A safety cabinet can include an enclosure defining an interior compartment accessible through an opening. The safety cabinet includes an interior lighting system. The interior lighting system can include at least one of an illuminating light to enable viewing to cabinet contents and an ultraviolet light configured to disinfect the interior compartment of the safety cabinet. To provide electrical power to the interior lighting system, the safety cabinet includes an electrical connection disposed through the enclosure. The electrical connection can include at least one of a bulkhead connector and an intumescent socket.
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 filter assembly with upper and lower filter chambers containing activated carbon and a coalescing filter, respectively. The filter assembly includes a visual indicator for showing when the filter assembly is saturated and requires replacement or maintenance. In a preferred embodiment, the visual indicator is a temperature indicator. In an alternate embodiment, the visual indicator is an air flow indicator. The filter assembly further includes at least one flashback inhibitor to prevent igniting fumes. The filter assembly connected to a storage drum which accepts residue from pressurized containers and removes contaminants from gas fumes which escape from the storage drum.
B01D 53/04 - Separation of gases or vapours; Recovering vapours of volatile solvents from gases; Chemical or biological purification of waste gases, e.g. engine exhaust gases, smoke, fumes, flue gases or aerosols by adsorption, e.g. preparative gas chromatography with stationary adsorbents
A puncturing device for pressurized containers comprises an elongated housing member defining an elongated cavity with openings at first and second ends thereof for receiving an inverted pressurized container at the first end, the housing member including an attachment member for securing the second end of the housing member to a collection receptacle. A non-sparking puncturing member, is mounted within the housing member for piercing a nozzle-end of the pressurized container at its domed top. A counter records each action of the puncture pin. Gases and residual contents are released into the receptacle through the hollow core of the puncture pin. An auxiliary support member is mounted on the housing member for stabilizing relative movement between the housing member and the receptacle. A force-applying apparatus is mounted on the housing member for forcing the pressurized container onto the puncture pin.
B67B 7/48 - Cutting devices, i.e. devices including at least one cutting element having one or more cutting edges for piercing through the wall of a closed container, e.g. can openers punch type, i.e. the cutting element including at least one sharp cutting edge adapted to pierce through the container wall in, ordinarily, a single operating stroke
5.
IMPROVED FILTER FOR A PROPELLANT GAS EVACUATION SYSTEM
A filter assembly with upper and lower filter chambers containing a filter material, preferably activated carbon, and a coalescing filter, respectively. The filter assembly includes a visual indicator for showing when the filter assembly is saturated and requires replacement or maintenance. In a preferred embodiment, the visual indicator is a temperature indicator. In an alternate embodiment, the visual indicator is an air flow indicator. A particularly preferred embodiment, the upper filter chamber includes a removable lid which allows for removal and replacement of the filter material. The filter assembly further includes at least one flashback inhibitor to prevent igniting fumes. The filter assembly connected to a storage drum which accepts residue from pressurized containers and removes contaminants from gas fumes which escape from the storage drum.
B01D 29/56 - Filters with filtering elements stationary during filtration, e.g. pressure or suction filters, not covered by groups ; Filtering elements therefor with multiple filtering elements, characterised by their mutual disposition in series connection
B01D 46/42 - Auxiliary equipment or operation thereof
A modular storage structure can be constructed from a number of modular wall panels and modular roof panels. Multiple modular wall panels can be joined to form a wall system of the storage structure. The wall panels can be serially connected together such that a J-shaped interlock member of one panel is in abutting relationship with a corresponding J-shaped interlock member of another wall panel to define a series of wall stud assemblies adapted to receive fasteners for joining wall layers. The roof panels can be serially connected together in a similar fashion. In embodiments, the storage structure can be constructed such that it meets the predetermined requirements for a fire rating (e.g. a 2-hour or a 4-hour fire rating).
A safety cabinet includes an enclosure having a double-walled construction and a pair of doors 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 sequential door-closing system that sequentially closes the doors of the safety cabinet in a predetermined order.
A safety cabinet is disclosed which includes an enclosure having a double-wall construction and at least one door to selectively seal the enclosure. The safety cabinet includes a latch system for selectively retaining the door(s) in a closed position to cover the enclosure. The safety cabinet can be used to store, for example, flammable liquids, flammable waste, corrosives, pesticides, or combustible waste. The latch system includes fusible links that fuse when exposed to high ambient temperatures and cause the latch system to further engage the enclosure, thereby promoting the interlocking relationship between the door(s) and the enclosure when the safety cabinet is exposed to threshold high ambient temperatures.
A safety can (100) for storing and dispensing liquids includes a receptacle (102, 104, 106) and a valve mechanism (200). The valve mechanism (200) can include a body (202), a fill cover (204) assembly, a pour valve assembly (206), and a trigger assembly (208). The body (202) can be mounted to the receptacle and include a fill port (220) and a separate pour port (224). The fill cover (204) assembly can be pivotally mounted to the body (202) and adapted to selectively cover the fill port (220). An operating lever (219) can be provided to move the fill cover (204) assembly to an open position to allow the safety can (100) to be filled. The pour valve assembly (206) can be movably mounted to the body (202) and be disposed therein. The pour valve assembly (206) selectively covers the pour port (224). The trigger assembly (208) can be operated to pour fluid from the can (100). The pour valve (206) and the pour port (224) can be disposed along a longitudinal pour axis (260) of the valve body (202). The fill port (220) can be disposed in offset relationship (D) to the longitudinal pour axis (260).
A safety can for storing flammable liquids such as gasoline, diesel fuel, and the like. The safety can include an electrically-conductive nozzle having an elongate body comprising electrically-conductive plastic. The nozzle can include corrugations to allow a user to change the nozzle's length and shape. The body can include a mounting flange to facilitate the sealing engagement between the nozzle and the safety can. A bearing plate can be disposed adjacent the mounting flange to facilitate the mounting of the nozzle to the safety. A metallic ferrule can be disposed at a distal discharge end of the pour spout.
A safety cabinet is disclosed which includes an enclosure having a double-walled construction and a pair of doors to selectively seal the enclosure. The safety cabinet includes a lock bar and a pair of retaining arms that permit the lock bar to be set across the front of the safety cabinet, thereby preventing the safety cabinet doors from being opened. The lock bar may be locked in place at both ends to the retaining arms by use of removable locks. When locked in place, the lock bar protects the safety cabinet from accidental or unauthorized opening. The enclosure is mounted on top of a base that contains two forklift pockets designed to accommodate the fork of a forklift. An indicator is disposed on the safety cabinet for, among other things, making the safety cabinet easy to locate and indicating the nature of the contents stored in the safety cabinet, especially in situations where the safety cabinet is located in a room where there is smoke or low light.