A container-treatment machine includes a rotatable transport element having container holders and arranged to be pivotable by a pivoting device about a horizontal axis to pivot the container holders between feeding and treatment positions. In the feeding position, container openings of containers held by the container holders point upward. In the treatment position, they point downward. A pivot drive pivots the pivot arm, which holds the transport element so that it is rotatable by a rotary drive.

An automated system and method for washing bins. The system includes an infeed conveyor zone having a first conveyor platform for transporting the bins in a conveying direction. The system also includes a bin rotator disposed next to the infeed conveyor zone and rotates upward to allow the bins to be flipped and then loaded onto the first conveyor platform. The system further includes a bin washer zone located downstream from the infeed conveyor zone and having a second conveyor platform for receiving and transporting the bins in the conveying direction. The bin washer zone has sprayers for washing and sanitizing the bins with pressurized liquid. A flipping zone is located downstream from the bin washer zone for allowing the bins to be flipped and transferred onto an outfeed zone that allows the bins to be transported into a loading position at the end of the outfeed zone for reuse.

A cleaning apparatus for pharmaceutical containers, comprising means for feeding containers into and means for discharging containers from the cleaning apparatus, a transport apparatus for transporting containers within the cleaning apparatus, at least one holder for holding containers during a cleaning process, and one or more cleaning stations. Each holder holds a container such that a longitudinal axis of the container extends substantially in a vertical direction. Each cleaning station comprises at least one substantially cylindrically formed annular nozzle configured to completely surround a container during the cleaning process. Each cleaning station is provided on its inner side with a first row of outlet openings disposed circumferentially in a first vertical position, and is configured to discharge a cleaning medium substantially identically inwardly and downwardly at an angle to a horizontal axis and at an angle to a radial direction to form a cyclone of cleaning medium.

A beverage container washing system may be used for rapid washing and/or sanitizing of beverage containers, e.g., for use in a retail environment to wash and/or sanitize customer-provided beverage containers prior to filling the beverage containers with purchased beverages, among other applications. The beverage container washing system may include a holder that utilizes a base that supports a beverage container in an inverted orientation and a retainer that supports a sidewall of the beverage container and includes a lateral opening through which the beverage container may be passed during insertion into and/or removal from the holder.

A machine for removing labels from reusable containers includes a support for at least one reusable container, to which at least one label to be removed is applied on its lateral surface, and is provided with at least one cutting device adapted to perform at least one at least partial cut of the label, and elements for removing the label from the container which include nozzles for emitting at least one high-pressure jet of fluid toward the label.

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.

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.

The inventive substrate treatment apparatus includes: a rotative treatment control unit which controls a first chemical liquid supplying unit and a second chemical liquid supplying unit to perform a first chemical liquid supplying step of supplying a first chemical liquid to a substrate rotated by a substrate holding and rotating mechanism and a second chemical liquid supplying step of supplying a second chemical liquid to the substrate rotated by the substrate holding and rotating mechanism after the first chemical liquid supplying step; and a cleaning control unit which controls the cleaning liquid supplying unit to spout the cleaning liquid from the cleaning liquid outlet port to supply the cleaning liquid to the cup inner wall and/or the base wall surface before start of the second chemical liquid supplying step after end of the first chemical liquid supplying step, and/or during and/or after the second chemical liquid supplying step.

A cleaning device for cleaning an object having a peripheral edge defining a tubular portion of the object that is open at least one of its ends. The cleaning device has a cleaning enclosure, a first fluid feed duct for feeding fluid to the enclosure, and a first fluid discharge duct for discharging fluid from the enclosure. The cleaning enclosure has first and second enclosure portions. When the device is in its closed configuration at least one central zone of the second enclosure portion extends inside the first enclosure portion in order to define a reception space for receiving the object between the first enclosure portion and the central zone, which reception space extends all around the central portion.

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.