Abstract: A protective cap assembly for a pressurized valve adapted to detect a leak therethrough. In accordance with various embodiments, the cap assembly includes a body adapted for placement in fluid communication with the valve, and a sensory indicator supported by the cap assembly body to provide human sensory indication of pressurized fluid leaking from the valve in its closed position. In various embodiments, the sensory indicator can be a whistle that makes an audible sound, a light emitting device that emits a visible light, or both. In further embodiments, the cap assembly body can be coupled to the vent conduit via a tether, and ejected responsive to exhausted pressurized fluid when the valve transitions to the open position. The displaced cap assembly body serves as a visual indication that the valve has opened.

Abstract: Apparatus for controlling a pressurized fluid. In accordance with some embodiments, a valve assembly includes a piston moved between closed and open positions. A sealing member is disposed within an annular recess of the piston and characterized as an endless annular ring extending about a central axis of the piston. The sealing member has an elongated circle cross-sectional shape when the sealing member is in an uncompressed state prior to installation in said recess. The cross-sectional shape is defined by parallel top and bottom surfaces having a length L in a direction perpendicular to and intersecting the central axis, and having opposing inner and outer surfaces of a radius R, the inner and outer surfaces respectively facing toward and facing away from the central axis, and wherein the dimensional value of L is at least five times greater than the dimensional value of R.

Abstract: A relief valve assembly to relieve overpressure of a pressurized fluid. In accordance with some embodiments, the assembly comprises a housing with an inlet and an outlet to form a conduit for a pressurized fluid. A normally closed valve member is axially displaceable within the housing to engage a valve seat to prevent a flow of the pressurized fluid along the conduit. A biasing member applies a bias force to the valve member to retain the valve member against the valve seat. A piston within the valve member contactingly engages the pressurized fluid. A mechanically collapsible member resists axial movement of the piston responsive to said contacting engagement of the pressurized fluid. The piston and collapsible member decouple the bias force supplied by the biasing spring member upon the valve member from a force upon the valve member applied by the pressurized fluid, thereby maintaining a bubble-tight seal.

Abstract: A fluid control assembly configured to isolate a pressurized fluid, including an under pressure abatement assembly having a collapsible member and an energy storage member for exerting a collapsing force on the collapsible member while contactingly engaging a pivotal valve member. A conduit path directs pressurized fluid to exert a force in opposition to the collapsing force so that when the fluid pressure falls below a low pressure threshold, the collapsing force will collapse the collapsible member and release the valve member. An over pressure abatement assembly can be included having a second collapsible member and a second valve member, a conduit path directing pressurized fluid to exert a force in a direction to collapse the second collapsible member and release the second valve member when the fluid pressure exceeds an upper pressure threshold.

Abstract: Apparatus for equalizing pressure within a vapor space of a storage vessel. In accordance with various embodiments, a pressure equalization assembly has a base housing member adapted to be mounted to a tank adjacent a tank aperture in fluidic communication with a vapor space of the tank. A canister assembly is adapted for removable engagement with the housing member between a closed position and an open position. The closed position establishes a fluidic seal interface between the housing member and the canister assembly. The open position provides user access to the vapor space through the tank aperture. The canister assembly further has a compound seal assembly with first and second pistons biased against corresponding first and second annular seal members while the canister assembly is in both the closed position and the open position. A third annular seal member is disposed between the canister assembly and the base housing member.

Abstract: A protective cap assembly for a pressurized valve adapted to detect a leak therethrough. In accordance with various embodiments, the cap assembly includes a body adapted for placement in fluid communication with the valve, and a sensory indicator supported by the cap assembly body to provide human sensory indication of pressurized fluid leaking from the valve in its closed position. In various embodiments, the sensory indicator can be a whistle that makes an audible sound, a light emitting device that emits a visible light, or both. In further embodiments, the cap assembly body can be coupled to the vent conduit via a tether, and ejected responsive to exhausted pressurized fluid when the valve transitions to the open position. The displaced cap assembly body serves as a visual indication that the valve has opened.

