Claims
- 1. A can comprising:
(a) a metal can body having an open upper end; (b) a substantially rigid metal can lid secured at its periphery to and closing said can body end, said lid having an upper surface; (c) an annular flange formed in a portion of said lid and projecting upwardly from said lid upper surface, said flange having an upwardly sloping outer surface and an annular inner edge lying substantially in a plane and defining an aperture with an average diameter between about 0.625 inch and about 1 inch; and (d) a flexible closure member of a material comprising a metal foil, extending entirely over said aperture and peelably bonded by a heat seal to said flange outer surface entirely around said aperture.
- 2. A can as defined in claim 1, wherein said can has a geometric axis, said lid upper surface is substantially flat, said aperture is circular and said flange is disposed in a portion of said lid eccentric to said geometric axis.
- 3. A can as defined in claim 1, wherein said closure member and heat seal have a tear/shear force resistance of at least about lb./in., and wherein said average diameter of said aperture and the upward slope of said flange are mutually selected such that when the closure member is subjected to differential pressure of a given value between about 50 and about 100 p.s.i. within the can, the tear/shear force exerted on the closure member and heat seal does not exceed said tear/shear force resistance.
- 4. A can as defined in claim 3, wherein said tear/shear force resistance is between about 25 and about 75 lb./in.
- 5. A can as defined in claim 47, wherein said closure member material is deformable, and wherein said average diameter of said aperture, said angle of slope of said flange, and the deformability of said material are mutually selected such that said closure member, when subjected to differential pressures up to at least about 90 p.s.i. in the can, bulges upwardly with an arc of curvature such that a line tangent to said arc at said inner edge of said flange lies at an angle to said plane not substantially greater than said angle of slope of the flange outer surface.
- 6. A can as defined in claim 47, wherein said closure member material is deformable, and wherein said average diameter of said aperture, said angle of slope of said flange, and the deformability of said material are mutually selected such that said closure member, when subjected to differential pressures up to at least about 100 p.s.i. in the can, bulges upwardly with an arc of curvature such that a line tangent to said arc at said inner edge of said flange lies at an angle to said plane not substantially greater than said angle of slope of the flange outer surface.
- 7. A can as defined in claim 1, wherein said closure member and heat seal have a tear/shear force resistance of at least about 75 lb./in., and wherein said average diameter of said aperture and the upward slope of said flange are mutually selected such that when the closure member is subjected to differential pressure of not more than about 90 p.s.i. within the can, the tear/shear force exerted on the closure member and heat seal does not exceed said tear/shear force resistance.
- 8. A can as defined in claim 1, wherein said closure member and heat seal have a tear/shear force resistance of at least about 75 lb./in., and wherein said average diameter of said aperture and the upward slope of said flange are mutually selected such that when the closure member is subjected to differential pressure of not more than about 100 p.s.i. within the can, the tear/shear force exerted on the closure member and heat seal does not exceed said tear/shear force resistance.
- 9. A can as defined in claim 47, wherein said closure member and heat seal have a tear/shear force resistance of at least about 75 lb./in., and wherein said average diameter of said aperture and said angle of slope of said flange are mutually selected such that when the closure member is subjected to differential pressure of not more than about 90 p.s.i. within the can, the tear/shear force exerted on the closure member and heat seal does not exceed said tear/shear force resistance.
- 10. A can as defined in claim 6, wherein said closure member and heat seal have a tear/shear force resistance of at least about 75 lb./in., and wherein said average diameter of said aperture and said angle of slope of said flange are mutually selected such that when the closure member is subjected to differential pressure of not more than about 100 p.s.i. within the can, the tear/shear force exerted on the closure member and heat seal does not exceed said tear/shear force resistance.
- 11. A can as defined in claim 1, wherein said heat seal has a 90° peel strength between about 8 N and about 20 N.
- 12. A can as defined in claim 1, wherein said annular inner edge is formed with a reverse bead curl.
- 13. A can as defined in claim 12, wherein said reverse bead curl is substantially tangent to the upwardly sloping outer surface of the flange.
- 14. A can as defined in claim 1, wherein said metal foil is aluminum alloy foil.
- 15. A can as defined in claim 14, wherein said aluminum alloy foil has a thickness between about 0.003 inch and about 0.004 inch.
- 16. A can as defined in claim 1, wherein said heat seal is formed as an annulus surrounding said aperture and having a width between about 0.079 inch and about 0.118 inch.
- 17. A can as defined in claim 1, wherein said closure has a tab portion with a manually graspable free end and an extension overlying said lid in opposed relation to said tab portion, said heat seal including an annulus surrounding said aperture and a further seal portion bonding said extension to said lid such that the peel force required to separate the extension from the lid is greater than that required to separate the closure member from the lid at the annulus, whereby the aperture can be opened by peeling back the closure member while the closure member remains secured to the lid by said further seal portion.
- 18. A can as defined in claim 17, including a body of fragrance-providing material disposed between the closure member and the lid and surrounded by the heat seal such that when the closure member is subjected to a peel force effective to open the aperture, the body of fragrance-providing material becomes exposed.
