Abstract
A resealable closure for a metal beverage container including a closure cap which engages with a dispensing mouth which provides an initial gas tight seal, tamper resistant and tamper evident means, good purchase and mechanical advantage to tighten and loosen as well as remove and apply the closure mechanism, a gas tight reseal capability, and a protected, hygienic dispensing mouth. The several embodiments of the invention employ designs, materials, and manufacturing methods which are inexpensive and consistent with current manufacturing practices. The functionality, size, cost, simplicity, reliability and robustness of the proposed designs are all advantageous.
Claims
1. A re-sealable can end for closing a vessel comprising: (a) a generally planer top panel having an inner surface for facing into the vessel and an opposite outer surface, said top panel having an opening through which vessel contents may be poured or consumed; (b) a closure cap which removably seals said panel opening said closure cap having a radial slot, living hinges, a tamper evident fracture ring, fracture tabs, and a bail handle; (c) said closure cap having a downwardly extending seal lock body which extends into an interior of the vessel and below the inner surface of the can end; (d) said closure cap so configured that, if unconstrained postionally, the seal lock would be a loose fit in the opening in at least one orientation; further, said closure cap so attached to said top panel as to allow freedom of relative movement comprising: i. a first freedom of movement permitting a manual rotational translation of an actuator from a initial sealed state to an unsealed state in which the closure cap and an opening region are in alignment in a plan view with the seal lock extending through the opening; ii. a second freedom of movement permitting, from the unsealed state, a rotational movement pivoting about a point generally central to the seal lock and providing a degree of angular rotation to allow the seal lock to be manually pivoted in-place; further, a portion of the seal lock that is below the inner surface when in a ready-to-seal state has a shape comprising an interrupted thread, a twisting of the thread pulls the actuator sealingly down against an outer surface of the top panel that surrounds the opening thereby sealing the opening.
2. The re-closable can end of claim 1 wherein the interrupted thread is comprised of two or more opposed wings forming a helix shape.
Description
DESCRIPTION OF DRAWINGS
(1) FIG. 1A shows a plan view of a can end for a metal beverage container embodying teachings of the present disclosure;
(2) FIG. 1B shows a top side perspective view of a can end for a metal beverage container embodying teachings of the present disclosure;
(3) FIG. 2 shows an underside perspective view of a can end for a metal beverage container embodying teachings of the present disclosure;
(4) FIG. 3A shows a plan view of a closure cap for a metal beverage container embodying teachings of the present disclosure;
(5) FIG. 3B shows an underside plan view of a closure cap for a metal beverage container embodying teachings of the present disclosure;
(6) FIG. 3C shows an underside perspective view of a closure cap for a metal beverage container embodying teachings of the present disclosure;
(7) FIG. 4A shows a top side perspective view of a closure cap and can end assembly for a metal beverage container embodying teachings of the present disclosure;
(8) FIG. 4B shows an underside plan view of a closure cap and can end assembly for a metal beverage container embodying teachings of the present disclosure;
(9) FIG. 5 shows a close-up detail underside plan view of a closure cap and can end assembly for a metal beverage container embodying teachings of the present disclosure;
(10) FIG. 6 shows a close-up detail cross section view of a closure cap and can end assembly for a metal beverage container embodying teachings of the present disclosure;
(11) FIG. 7A shows a top side perspective view of a closure cap and can end assembly for a metal beverage container embodying teachings of the present disclosure in the unlocked position;
(12) FIG. 7B shows a top side perspective view of a closure cap and can end assembly for a metal beverage container embodying teachings of the present disclosure in the locked position;
DETAILED DESCRIPTION
(13) In conjunction with the included drawings, this detailed description is intended to impart an understanding of the teachings herein and not to define their metes and bounds.
(14) Several particular implementations, illustrating aspects of the present teaching, are presented in detail below. Some of the many possible variations and versions are also described.
(15) FIG. 1A shows a plan view of a can end 10 for a metal beverage container embodying teachings of the present disclosure wherein a distinctive dispensing mouth 40 may be plainly seen. One distinctive feature of dispensing mouth 40 is the polygonal shape which includes vertices 140, in contrast to the typically circular or rounded dispensing mouths found on conventional metal container can ends. Also distinctive is the asymmetrical placement of rivet 50 off center in can end 10 as opposed to the typical centered location on a conventional can end. Can end 10 does however contain a conventional seaming shoulder 30 so as to facilitate mechanical union with a conventional can shell in the filling/sealing process on industry standard equipment.
