In various embodiments, the present invention includes a rupture control system comprising an inner hose, an outer hose, and a valve that is actuated by fluid leaking from the inner hose. The inner hose and the outer hose define a containment passageway therebetween, and the valve includes an inlet,
In various embodiments, the present invention includes a rupture control system comprising an inner hose, an outer hose, and a valve that is actuated by fluid leaking from the inner hose. The inner hose and the outer hose define a containment passageway therebetween, and the valve includes an inlet, an outlet, a passageway extending between the inlet and the outlet, a valve member readily movable between a first position and a second position, and a valve control chamber. In these embodiments, a rupture in the inner hose places the inner hose in fluid communication with the containment passageway and the valve control chamber, and fluid flowing into the valve control chamber moves the valve member from its first position into its second position, the valve member at least partially blocking the valve passageway in the second position.
대표청구항▼
What is claimed is: 1. A rupture control system for a conduit system for conducting fluid from a fluid source to a fluid receiver, the rupture control system comprising: a valve in fluid flow relationship with an inner conduit wherein the inner conduit is configured to be pressurizable by the fluid
What is claimed is: 1. A rupture control system for a conduit system for conducting fluid from a fluid source to a fluid receiver, the rupture control system comprising: a valve in fluid flow relationship with an inner conduit wherein the inner conduit is configured to be pressurizable by the fluid from the fluid source; wherein the inner conduit has an outer surface, an inlet in selective fluid communication with the fluid from the fluid source through the valve, and an outlet in fluid communication with the fluid receiver; an outer conduit configured pressurizable by the fluid from the fluid source, the outer conduit having an inner surface, a first end and a second end, the outer conduit sized and configured to receive an annular and longitudinal fluid conducting portion of the inner conduit therein; wherein the inlet of the inner conduit and first end of the outer conduit are attached sealably to the valve; wherein a containment/control passageway pressurizable by the fluid from the fluid source is defined between the outer surface of the inner conduit and the inner surface of the outer conduit, forming a fluid tight seal about the portion of the inner conduit received in the outer conduit; wherein the valve is attached between the fluid source and the inner conduit inlet and has a valve control comprising a biasing mechanism for moving the valve from an initial first position to a second position in response to a pressure in the containment/control passageway greater than a preset level; wherein the valve is configured to allow fluid communication between the fluid source and the inner conduit in the first initial position and to prevent fluid communication between the fluid source and the inner conduit in the second position; wherein the valve control comprises a valve control chamber in fluid communication with the containment/control passageway, a valve member unaffixed to the valve housing and received inside a bore of the valve housing, the bore being configured to allow linear movement of the valve member in a direction transverse to the direction of fluid flow from the fluid source to the inner conduit; wherein the valve member has an elongated portion linearly reciprocating in the bore and attached to a first side of an enlarged head portion, the enlarged head portion having a second side exposed to the valve control chamber and is supported by a valve stop in the first initial position; wherein the inner conduit outlet and the outer conduit second end are attached sealably to a connector, the connector comprising a means for allowing fluid communication between the inner conduit and the fluid receiver, the connector sized and configured to maintain ability of the inner conduit, the outer conduit, and the containment/control passageway to withstand fluid pressure of the fluid from the fluid source; wherein, upon rupture, at least some of the fluid from the fluid source flowing in the inner conduit flows through the rupture into the containment/control passageway and the valve control, whereby pressure of the fluid from the fluid source causes a response by the valve control to move the valve to the second position. 2. The rupture control system of claim 1, wherein the outer conduit is an outer hose. 3. The rupture control system of claim 1, wherein the containment/control passageway is in fluid communication with the inner conduit only upon rupture of the inner conduit. 4. The rupture control system of claim 1, wherein the valve further comprises at least one retaining mechanism for physically locking the valve in the first position and/or the second position. 5. The rupture control system of claim 1, further comprising a control valve placed in the containment/control passageway to prevent the fluid from the fluid source from urging the valve from the first position to the second position or from the second position to the first position. 6. The rupture control system of claim 1, wherein the valve further comprises an indicating and/or a reset mechanism for returning the valve to the first position, wherein movement of the valve to the second position reveals a visual change of the valve position/condition through an aperture in the valve, the aperture allowing for mechanically returning the valve to the first position, wherein the valve stop prevents the valve member during the return of the valve toward the first position, from impinging, covering, and/or blocking at least a portion of at the inner conduit and/or the containment/control passageway. 