A storage cabinet for ignitable (flammable) liquids is provided. The cabinet comprises a flame arrestor assembly having a bung, a perforated disk, a sleeve, and a ceramic filter. The storage cabinet has an inner or an outer wall, and the flame arrestor assembly sets between the inner wall and the outer wall of the cabinet. A method of using a flame arrestor assembly in a storage cabinet for ignitable (flammable) liquids is also provided.

The purpose of the present invention is to provide a clean air device that can reduce the risk of contamination due to static electricity. Provided is a biosafety cabinet or a clean air device that connects a biosafety cabinet and a clean booth, wherein a static eliminator (ionizer) that generates a corona discharge by way of concentrating an electric field on a needle-shaped discharge electrode and eliminates static with ionized air is disposed directly above an air flow branching point where air supplied to a work space branches to the front face and to rear face inside the biosafety cabinet.

A microbiology waste containment apparatus and method are provided to prevent toxic slide staining chemicals from being dumped down a drain during slide staining and thus entering publicly owned water treatment works. A primary containment vessel is provided having side walls and an open top area, and a funnel is provided in communication with the open top area. A secondary containment vessel is in fluid communication with the funnel. When microbiology waste is generated above the open top area, the microbiology waste is collected by the funnel and conducted to the secondary containment vessel. The secondary vessel may be disposed internally to the primary vessel, or it may be external to the primary vessel. In the case of the internal secondary vessel, the entire apparatus may be portable and thus appropriate for field or military work.

A safety cabinet includes an enclosure and at least one door to selectively seal the enclosure. The safety cabinet can be used to store, for example, flammable liquids, flammable waste, corrosives, pesticides, or combustible waste. The safety cabinet incorporates a thermally-actuated damper that includes a body, a valve plate, and a pivot assembly. The valve plate is disposed within the passage of the body such that the valve plate is movable between an open position and a closed position. The pivot assembly includes a biasing system adapted to bias the valve plate to the closed position and a fusible link interconnected between the body and the biasing system to constrain the valve plate from moving from the open position to the closed position. The fusible link is configured to melt at a predetermined temperature to thereby allow the biasing system to move the valve plate to the closed position.

A waste disposal system for the disposal of consumables through a waste chute into a waste container includes a waste chute having a first opening and a second opening, wherein the first opening is situated outside the waste container and the second opening opens toward the waste container. The first opening and the second opening are arranged at a first distance from one another, wherein the waste chute includes a plurality of self-resetting lamellae for the partial or complete closure of the openings. The lamellae form at least two lamella annuli arranged at a second distance above one another, wherein at least one first lamella annulus closes the first opening and at least one second lamella annulus closes the second opening, and the second distance between the lamella annuli is at least one third, preferably at least half and particularly preferably at least three quarters of the first distance.

A secondary solid waste container for solid waste of an analyzer is disclosed. The secondary solid waste container comprises side walls and an impact absorbing member. The side walls comprise an upper end and a lower end. The impact absorbing member is connected to the side walls such that the impact absorbing member extends between the side walls and is spaced apart from the lower end with respect to a direction from the lower end to the upper end. The impact absorbing member is configured to absorb an impact from solid waste of the analyzer. An analyzer and a method for removing solid waste of an analyzer are also disclosed.

Automated systems and methods for the quantitative collection and extraction of a fecal sample, the system including: a primary loading module configured to receive a plurality of primary stool specimen containers, and a secondary loading module configured to receive a plurality of secondary extraction tubes, each with a collection wand; a robotic arm for loading stool on the wand and inserting the stool-loaded wand into the extraction tube; a quality control module configured to assess and confirm whether loading of the collection wand meets a preset acceptable tolerance and if so, assisting with positioning of the robotic arm for accurate insertion of the stool loaded wand into the selected extraction tube; an exhaust module; and executable software loaded into the system and in communication with a database that pairs the primary stool specimen container with a corresponding secondary extraction tube(s).

A safety cabinet includes an enclosure and at least one door to selectively seal the enclosure. The safety cabinet can be used to store, for example, flammable liquids, flammable waste, corrosives, pesticides, or combustible waste. The safety cabinet incorporates a thermally-actuated damper that includes a body, a valve plate, and a pivot assembly. The valve plate is disposed within the passage of the body such that the valve plate is movable between an open position and a closed position. The pivot assembly includes a biasing system adapted to bias the valve plate to the closed position and a fusible link interconnected between the body and the biasing system to constrain the valve plate from moving from the open position to the closed position. The fusible link is configured to melt at a predetermined temperature to thereby allow the biasing system to move the valve plate to the closed position.

A solid waste bag unit for solid waste of an analyzer is disclosed. The solid waste bag unit comprises a bag, and an insert, wherein the insert is arranged within the bag. Further, an analyzer and a method for removing solid waste of an analyzer are disclosed.

There is provided a safety cabinet in which a good operability is attained and it is possible to secure a sterility assurance level. There is provided a safety cabinet including an operation chamber, a front door that covers part of an opening of a front surface of the operation chamber, an operation opening below the front door, into which an operator can insert an hand and perform an operation, and a front slit, which takes in air inside the operation chamber and air in a room through the operation opening, on a front surface side of a lower portion of the operation chamber, the cabinet including sterilization gas generating means; and sealing means for sealing the operation opening during a sterilization operation.