Commonly owned U.S. Pat. Nos. 6,015,062; 7,069,763; 7,370,507 and published application US2006-0011633 and disclose containers/cans and caps therefor, tooling for making the can bodies and caps, and the method or processes of making cans that employ a reclosable cap. The disclosure of each of these U.S. patents and published applications is incorporated herein by reference. Heretofore, this technology has been used to manufacture new can bodies and oftentimes includes the manufacture of a separate dome that is connected or seamed to the open end of a main can body. The dome in an exemplary arrangement typically has a conical tapering conformation that narrows to an opening that receives a removable cap. To retain the cap in closed relation with the opening, external thread portions are provided adjacent one end of the dome about an outer periphery of the opening. These thread portions are selectively engaged by thread lugs that extend from an inner peripheral portion of a cap rim to draw a cap into sealed, reclosable engagement with the periphery of the opening. In other instances, the thread lugs are formed on an outer peripheral portion adjacent the open end of a can body which may not be tapered. The thread portions are still adapted to receive the corresponding thread lugs of a reclosable cap.
In the food and beverage can industry, for example, open ended can bodies having a bottom wall that is integrally formed with the side wall. A blank of material is punched from a cold-rolled sheet and initially formed into a cup that has an end with integral sidewall. The cup is subsequently formed or ironed with dies and forming machinery to shape the metal and form a can body into an open-top can. An open or upper, second end is subsequently closed with a separately formed lid or end panel. The end is connected along a peripheral portion to the open-ended sidewall of the can body via a crimp or seam. Typically, the ends are seamed to the open end of the can body and the consumer accesses the contents of the can by (i) removing the end with a can opener, (ii) removing or tearing away the end via a pull tab, or (iii) an easy-open, retained scored region or panel portion in the end that is opened with a retained tab.
There are times, however, where the entire contents of the food or beverage container, for example, may not be used. The consumer must then empty the entire contents from the can since there is no effective way to close and seal the can for future use once the can has been opened. Likewise, these cans are made time and again at the same volume and do not easily lend themselves to converting to new sizes of containers without a significant capital investment in equipment.
Therefore, a need exists for providing a reclosable can, particularly in the metal food container industry. There is also a desire to accomplish this goal without adding additional metal to the container, while advantageously providing additional volume.
A method of forming a reclosable can from an open ended container is provided.
A preferred method includes providing a container having a closed first end spaced from an open second end with an integral sidewall extending between the first and second ends. Drawing the first end enlarges the can body to a second height/volume greater than an original, first height/volume and forming neck thread portions on the sidewall prepares the can to be reclosable.
The drawing step includes reducing a diameter of the sidewall to a reduced diameter relative to a remainder of the sidewall during the drawing step.
The process further includes redrawing the sidewall subsequent to the drawing step to further increase the height or enlarge the enclosed volume, and preferably by further reducing the reduced diameter to a second reduced diameter portion separated from the first reduced portion by a step.
Subsequently, the first end is removed from the drawn body whereby the sidewall is open at both the first and second ends.
Next, the open first end is curled to provide an outwardly curled lip around the new opening.
The method includes forming thread portions on a peripheral portion of the sidewall adjacent the first end.
The method includes seaming a new end on the second end of the container.
A container with an increased height and preferably enlarged volume is provided, and advantageously includes a reclosable arrangement.
A primary advantage of the present disclosure is the ability to convert an existing open ended container into a reclosable can body with integral thread portions.
Another benefit resides in the ability to increase the height/volume of the can body.
Yet another advantage is associated with an enlarged volume without requiring additional metal while providing a reclosable end.
Still other advantages and benefits of the present disclosure will become more apparent upon reading and understanding the following detailed description.
Shown in
By comparing
In
The integral first end 202 is removed in a third or pierce station shown in
Thus, in
Shown in
Formation of the thread portions is also advantageously completed from the first end of the can. In other words, the thread forming tooling is fixed relative to the outward curl 244 and preferably enters the can body through the opening formed by the piercing operation. As a result, the height of the thread portions on the can body are precisely located and fixed relative to the outward curl so that cooperation with thread lugs provided on the cap (to be described below) is closely controlled and thereby provides a repeatable, quality seal between the cap and can body that holds pressure or negative pressure.
Also represented in
A cap 270, shown in
Extending radially inward from a lower curled edge 278 of the cap sidewall are lugs 280 that are spaced about the periphery thereof. The circumferentially spaced lugs 280 cooperate with the thread portions 250 of the can body to secure the cap, and particularly the end wall and an inner surface of the cap. The cap may include a seal member or seal coating in selective sealing engagement with the curled edge 244 of the can. The sealed position of the cap on the can body is best illustrated in
The ability to convert an existing can as described above allows a can manufacturer to use existing can making equipment and add the above described stations in-line. The resultant converted can does not have any sharp edges, can be filled in-line, adds significant volume to the can, and provides a reclosable can that adds the minimal cost of a cap to achieve significantly improved functionality.
The disclosure has been described with reference to the preferred embodiments. Modifications and alterations will occur to others upon reading and understanding this specification. It is intended to include all such modifications and alterations in so far as they come within the scope of the appended claims or the equivalents thereof.
This application is a national filing of international application number PCT/US2010/045034, filed 10 Aug. 2010, which claims the priority benefit of U.S. provisional application Ser. No. 61/232,698, filed 10 Aug. 2009.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/US2010/045034 | 8/10/2010 | WO | 00 | 6/25/2012 |
Publishing Document | Publishing Date | Country | Kind |
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WO2011/019728 | 2/17/2011 | WO | A |
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Entry |
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PCT/US2010/045034 International Search Report. |
EP 10 80 8635, Supplementary European Search Report, mailed Jul. 6, 2015. |
Number | Date | Country | |
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20120255927 A1 | Oct 2012 | US |
Number | Date | Country | |
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61232698 | Aug 2009 | US |