The present disclosure provides cleaning robot, including a cleaning agent mopping device (1), a cleaning agent absorbing device (2), a water wiping (3) and washing device (4), and a water absorbing device arranged in turn along a moving direction of the cleaning robot. Each time when the cleaning robot of the present disclosure works to clean the to-be-cleaned surface, the cleaning robot can perform the four steps including cleaning agent mopping, cleaning agent absorbing, water wiping and washing, and water absorbing, thus, both hydrolysable and non-hydrolysable stains can be effectively cleaned by the cleaning robot. Thus, the cleaning robot is very practical, easy to operate, and simple to use.

A surface cleaning apparatus includes a housing including an upright handle assembly and a base mounted to the upright handle assembly. The surface cleaning apparatus is further provided with a fluid delivery system comprising a fluid dispenser configured to dispense fluid and at least one fluid delivery channel forming a portion of a fluid delivery pathway. A method of removing debris and fluid from a floor surface using a surface cleaning apparatus is also provided.

A surface cleaning apparatus includes a housing including an upright handle assembly and a base mounted to the upright handle assembly. The surface cleaning apparatus is further provided with a fluid delivery system comprising a fluid dispenser configured to dispense fluid and at least one fluid delivery channel forming a portion of a fluid delivery pathway. A method of removing debris and fluid from a floor surface using a surface cleaning apparatus is also provided.

A water tank is provided for communicating with a cleaning system on a base station body of a base station and outside of the base station. The water tank includes a clean water cavity configured to hold clean water, a clean water input channel configured to be communicated with the clean water cavity and an external water source outside the base station, a clean water output channel configured to be communicated with the clean water cavity and the cleaning system on the base station body, a sewage cavity configured to hold sewage, a sewage input channel configured to be communicated with the cleaning system on the base station body and the sewage cavity, and a sewage output channel configured to be communicated with the sewage cavity and outside of the base station.

A seal assembly for a waste water tank. The seal assembly comprises: a base (2) disposed at a waste water tank (1); a linkage (3) movably disposed at the base (2); a sealing cover (4) connected to the linkage (3) and disposed at a waste water inlet (101) and on a suction opening (102); and a push rod (5) connected to the linkage (3) and used for pushing the linkage (3) to press the sealing cover (4)so as to seal the waste water inlet (101) and the suction opening (102). A bottom end of the push rod (5) is connected to a side wheel component (6) of a floor cleaning machine and the push rod (5) can move up and down along the side wheel component (6).

An autonomous floor cleaning system includes an autonomous floor cleaner with a docking station. The docking station is configured to performing maintenance for the autonomous floor cleaner, such as refilling the autonomous floor cleaner, emptying the autonomous floor cleaner, washing mopping pads, and/or recharging the autonomous floor cleaner. The docking system can supply heated cleaning fluid to the autonomous floor cleaner. Methods for servicing or performing maintenance on an autonomous floor cleaner by a docking station are disclosed.

An autonomous floor cleaning system includes an autonomous floor cleaner with a docking station. The docking station is configured to performing maintenance for the autonomous floor cleaner, such as refilling the autonomous floor cleaner, emptying the autonomous floor cleaner, washing mopping pads, and/or recharging the autonomous floor cleaner. The docking system can supply heated cleaning fluid to the autonomous floor cleaner. Methods for servicing or performing maintenance on an autonomous floor cleaner by a docking station are disclosed.

This application provides a method for controlling a robot cleaner, a robot cleaner, and a storage medium. The method for controlling the robot cleaner includes the steps of: acquiring a weight of the water tank, comparing the weight of the water tank with a setting value to acquire a comparison result, determining a remaining usable time of the robot cleaner according to the comparison result, and controlling the robot cleaner according to the remaining usable time. Since the weight of the water tank is not easily interfered by other factors, the acquiring of weight has a high accuracy, thereby the remaining usable time determined according to the weight of the water tank has a high accuracy, and then the robot cleaner is controlled according to the remaining usable time with higher accuracy. The control accuracy of the robot cleaner thus can be improved.

This application provides a method for controlling a robot cleaner, a robot cleaner, and a storage medium. The method for controlling the robot cleaner includes the steps of: acquiring a weight of the water tank, comparing the weight of the water tank with a setting value to acquire a comparison result, determining a remaining usable time of the robot cleaner according to the comparison result, and controlling the robot cleaner according to the remaining usable time. Since the weight of the water tank is not easily interfered by other factors, the acquiring of weight has a high accuracy, thereby the remaining usable time determined according to the weight of the water tank has a high accuracy, and then the robot cleaner is controlled according to the remaining usable time with higher accuracy. The control accuracy of the robot cleaner thus can be improved.

A method of operating a cleaning machine can include determining if a human is detected nearby. If a human is not detected, the process can restart. If a human is detected, then a determination can be made if there is emergency information to show. If there is emergency information to be shown, then the emergency information can be shown. If there is no emergency information to be shown, then an attention seeking mode can be enabled. The presence of a target group can be determined. The availability of content relevant to the target group can be determined. If content relevant to the target group is available, then the content can be displayed. If content relevant to the target group is not available, then the method can restart or return to a previous step.