A flexible cleaning apparatus comprising a plurality of extendible tubes disposed in fluidic communication with each other and is arranged in a three-dimensional geometry that defines an internal cleaning region. The flexible cleaning apparatus has a cleaning fluid interface configured to provide cleaning solution to the plurality of extendible tubes. The flexible cleaning apparatus has a plurality of nozzles disposed along the plurality of extendible tubes and is configured to transit the cleaning solution from the plurality of extendible tubes to the internal cleaning region. The plurality of extendible tubes are each configured to adjust between a first length and a second length to adjust a volume of the internal cleaning region.

Provided are a vacuum head, a collection bin, a cleaning tray, a filter assembly, and a cleaning apparatus. The cleaning apparatus includes: a housing, a rolling brush, and a cleaning assembly, where the cleaning assembly includes a cleaning medium inlet and a plurality of cleaning medium spray orifices; the plurality of cleaning medium spray orifices face the rolling brush, and lengths of flow channels from various cleaning medium spray orifices to the cleaning medium inlet are equal. According to the present disclosure, a cleaning medium may be sprayed to a rolling brush surface uniformly, so that the rolling brush may be cleaned completely, thereby improving the cleaning efficiency and the cleanliness of the rolling brush.

An outdoor surface cleaning apparatus having a handle, a power head with a prime mover, an attachment head having a cleaning attachment, and a spray mechanism. The spray mechanism includes a first fluid input, a second fluid input, a cleaning fluid output, and a mixing assembly. The mixing assembly is in fluid communication with the first fluid input, the second fluid input, and the cleaning solution output.

The present application provides a machine cleaning device. The machine cleaning device includes: a guide rail arranged next to a carrying platform of the machine main body, a support slidably mounted on the guide rail, a cleaning component mounted on the support, a driving device connected to the support in a transmission way, and a controller connected to the driving device; and when the cleaning component cleans the top surface of the machine main body, the controller controls the driving device to drive the support to move along the guide rail, so as to drive the cleaning component to clean the top surface of the machine main body in a direction away from the carrying platform. So that unexpected particles are reduced to fall on the carrying platform and contaminate the carrying platform during the cleaning process.

A solar panel cleaning system includes a detection traveling vehicle configured to travel on a solar panel and detect dirt on the solar panel, a map generation part configured to generate a dirt map including a dirt position of the dirt on the solar panel, a cleaning path generation part configured to generate a cleaning path for performing cleaning of the solar panel, and a cleaning traveling vehicle configured to travel on the solar panel on the basis of the generated cleaning path and perform cleaning of the solar panel.

A low surface tension liquid supply unit supplies a low surface tension liquid onto the upper surface of a substrate to form a liquid film of the low surface tension liquid on the substrate. An opening is formed in a central region of the liquid film of an organic solvent. The liquid film is removed from the upper surface of the substrate by expanding the opening. While a low surface tension liquid is supplied from the low surface tension liquid supply unit, to the liquid film, toward a liquid landing point set outside the opening, the liquid landing point is moved so as to follow the expansion of the opening. While an facing surface of a drying head faces a dry region set inside the opening to form a low-humidity space between the facing surface and the dry region, with the low-humidity space having a humidity lower than that outside the space, the dry region and the facing surface are moved so as to follow the expansion of the opening.

A vacuum rail and squeegee system, and a control system for an irregular surface cleaning system, an irregular surface cleaning system, process, and methods of use are presented. The cleaning system presented herein is designed for clearing surfaces of structures. More specifically, but without limitation, the present cleaning system is designed and configured to clean the surfaces, inside and outside, of wind turbines and the corresponding structure. More specifically, and without limitation, the present disclosure relates to a surface cleaner for cleaning surfaces. More specifically, and without limitation, the present disclosure relates to cleaning surfaces of an irregular surface. More specifically, and without limitation, the present disclosure relates to cleaning a surface of an irregular surface where the target surface is at an inconvenient altitude or location.

Provided are a substrate treatment apparatus and method for treating a substrate while preventing the surface of the substrate from drying out. The substrate treatment method includes: moving a first nozzle to above a first point on a substrate; ejecting a first substrate treatment liquid onto the substrate from the first nozzle; moving a second nozzle to above the first point; and ejecting a second substrate treatment liquid onto the substrate from the second nozzle, wherein the second nozzle is positioned above a second point on the substrate before moving to above the first point.

Disclosed is an automatic die cleaning device with reusable cleaning fluid. The automatic die cleaning device includes a robot, a cleaning fluid cyclic-spraying system and a die overturning mechanism. The automatic die cleaning device can spray the cleaning fluid to a die to clean oil stains off the surface of the wheel die, thus realizing the function of automatically cleaning the oil stains off the surface of the die; and the automatic die cleaning device also has the function of reusing the cleaning fluid, thereby saving the cleaning fluid and reducing the influence on the environment. The cleaned die surface is smooth, and the effect is ideal. The automatic die cleaning device reduces the labor intensity, meets the requirement of high-efficiency production, and improves the production efficiency.

A method and apparatus for cleaning surfaces of an object. A platform may be moved along a path relative to the object using a robotic device. A liquid may be applied onto the plurality of surfaces of the object using an applicator associated with the platform. The liquid may be worked into the plurality of surfaces using a plurality of cleaning elements associated with the platform to dislodge undesired material from the plurality of surfaces. A plurality of flexible members may be moved along the plurality of surfaces to dry the plurality of surfaces and remove the undesired material from the plurality of surfaces. An airflow may be generated that moves the undesired material into a vacuum duct in a vacuum system.