Abstract: A vapor pressure equalization assembly having an underpressure relief assembly and an overpressure relief assembly in fluidic communication with the vapor space of a liquid storage tank (vessel). The underpressure and overpressure relief assemblies each have movable pistons sealingly engageable with respective sealing members, and biasing members which exert respective biasing forces to maintain the pistons in sealing engagement with the sealing members. A predetermined underpressure or overpressure differential between the vapor space pressure and atmospheric pressure will cause one of the pistons to open fluidic communication of the vapor space to equalize the vapor space pressure with that of the surrounding atmospheric pressure.

Abstract: Apparatus and method for providing a sealing member with enhanced hoop strength. In some embodiments, a valve assembly includes a piston and first means for establishing a fluid-tight seal when the piston is in a closed position and for preventing a blow out condition when the piston is transitioned to an open position. In other embodiments, a sealing member is characterized as an endless annular ring which extends about a central axis, the sealing member comprising an elongated circle cross-sectional shape while the sealing member is maintained in an uncompressed state. In other embodiments, a method comprises extruding a sealing material through an extrusion assembly to form an endless annular ring which extends about a central axis, the extrusion assembly imparting a desired amount of curvilinearity along a longitudinal length of the material to form an orthogonal seam when a leading and trailing edge of the material are adjoined.

Abstract: An overpressure rotary valve assembly for detecting and abating an overpressure condition. A valve member is configured for movement between a closed position and an open position. A locking pin contactingly retains the valve member in a selected one of the open and closed positions. A piston is coupled to the locking pin, and a collapsible member is coupled to the piston. When a fluidic pressure upon the piston reaches a predetermined threshold, the piston mechanically collapses the collapsible member and pulls the pin from the valve member, thereby freeing the valve member to move to the remaining one of the open and closed positions. The locking pin is preferably decoupled from the piston so that the pin remains in place during initial stages of piston movement. Differential pressure across the valve member does not alter the setpoint since only upstream inlet fluid is applied to the piston.

Abstract: A valve activation assembly which mechanically collapses a collapsible member, such as a buckling pin, in response to both overpressure and underpressure conditions of a pressurized fluid. A retention member retains the valve member in a selected position with respect to the fluid, such as an open or closed position. A piston assembly is configured to mechanically collapse the collapsible member both when a fluidic pressure upon the piston assembly exceeds a first level, and when a fluidic pressure upon the piston assembly falls below a second level. Upon collapse of the collapsible member, the valve member releases the valve member, allowing the valve member to move to a different selected position (such as closed or open, respectively). A third piston member and a biasing member thereon can also be utilized. In some embodiments, a fluid is preferably held in compression between selected piston members.

Abstract: A valve activation assembly which mechanically collapses a collapsible member, such as a buckling pin, in response to both overpressure and underpressure conditions of a pressurized fluid. A retention member retains the valve member in a selected position with respect to the fluid, such as an open or closed position. A piston assembly is configured to mechanically collapse the collapsible member both when a fluidic pressure upon the piston assembly exceeds a first level, and when a fluidic pressure upon the piston assembly falls below a second level. Upon collapse of the collapsible member, the valve member releases the valve member, allowing the valve member to move to a different selected position (such as closed or open, respectively). A third piston member and a biasing member thereon can also be utilized. In some embodiments, a fluid is preferably held in compression between selected piston members.

Abstract: An apparatus such as a multiple orifice valve (MOV) for controlling a flow of pressurized fluid. A housing directs the flow from an inlet to an outlet and supports an interior stationary surface. A moveable surface selectively impedes the flow and is disposed in facing relation to the stationary surface to form a leakage path therebetween. A sealing member is disposed in a medial portion of the leakage path so that a leakage portion of the flow passing along said path compresses the sealing member against a shoulder portion of one of the surfaces to urge the sealing member across the path and form a mass seal. Preferably, the leakage path comprises a first portion in a first direction and a second portion in a different, second longitudinal direction, and the sealing member is compressed against the shoulder portion adjacent a junction between said first and second portions.

Abstract: A spring assembly and an apparatus incorporating the same. The spring assembly includes a base block configured to be rigidly fixed to a frame. A pair of nominally identical spring rods is cantilevered from the base block in a first direction. Each rod has a length, a proximal end rigidly fixed to the base and a free distal end. The distal ends are configured to engage a linkage member to resist movement of the linkage member by axial deflection of said rods away from the first direction. The spring rods are each preferably characterized as substantially cylindrical in shape and formed from steel or other suitable spring material. A fulcrum preferably provides support to an intermediary portion of the spring assembly to adjust the spring force range. The spring assembly is preferably utilized in a liquid level indicator to indicate a height of a column of liquid in a vessel.

