A non-spilling, detachable pouring spout is configured to transfer liquid from a non-vented filling container to a receiving container. The spout has a spout body defining a first hollow passageway extending from an open first end to an open second end, wherein this open passageway having a general
A non-spilling, detachable pouring spout is configured to transfer liquid from a non-vented filling container to a receiving container. The spout has a spout body defining a first hollow passageway extending from an open first end to an open second end, wherein this open passageway having a generally tubular hollow inner conduit positioned within the first hollow passageway and defining a second hollow passageway. An intermediate sleeve is received in the spout and seals against portions of the spout body and the inner conduit so as to variously control the flow of materials out of the spout body, preferably the flow of liquid out of the spout and air into the spout as a venting system. The movement of said sleeve may be controlled by movement of an external sheath and may include child-resistant features. The preferred spout may achieve smooth air venting and liquid flow, and minimizes transverse/sideways flow and openings that tend to cause splash and leaks. The preferred spout does not use any O-ring members, which are prone to failure when used with gasoline, but instead uses a slidable sleeve with inner and outer seal surfaces provided by a flared or bell-shaped seal member.
대표청구항▼
I claim: 1. A self-venting spout comprising: an elongated spout housing comprising: an open first end for connection to a container for liquid, an open second end for dispensing liquid, and an interior spout surface surrounding and defining an interior passageway extending between said open first e
I claim: 1. A self-venting spout comprising: an elongated spout housing comprising: an open first end for connection to a container for liquid, an open second end for dispensing liquid, and an interior spout surface surrounding and defining an interior passageway extending between said open first end and open second end, a distal portion of the interior passageway having a longitudinal axis and a radial dimension; a sealing ridge in said interior passageway near said interior spout surface, and a stopper generally centered in said interior passageway and radially distanced from said interior spout surface and from said sealing ridge; and a slidable sleeve in said interior passageway that is slidable parallel to said longitudinal axis, said slidable sleeve comprising a generally tubular portion having an outer surface with a first annular seal and an inner surface defining a sleeve passageway and having a second annular seal; wherein, when said slidable sleeve is in a spout-closed position, said first annular seal contacts and seals against said sealing ridge of the spout housing, and said second annular seal contacts and seals against said stopper; wherein, said spout comprises partition walls dividing said interior passageway into an air-flow passageway portion and a liquid-flow passageway portion, and wherein, when the slidable sleeve is in the spout-closed position, said sealing of the first annular sleeve and the sealing ridge blocks said liquid-flow passageway portion and said sealing of the second annular seal and the stopper blocks said air-flow passageway portion; and wherein, when said slidable sleeve is slid longitudinally to a spout-open position, said first annular seal is distanced from the sealing ridge to open said liquid-flow passageway portion and said second annular seal is distanced from the stopper to open said air-flow passageway portion; and wherein the spout further comprises a spring configured to bias the slidable sleeve into the spout-closed position, and an actuation system including an external member located on, and slidable on, an outside surface of the spout, wherein the external member is operatively connected to the slidable sleeve by a connecting member, so that sliding of said external member moves said slidable sleeve inside the spout between said spout-closed and spout-open positions. 2. A spout as in claim 1, wherein said external member is an outer sheath that is slidable on said spout housing; and wherein said outer sheath is operatively connected to the slidable sleeve by a connecting member that extends from near said outer sheath and through said spout housing and that engages said slidable sleeve; and said outer sheath being configured to engage said connecting member so that sliding said outer sheath longitudinally on the spout housing pulls the connecting member longitudinally to move the slidable sleeve from said spout-closed position to said spout-open position. 3. A spout as in claim 2, wherein said connecting member is a clip that extends from near said outer sheath and through said spout housing and that engages said slidable sleeve; said outer sheath being configured to engage said clip so that sliding said outer sheath longitudinally on the spout housing pulls the clip longitudinally to move the slidable sleeve from said spout-closed position to said spout-open position. 4. A spout as in claim 3, wherein said outer sheath is rotatable on the spout housing, and wherein said outer sheath is configured to be slidable along the spout housing only when the outer sheath is in one or more selected rotational positions. 