This invention relates generally to the field of beverage containers, and more particularly to an article of manufacture for an easy-open, self-closing vented, user lip actuated, conical gate opening in a carbonated beverage can-end which automatically sequences to gas-tight self-resealing mode upon carbonated content agitation.
Where the words “upwardly,” “downwardly,” “inwardly,” “outwardly,” “under,” “underside,” “and like words of orientation are used in this application, unless specifically indicated to the contrary, they are to be applied with reference to a can or other container standing on its base in an upright position having a can-end incorporating this invention attached to the top end thereof.
When cans became popular for containing beverages openers were needed; subsequently opening tabs were provided in the can-ends and the removable ring-pull tab became very popular. The ring-pull tab evolved into the non-removable stay-tab and hinged non-removable push-down gates to solve the problems of ring-pull tab litter and exposed sharp can opening edges. Exemplary of hinged push-down gates is the triple-fold gate disclosed in U.S. Pat. No. 3,334,795 and U.S. Pat. No. 4,215,792. The basic purpose of these two patents was to provide a one-piece easy-open hinged can top without the need for opening attachments like tabs, levers, and cams. Other types of gated can-ends are also available and the general basic construction of any gated can-end is to provide a gate which is slightly larger than and underlies an opening or aperture in the can-end. The gate, hinged to the can-end at an edge portion of the opening, remains attached to the end when pushed downward into the can to open it.
Prior technology can-ends do not address the problems with spilling, contamination, and gas charge preservation in an economically manufacturable and/or practicable design. Either too much energy and time is needed to form the material, too much material is required to manufacture the can-end, or the can-end design interferes with efficient recyclables, standard packaging, vending machine dimensions, and stackability; or requires the user to hand-operate a device to reseal and reopen the can opening between each sip, if immanently in danger of being contaminated by insects, sand, rain, soap, or other contaminants. The current flip-top is also difficult to open without breaking long fingernails and difficult for young children to open.
The present invention provides a push-down, easy-open, self-closing, vented, user-lip operated conical gate, self-resealing gas-tight by carbonated content agitation, beverage can-end comprising, a top wall with an integral 360-degree downwardly and inwardly formed dual-fold seam (referred to as “triple-fold” in other patents) which defines the periphery of said conical gate opening, whereabout a 360-degree weakened line underneath thereon defines the circumferential portion of said conical gate, which, when said conical gate is pushed downwardly into the interior of the can, curls upwardly to form a rough severed circumferential edge of said conical gate, whose flange gets bent to a predisposed angle, that when returned to the smooth surface of said dual-fold seam forms a 360-degree gas vent between the mating areas of said rough circumferential edge of said conical gate and smooth surface of said dual-fold seam, with said conical gate attached to said can-end by a separate elastomeric component through a plurality of known fastening means, which together maintain alignment, and return said conical gate to said dual-fold seam into a self-closed, vented position within the opening of said dual-fold seam, and while in said self-closed vented position, the conical gate can be sequenced to a self-resealable gas-tight function by carbonated content agitation, which creates excessive gas flow that exceeds the gas flow limit of said self-closed venting, which causes increased internal pressure that forces the conical gate upwards against said dual-fold seam, causing said gate to circumferentially rotate upwardly and thus compress the inside circumference of the dual-fold seam against the shape-mated outside circumferential area of the conical gate creating a gas-tight seal.
Included herein is an example drawing of a thumb operated non-concentric lever-cam designed not to interfere with stacking, packaging, vending, or recycling. The advantage of the lever-cam over the pull-up stay-tab as used with this invention is that a 180-degree rotation of the lever-cam will fully open the aperture and hold it open which is suitable for conventional drinking or pouring. Rotating 180-degrees back to the original unopened position will allow the conical drink dome to automatically return to a gas venting anti-spill liquid sealed human lip operated gate configuration.
The artistic arrow symbol upwardly embossed into the top of the can end not only clues the first time consumer on which way to rotate the tab but the raised inside edge of the arrow provides one side of a detent that helps prevent the lever from being accidentally rotated and provides along the length of the arrow a ramp for the end of the lever-cam to leverage, against which should reduce the amount of material needed to manufacture the lever. The said lever-cam as used with a ramp is prior art U.S. Pat. No. 5,248,053 issued in 1993.
a is a cross-sectional left side close-up view of the triple-fold seal with separated score line and resultant curled up flange of the conical drink dome.
b is a cross-sectional left side close-up view of the triple-fold seal with curved up separated score line reseated to create the limited gas vent.
c is a cross-sectional left side close-up view of the triple-fold seal responding to abnormal internal pressure and half way though transitioning to gas tight mode.
d is a cross-sectional left side close-up view of the triple-fold seal fully transitioned into gas tight mode.
a is a cross-sectional left side view showing the spring and seal after the score line is severed, curled up, and reseated to form a gas vent.
b is a cross-sectional left side view showing the spring and conical drink dome in the open position.
a is a cross-sectional left side view of the invention from a drinking perspective after the score line is severed and reseated to form a gas vent.
b is a cross-sectional left side view of the invention from a drinking perspective with conical drink dome in the open position.
a is a cross-sectional left side view of the invention showing a silhouette of lips having opened the gate.
a is a cross-sectional left side view of optional ramped lever cam not claimed in this invention and a claimed alternative more durable spring and a claimed alternative spring fastening method.
b is a plan view of an optional ramped lever cam and embossed artistic arrow ramp not claimed in this invention.
c is a perspective view of said optional ramped lever cam and embossed artistic arrow ramp not claimed in this invention.
a is also a cross-sectional left side close-up view of the distal seal area.
Referring more particularly to the drawings,
Also shown are formed portions on both the can-end and the conical gate, called the gate stake 22 and the can-end stake 24, which serve to fasten the resilient member, through its gate stake hole 68 and its can-end stake hole 64, respectively. The interior end 23 of the resilient member is shaped and sized so that it will impinge on the underside of the can-end and prevent the conical gate from swing laterally out of alignment with the opening of the can-end.
This view also presents a lever recess 23, which is intended to locate the edge of a cam lever (not shown), a lip depression 26, which positions the upper lip of the consumer, and the can-end seam 40. This seam forms the opening of the beverage container, and is shown in greater detail in
When the conical gate 200 circumferentially defined weakened line 42 in
a illustrate a cross section side view of the can-end, after severing the weakened line, and being user-lip operated in closed, then opened position, respectively.
a illustrate the can-end 100 and conical gate 200 contacting each other in an alternate embodiment of the invention. Here the can-end assembly is a multiple piece construction, where the gate 200 is a separate piece of material prior to assembly. In this case, the mating surfaces of the gate and the can-end are temporarily bonded together with an appropriate food-grade adhesive substance (not shown), such as corn syrup, or some other suitably-engineered chemical agent. In this alternate embodiment, the separate gate 200 operates the same way still, and reacts to gas pressure in a similar fashion.
This application claims the benefit of U.S. Provisional Patent Application Ser. No. 60/965,363, filed Aug. 20, 2007, titled “Article of manufacture for a self-closing vented self-resealing beverage can-end.”
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Number | Date | Country | |
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60965363 | Aug 2007 | US |