Aspects of the present invention relate to a triggerless extractor surface cleaning device for cleaning a surface in which a cleaning solution is distributed to the surface and extracted using suction along with dirt and/or debris on the surface in a continuous operation as the extractor moves along the surface. The extractor further comprises an encoder positioned adjacent a wheel of the extractor for detecting a rotational direction and speed of the wheel to generate a signal. Based on receiving the signal, a controller controls operation of a valve to situationally distribute the cleaning solution to the surface depending on a forward rotation of the wheel and independent of user actuation of a trigger positioned on a handle used to propel the extractor along the surface. Distribution of the cleaning solution can be further optimized based on the detected rotational speed of the wheel.

The extent of the movement area of an autonomous mobile object is appropriately fed back for the extent of the movement area in the next operation at a low cost. An autonomous mobile object (1) includes an operation result map creation unit (21) that creates, on the basis of a log of the position of a cleaning brush (9), an operation result map in which a cleaned area is indicated, and a next-cleaning-area setting unit (22) that sets a next cleaning area on the basis of the operation result map displayed on an operation panel (13).

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 discloses an automated floor cleaning apparatus, has an automatic cleaning robot and a washing base; the rear end of the robot body of the automatic cleaning robot is provided with a mop mechanism, the mop mechanism comprises a rotation component rotatably connected to the robot body and a crawler-type wiping cloth sleeving outside and rotating along with the rotation component. The invention provides can automatically and effectively removes dirt attached to the crawler-type wiping cloth, avoiding artificial detaching and then cleaning the wiping cloth stained with dirt, automatically performing washing operation, greatly alleviating operation burden of a user, and having a good floor sweeping effect.

The present invention relates generally to an apparatus for cleaning or otherwise treating a floored surface that includes a platform adapted to support the weight of an operator. In addition, one embodiment of the present invention is capable of generally performing 360° turns to facilitate the treatment of difficult to access portions of the floored surface.

A cleaning device includes a host, a drag head assembly and a water spray assembly. The host includes a housing, a control device housed in the housing and a handle member fixedly connected to the housing. The housing contains a water inlet pipe for connecting to a water source. The drag head assembly is fixed on the housing and electrically connected to the control device. The control device is used to control the drag head assembly for cleaning operations. The drag head assembly includes a cleaning brush head. The water spray assembly is fixed in the drag head assembly and connected to the end of the water inlet pipe away from the water source. The water spray assembly has evenly set spray holes. The direction of the spray holes is towards the cleaning brush head.

The invention relates to a cleaning machine, including a cleaning head, a holding rod device and a joint device by means of which the holding rod device is articulated to pivot on the cleaning head. Arranged on the holding rod device is a connection element that has a first region and a second region, wherein the second region is at a spacing from the first region in a transverse direction and the transverse direction is oriented transversely to a longitudinal axis of the holding rod device, wherein the connection element is connected by way of the second region to a joint of the joint device with which a pivot axis is associated, and wherein the connection element is connected by way of the first region to the holding rod device.

A multifunctional mopping machine includes a handle, a body and a main machine. The body includes a mounting base, and a housing provided with a cleaning assembly; the body is detachably connected to the mounting base; the main machine includes a negative pressure assembly and a power supply assembly; the power supply assembly, the negative pressure assembly and the cleaning assembly form a cleaning mechanism; and a water tank for supplying water to the cleaning assembly, and a sodium hypochlorite electrolysis generator are arranged on the mounting base. An ultraviolet sterilizing lamp facing the ground to be cleaned is arranged on the housing. A tail end of a dust collecting hose communicates with a negative pressure end of the main machine, and collects both dirty water and dust on the floor, so as to ensure no stain left on the floor, satisfying present floor washing requirements.

An apparatus, system, and method for dual-mode vehicle-mounted cleaning are provided. In one embodiment, the apparatus includes a heat-exchanger subsystem having first and second heat-receiving pathways and a heat-providing pathway. Heat exhaust from a combustion engine is routed through the heat-providing pathway to transfer heat to both the first and second heat-receiving pathways. The first heat-receiving pathway, the second heat-receiving pathway, and the heat-providing pathway are fluidly independent of each other. The apparatus also includes a first liquid pathway fluidly coupled to the first heat-receiving pathway, configured to direct a hard-surface cleaning liquid, by a first pump, through the first heat-receiving pathway to a hard-surface cleaning tool, and a second liquid pathway fluidly coupled to the second heat-receiving pathway, configured to direct a soft-surface cleaning liquid, at a lower pressure than a first liquid in the first liquid pathway, through the second heat-receiving pathway to a soft-surface cleaning tool.

A floor cleaning machine for cleaning a floor surface includes a recovery tank having an inlet conduit and a flow divider. The flow divider includes a divider inlet in downstream fluid communication with the inlet conduit. The flow divider divides the flow into at least two separate flow paths. Each separate flow path includes a first flow path portion for directing the flow in a first direction away from the divider inlet, a second flow path portion directing the flow in a second flow direction that is substantially different from the first flow direction, and a flow redirector portion for redirecting the flow from the first flow direction to the second flow direction. The recovery tank also includes a tank body in downstream fluid communication with the flow divider. The tank body collects dirty fluid from the floor surface.