5. A spout as in claim 3, wherein said spout housing comprises a body and a nozzle unit generally coaxially connected, wherein said nozzle unit comprises said sealing ridge and said stopper, and wherein said slidable sleeve has at least one longitudinal projection extending toward said second end, wherein said nozzle unit is generally hollow and receives said longitudinal projection, said nozzle unit having at least one alignment protrusion extending radially inward toward said longitudinal projection and engaging said projection; and wherein said clip connects to said at least one longitudinal projection for moving the slidable sleeve. 6. A spout as in claim 3, wherein said clip extends through said spout housing at only one aperture so that sideways splash out of the spout housing is minimized. 7. A spout as in claim 3, wherein said clip has a single arm extending through an aperture in said spout housing and engaging said slidable sleeve; and wherein said single arm of the clip has a generally flat extension that covers said aperture so that sideways splash out of the spout housing is minimized. 8. A spout as in claim 3, further comprising a swivelable elongated lock on said spout housing, wherein, when the lock is swiveled to be longitudinal on the spout housing, an end of the lock abuts against the outer sheath to prevent the outer sheath from sliding on the housing. 9. A spout as in claim 3, wherein there is a gap between said clip and said outer sheath when said slidable sleeve is in the spout-closed position, for providing leeway in the engagement of the outer sheath with the clip for minimizing leaking of the spout. 10. A spout as in claim 2, wherein there is a gap between said connecting member and said outer sheath when said slidable sleeve is in the spout-closed position, for providing leeway in the engagement of the outer sheath with the connecting member for minimizing leaking of the spout. 11. A spout as in claim 2, wherein, when the slidable sleeve is in the spout-closed position, there is a gap in said actuation system between at least two of three members of said actuation system, said three members consisting of said outer sheath, said connecting member, and said slidable sleeve, for providing leeway in the engagement of said three members for minimizing leaking of the spout. 12. A spout as in claim 1, wherein said spout housing comprises a body and a nozzle unit generally coaxially connected, wherein said nozzle unit comprises said sealing ridge and said stopper. 13. A spout as in claim 12, wherein said slidable sleeve has at least one longitudinal projection extending toward said second end, and wherein said nozzle unit is generally hollow and receives said longitudinal projection, said nozzle unit having at least one alignment protrusion extending radially inward toward, and engaging, said longitudinal projection. 14. A spout as in claim 1, wherein the liquid-flow passageway portion comprises a proximal portion near said first end of the spout housing and a distal portion near said second end of the spout housing, wherein said distal portion is smaller in volume than said proximal portion for creating a venturi effect as the liquid flows through said liquid-flow passageway portion toward the second end. 15. A spout as in claim 1, wherein said spout housing has a proximal portion near said first end of the spout housing and a distal portion near said second end of the spout housing, and said proximal portion and distal portion are at an angle to each other. 16. A spout as in claim 1, wherein said air-flow passageway portion is defined near said spout housing first end by a generally tubular extension out from the spout housing that is configured to extend into the liquid container farther than the first end of the spout housing so that the pressure in the generally tubular extension is less than the pressure in the liquid-flow passageway portion at the first end of the spout housing. 17. A spout as in claim 1, wherein said first annular seal is a portion of a bell-shaped outer surface of said sleeve. 18. A spout as in claim 1, wherein said spring is received in said interior passageway. 19. A self-venting spout comprising: an elongated spout housing having an interior volume comprising an interior liquid-flow passageway and an interior air-flow passageway both extending between a first end of the spout housing and a second end of the spout housing, said air-flow passageway being generally centered on a longitudinal axis of the spout housing and said liquid-flow passageway radially offset from said air-flow passageway; a stopper disposed in the air-flow passageway; and a sleeve slidably disposed in said interior volume and having an exterior surface defining a portion of said liquid-flow passageway and an interior surface defining a portion of said air-flow passageway, said sleeve further having a protruding first annular seal on said exterior surface and a protruding second annular seal on said interior surface; wherein, when said sleeve is slid longitudinally to a spout-closed position, said first annular seal contacts and seals with a sealing ridge on said spout housing to seal closed the liquid-flow passageway to stop liquid from flowing from said first end to said second end of the spout housing, and said second annular seal contacts and seals