Abstract: Method and apparatus for filtering contaminants from a pressurized fluid. First and second filter elements are arranged within a housing to receive a flow of pressurized fluid. Respective first and second portions of the flow are directed through the filter elements and impinge opposing sides of a piston member which is biased in a first position by a collapsible pressure responsive member, such as a buckling pin. So long as the differential pressure across the first filter element is below a selected threshold, the first portion of the flow passes through an outlet of the housing and the second portion of the flow is blocked. Once sufficient contaminants have been captured by the first filter element, however, the resulting increase in differential pressure causes a collapse of the pressure responsive member. This moves the piston to a second position and directs the second portion of the flow to the outlet.

Abstract: A pressure relief system is provided to detect and abate an overpressure condition in a pressurized fluid disposed in a conduit. The system includes a valve assembly and an actuator configured to actuate the valve assembly to establish an overpressure path for the pressurized fluid. The system further includes a piston assembly coupled to the conduit, a pressure responsive member (preferably a collapsible buckling pin) configured to mechanically fail when an axially directed compressive force exceeds a threshold level, and a multi-port, two-position valve disposed between the piston assembly and the pressure responsive member. The multi-port, two-position valve includes a spool that moves from a first position to a second position upon failure of the pressure responsive member, thereby directing control fluid through the spool to the actuator assembly.

Abstract: A pressure relief system for detecting and abating an overpressure in a pressurized fluid. The system includes a pressure response assembly that has a pressure responsive member, such as a buckling pin, configured to buckle when a predetermined force is applied to the member. When the buckling pin buckles, a piston slides to expose an inlet to a communication path to an actuator assembly. The actuator assembly includes a pair of sliders that move from a retracted position to an extended position when pressurized fluid enters an actuator assembly housing. The sliders have a rack that turns a pinion when the sliders move from the retracted position to the extended position. The pinion is rigidly attached to a rotatable actuator shaft. Rotation of the actuator shaft causes a valve assembly to open or close to direct the pressurized fluid through an overpressure path.

Abstract: Apparatus for detecting and abating an overpressure condition and an underpressure condition in a pressurized fluid. A collapsible buckling pin is supported between a valve assembly and a control assembly. The control assembly comprises a retractable support member moveable between an extended position and a retracted position. A biasing member applies a retraction force to urge the support member to the retracted position. A compressive force is applied to the pin by the valve assembly in relation to a pressure of the fluid, and this force nominally retains the support member in the extended position. When the pressure of the fluid exceeds an upper operational limit, the pin is mechanically deformed; conversely, when the pressure falls below a lower operational limit, the pin advances past the support member. In both cases the mechanical displacement of the pin allows the valve assembly to establish a secondary path for the fluid.

Abstract: A dual seat valve which selectively supplies and releases fluid to and from a reservoir, such as a dome of a main valve in a pressure relief system. The valve comprises a housing with an interior chamber and an annular first seat surface. A valve assembly is configured for sliding movement within the housing, the valve assembly comprising a hollow stem with a distal end having an annular second seat surface. A sealing member such as a spherical ball is disposed within the interior chamber. In a first valve position, the second seat surface extends through and above the first seat surface, supporting the sealing member and permitting fluidic flow through the first seat surface. In a second valve position, the second seat surface retracts and the sealing member is supported on the first seat surface, permitting fluidic flow through the second seat surface.

Abstract: Method and apparatus for configuring a pressure relief valve to have a desired internal orifice size. A population of nominally identical inserts are provided having different internal orifice diameters. A resilient seal ring is placed upon a selected insert and both are inserted into a cup-shaped seat body to form a valve seat assembly. The valve seat assembly is secured within a housing of the pressure relief valve in facing relationship to a moveable piston assembly which is biased against the seal in a normally closed position. When a new internal orifice size is desired, the insert is removed and replaced with a new insert having the new desired orifice size. No changes are necessary in the remaining components. The resilient seal preferably comprises a stiffener ring of rigid material surrounded by an annular ring of resilient material.