An apparatus and associated methods are disclosed for washing a plurality of beverage containers. The apparatus may include an enclosure, a holder positioned in the enclosure, a receptacle for a beverage container in the holder, and an injector coupled to the enclosure. The holder may rotate in the enclosure about an axis of rotation. As the holder rotates, the receptacle may move (e.g., rotate) through a plurality of positions about the axis of rotation. The receptacle may be positioned to receive a beverage container in a first position about the axis of rotation. When rotated to a second position about the axis of rotation, the receptacle may be aligned with the injector and the injector may provide a fluid inside the beverage container in the receptacle. The receptacle may be positioned to drain the fluid from the beverage container in the receptacle in the second position or after being rotated to a third position.

An apparatus and associated methods are disclosed for washing a plurality of beverage containers. The apparatus may include an enclosure, a holder positioned in the enclosure, a receptacle for a beverage container in the holder, and an injector coupled to the enclosure. The holder may rotate in the enclosure about an axis of rotation. As the holder rotates, the receptacle may move (e.g., rotate) through a plurality of positions about the axis of rotation. The receptacle may be positioned to receive a beverage container in a first position about the axis of rotation. When rotated to a second position about the axis of rotation, the receptacle may be aligned with the injector and the injector may provide a fluid inside the beverage container in the receptacle. The receptacle may be positioned to drain the fluid from the beverage container in the receptacle in the second position or after being rotated to a third position.

A container rinsing system has a nozzle adapted to be positioned proximate an opening of the container and adapted to direct a supply of air in any orientation to the container. A vacuum member is positioned around the air nozzle and adapted to vacuum foreign particles away from the container. A system comprises an air source and a manifold having a manifold inlet, an ionization unit, and a plurality of manifold outlets along with a plurality of air nozzles. Each nozzle has a nozzle inlet, a nozzle outlet, and a nozzle passageway extending between the nozzle inlet and the nozzle outlet. The ionization unit is placed within the manifold, and the plurality of nozzles are located on the plurality of manifold outlets such that during operation air is ionized before entering the nozzles. The ionized air is used to clean containers.

A container rinsing system has a nozzle adapted to be positioned proximate an opening of the container and adapted to direct a supply of air in any orientation to the container. A vacuum member is positioned around the air nozzle and adapted to vacuum foreign particles away from the container. A system comprises an air source and a manifold having a manifold inlet, an ionization unit, and a plurality of manifold outlets along with a plurality of air nozzles. Each nozzle has a nozzle inlet, a nozzle outlet, and a nozzle passageway extending between the nozzle inlet and the nozzle outlet. The ionization unit is placed within the manifold, and the plurality of nozzles are located on the plurality of manifold outlets such that during operation air is ionized before entering the nozzles. The ionized air is used to clean containers.

Provided are methods and systems for cleaning various semiconductor substrate storage articles, in particular, FOUP doors. The FOUP doors and other similar articles often have openings that may get contaminated with cleaning liquids if not covered. The described cleaning system includes contact points for engaging the article and covering these openings. The contact points may be also used for supporting the article and for pressurizing the openings in the article with a gas. The gas may be supplied through one or more contact points. It prevents liquids from getting into the openings if even the openings are not completely sealed. The pressurization may be maintained through the entire wet portion of the cleaning process. The article may be rotated within the cleaning system while cleaning and/or other liquids or gases are dispensed through a set of spraying nozzles. Spraying nozzles may move to enhance cleaning of the article.

Provided are methods and systems for cleaning various semiconductor substrate storage articles, in particular, FOUP doors. The FOUP doors and other similar articles often have openings that may get contaminated with cleaning liquids if not covered. The described cleaning system includes contact points for engaging the article and covering these openings. The contact points may be also used for supporting the article and for pressurizing the openings in the article with a gas. The gas may be supplied through one or more contact points. It prevents liquids from getting into the openings if even the openings are not completely sealed. The pressurization may be maintained through the entire wet portion of the cleaning process. The article may be rotated within the cleaning system while cleaning and/or other liquids or gases are dispensed through a set of spraying nozzles. Spraying nozzles may move to enhance cleaning of the article.

A purge device includes: a plurality of mounts on which containers are to be placed and that are grouped, a nozzle that is structured such that when a container is placed on the corresponding mount, a flow path to supply a purge gas to the container is opened, and a flow rate controller that adjusts a flow rate of the purge gas supplied into a group based on a number of containers in the group.

The invention relates to apparatuses, machines, systems and methods for periodically washing and/or disinfecting the interior of individual containers having a polygonal base (e.g., rectangular), such as bins of the type used for the used for agricultural commodity collection, storage, and transport (agricultural bins), as well as other types of bins and containers. The systems of the present invention may be operable to automatically and thoroughly clean the interior of such bins.

The invention relates to apparatuses, machines, systems and methods for periodically washing and/or disinfecting the interior of individual containers having a polygonal base (e.g., rectangular), such as bins of the type used for the used for agricultural commodity collection, storage, and transport (agricultural bins), as well as other types of bins and containers. The systems of the present invention may be operable to automatically and thoroughly clean the interior of such bins.

Systems and methods provide for cleaning the air intake valves and surrounding areas of an engine. A gravity-fed cleaning-fluid dispenser may feed cleaning fluid into a hose through a metered device that meters a rate at which the cleaning fluid flows into the hose. A second fluid meter connected to a distal end of the hose further meters the rate at which a mixture of the cleaning fluid and air from is dispersed into the running GDI engine. Cleaning fluid may be distributed to the engine at a gradually decreasing rate as a volume of cleaning fluid in the dispenser decreases as the service progresses.