- 19. A can as defined in claim 1, including a body of fragrance-providing material disposed between the closure member and the lid and surrounded by the heat seal such that when the closure member is subjected to a peel force effective to open the aperture, the body of fragrance-providing material becomes exposed.
- 20. A can as defined in claim 1, wherein said body is a drawn and ironed metal can body for holding a carbonated beverage; wherein the lid is formed with a peripheral rim engaging the open upper end of the can body and projecting upwardly above the upper surface of the lid; wherein the body is formed with an outwardly concave lower end, the rim and body lower end being mutually shaped and dimensioned to permit stable vertical stacking of the can with other identically shaped and dimensioned cans; wherein the flexible closure member is domed so as to rise to a height above the annular flange; and wherein the height of the rim, the concavity of the body lower end, and the height to which the closure rises above the annular flange are such that there is sufficient clearance between the lid upper surface of the can and the concave bottom of another identical can stacked above it to accommodate the domed closure.
- 21. A can lid member mountable on a metal can body having an open upper end so as to be secured at its periphery to and to close said can body end, said lid comprising a substantially rigid unitary metal member having an upper surface with an annular flange formed in a portion of said lid and projecting upwardly from said lid upper surface, said flange having an upwardly sloping outer surface and an annular inner edge lying substantially in a plane and defining an aperture with an average diameter between about 0.625 inch and about 1 inch, said flange being arranged and configured to be closed by a flexible closure member extending entirely over said aperture and peelably bonded to said flange outer surface around said aperture.
- 22. A can lid mountable on a metal can body having an open upper end so as to be secured at its periphery to and to close said can body end, said lid comprising a substantially rigid unitary metal can lid member having an upper surface with an annular flange formed in a portion of said lid and projecting upwardly from said lid upper surface, said flange having an upwardly sloping outer surface and an annular inner edge lying substantially in a plane and defining an aperture with an average diameter between about 0.625 inch and about 1 inch; and a flexible metal foil closure member extending entirely over said aperture and peelably bonded by a heat seal to said flange outer surface entirely around said aperture.
- 23. A carbonated, or otherwise pressurized, beverage package comprising:
(a) a can including a metal can body having an open upper end and a substantially rigid metal can lid secured at its periphery to and closing said can body end, said lid having an upper surface; (b) a body of a carbonated, or otherwise pressurized, beverage contained within said can; (c) an annular flange formed in said lid and projecting upwardly from said lid upper surface, said flange having an upwardly sloping outer surface and an annular inner edge lying substantially in a plane and defining an aperture with an average diameter between about 0.625 inch and about 1 inch; and (d) a flexible metal foil closure member extending entirely over said aperture and peelably bonded by a heat seal to said flange outer surface entirely around said aperture.
- 24. A method of producing a can containing a carbonated, or otherwise pressurized, beverage, comprising:
(a) filling a drawn and ironed metal can body, having an open upper end, with a carbonated, or otherwise pressurized, beverage, and (b) closing said open upper end of said can body by securing a substantially rigid metal can lid at its periphery to said can body end, said lid having an upper surface and an annular flange formed in said lid and projecting upwardly from said lid upper surface, said flange having an upwardly sloping outer surface and an annular inner edge lying substantially in a plane and defining an aperture with an average diameter between about 0.625 inch and about 1 inch, and a flexible metal foil closure member extending entirely over said aperture and peelably bonded by a heat seal to said flange outer surface entirely around said aperture.
- 25. A can for holding liquid, comprising:
(a) a metal can body having an open upper end; (b) a substantially rigid metal can lid peripherally secured to and closing said can body end, said lid having an upper surface and defining an aperture therein for pouring or drinking liquid from the can; and (d) a flexible closure member extending entirely over said aperture and peelably bonded by a heat seal to said lid entirely around said aperture; wherein the improvement comprises: (e) said closure including a tab portion with a manually graspable free end and an extension overlying said lid in opposed relation to said tab portion, said heat seal including an annulus surrounding said aperture and a further seal portion bonding said extension to said lid such that the peel force required to separate the extension from the lid is greater than that required to separate the closure member from the lid at the annulus, whereby the aperture can be opened by peeling back the closure member while the closure member remains secured to the lid by said further seal portion.
- 26. A can for holding liquid, comprising:
(a) a metal can body having an open upper end; (b) a substantially rigid metal can lid peripherally secured to and closing said can body end, said lid having an upper surface and defining an aperture therein for pouring or drinking liquid from the can; and (d) a flexible closure member extending entirely over said aperture and peelably bonded by a heat seal to said lid entirely around said aperture; wherein the improvement comprises: (e) a body of fragrance-providing material disposed between the closure member and the lid and surrounded by the heat seal such that when the closure member is subjected to a peel force effective to open the aperture, the body of fragrance-providing material becomes exposed.
- 27. A can as defined in claim 1, wherein the can lid is formed of the same alloy as the can body.
- 28. A can as defined in claim 27, wherein said alloy is AA3104 alloy or AA 3004 alloy.
- 29. A can as defined in claim 1, wherein the can lid is formed of AA3104 alloy or AA 3004 alloy.
