A metal food can including a metal sidewall is provided. The diameter of the sidewall varies at different axial positions along the sidewall. The can includes a can end coupled to an end of the metal sidewall, and a plurality of circumferential beads formed in the metal sidewall. The shape of each c
A metal food can including a metal sidewall is provided. The diameter of the sidewall varies at different axial positions along the sidewall. The can includes a can end coupled to an end of the metal sidewall, and a plurality of circumferential beads formed in the metal sidewall. The shape of each circumferential bead varies based upon the diameter of the section of the sidewall in which the beads are formed.
대표청구항▼
1. A method of forming a beaded metal food can comprising: providing a cylindrical metal tube having an outer surface, an upper edge defining an upper opening and a lower edge defining a lower opening;forming a plurality of circumferential beads defining a bead panel in the cylindrical metal tube, w
1. A method of forming a beaded metal food can comprising: providing a cylindrical metal tube having an outer surface, an upper edge defining an upper opening and a lower edge defining a lower opening;forming a plurality of circumferential beads defining a bead panel in the cylindrical metal tube, wherein the bead panel comprises a continuous series of radially outwardly extending curved surfaces and radially inwardly extending curved surfaces positioned between each radially outwardly extending curved surface, each radially outwardly extending curved surface and each radially inwardly extending curved surface extending circumferentially around the metal tube, wherein the radially outwardly extending curved surfaces and the radially inwardly extending curved surface are defined in the outer surface of the metal tube;shaping the cylindrical metal tube to form a non-cylindrical metal sidewall, after forming the bead panel, the non-cylindrical sidewall comprising: a center section having a first diameter;an upper sidewall section located above the center section having a second diameter greater than the first diameter, the upper sidewall section extending radially outward relative to the center section to provide the transition from the first diameter to the second diameter; anda lower sidewall section located below the center section having a third diameter greater than the first diameter, the lower sidewall section extending radially outward relative to the center section to provide the transition from the first diameter to the third diameter; andcoupling a can end to at least one of the upper edge and the lower edge of the tube. 2. The method of claim 1 wherein shaping includes shaping at least a portion of the metal tube including one of the curved surfaces of the bead panel. 3. The method of claim 1 wherein shaping includes inserting an expanding mandrel into the cylindrical metal tube and expanding the mandrel against an inner surface of the cylindrical metal tube to form the non-cylindrical metal sidewall, and wherein the center section is located at the axial center point of the non-cylindrical metal sidewall. 4. The method of claim 3 wherein at least one of the curved surfaces of the bead panel is formed in each of the center section, the upper sidewall section and the lower sidewall section. 5. The method of claim 4 wherein the bead panel encompasses at least 10% of the axial length of the sidewall. 6. The method of claim 1 further comprising: providing a rectangular piece of metal having left and right lateral edges;rolling the rectangular piece of metal such that the left and right lateral edges are adjacent to each other; andwelding the left and right lateral edges together to form the cylindrical metal tube, wherein the tube includes an axially extending weld that extends from the upper edge to the lower edge. 7. The method of claim 4 wherein an uppermost radially inward extending curved surface of the bead panel is located in the upper sidewall section, wherein the bead panel extends through the center section to a lowermost radially inward extending curved surface of the bead panel located in the lower sidewall section. 8. The method of claim 4 wherein each of the plurality of the circumferential beads of the bead panel has a bead depth, wherein the depth of at least one circumferential bead of the bead panel located in the upper sidewall section is less than the depth of at least one circumferential bead of the bead panel located in the center section and the depth of at least one circumferential bead of the bead panel located in the lower sidewall section is less than the depth of at least one circumferential bead of the bead panel located in the center section. 9. The method of claim 8 wherein the depth of at least one circumferential bead of the bead panel located in the upper sidewall section is between 10%-30% less than the depth of at least one circumferential bead of the bead panel located in the center section. 10. The method of claim 8 wherein the bead depths of the circumferential beads of the bead panel decrease as the diameter of the sidewall in which the bead is formed increases, wherein the metal tube is formed from steel having a thickness between 0.0065 inches and 0.008 inches. 11. The method of claim 7 wherein each of the plurality of the circumferential beads of the bead panel has a shape, wherein the shape of at least one circumferential bead of the bead panel located in the upper sidewall section is different from the shape of at least one circumferential bead of the bead panel located in the center section and the shape of at least one circumferential bead of the bead panel located in the lower sidewall section is different from the shape of at least one circumferential bead of the bead panel located in the center section. 12. The method of claim 1 further comprising forming a first flared section in the cylindrical metal tube adjacent the upper edge and forming a second flared section in the cylindrical metal tube adjacent the lower edge, wherein both the first flared section and the second flared section are formed before forming of the plurality of circumferential beads. 