IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0294026
(2006-03-22)
|
등록번호 |
US-8402999
(2013-03-26)
|
국제출원번호 |
PCT/IT2006/000179
(2006-03-22)
|
§371/§102 date |
20090330
(20090330)
|
국제공개번호 |
WO2007/108025
(2007-09-27)
|
발명자
/ 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
Edwards Wildman Palmer LLP
|
인용정보 |
피인용 횟수 :
2 인용 특허 :
10 |
초록
▼
A tap (1) is disclosed for delivering liquids, particularly for delivering high- and medium-density liquids from rigid vessels, comprising: a body (3); stem means (9); and elastic actuating means (11) of the stem 26 means (9); air inlet/outlet means (13, 25, 28) in the body (3) and inside the vessel
A tap (1) is disclosed for delivering liquids, particularly for delivering high- and medium-density liquids from rigid vessels, comprising: a body (3); stem means (9); and elastic actuating means (11) of the stem 26 means (9); air inlet/outlet means (13, 25, 28) in the body (3) and inside the vessel; valve means (7) for passing air; and non-return valve means (26) placed between the air inlet and outlet means (13, 25, 28) and the vessel interior and adapted to be guided and driven by the pressure difference between outside the tap (1) and inside the vessel.
대표청구항
▼
1. A tap for delivering liquid comprising: a body equipped with: a connection part adapted and configured for coupling to a vessel of liquid to be delivered anda liquid delivering passage;stem means adapted to open and close the liquid delivering passage; andelastic actuating means adapted to actuat
1. A tap for delivering liquid comprising: a body equipped with: a connection part adapted and configured for coupling to a vessel of liquid to be delivered anda liquid delivering passage;stem means adapted to open and close the liquid delivering passage; andelastic actuating means adapted to actuate the stem means in their delivery opening and closing positions;wherein the tap further comprises: air inlet means positioned on the body;air outlet means adjacent to the inside of the vessel;a sealing valve adapted to open and close an air passage between the air inlet means and the air outlet means; anda non-return valve placed in the body between the air outlet means and a vessel interior, the non-return valve comprising a plurality of teeth integral to and extending from the body, the plurality of teeth substantially surrounding and adjacent to a cone-shaped sealing geometry, and a ball received within a cage defined by the plurality of teeth, the ball being adapted to be guided and driven by a pressure difference between outside the tap and inside the vessel;wherein the stem means are equipped with an elongated body that terminates at one end with a sealing tooth coupled with the elastic actuating means and at an opposite end with a self-centering frustum-of-cone part, the elongated body being equipped with a sealing seat comprising a tooth, a recess, and a liquid sealing area that cooperates with the sealing valve; andwherein the stem means are further equipped with: wings for centering the stem means in the cylinder of the body;a seat for a sealing O-ring; anda liquid discharge hole with a drain channel that is coaxial with a vertical axis of the cylinder. 2. A tap of claim 1, wherein the body is made in a single piece made of plastic material and further comprises a front cylinder in which the sealing valve slides, the sealing valve being operatively coupled with the stem means, the stem means being operatively coupled with the elastic actuating means. 3. A tap of claim 1, wherein a lower part of the body is internally shaped with a profile, preferably with a slanted wall, the lower part of the body being adapted to be coupled to facilitate a liquid seal with the self-centering frustum-of-cone geometry. 4. A tap of claim 3, wherein an external surface of the lower part of the stem means is smooth and is adapted to seal with a circular protuberance formed on an internal surface of the lower part of the body. 5. A tap of claim 3, wherein the lower part of the body is internally equipped with a small lip adapted to be sealingly coupled with the external smooth surface of the lower part of the stem means. 6. A tap of claim 3, wherein the lower part of the body is internally smooth and is adapted to be sealingly coupled with a concentric protuberance formed on an external surface of the lower part of the stem means. 7. A tap of claim 2, wherein the cylinder for sliding the sealing valve is equipped with a small lip in its upper part, namely in its part adapted to receive by restraint the elastic actuating member, the small lip being adapted to be bent, mechanically or on a die, in order to create a starting point for assembling the sealing valve. 8. A tap of claim 1, wherein the cylinder for sliding the sealing valve is adapted to be operatively connected to the elastic actuating means through stamping. 9. A tap of claim 1, wherein a cross section of the liquid delivering passage is much greater that a cross section of the air inlet and outlet means, the passage being equipped with downward slanted walls adapted to facilitate conveying and delivering of the liquid. 10. A tap of claim 2, wherein the air inlet and outlet means are composed of an air inlet/outlet hole on the front cylinder of the body, an air chamber in the front cylinder of the body, and an air duct adapted to connect the front cylinder to the vessel interior. 11. A tap of claim 10, wherein a distance X between an axis of the hole and an axis of the duct is adapted to delay opening of the air hole with respect to the liquid delivering passage in order to create a liquid prevalence and a vacuum inside the vessel, the vacuum being adapted to actuate the non-return valve. 12. A tap of claim 10, wherein the air inlet/outlet hole is formed through a stamping process with crossed male dies. 13. A tap of claim 1, wherein the teeth have a chamfered end as a starting point adapted to facilitate an insertion of the ball inside the teeth, the teeth being then adapted to allow moving the ball inside between an opening and a closing position. 