A cleaning station for vacuum robots for cleaning floor surfaces, the cleaning station having a housing, the housing having an electrical interface, the interface being designed to contact a vacuum robot approaching the cleaning station for charging, the housing having a suction device, the suction device being designed to empty a vacuum robot approaching the cleaning station for emptying. The housing has at least one status display, the status display being designed to display an operating status of the interface and/or the suction device, wherein the status display comprises at least one projection apparatus. The projection apparatus is designed to project the operating status of the interface and/or the suction device onto the vacuum robot which has approached and/or onto the floor surface and/or onto a wall surface surrounding the cleaning station.

A cleaning robot is provided. The cleaning robot includes a body, a light detection and ranging (LiDAR) module having a LiDAR sensor rotatably supported by the body, a light-emitting display module mounted on the LiDAR module, wherein the light-emitting display module is configured to display an image based on an afterimage effect according to a rotation of the LiDAR module.

A floor cleaner includes a handle, a body, a base movable over a surface to be cleaned, and a supply tank coupled to the body. The supply tank having an inlet opening defining an inlet opening width and a fluid disposed therein. A water soluble package includes a cleaning solution disposed therein and is inserted within the supply tank to combine with the fluid disposed therein to form a cleaning fluid. A distribution nozzle is in communication with the supply tank and disperses the cleaning fluid towards a ground surface. The package has an unfolded dimension defined by a first width that is larger than the inlet width, a height defined orthogonal to the first width, and a thickness defined orthogonal to the first width and the height. The package folds from the unfolded dimension to a compact size having a folded dimension defined by a second width that is smaller than the inlet opening width.

A riding floor cleaning machine having an intelligent system including a main frame sub-assembly, a steering and drive wheel sub-assembly, a solution tank sub-assembly, a recovery tank sub-assembly, a recovery tank cover sub-assembly, a control panel sub-assembly, a main controller sub-assembly, a seat and detergent system sub-assembly, a battery sub-assembly, a scrub head sub-assembly, a scrub head lift sub-assembly, a squeegee sub-assembly, a solution and detergent sub-assembly, and an intelligent system associated with at least one of the above-identified sub-assemblies, wherein the intelligent system selectively gathers, obtains, monitors, stores, records, and/or analyzes data associated with components of the riding floor cleaning machine, and controllably communicates and/or disseminates such data with another system and/or user.

A robot configured to perceive a model of an environment, including: a chassis; a set of wheels; a plurality of sensors; a processor; and memory storing instructions that when executed by the processor effectuates operations including: capturing a plurality of data while the robot moves within the environment; perceiving the model of the environment based on at least a portion of the plurality of data, the model being a top view of the environment; storing the model of the environment in a memory accessible to the processor; and transmitting the model of the environment and a status of the robot to an application of a smartphone previously paired with the robot.

An autonomous floor cleaner can include a housing, a drive system for autonomously moving the housing over the surface to be cleaned, a controller for controlling the operation of the autonomous floor cleaner, and warning system for issuing a warning based on the detection of moisture inside the robot. Methods for issuing a warning are disclosed.

A carpet recognition method for a robot cleaner. The robot cleaner comprises a sleeve and an ultrasonic sensor, wherein the ultrasonic sensor is fixed in the sleeve. The recognition method comprises: controlling the ultrasonic sensor to vertically transmit an ultrasonic signal to the current ground, and to receive an actual echo signal reflected by the current ground and determining whether the actual echo signal is different from the standard echo signal of the normal ground, and if so, recognizing the current ground as a carpet surface

The invention relates to a cleaning device, in particular a suction wiper, having a housing with at least one cleaning medium for receiving a cleaning agent, having a cleaning medium carrier for receiving the cleaning medium, having a drive for driving the cleaning medium carrier and having a controller. At least one vibration sensor for detecting a strength of a vibration is arranged in the housing and the controller is designed to determine the moisture of the cleaning medium, the controller evaluating a change in the strength of the vibration. The invention also relates to a method for operating a cleaning device.

The present disclosure provides a surface cleaning apparatus that includes task lighting. The task lighting can be provided on a hand-carried body or housing of the surface cleaning apparatus. Power to the task lighting can be controlled by a switch. The task lighting can be adjustable relative to the hand-carried body, and can be directed to illuminate a desired location.

The invention relates to a floor cleaning system, comprising a user-guided floor cleaning machine for cleaning a floor surface, a sensor device, a control device, and an actuatable display device, wherein the floor cleaning machine comprises an operating device for a user, a chassis for moving the cleaning machine over the floor surface, and at least one cleaning device having a cleaning tool and preferably a drive device for the cleaning tool, wherein, during operation of the floor cleaning machine, a cleaning path along which, proceeding from a starting point, the cleaning machine travels over the floor surface can be determined by the control device on the basis of signals from the sensor device, and wherein the control device actuates the display device in order to display cleaning-related information, depending upon the cleaning path along which the cleaning machine is determined to have traveled.