Complementary couplers useful in providing a coupling through which liquids may be transferred from a first storage reservoir or tank to a second storage reservoir or tank, which can be an on-board fuel tank of a motorized vehicle. There is a first coupling which is configured to be in fluid communi
Complementary couplers useful in providing a coupling through which liquids may be transferred from a first storage reservoir or tank to a second storage reservoir or tank, which can be an on-board fuel tank of a motorized vehicle. There is a first coupling which is configured to be in fluid communication with the interior of a receiving vessel, fuel tank, etc. and a second coupling which is intended to be in fluid communication with the contents of a storage reservoir containing a chemical, liquid fuel, etc. The disclosure also includes a process for charging a fuel reservoir on board of a motorized vehicle from a remote reservoir, wherein the vapor in the fuel reservoir is displaced by an equal volume of fuel delivered from said remote reservoir, and wherein the vapor in said fuel reservoir is simultaneously caused to be transferred to said remote reservoir, thus permitting no escape of the vapor from said fuel reservoir to the surrounding atmosphere. Through use of the present disclosure, more rapid liquid transfer through individual couplers occurs with reduced losses of liquid chemicals, fuel, etc. versus prior art couplers.
대표청구항▼
1. A coupler useful for transferring a liquid from a first reservoir to a second reservoir, comprising: a) a base having a central bore and a shrouding enclosure disposed about said central bore, said shrouding enclosure comprising an interior volume and having a vapor outlet tube attached thereto;b
1. A coupler useful for transferring a liquid from a first reservoir to a second reservoir, comprising: a) a base having a central bore and a shrouding enclosure disposed about said central bore, said shrouding enclosure comprising an interior volume and having a vapor outlet tube attached thereto;b) a cover having an inner wall, attached to said base;c) a quasi-cylindrical sleeve having an interior wall surface, an exterior wall surface, a hollow interior, an open bottom, and an open top, said open top having a seat, wherein said quasi-cylindrical sleeve is slidably disposed within said cover,d) a poppet within said cover centrally located with respect to said seat, said poppet having a periphery and being configured and disposed to provide a selectively-engageable seal with said seat, said seal between said open top and said periphery being maintained by at least one of said sleeve and said poppet being effectively biased by a spring towards a normally-closed position with respect to the other, said sleeve being configured and disposed sufficiently to enable, upon application of force to at least one of said sleeve and said poppet against said spring, the first opening of a first passage suitable for flow of vapor therethrough, and the subsequent opening of a second passage that is separate and distinct from said first passage suitable for flow of a liquid therethrough, said first passage being bounded by said exterior wall surface, said second passage being through said interior of said sleeve, and wherein said exterior wall surface is in fluid communication with said interior volume of said enclosure, said central bore including a transition between a first diameter present in said central bore and a dimension of said interior wall surface of said sleeve, said transition comprising a tapered segment disposed adjacent to said interior wall surface at said open bottom of said sleeve. 2. A coupler according to claim 1 wherein said tapered segment is linear as viewed from a side cross-sectional view. 3. A coupler according to claim 1 wherein said tapered segment is curved as viewed from a side cross-sectional view. 4. A coupler according to claim 1 wherein said inner wall of said cover comprises a tapered bore. 5. A coupler according to claim 1, wherein said poppet is stationary. 6. A coupler according to claim 1, wherein said poppet is spring-biased and slidably disposed within said cover. 7. A coupler according to claim 6 wherein said poppet is affixed to a shaft, said shaft being slidably disposed within a guide present within said coupler, said guide being shrouded in part by a cone having a diameter that substantially matches a diameter present on said poppet. 8. A coupler according to claim 1 wherein at least a portion of said second passage is concentrically disposed about said first passage. 9. A coupler according to claim 1 wherein said sleeve collectively comprises an inner sleeve and an outer sleeve, said outer sleeve having a hollow interior space within which is slidably disposed said inner sleeve. 