The invention relates to a portable clean room for filling at least one medicine container, located in the clean room with at least one active substance, wherein: the clean room is enclosed in an airtight manner by an at least partially flexible shell, the shell has at least one active substance connection region which can be opened, and a manipulation device and at least one medicine container are located in the clean room. According to the invention, the shell has at least one actuation connection region, wherein the manipulation device has at least one filling device which can be coupled to the active substance connection region for introducing at least one active substance into the at least one medicine container arranged in the clean room, and the manipulation device can be actuated by means of an actuation device via the actuation connection region of the shell, and is designed to displace the filling devicerelative to the at least one medicine containerand/or to actuate the filling device.

Handling device for an apparatus for the additive manufacture of three-dimensional objects, which handling device is equipped to handle an additively manufactured three-dimensional object, comprising: a handling chamber, which comprises a handling chamber interior delimited by one or more handling chamber walls, wherein at least one handling chamber wall comprises an access opening allowing access, in particular for a user, into the handling chamber interior, wherein the at least one access opening is openable and closable via a thereto assigned sliding-door-like closure element, which is mounted such that it is slidingly movable in a vertical direction between an open setting, in which the sliding-door-like closure element opens up the at least one access opening, and a closed setting, in which the sliding-door-like closure element closes off the access opening, relative to the handling chamber wall comprising the access opening.

The invention relates to a portable containment device for manipulating organic and/or chemical substances, which includes:

a transporting case including two half-cases (2, 3) connected by a hinged structure (4) such as to be movable between a closed position (F), in which the half-cases (2, 3) are against one another and define a stowing space for at least the hinged structure (4), and an open position (0), in which the half-cases (2, 3) are spaced apart from one another by being maintained vertical by the hinged structure (4) and in which the half-cases (2, 3) and the hinged structure (4) form a supporting structure for a flexible containment enclosure (20);

and a plastic, removable and flexible containment enclosure (20) that is at least partially transparent, for forming a generally parallelepiped foldable isolation chamber provided with means (31, 32) for accessing the inside of the enclosure and with means (21) for attachment to the supporting structure. The containment enclosure (20) is collapsible inside the transporting case in the closed position (F). The invention also relates to a removable, flexible enclosure for such a device.

A closed system chemical handling and delivery system includes an enclosure having a sealable opening accommodating the ingress and egress of chemical containers with an interior of the enclosure, a glove opening formed in the enclosure to which a glove is attached to and extends into the interior of the enclosure, a viewing window coupled to the enclosure providing a view into the interior of the enclosure, a chemical delivery drain in fluid communication with the interior of the enclosure, and a mixing valve in selective fluid communication with the chemical delivery drain.

The present disclosure relates to an apparatus for removing industrial powder from a shaped body manufactured generatively using the industrial powder. The apparatus includes at least one container for holding the shaped body having a vertically adjustable construction platform, a vibrating screen, a tilting device for tilting the container, and at least one catching unit adjoining a transfer end of the vibrating screen for catching the shaped body. In one form, the vibrating screen, tilting device, and catching unit are arranged within a housing. In another form, the vibrating screen and catching unit are arranged within the housing and the tilting device is at least partially arranged in the housing. At least one opening in the housing is closed in an airtight manner by a glove such that a user can use the glove to grasp the shaped body caught by the catching unit.

A powder recycling system for a three-dimensional rapid prototyping apparatus is provided. The powder recycling system includes a sealed main body, a negative pressure generator, an air pressure generator, a lighting unit and a heater. When an excess powder removing process is performed to remove excess powder from a three-dimensional object, the excess powder is sieved by a screen mesh and collected by a powder collector. Consequently, the excess powder is recycled.

A low-cost drug compounding system that can practically fit inside of a fume hood or the like is provided. The system can use a single pump operable in forward and reverse directions (or multiple pumps) to compound complex mixtures particularly including those requiring the creation of solutions from dry or powdered ingredients. A wireless link allows operation of the system remotely. In one embodiment, the system uses a disposable mixing tube set that can be discarded after mixing while still attached to the base ingredient containers used for the compounding thereby minimize the chance of personnel exposure.

A device for mitigating debris travel including a debris barrier, a support-frame, and a ceiling-attachment. The debris barrier includes a ceiling-opening-interface, a closeable-user-opening, an inside-surface, and an outside surface. The support-frame is fixed to the ceiling-opening-interface of the debris barrier. The support-frame is configured to hold open the ceiling-opening-interface, and further configured to hangingly support the debris barrier. The ceiling-attachment is fixed to the support-frame. The ceiling-attachment is configured to couple with a drop-ceiling, and the support-frame is shaped to seal against the support-frame.

An enclosure for containment and removal of hazardous material from objects is described, having a frame comprising a plurality of bars and a plurality of joints, each joint being releasably connectable to at least two bars, a flexible bag attachable to the frame, the bag being at least in part transparent, and comprising a resealable seam, and at least one adjusting device for tightening or loosening the bag on the frame. Usually, the enclosure, in use, is a negative pressure enclosure. The enclosure is particularly useful for containing and removing asbestos, especially from pipes. Also described are methods for removal of hazardous material from an object and methods for isolating an animal having an infectious and/or contagious disease using the enclosures.

A contained drum discharge system comprising a drum and connected with a lifting mechanism, wherein the drum includes a primary liner bag having the toxic powdery material to be disposed, contained within the secondary liner bag, and a tertiary liner bag enclosing the secondary liner bag; a transparent glove box; a hopper connected at a top of the glove box and with a vacuum transfer system of a material processing reactor; and a control unit connected with the glove box via a rotation mechanism and with the lifting mechanism of the drum. The glove box includes a plurality of glove ports connected with respective glove attachments; a plurality of thrashout ports with door; a sealing gasket to connect with the drum; a first liner port; a second liner port and a third liner port.