- 30. A can as defined in claim 1, wherein the can lid is formed of steel.
- 31. A can as defined in claim 1, wherein the can lid has a diameter of less than two inches.
- 32. A can as defined in claim 31, wherein the can lid has a gauge of less than 0.0082 inch.
- 33. A can as defined in claim 31, wherein the can lid is substantially free of countersinking.
- 34. A can comprising:
(a) a metal can body having an open upper end, a lower portion with a maximum diameter and an upper portion formed as a neck of reduced diameter relative to said maximum diameter; (b) a substantially rigid metal can lid secured at its periphery to and closing said can body end, said lid having an upper surface; (c) an annular flange formed in a portion of said lid and projecting upwardly from said lid upper surface, said flange having an upwardly sloping outer surface and an annular inner edge lying substantially in a plane and defining an aperture; and (d) a flexible closure member of a material comprising a metal foil, extending entirely over said aperture and peelably bonded by a heat seal to said flange outer surface entirely around said aperture.
- 35. A can as defined in claim 34, wherein said body is a drawn and ironed metal can body having an initially cylindrical sidewall with an upper portion, and wherein said neck is produced by forming said sidewall upper portion.
- 36. A can as defined in claim 34, wherein said body is a drawn and ironed metal can body having a generally cylindrical sidewall, an initially closed end portion integral therewith, and an open second end; wherein said neck is produced by forming said end portion; wherein said open second end is closed by seaming a can end thereto; and wherein said open upper end is produced by forming an endwise opening in said neck.
- 37. A can as defined in claim 1, wherein the annular flange is frustoconical.
- 38. A can as defined in claim 1, wherein the can lid is substantially free of countersinking.
- 39. A can as defined in claim 38, wherein the can lid is formed with stiffening features.
- 40. A can as defined in claim 39, wherein said stiffening featured are selected from the group consisting of raised ribs, depressed ribs, raised panel areas, depressed panel areas and coined areas.
- 41. A can as defined in claim 1, wherein the can lid has a diameter of about 2.25 inches and a countersink not more than about 0.03 inch deep.
- 42. A can as defined in claim 41, wherein the can lid is formed with stiffening features selected from the group consisting of raised ribs, depressed ribs, raised panel areas, depressed panel areas and coined areas.
- 43. A can as defined in claim 38, wherein the can lid has a diameter of about 2.25 inches.
- 44. A can lid as defined in claim 22, wherein the can lid member is substantially free of countersinking.
- 45. A beverage package as defined in claim 23, wherein the can lid is substantially free of countersinking.
- 46. A can as defined in claim 45, wherein the can lid is formed with stiffening features selected from the group consisting of raised ribs, depressed ribs, raised panel areas, depressed panel areas and coined areas.
- 47. A can as defined in claim 1, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 40° to said plane.
- 48. A can lid member as defined in claim 21, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 40° to said plane.
- 49. A can lid as defined in claim 22, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 40° to said plane.
- 50. A beverage package as defined in claim 23, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 40° to said plane.
- 51. A method as defined in claim 24, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 40° to said plane.
- 52. A can as defined in claim 1, wherein said flange outer surface is oriented at an angle of slope between about 20° and about 35° to said plane.
- 53. A can lid member as defined in claim 21, wherein said flange outer surface is oriented at an angle of slope between about 20° and about 35° to said plane.
- 54. A can lid as defined in claim 22, wherein said flange outer surface is oriented at an angle of slope between about 20° and about 35° to said plane.
- 55. A beverage package as defined in claim 23, wherein said flange outer surface is oriented at an angle of slope between about 20° and about 35° to said plane.
- 56. A method as defined in claim 24, wherein said flange outer surface is oriented at an angle of slope between about 20° and about 35° to said plane.
- 57. A can as defined in claim 1, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 30° to said plane.
- 58. A can lid member as defined in claim 21, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 30° to said plane.
- 59. A can lid as defined in claim 22, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 30° to said plane.
- 60. A beverage package as defined in claim 23, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 30° to said plane.
- 61. A method as defined in claim 24, wherein said flange outer surface is oriented at an angle of slope between about 12.5° and about 30° to said plane.
CROSS REFERENCE TO RELATED APPLICATIONS
[0001] This application is a continuation-in-part of copending U.S. patent application Ser. No. 09/905,310, filed Jul. 13, 2001, which is a continuation-in-part of U.S. patent application Ser. No. 09/603,004, filed Jun. 26, 2000 (now abandoned), which is a continuation-in-part of U.S. patent application Ser. No. 09/247,999, filed Feb. 10, 1999 (now abandoned), the entire disclosures of all of the aforesaid applications being incorporated herein by this reference.
Continuation in Parts (3)
|
Number |
Date |
Country |
Parent |
09905310 |
Jul 2001 |
US |
Child |
10150683 |
May 2002 |
US |
Parent |
09603004 |
Jun 2000 |
US |
Child |
09905310 |
Jul 2001 |
US |
Parent |
09247999 |
Feb 1999 |
US |
Child |
09603004 |
Jun 2000 |
US |