7. The rupture control system of claim 1, further comprising a device operatively engaged with the valve, the device including at least one of an audio and a visual feedback device, the valve activating the device when the valve is moved into the second position. 8. The rupture control system of claim 1, further comprising a relief valve in fluid communication with the containment/control passageway and with the valve control, whereby air in the containment/control passageway and/or the valve control may escape therefrom via the relief valve. 9. A rupture control system for a conduit system for conducting fluid from a fluid source to a fluid receiver, the rupture control system comprising: a valve in fluid flow relationship with an inner conduit wherein the inner conduit is configured to be pressurizable by the fluid from the fluid source; wherein the inner conduit has an outer surface, an inlet in selective fluid communication with the fluid from the fluid source through the valve, and an outlet in fluid communication with the fluid receiver; an outer conduit configured pressurizable by the fluid from the fluid source, the outer conduit having an inner surface, a first end and a second end, the outer conduit sized and configured to receive an annular and longitudinal fluid conducting portion of the inner conduit therein; wherein the inlet of the inner conduit and first end of the outer conduit are attached sealably to the valve; wherein a containment/control passageway pressurizable by the fluid from the fluid source is defined between the outer surface of the inner conduit and the inner surface of the outer conduit, forming a fluid tight seal about the portion of the inner conduit received in the outer conduit; wherein the valve is attached between the fluid source and the inner conduit inlet and has a valve control comprising a biasing mechanism for moving the valve from an initial first position to a second position in response to a pressure in the containment/control passageway greater than a preset level; wherein the valve is configured to allow fluid communication between the fluid source and the inner conduit in the first initial position through a valve passage and to prevent fluid communication between the fluid source and the inner conduit in the second position; wherein the valve control comprises a valve control chamber in fluid communication with the containment/control passageway, a valve member unaffixed to the valve housing and received inside a bore of the valve housing, the bore being configured to allow linear movement of the valve member in a direction parallel to an axial direction of the valve passage; wherein the valve member is in the form of a piston sleeve, the piston sleeve having an elongated portion linearly reciprocating in the bore and attached to a first side of an enlarged head portion, the enlarged head portion having a second side exposed to the valve control chamber; wherein the piston sleeve comprises an annular recess, the annular recess being configured to allow fluid flow in the valve passage in the first initial position and block the flow of fluid in the valve passage in the second position; wherein the inner conduit outlet and the outer conduit second end are attached sealably to a connector, the connector comprising a means for allowing fluid communication between the inner conduit and the fluid receiver, the connector sized and configured to maintain ability of the inner conduit, the outer conduit, and the containment/control passageway to withstand fluid pressure of the fluid from the fluid source; wherein, upon rupture, at least some of the fluid from the fluid source flowing in the inner conduit flows through the rupture into the containment/control passageway and the valve control, whereby pressure of the fluid from the fluid source causes a response by the valve control to move the valve to the second position. 10. The rupture control system of claim 9, wherein the outer conduit is an outer hose. 11. The rupture control system of claim 9, wherein the containment/control passageway is in fluid communication with the inner conduit only upon rupture of the inner conduit. 12. The rupture control system of claim 9, wherein the valve further comprises at least one retaining mechanism for physically locking the valve in the first position and/or the second position. 13. The rupture control system of claim 9, further comprising a control valve placed in the containment/control passageway to prevent the fluid from the fluid source from urging the valve from the first position to the second position or from the second position to the first position. 14. The rupture control system of claim 9, wherein the valve further comprises an indicating and/or a reset mechanism for returning the valve to the first position, wherein movement of the valve to the second position reveals a visual change of the valve position/condition through an aperture in the valve, the aperture allowing for mechanically returning the valve to the first position. 15. The rupture control system of claim 9, further comprising a device operatively engaged with the valve, the device including at least one of an audio and a visual feedback device, the valve activating the device when the valve is moved into the second position. 16. The rupture control system of claim 9, further comprising a relief valve in fluid communication with the containment/control passageway and with the valve control, whereby air in the containment/control passageway and/or the valve control may escape therefrom via the relief valve.
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이 특허에 인용된 특허 (24)
Armenia, John G.; Calciano, Alfred L., Appliance safety hose.
Stiskin Hal (19400 Cypress Point Dr. Northridge CA 91326) Hogan Joseph M. (30715 Lindsay Canyon Dr. Canyon Country CA 91351) Jones Thomas A. (26847 Chuckwagon Pl. Canyon Country CA 91351), Secondary containment system and method.
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