13. A method of forming a beaded metal food can comprising: providing a metal tube having an upper edge defining an upper opening, a lower edge defining a lower opening and a cylindrical portion located between the upper edge and the lower edge;forming a plurality of circumferential beads in the cylindrical portion of the metal tube, wherein each circumferential bead includes a radially inwardly extending curved surface positioned along an outer surface of the metal tube;shaping the beaded cylindrical portion of metal tube after formation of the plurality of circumferential beads to form a beaded non-cylindrical metal sidewall section, the non-cylindrical sidewall section comprising: a center section having a first diameter;an upper sidewall section located above the center section having a second diameter greater than the first diameter, the upper sidewall section extending radially outward relative to the center section to provide the transition from the first diameter to the second diameter; anda lower sidewall section located below the center section having a third diameter greater than the first diameter, the lower sidewall section extending radially outward relative to the center section to provide the transition from the first diameter to the third diameter, wherein the non-cylindrical metal sidewall section includes the plurality of circumferential beads following shaping to form the non-cylindrical metal sidewall section; andcoupling a can end to at least one of the upper opening and the lower opening of the tube. 14. The method of claim 13 further comprising: providing a rectangular piece of metal having left and right lateral edges;rolling the rectangular piece of metal such that the left and right lateral edges are adjacent to each other; andwelding the left and right lateral edges together to form the metal tube, wherein the tube includes an axially extending weld that extends from the upper edge to the lower edge. 15. The method of claim 14 further comprising forming a first flared section in the metal tube adjacent the upper edge and forming a second flared section in the metal tube adjacent the lower edge, wherein the cylindrical portion is located between the first flared section and the second flared section, wherein both the first flared section and the second flared section are formed before forming of the plurality of circumferential beads. 16. The method of claim 13 wherein the forming of the plurality of circumferential beads is forming a bead panel comprising a continuous series of radially outward extending curved surfaces and radially inward extending curved surfaces positioned between each radially outward extending curved surface, each radially outward extending curved surface and each radially inward extending curved surface extending circumferentially around the cylindrical portion of the metal tube. 17. The method of claim 16 wherein each bead of the bead panel has the same bead depth prior to shaping to form the bead non-cylindrical metal sidewall section. 18. The method claim 17 wherein shaping includes inserting an expanding mandrel into the metal tube and expanding the mandrel against an inner surface of the cylindrical portion of the metal tube to form the beaded non-cylindrical metal sidewall section, wherein the center section is located at the axial center point of the non-cylindrical metal sidewall. 19. The method of claim 18 further comprising: forming a first flange adjacent the upper edge of the metal tube;forming a second flange adjacent the lower edge of the metal tube;wherein the can end is coupled to at least one of the upper opening and the lower opening of the tube by coupling the can end to at least one of the first flange and the second flange. 20. A method of forming a beaded metal food can comprising: providing a metal tube having an outer surface, an upper edge defining an upper opening, a lower edge defining a lower opening and a cylindrical portion located between the upper edge and the lower edge;forming a bead panel in the cylindrical portion of the metal tube, wherein the bead panel comprises a continuous series of radially outward extending curved surfaces and radially inward extending curved surfaces positioned between each radially outward extending curved surface, each radially outward extending curved surface and each radially inward extending curved surface extending circumferentially around the cylindrical portion of the metal tube, wherein the radially outwardly extending curved surfaces and the radially inwardly extending curved surface are defined in the outer surface of the metal tube;shaping the cylindrical portion of the metal tube after formation of the bead panel to form a beaded non-cylindrical metal sidewall section, wherein the non-cylindrical sidewall extends concavely along at least a portion of the length of the non-cylindrical sidewall;forming a first flange adjacent the upper edge of the metal tube;forming a second flange adjacent the lower edge of the metal tube; andcoupling a can end to at least one of the first flange and the second flange.
Gunkel Ronald W. (Lower Burrell PA) Cargnel Robert A. (Export PA) Morran James R. (Apollo PA) Patrick Edward P. (Murrysville PA), Method and apparatus for reforming a container.
Kramer Antonio H. (Rua Zeferey ; 1439 Jundia ; Sao Paulo BRX), Method and device for the manufacture of can bodies by extension, including expansion of the diameter and reduction of t.
Le Bret Lucien F. (Saint-Gratien FRX) Saada Robert (Maisons-Alfort FRX), Process of fabrication of drum bodies having rolling hoops and the drum bodies so produced.
Hartman Mark W. ; Shore Zeev W. ; Tang James J. ; Aschberger Anton A. ; Gogola Michael R. ; Irvine William O. ; Trnka Ralph J. ; Wahler Richard O. ; Winkless Robert A. ; Golding Richard Mark Orlando , Systems and methods for making decorative shaped metal cans.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.