IPC분류정보
국가/구분 |
United States(US) Patent
등록
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국제특허분류(IPC7판) |
|
출원번호 |
US-0545556
(1983-10-26)
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발명자
/ 주소 |
- Smith, Eugene F.
- Nguyen, Tuan A.
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출원인 / 주소 |
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대리인 / 주소 |
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인용정보 |
피인용 횟수 :
34 인용 특허 :
4 |
초록
▼
Metal beverage closures of increased strength may be produced by a reform process which requires the initial production of a non-standard shell having a reduced countersink radius and reduced panel height. The shell is reformed, preferably in the conversion process, to industry standard dimensions,
Metal beverage closures of increased strength may be produced by a reform process which requires the initial production of a non-standard shell having a reduced countersink radius and reduced panel height. The shell is reformed, preferably in the conversion process, to industry standard dimensions, with the reduced countersink radius being maintained. To provide adequate material in the curl portion of the closure for seaming, the initial shell is provided with a reduced chuckwall diameter which is then reformed to industry standard dimensions.
대표청구항
▼
1. A method of producing a sheet metal closure of increased strength, said sheet metal closure having a predetermined countersink depth and a predetermined panel height, comprising: initially forming a shell having an increased countersink depth relative to said predetermined countersink depth, a
1. A method of producing a sheet metal closure of increased strength, said sheet metal closure having a predetermined countersink depth and a predetermined panel height, comprising: initially forming a shell having an increased countersink depth relative to said predetermined countersink depth, a reduced panel height relative to said predetermined panel height, and a predetermined countersink radius; and reforming said shell to decrease said countersink depth to said predetermined countersink depth and increase said panel height to said predetermined panel height while maintaining said predetermined countersink radius. 2. The method of claim 1 wherein said predetermined countersink radius is about 0.02 inches. 3. A method of producing a sheet metal closure of increased strength, said sheet metal closure having a predetermined countersink depth, a predetermined countersink diameter and a predetermined panel height, comprising: initially forming a shell having a substantially planar center panel, a countersink portion around said center panel bounded on the inside by an integral inner panel wall and on the outside by an integral chuckwall, a first curved portion having a first radius integrally joining said inner panel wall to said center panel, a second curved portion having a second radius at the bottom of said countersink, and a peripheral flange extending radially outward from said chuckwall, wherein said second radius is about 0.02 inches and the panel height is about 85% of said predetermined panel height; and reforming said shell by increasing said panel height to said predetermined panel height while maintaining said second radius at about 0.02 inches. 4. The method of claim 3 wherein said initially formed shell includes a reduced countersink diameter and a countersink depth of about 106% of said predetermined countersink depth; and said reforming step includes decreasing said countersink depth and increasing said countersink diameter whereby sufficient material will be provided in the peripheral curl for seaming the closure to a metal beverage container. 5. The method of claim 4 wherein said initially formed shell includes an inner panel wall which is straight and said reforming step includes orienting said inner panel wall in a substantially perpendicular direction while maintaining said inner panel wall in a straight condition. 6. A method of producing a sheet metal closure of increased strength, said sheet metal closure having a predetermined countersink depth and predetermined panel height, comprising: initially forming a shell having a countersink depth of about 106% of that of the predetermined countersink depth of said closure, a predetermined countersink radius, and a panel height of about 85% of the predetermined panel height; and reforming said shell to decrease said countersink depth to said predetermined countersink depth, to increase said panel height to said predetermined panel height, while maintaining said predetermined countersink radius. 7. The method of claim 6 wherein said predetermined countersink depth is about 0.250 inches and said predetermined panel height is about 0.068 inches. 8. The method of claim 7 wherein said predetermined countersink radius is about 0.02 inches. 9. A method of producing a sheet metal closure of increased strength, said sheet metal closure having a predetermined countersink depth, a predetermined countersink diameter, and a predetermined panel height, comprising: initially forming a shell having an increased countersink depth relative to said predetermined countersink depth, a reduced countersink diameter relative to said predetermined countersink diameter, a reduced panel height relative to said predetermined panel height, and a countersink radius of about 0.02 inches; and reforming said shell to decrease said countersink depth to said predetermined countersink depth, to increase said countersink diameter to said predetermined countersink diameter, to increase said panel height to said predetermined panel height, while maintaining said countersink radius at about 0.02 inches. 10. The method of claim 9 wherein said increased countersink depth is about 106% of said predetermined countersink depth, said reduced countersink diameter is about 98% of said predetermined countersink diameter, and said reduced panel height is about 85% of said predetermined panel height. 11. A method of producing a 206 sheet metal closure of increased strength, comprising: initially forming a shell having an increased countersink depth, a reduced countersink radius and a reduced panel height relative to industry standards for 206 closures; and reforming said shell to decrease said countersink depth and increase said panel height to industry standards while maintaining said reduced countersink radius. 12. The method of claim 11 wherein said reduced countersink radius is about 0.02 inches.
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