10. A coupler useful for transferring a liquid from a first reservoir to a second reservoir, comprising: a) a base having a central bore and a shrouding enclosure disposed about said central bore, said shrouding enclosure comprising an interior volume and having an outlet tube attached thereto;b) a cover having an inner wall, attached to said base said inner wall of said cover comprising a tapered bore;c) a first quasi-cylindrical sleeve slidably disposed within said cover, said first quasi-cylindrical sleeve having a top surface, an interior wall surface, an exterior wall surface, a hollow interior, an open bottom, and an open top, said open top having a first seat and a second seat;d) a second quasi-cylindrical sleeve slidably disposed within said cover, said second quasi-cylindrical sleeve having a top surface, an interior wall surface, an exterior wall surface, a hollow interior, an open bottom, and an open top, said open top having a third seat, said first quasi-cylindrical sleeve being slidably disposed within the hollow interior of said second quasi-cylindrical sleeve, and wherein said second seat at the top of said first quasi-cylindrical sleeve is disposed to sealingly-engage said third seat;d) a poppet within said cover centrally located with respect to said first seat, said poppet having a top surface and a periphery, said poppet being configured and disposed to provide a selectively-engageable seal with said first seat, said seal between said first seat and said periphery being maintained by said first sleeve being mechanically biased towards a normally-closed position with respect to the first quasi-cylindrical sleeve by means of a first spring,said seal between said second seat and said third seat being maintained by said second quasi-cylindrical sleeve being mechanically biased towards a normally-closed position with respect to said first quasi-cylindrical sleeve by means of a second spring,said first and second sleeves being configured and disposed sufficiently to enable, upon application of force to said first and second sleeves against the force of said first and second springs, the first opening of a first passage suitable for flow of vapor therethrough, and the subsequent opening of a second passage that is separate and distinct from said first passage suitable for flow of a liquid therethrough, said first passage being bounded by said exterior wall surface of said first quasi-cylindrical sleeve and the interior wall surface of said second quasi-cylindrical sleeve, said second passage being through said interior of said first quasi-cylindrical sleeve. 11. A coupler according to claim 10 wherein said central bore includes a transition between a first diameter present in said central bore and a dimension of said interior wall surface of said second quasi-cylindrical sleeve, said transition comprising a tapered segment. 12. A coupler according to claim 10, wherein said poppet is stationary. 13. A coupler according to claim 10 including space adjacent to said exterior wall surface of said first quasi-cylindrical sleeve, wherein said space is in fluid communication with said interior volume of said enclosure. 14. A coupler according to claim 10 wherein said base further includes a central hub, and wherein said first quasi-cylindrical sleeve is slidably disposed about said hub within said cover. 15. A coupler according to claim 10 wherein said exterior wall surface of said second quasi-cylindrical sleeve is slidably disposed within said cover by the exterior wall of said second quasi-cylindrical sleeve being guided by said inner wall of said cover. 16. A coupler according to claim 10 wherein said top surfaces of said first quasi-cylindrical sleeve, said second quasi-cylindrical sleeve, and said poppet each have a portion which are co-planar with one another. 17. A coupler according to claim 10 wherein at least a portion of said first passage is concentrically disposed about said second passage. 18. A coupler according to claim 17 wherein said sleeves are spring-biased towards a closed position with respect to said periphery of said poppet and to one another. 19. A coupler useful for facilitating transfer of a liquid from a first vessel to a second vessel with countercurrent transfer of vapor from the second vessel to the first vessel, comprising: a quasi-cylindrical sleeve slidably disposed within a cover, a spring for biasing said sleeve, said sleeve being hollow and having an interior and an exterior wall surface, said exterior wall being configured sufficiently to cause, upon application of force against the pressure of said spring, the opening of a first passage through which liquid is able to pass, and the opening of a second passage that is separate and distinct from said first passage through which vapor is able to pass within said coupler, the first passage being disposed through the interior of said sleeve and the second passage being disposed exterior to the wall of said sleeve, said exterior wall surface comprising a portion of the boundary of said second passage, and wherein said second passage opens prior to said first passage.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (30)
Kerpan Stephen J. (La Habra CA) Tilling Basil (Mission Viejo CA) McKee Gary F. (Newport Beach CA), Aircraft fueling nozzle.
Bartel Gnter (Stuttgart DEX) Fiedler Horst (Stuttgart DEX) Stotz Manfred (Aichwald DEX) Kleinschmit Einhard (Esslingen DEX), Closure member for the fuel tank of an automotive vehicle.
Brzyski Glenn M. (Depew NY) Gordon Martin E. (Clarence NY) Griffin Patrick K. (Cowlesville NY) Holzinger John J. (Can Gabriel CA), Cryogenic fluid coupling.
Jean-Pierre Nitecki FR; Jacques Fournier FR, Method of checking that a system for recovering vapour emitted in a fuel dispensing installation is operating correctly and installation enabling said method to be implemented.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.