14. A tap of claim 13, wherein the chamfered end is further equipped with a stop edge adapted to retain the ball after insertion. 15. A tap of claim 1, wherein the teeth are made of elastic material in order to insert the ball therein when manufacturing of the non-return valve is complete. 16. A tap of claim 1, wherein the teeth are made as straight teeth and are adapted to be hot riveted or mechanically bent after having receiving the ball therein. 17. A tap of claim 1, wherein the teeth of the non-return valve are placed in a slanted position with respect to an axis of the connection part, the non-return valve, in its rest position, being adapted to always have the ball in a closing position against the cone-shaped sealing geometry obtained on the body. 18. A tap of claim 1, wherein the body is equipped with a part adapted to come in contact with the liquid vessel and form a perfect seal with the vessel, the part being equipped with at least one reference member. 19. A tap of claim 18, wherein the part is equipped with a threading composed of a thread with a support of two geometries adapted to cooperate with other geometries being present on the vessel. 20. A tap of claim 18, wherein the part is equipped with an internal sealing cylinder equipped with a starting surface, the sealing cylinder also cooperating with at least one triangular concentric projection, the cylinder being adapted to engage a vessel neck. 21. A tap of claim 18, wherein the part is equipped with an internal sealing cylinder equipped with a sealing protuberance, the protuberance being adapted to be geometrically conformed in order to be flexed in contact with a vessel neck and to be automatically adapted to vessels with different sizes. 22. A tap of claim 21, wherein the part is further equipped with a thin small lip, the small lip being adapted to be fitted outside the vessel neck, increasing the seal. 23. A tap of claim 18, wherein the part is equipped with an internal sealing cylinder, the sealing cylinder being equipped with an enlarged diameter in its upper part. 24. A tap of claim 18, wherein the part is equipped with at least one, and preferably three threading sectors, adapted to allow the tap to rotate around a vessel neck and to be operatively engaged with a vessel neck once having reached a desired operating position. 25. A tap of claim 18, wherein the part is equipped with an internal sealing cylinder, at least one tooth-shaped sealing projection and at least one sealing small lip, each one of the members being present in combination with another one or the three members being simultaneously present. 26. A tap of claim 18, wherein the part is equipped with a sealing cylinder with a profile obtained through two cone-shaped profiles, adapted to perform a double, external and internal seal on the neck of the vessel. 27. A tap of claim 1, wherein a seat of the non-return valve has a geometry shaped as a “funnel-” or a “mushroom-”. 28. A tap of claim 27, wherein the non-return valve is further equipped with a lip profile surrounding the cone-shaped sealing profile. 29. A tap of claim 1, wherein the sealing valve is equipped with an upper flexible lip adapted to compensate for nonaxial movements of the stem means. 30. A tap of claim 1, wherein the sealing valve is equipped with a lower flexible lip, adapted to compensate and dampen nonaxial movements, the lower lip operating as self-centering member for the stem means during their sliding. 31. A tap of claim 1, wherein an external area of the sealing valve is equipped with a self-lubricating hollow space and a sealing area adapted to cooperate with the body in its cylindrical part. 32. A tap of claim 1, wherein the sealing valve is equipped with a starting chamfer in an engagement area with the stem means for centering on the stem means, with a sealing projection on the stem means and with a clamping projection adapted to allow clamping between stem means and valve. 33. A tap of claim 1, wherein the sealing valve is equipped with a safety trap adapted to keep collect possible material leaks. 34. A tap of claim 1, wherein the elastic actuating means are equipped with clamping means with the stem means, equipped with at least one clamping projection which is adapted to engage a corresponding recess obtained in an upper part of the stem means, the elastic actuating means being further equipped with sealing means on the body, the sealing means being composed of a geometry adapted to engage a corresponding sealing recess obtained outside the cylinder of the body. 35. A tap for delivering liquid, comprising: a body equipped with: a connection part adapted and configured for coupling to a vessel of liquid to be delivered; anda liquid delivering passage;stem means adapted to open and close the liquid delivering passage; andelastic actuating means adapted to actuate the stem means in their delivery opening and closing positions;wherein the tap further comprises: air inlet means positioned on the body;air outlet means adjacent to the inside of the vessel;a sealing valve adapted to open and close an air passage between the air inlet means and the air outlet means; anda non-return valve placed in the body between the air outlet means and a vessel interior, the non-return valve comprising a plurality of teeth integral to and extending from the body, the plurality of teeth substantially surrounding and adjacent to a cone-shaped sealing geometry, and a ball received within a cage defined by the plurality of teeth, the ball being adapted to be guided and driven by a pressure difference between outside the tap and inside the vessel;wherein the stem means are made in a single piece with the sealing valve, the stem means being equipped with open holes adapted to facilitate fluid communication of the trap with a safety discharge. 36. The tap of claim 1, wherein the liquid is a selected from the group consisting of: high-density liquids and medium-density liquids. 37. The tap of claim 35, wherein the liquid is a selected from the group consisting of: high-density liquids and medium-density liquids.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.