An isolator system 1 includes: a main isolator 3 in which an aseptic state is maintained and which is for performing an aseptic operation; an incubator 4 in which the aseptic state is maintained and which is connected to the main isolator 3 and is for culturing cells and the like; decontamination means 35 for decontaminating the inside of the main isolator 3; and a decontamination station 9 that decontaminates the inside of the incubator 4. The isolator system 1 further includes a blocking member 30 for sealing a connection port 13 from the outside, the port being provided in the main isolator 3 and being for connection with the incubator 4. When the inside of the main isolator 3 is decontaminated, the connection port 13 is sealed from the outside with the blocking member 30. The isolator system that can efficiently decontaminate the main isolator and the subisolator connected to this main isolator can be provided.

Humidified sample preparation station for serial crystallography according to one embodiment is a humidified enclosure that delivers relative humidities above 95% and preferably above 97% in standard operation, and that can allow microscope observation of samples within. Humidified sample preparation station for serial crystallography can be used for preparation of protein crystal samples for examination using X-rays and for protein structure determination by X-ray crystallography, involving addition of liquid to the sample and removal of liquid from the sample using vacuum or suction.

A transport and packaging container for a plurality of pharmaceutical containers and a method for transferring the pharmaceutical containers from the transport and packaging containers into a clean room are provided. By placing a side wall of the transport and packaging container in close proximity to or in contact with the side wall of the clean room and by opening the side wall of the transport and packaging container and a transfer port door of the clean room, the pharmaceutical containers can be transferred into the inside space of the clean room via the access opening.

A safety cabinet has a second operation chamber in a first operation chamber and into which clean air is supplied, a second suction opening for sucking in air in the second operation chamber and a portion of the air in the first operation chamber, and a second operation opening part that is provided facing a first operation opening part and communicates the second operation chamber with the first operation chamber. Airflow containment (air barrier) is doubled with respect to the outside of a safety cabinet. In cases where decontamination and disinfection operations are carried out according to the changeover procedures, intensive decontamination and disinfection of the second operation chamber is sufficient, and decontamination and disinfection of the first operation chamber is hardly required. Decontamination and disinfection operations in the changeover procedures and the like can be carried out in a greatly reduced time.

An isolator system including: a box-shaped body case having, in an interior thereof, a work space for operation in a sterile environment and also having, in a front surface thereof, an insertion portion into which a worker's arm is inserted; and an air-conditioning portion configured to supply gas in the work space of the body case or to discharge gas in the work space, a bottom of the work space being configured with a work plate, a discharge path configured to discharge gas in the work space being formed below the work plate, the work plate being configured with first and second work plates obtained by dividing the work plate into right and left parts, a receiving portion being located below the first work plate, the receiving portion being arranged extending towards the second work plate on a side edge of the first work plate, the side edge of the first work plate being in contact with the second work plate, a side edge of the second work plate for being in contact with the first work plate being placed detachably on the receiving portion.

The invention relates to an expandable vacuum chamber (10) having flat frame elements (14) and end plates (12) and to a method for producing such a vacuum chamber (10). The end plates (12) are lined up in front of and behind the frame elements (14) in the axial direction (R.sub.a) and, together with the frame elements (14), delimit a chamber volume of the vacuum chamber (10).

A method for conditioning air in a test space of a test chamber which receives test material. A temperature in a range of −20° C. to +180° C. is established within the test space with a cooling device. The cooling device includes a cooling circuit with a refrigerant, a heat exchanger, a compressor, a condenser and an expansion element. An internal heat exchanger of the cooling circuit is connected to a high-pressure side of the cooling circuit upstream of the expansion element and downstream of the condenser and to a low-pressure side of the cooling circuit upstream of the compressor and downstream of the heat exchanger and is used to cool the refrigerant of the high-pressure side. A zeotropic refrigerant is used and the internal heat exchanger is used to cool the refrigerant of the high-pressure side to lower an evaporation temperature at the expansion element.

The invention provides a system for preventing fluid exchange between the interior and exterior of containment enclosures such as process-, hazard-, and research-enclosure systems generally, gloveboxes, containment systems, isolation systems, confinement systems, cleanrooms, negative air systems, and positive air system areas while simultaneously providing material transfer into and out of the enclosures. The invention also provides a method for transporting material into or out of a containment structure.

The invention provides a system for preventing fluid exchange between the interior and exterior of containment enclosures such as process-, hazard-, and research-enclosure systems generally, gloveboxes, containment systems, isolation systems, confinement systems, cleanrooms, negative air systems, and positive air system areas while simultaneously providing material transfer into and out of the enclosures. The invention also provides a method for transporting material into or out of a containment structure.

Sample contamination is suppressed by strengthening the air barrier of a work opening portion. A safety cabinet includes: a work room; a front surface door covering a part of a front opening portion of the work room; and a work opening portion on a lower side of the front surface door allowing a worker to work with his or her hand in. An intake port suctions air in the work room and outside air through the work opening portion on a front surface side of a workbench in a lower portion of the work room. A straightening plate drawing an air flow and a linear light source are provided on the work room side of the front surface door and above a front portion of the work room.