to the mobile robot and a remote terminal configured to at least one of monitoring and controlling at least one of the mobile robot and the signaling device.

Abstract: A battery station, for use by at least one mobile robot, includes a battery charging unit configured to perform at least one of: holding at least one battery, and charging at least one battery. A battery load/unload position is configured to facilitate loading and unloading of a battery to and from a mobile robot. A battery handling mechanism is configured to operate on a reaching range, comprising at least one of the following: (i) the battery of the mobile robot positioned in the battery load/unload position, and (ii) the battery charging unit. A localization element is configured to at least one of detect and locate at least one of: at least one battery of the mobile robot, wherein the mobile robot is positioned in the battery load/unload position, and/or at least one battery positioned in the battery charging unit.

Abstract: A flexural joint, preferably for use in a battery station, comprising: a first group of rigid members configured to mount a first group of elements to the flexural joint; a second group of rigid members configured to mount a second group of elements to the flexural joint; a third group of elastic members configured to provide flexibility; a first flexural mechanism configured to allow rotational motion of at least one of the first group of rigid members with respect to the second group of rigid members and the second group of rigid members with respect to the first group of rigid members; and a second flexural mechanism configured to allow linear motion of at least one of the first group of rigid members with respect to the second group of rigid members and second group of rigid members with respect to the first group of rigid members.

Abstract: A battery configured to be attached to a battery holder for use by a mobile robot comprising: a battery body encapsulating the battery; at least two electrical connectors protruding from the battery body; at least one fixing unit located on the battery body said fixing unit configured to fix the battery to the battery holder; at least two damping pins protruding from the battery body; and at least one battery communication component configured to transmit battery status data. A battery holder configured to hold the battery and at least one of storing, swapping and charging a battery.