A system for treating stains on a surface includes a portable, unattended heating device having a housing, a heating plate, and a controller operably coupled with the heating plate, wherein the controller is configured to actuate the heating plate. The system can further include a stain treatment pad wetted with a liquid treating chemistry, and the portable, unattended heating device is adapted to rest on and heat the stain treatment pad to treat a stain, including releasing, transferring and removing the stain from the surface to be cleaned.

A stain removal device, a head portion having a beating surface; a vibration unit which is located on an extension line of an axis of the head portion orthogonal to the beating surface and vibrates the head portion in an axis direction through driving of a solenoid actuator; and a liquid supply unit which has a liquid accommodating portion capable of accommodating liquid and supplies the liquid in the liquid accommodating portion to the beating surface through vibration of the head portion generated by the vibration unit.

A fabric treating appliance includes a cabinet defining an interior and having a top wall defining an access opening. A cover is provided that is movable relative to the cabinet between an open position and a closed position to selectively close the access opening. A tub is located within the interior and includes and open top aligned with the access opening. A rotatable basket is located within the tub and has a loading opening aligned with the open top and the access opening. A top wall extends between the cabinet and the tub.

A method of treatment of one or more articles may comprise locating a stain on an article based on a tag on the article; placing the stain on a nose of a spotting board; positioning a steam gun at least two or more inches away from the stain; simultaneously activating a steam supply and a vacuum supply of the spotting board; moving the steam gun in a defined motion relative to the stain for at least 30 seconds; simultaneously activating the vacuum supply and an air supply of the spotting board; moving the steam gun in the defined motion relative to the stain until the article is at least partially dry; and inspecting the stain.

A clothes care apparatus includes a main body including a clothes care chamber configured to accommodate one or more clothes items; an optical sensor module configured to photograph an inside of the clothes care chamber, the optical sensor module including a plurality of light receiving elements arranged in an array, each of the plurality of light receiving elements being sensitive to different wavelength bands; and a processor configured to: acquire, from the plurality of light receiving elements, a sensing value for the one or more clothes items accommodated in the clothes care chamber, acquire spectroscopic data for the one or more clothes items accommodated in the clothes care chamber based on the sensing value, acquire feature information corresponding to the one or more clothes items accommodated in the clothes care chamber based on the spectroscopic data, input the feature information into a trained neural network model, acquire, from the trained neural network model, information on materials of the one or more clothes items accommodated in the clothes care chamber, and determine an operation course of the clothes care apparatus based on the information on the materials of the one or more clothes items accommodated in the clothes care chamber.

A clothes care apparatus includes a main body including a clothes care chamber configured to accommodate one or more clothes items; an optical sensor module configured to photograph an inside of the clothes care chamber, the optical sensor module including a plurality of light receiving elements arranged in an array, each of the plurality of light receiving elements being sensitive to different wavelength bands; and a processor configured to: acquire, from the plurality of light receiving elements, a sensing value for the one or more clothes items accommodated in the clothes care chamber, acquire spectroscopic data for the one or more clothes items accommodated in the clothes care chamber based on the sensing value, acquire feature information corresponding to the one or more clothes items accommodated in the clothes care chamber based on the spectroscopic data, input the feature information into a trained neural network model, acquire, from the trained neural network model, information on materials of the one or more clothes items accommodated in the clothes care chamber, and determine an operation course of the clothes care apparatus based on the information on the materials of the one or more clothes items accommodated in the clothes care chamber.

A fabric treating appliance includes a cabinet defining an interior and having a top wall defining an access opening. A cover is provided that is movable relative to the cabinet between an open position and a closed position to selectively close the access opening. A tub is located within the interior and includes and open top aligned with the access opening. A rotatable basket is located within the tub and has a loading opening aligned with the open top and the access opening. A top wall extends between the cabinet and the tub. A scrubbing tool seat recessed in the top wall.

An extraction system and method of extraction are described herein. The extraction system generally includes an extraction vessel including a vessel body, an extraction solvent inlet, a material inlet, and an outlet, a collection vessel operably connected to the outlet, a dispersion devise disposed proximate the extraction solvent inlet and including a first surface and a second surface, a plurality of openings formed in the dispersion device and extending from the first surface to the second surface, whereby the plurality of openings are adapted for the flow of an extraction solvent therethough.

The present disclosure relates to an apparatus for cleaning of fabric. Image capturing units in the apparatus captures images of the fabric. A control unit in the apparatus identifies region of stain in the fabric based on the images and activates an ejecting unit for cleaning the fabric. The ejecting unit applies a selected cleaning agent on the region of stain. A motorized wiper and a sucking mechanism are operated on the region of stain to remove stain from the fabric. In an embodiment, the apparatus may also be used for ironing the fabric. However, the fabric is ironed within an optimal temperature range suitable for the type of fabric being ironed, thereby preventing over-heating and/or burning of the fabric. Thus, the apparatus disclosed herein facilitates both cleaning and ironing of the fabric.

A method of cleaning a substrate (16, 24, 34, 64, 71, 82, 102, 165, 171, 181, 201, 300, 310) with optical energy can comprise applying optical energy from a source of optical energy (12, 21, 31, 91, 103, 114, 121, 131, 141, 151, 164, 191, 202) to the substrate. The method can comprise applying the optical energy to a substrate having a cleaning agent applied thereto, the optical energy having one or more optical parameters selected for cleaning the substrate. The method can comprise reading data from a data bearing element (173) associated with the substrate, communicating the data to a processor (154) associated with a cleaning appliance (10, 30, 40, 60, 70, 80, 90, 110, 120, 130, 140, 150, 161, 200) comprising the source of optical energy, wherein the processor, responsive to the communicated data, controls the cleaning of the substrate with the optical energy. The method can comprise slidingly contacting the substrate with a work surface, said work surface comprising an aperture (83, 117) and emanating optical energy from the aperture for cleaning the substrate. A cleaning appliance can comprise an appliance body (80, 90, 104, 125) comprising an aperture for emanating optical energy for cleaning the substrate and an optical transmission pathway arranged for propagating optical energy received from an optical energy source to said aperture. The appliance can be adapted and constructed for delivering a cleaning agent to the substrate. The appliance can include a processor, a data interface in communication with the processor, and can be configured such that the processor outputs signals that control the cleaning of the substrate, the processor being configured for controlling, responsive to data received by the data interface and via the output signals, the substrate cleaning. The cleaning appliance can include a suction pump (142) for removing material from the substrate.