A moving robot includes: a main body; a traveling unit configured to rotate and move the main body; a sensing unit configured to sense position information of a specific point of a front portion of a docking device; and a controller configured to, based on sensing result of the sensing unit, determine i) whether a first condition, which is preset to be satisfied when the docking device is disposed in a front of the moving robot, is satisfied, and ii) whether a second condition, which is preset to be satisfied when the moving robot is disposed in a front of the moving robot, is satisfied, to control an operation of the traveling unit so as to satisfy the first condition and the second condition, and to move to the front so as to attempt to dock in a state where the first condition and the second condition are satisfied.

An apparatus for use with a plurality of robotic appliances, the apparatus comprising a plurality of receiving spaces each configured to receive at least one robotic appliance, wherein each of the receiving spaces comprises: a shelf comprising an upper surface on which a robotic appliance can be located; a charging element configured to charge a robotic appliance when it is located on the shelf; and one or more locating formations arranged to abut said robotic appliance, such that the one or more locating formations provide support against movement of the robotic appliance when the robotic appliance is located on the shelf, wherein the one or more locating formations are provided at or above the upper surface of said shelf.

A docking station, a mobile robot, and a mobile robot management method for controlling a docking station and a mobile robot are provided. The mobile robot includes a management method wherein, in order to display information associated with a docking station to an output device of a mobile robot or transmit the information to a user terminal device connected to the mobile robot, the mobile robot transmits, to the user terminal device, information received from the docking station.

A method for operating a cleaning system with a plurality of mobile cleaning devices and a base station for the cleaning devices as well as a base station for a plurality of mobile cleaning devices are proposed, wherein the cleaning devices can be emptied by the base station and/or filled with a cleaning agent by the base station simultaneously and/or according to a prioritization. In addition, a filter apparatus for a base station is proposed which has a plurality of connection openings in order to be able to empty a plurality of cleaning devices.

A robotic vacuum cleaner may include a housing, a displaceable bumper, an emitter/detector pair, and at least one divider. The displaceable bumper may be moveably coupled to the housing and may be configured to be displaced along at least one axis. The emitter/detector pair may have an emitter and a detector, wherein the emitter is configured to emit light through at least a portion of the displaceable bumper. The at least one divider may be disposed between the emitter and the detector of the emitter/detector pair.

A cover is provided for a robotic floor cleaner to enclose the cleaner when the cleaner is docked in a charging station. The cover is shaped complimentarily to the shape of the robotic floor cleaner. The cover includes a flat, smooth, horizontal top and a circular sidewall with an open front mouth to through which the robotic floor cleaner moves into and out of the charging station. The cover may have a rear notch to accommodate structure on the charging station. The cover has sufficient strength to support a plant or decorative object on the top.

Measures for use operating a robot having one or more sensors. At the robot, a representation of an environment of the robot is generated by operating the one or more sensors to sense a set of parameters representative of the environment of the robot. The representation includes at least one surface in the environment other than a surface on which the robot is located. Control data is received from the electronic user device. The control data indicates a desired action to be performed at the at least one surface in the environment of the robot. In response to receipt of the control data, the robot is caused to perform the desired action at the at least one surface in the environment of the robot.

A method for bringing cleaning robots into and out of a trolley, and cleaning system, in which each cleaning robot is automatically brought into the trolley individually and the cleaning robots are automatically brought out of the trolley in an order depending on the cleaning effort assigned to them or in a sequence specified by a user of the trolley. A cleaning system comprises a trolley and a multiplicity of cleaning robots configured to carry out the method.

An embodiment of the present disclosure provides a cleaning robot and a control method thereof. The cleaning robot includes: a chassis; a fluid applicator, carried on the chassis and configured to distribute a cleaning fluid on at least part of a cleaning width; a fluid storage apparatus, detachably connected to the chassis, wherein the fluid storage apparatus is in communication with the fluid applicator and configured to apply the cleaning fluid distributed by the fluid applicator to a floor; and a control unit, carried on the chassis and configured to control the fluid applicator to stop distributing the cleaning fluid in a case that a to-be-cleaned area of the floor reaches a preset value.

An autonomous floor cleaner can include a housing, a drive system for autonomously moving the housing over the surface to be cleaned, and a controller for controlling the operation of the autonomous floor cleaner. The drive system can include at least one drive wheel for driving the housing across a surface to be cleaned. The drive wheel can be selectively moved from an engaged or in-use position to a disengaged or maintenance position. In the disengaged or maintenance position, the wheel is disengaged from the autonomously moveable housing such that it can be pivoted, extended, removed, or otherwise moved farther away from the autonomously moveable housing.