to said stopper to seal closed the air-flow passageway to stop air from flowing from said second end to said first end of the spout housing; and wherein, when said sleeve is slid longitudinally to an spout-open position, said first annular seal is distanced from said sealing ridge to allow liquid to flow through the liquid-flow passageway past said first annular seal to said second end, and said second annular seal is distanced from the stopper to allow air to flow through the air-flow passageway past said second annular seal to the first end; and wherein the spout further comprises a spring configured to bias the sleeve into the spout-closed position, and an actuation system including an external member located on, and slidable on, an outside surface of the spout, wherein the external member is operatively connected to the sleeve by a connecting member, so that sliding of said external member moves said sleeve inside the spout between said spout-closed and spout-open positions. 20. A spout as in claim 19, wherein said external member is an outer sheath that is slidable on said spout housing; and wherein said outer sheath is operatively connected to the sleeve by a connecting member that extends from near said outer sheath and through said spout housing and that engages said sleeve; and said outer sheath being configured to move the connecting member longitudinally on the spout housing to slide the sleeve from said spout-closed position to said spout-open position. 21. A spout as in claim 20, wherein said connecting member is a clip member that extends from near said outer sheath and through said spout housing and that engages said sleeve; said outer sheath being configured to move the clip member longitudinally on the spout housing to slide the sleeve from said spout-closed position to said spout-open position. 22. A spout as in claim 21, wherein the spout housing comprises a body and a nozzle unit generally coaxially connected, wherein said nozzle unit comprises said sealing ridge and said stopper, and wherein said sleeve has at least one longitudinal projection extending toward said second end, wherein said nozzle unit is generally hollow and receives said longitudinal projection, said nozzle unit having at least one alignment protrusion extending radially inward toward said longitudinal projection and engaging said projection; and wherein said clip member connects to said at least one longitudinal projection for moving the sleeve. 23. A spout as in claim 21, wherein there is a gap between said clip and said outer sheath when said sleeve is in the spout-closed position, for providing leeway in the engagement of the outer sheath with the clip for minimizing leaking. 24. A spout as in claim 20, wherein there is a gap between said connecting member and said outer sheath when said sleeve is in the spout-closed position, for providing leeway in the engagement of the outer sheath with the connecting member for minimizing leaking. 25. A spout as in claim 20, wherein, when the sleeve is in the spout-closed position, there is a gap in said actuation system between at least two of three members of said actuation system, said three members consisting of said outer sheath, said connecting member, and said sleeve, for providing leeway in the engagement of said three members for minimizing leaking of the spout. 26. A spout as in claim 19, wherein said outer sheath further is rotatable on the spout housing, and wherein said outer sheath is configured to be slidable along the spout housing only when the outer sheath is in one or more selected rotational positions. 27. A spout as in claim 19, comprising a body and a nozzle unit generally coaxially connected, wherein said nozzle unit comprises said sealing ridge and said stopper. 28. A spout as in claim 27, wherein said sleeve has at least one longitudinal projection extending toward said second end, and wherein said nozzle unit is generally hollow and receives said longitudinal projection, said nozzle unit having at least one alignment protrusion extending radially inward toward, and engaging, said longitudinal projection. 29. A spout as in claim 19, wherein the liquid-flow passageway portion comprises a proximal portion near said first end of the spout housing and a distal portion near said second end of the spout housing, wherein said distal portion is smaller in volume than said proximal portion creating a venturi effect as the liquid flows through said liquid-flow passageway portion toward the second end. 30. A spout as in claim 19, wherein said air-flow passageway is defined near said spout housing first end by a generally tubular extension out from the spout housing that is configured to extend into the liquid container farther than the first end of the spout housing so that the pressure in the generally tubular extension is less than the pressure in the liquid-flow passageway at the first end of the spout housing. 31. A spout as in claim 19, wherein said first annular seal is a portion of a bell-shaped outer surface of said sleeve. 32. A spout as in claim 19, wherein said spring is received in said interior passageway.
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이 특허에 인용된 특허 (29)
Gracyalny Gary J. (Milwaukee WI) Thiermann John H. (Greenfield WI), Closable pour spout for fluid dispensing container.
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