Abstract: A stacked rupture disk assembly of the present invention is adapted to be positioned between flanges in a vent pipe or pressure relief port of a pressure vessel. The stacked rupture disk assembly includes a first rupture disk assembly and a second rupture disk assembly mechanically affixed to the first rupture disk assembly. Each rupture disk assembly includes a graphite rupture disk defining an annular support portion surrounding an thinner rupture membrane adjacent and flush with a first end of the annular support portion. The annular support portion and the rupture membrane define a substantially planar outer surface of the rupture disk. The annular support includes a recessed region extending from an opening in a second end of the annular support to the rupture membrane. Optionally, the second rupture disk assembly includes a support member having spaced apart first and second ends and adapted to be inserted into the recessed region such that the first end abuts and supports the rupture membrane.

Abstract: The present invention is concerned with a cleavage type safety valve installed on a metal vessel for affording the explosion-proof function. The safety valve is installed on a small-sized cell vessel which remains hermetically sealed during the normal operation but instantly releases the pressure in the inside of the vessel if, due to abnormalities, such as overcharging, the pressure is increased and reaches a prescribed value to prevent explosion or deformation of the cell vessel. The metal foil type safety valve by the cold pressure welding of the present invention cold welds the metal foil for sealing the air vent hole in the metal vessel. If the internal pressure in the vessel reaches the prescribed value, the metal foil is cleft to form an opening in the vessel to release the internal pressure.

Abstract: The object of the present invention is to provide safety valve elements for condenser use, which rupture precisely at a predetermined pressure especially stably in a low pressure range so as to release inner pressure outside and can be manufactured readily, and to provide a condenser which incorporates the safety valve elements. The safety valve elements for condenser use according to the present invention comprises a metal substrate A which is provided with a perforated opening C and a metal foil B laid over the metal substrate A to close the perforated opening C.

Abstract: A pressure relief device for preventing over pressurization of a propeller hub is disclosed. The pressure relief device is designed to fit within a ball hole opening in the hub arm of the hub. The pressure relief device includes a housing which sealably interfaces with an inner wall of the ball loading hole opening and a diaphragm which sealably interfaces with the housing. The diaphragm is designed to rupture at a design pressure thus venting the hub cavity.

Abstract: A rupture disk which is welded or brazed to a relatively massive or robust ring member integrally attached to the remainder of the body by an isolating member of reduced cross-sectional thickness. The upper part of the tubular body is attached by welding or brazing to the lower half of the body at a flange which extends outwardly from the mounting member. This eliminates the need for compressive forces to effect a seal, and one or two sources of potential leakage and setpoint shift (assembly force) are thereby eliminated.

Abstract: A mixing adaptor enables a material to be transferred from a first delivery means to a second delivery means and enables another material to be transferred from the second syringe to the first delivery means. The adaptor has (i) a hollow main body having a first end, a second end, an interior surface and an exterior surface; and (ii) a septum positioned within the interior surface of the main body. A first channel is defined by a first portion of the interior surface of the main body and by a first side of the septum. The first channel has a primary opening at the first end of the main body and a secondary opening at the second end of the main body. A second channel is defined by a second portion of the interior surface of the main body and by a second side of the septum. The second channel has a primary opening at the second end of the main body and a secondary opening at the first end of the main body.

Abstract: A polymer rupture disk in the form of a cartridge or capsule that can be inserted in a fluid line fixture as a replaceable unit to establish a predetermined rupture pressure or safety pressure for that particular pressurized container.

Abstract: The invention is a device and method for superodorizing an LP-gas tank with a mercaptan odorant for a new LP-gas tank and other situations requiring additional odorant, thus giving the new or older LP-gas tank and its contents the “skunk scent” required for proper leakage detection of the otherwise colorless, odorless LP-gas.

Abstract: An inflator (10) for providing inflation fluid to inflate an inflatable vehicle occupant protection device includes a pressure vessel (12) defining a chamber (30) for inflation fluid. The pressure vessel (12) has a passage (48) for inflation fluid flow from the chamber (30). A burst disk (52) blocks fluid flow through the passage (48). A support (62) has a tubular portion (64) with a first end (67) spaced apart from the burst disk (52) prior to the inflation fluid entering the pressure vessel (12) and a second end (68) opposite the first end. The burst disk (52) deforms into contact with the first end (67) due to the pressure of the inflation fluid when the inflation fluid is disposed in the chamber (30). An actuatable igniter assembly (60) bursts the burst disk (52) to enable fluid to flow from the chamber (30) through the passage (48). The second end (68) of the tubular portion (64) engages the igniter assembly (60).

Abstract: Apparatus for use in passenger inflatable air-bag safety systems for preventing activation of an activator inflator from causing premature activation of any inflator not yet activated by system programming. The apparatus includes structure for isolating the pressure releasing construction from shock waves created when an inflator is activated and takes the form of mechanical barriers that isolate each inflator release structure from exposure to shock waves.

Abstract: A pressure relief device mounts to heat exchange coils having fluid flowing therethrough. A base has an orifice formed therethrough extending through an orifice in the coil to the interior of the coil. A cover attaches to the base with bolts or other attachment means. A diaphragm strip inserts between the cover and the base to close off the orifice in the base. An o-ring or other gasket may also be utilized to seal the structure. When a rupture through the diaphragm occurs due to pressure buildup, the diaphragm strip may be advanced to reclose the orifice.