A mobile mechanism, a mobile robot having the mobile mechanism and a method for moving the mobile robot are disclosed. The mobile mechanism includes a housing in which a guide portion is provided, a sliding seat mounted on the guide portion and movable along the guide portion, a moving wheel fixed on the sliding seat and partially protruding beyond a surface of the housing, a pressing portion pressing against the sliding seat and moving the sliding seat toward the surface of the housing; and a deformation portion mounted on the housing and connected with the pressing portion, exerting a force for moving the sliding seat towards the surface of the housing through the pressing portion when deformed.

The present disclosure relates to a robot cleaner, and more particularly, to a robot cleaner that replaces a battery charged in a charging base and a discharged battery of the cleaning robot simply by using power of a cleaning robot of the robot cleaner. According to the present disclosure, the cleaning robot of the robot cleaner may include at least two driving wheels, and the charging base may include a replacement unit mechanically connected to one of the driving wheel to replace batteries and a docking unit mechanically connected to the other of the driving wheel to dock the cleaning robot. Therefore, as the cleaning robot and the charging base are mechanically connected, there is an effect of exchanging batteries only by using a control unit and the driving motor of the cleaning robot.

A surface cleaner is provided. The surface cleaner comprises: an operating component configured to perform a function of the surface cleaner; a base moveable along a surface; an accelerometer configured to generate a signal; and a controller in communication with the accelerometer and the operating component, wherein the controller is operable to control the operating component based on the signal, and wherein the operating component is selected from a group consisting of a suction motor operable to generate an airflow, a brushroll motor operable to drive a brushroll, an actuator operable to adjust a height of a brushroll from the surface, a pump operable to deliver a cleaning fluid, an actuator operable to control an airflow or fluid valve, and an indicator operable to indicate a parameter of the surface cleaner.

The present disclosure relates to a liquid container and an autonomous cleaning robot. The liquid container may include a container case and a cleaning cloth that is removable and mounted on the container case. The cleaning cloth may include a first guiding member disposed thereon. The container case may include a second guiding member. The first guiding member and the second guiding member cooperate with each other to define an assembly direction of the cleaning cloth. The cleaning cloth can be installed correctly by defining the assembly direction of the first guiding member and the second guiding member.

The present disclosure relates to the field of cleaning robot technology, and in particular to a base station, which is adapted for cooperating with a cleaning robot having a mop member that is configured to mop a floor, the base station includes a base station body and a mop member cleaning device arranged on the base station body, and the mop member cleaning device is configured to clean the mop member. The base station further includes a scraping and blocking member, the scraping and blocking member is configured to prevent cleaning fluid from splashing during a process of the mop member cleaning device cleaning the mop member.

A method of treating an enclosed space, in particular a room in a hospital, is provided, for example by disinfecting same, using a robotic mobile apparatus emitting ultraviolet (UV-C) radiation or hydrogen peroxide vapour (HPV). The robotic, mobile apparatus (1) comprises a wheeled carriage (3) on which a treatment device (2) is mounted and a controller (14) is provided that is configured to control operation of the wheels (12) of the carriage (3) and to operate the treatment device (2). A human-machine interface (HMI) (5) is also provided that is in communication with the controller (14) and is operable to start and stop a treatment procedure. A route around the enclosed space is recorded in the computer memory from a start position to an end position. When a treatment procedure is started, the human-machine interface (5) initiates operation of the controller (14), which controls operation of the wheels (12) of the carriage (3) so that the wheeled carriage (3) robotically tracks along the route around the enclosed space (53) and which controls operation of the treatment device (2) during its track along said route. The treatment may comprise disinfection by using a plurality of UV-C emitting lamps (10) mounted on the wheeled carriage.

A robotic, mobile apparatus (1) for treating an enclosed space (53) comprises a wheeled carriage (3) on which a treatment device (2) is mounted. A controller (14) is provided that is configured to control operation of the wheels (12) of the carriage (3) and to operate the treatment device (2). A human-machine interface (HMI) (5) is also provided that is in communication with the controller (14) and is operable to start and stop a treatment procedure. When a treatment procedure is started, the human-machine interface (5) initiates operation of the controller (14), which controls operation of the wheels (12) of the carriage (3) so that the wheeled carriage (3) robotically tracks along a predetermined route around the enclosed space (53) and which controls operation of the treatment device (2) during its track along said route. The treatment device (2) may comprise a disinfection device such as one comprising a plurality of UV-C emitting lamps (10).

Disclosed are a robot cleaner and a maintenance device for the same. The robot cleaner includes a body, a traveling module for moving the body, a bottom portion disposed in front of the traveling module for sliding along a floor when the body is moved, and a collection portion disposed in front of the bottom portion, the collection portion having therein a space for collecting foreign matter on the floor. The maintenance device includes a suction port configured to be inserted into the collection portion and a suction channel for guiding the movement of the air suctioned through the suction port.

Disclosed is a robot cleaner including a body having a module location portion, a traveling module for moving the body, and a sliding module having a body location portion detachably coupled to the module location portion, the sliding module being configured to slide along a floor when the body is moved. A mop fixing unit for fixing a replaceable mop is provided between the module location portion and the body location portion.

The present invention discloses a cleaning robot, a control method thereof, and a ground treatment system, where the ground treatment system includes the cleaning robot and a base station. The cleaning robot includes a cleaning device, configured to be mounted on the body, where the cleaning device includes a mopping module; a control device, configured to control the walking device to drive the cleaning robot to move; and a power device, configured to supply power to the walking device. The cleaning robot further includes a lifting device, and the control device can control the lifting mechanism to lift the mopping module from a first position relative to a working surface to a second position; and the control device controls, according to a detection result of a detection device, the cleaning robot to return to the base station and replace a mop in the base station.