(16) FIG. 1B shows a top side perspective view of a can end 10 for a metal beverage container embodying teachings of the present disclosure in which several more distinctive features may be plainly seen. In this view, return wall 180 may be seen to protrude downwardly about the polygonal periphery of dispensing mouth 40. Also plainly visible is rigidifying well 170 which circumscribes dispensing mouth 40. In addition, sealing shoulder 160 may be seen to exist outwardly concentric to rigidifying well 170.
(17) FIG. 2 shows an underside perspective view of a can end 10 for a metal beverage container embodying teachings of the present disclosure which further illustrates the above noted features including rigidifying well 170, return wall 180, dispensing mouth vertices 140 and the distinctive polygonal shape of dispensing mouth 40.
(18) FIG. 3A shows a plan view of a closure cap 70 for a metal beverage container embodying teachings of the present disclosure in which several distinctive features may be plainly seen including radial slot 200, living hinges 190, tamper evident fracture ring 90, fracture tabs 100, and bail handle 80.
(19) FIG. 3B shows an underside plan view of a closure cap 70 for a metal beverage container embodying teachings of the present disclosure which in addition to the above noted distinctive features also plainly shows locking wings 110 with locking wing vertices 210 and closure cap flange 230.
(20) FIG. 3C shows an underside perspective view of a closure cap 70 for a metal beverage container embodying teachings of the present disclosure wherein in addition to the above noted distinctive features, yet another crucial feature may be plainly seen. Standoff boss 120 protrudes downwardly from the underside of closure cap 70 and displaces locking wings downward such that an undercut 220 is formed between the lowermost surface of closure cap flange 230 and the uppermost surface of locking wings 110. By this means, closure cap 70 may be engaged with certain features of dispensing mouth 40 of can end 10 when inserted into dispensing mouth 40 and rotated, as will be more fully disclosed in a later section.
(21) FIG. 4A shows a top side perspective view of a closure cap 70 and can end 10 assembly for a metal beverage container embodying teachings of the present disclosure in which closure cap 70 is engaged with can end 10 in such a manner as to close and seal dispensing mouth 40 in a gas tight fashion. It should also be noted that bail handle 80 has been folded over at living hinges 190 into the stowed position where it is secured by the swage 60 of rivet 50 engaging with tamper evident tear tab 90.
(22) FIG. 4B shows an underside plan view of a closure cap 70 and can end 10 assembly for a metal beverage container embodying teachings of the present disclosure wherein in addition to the above noted distinctive features it may be plainly seen how sealing fin 150 has engaged with the underside of can end 10 in such a manner as to secure closure cap 70 within dispensing mouth 40.
(23) FIG. 5 shows a close-up detail underside plan view of a closure cap 70 and can end 10 assembly for a metal beverage container embodying teachings of the present disclosure wherein the engagement means described above may be more clearly seen between top surface of sealing fins 150 which engage with the downwardly protruding face of return wall 180. In one embodiment the height of return wall 180 is variable such that it constitutes a ramp configuration wherein it protrudes minimally downward proximal to each dispensing mouth vertex 140 and progressively protrudes downward a greater amount as the distance from each dispensing mouth vertex 140 increases, as one moves in a counterclockwise direction when viewed from the underside of can end 10. By this means, the collective ramped lowermost edges of return walls 180 form an interrupted thread which when acting against locking wings 110 of closure cap 70 serve to draw closure cap 70 more deeply into dispensing mouth 40 as closure cap 70 is rotated in a clockwise direction as viewed from the topside of can end 10. In another embodiment, the height of return wall 180 remains constant and the thickness of sealing fins 150 vary such that undercut 220 becomes increasingly narrower as one moves in a clockwise direction when viewed from the underside of closure cap 70 such that, much like the variable height of return wall 180 above, an interrupted thread engagement is formed wherein progressive rotation of closure cap 70 within dispensing mouth 40 results in the advancement of a progressively diminishing undercut 220 against a constant height return wall 180, thereby ramping or augering closure cap 70 more and more firmly down into dispensing mouth 40 as limited by the pressure of closure cap flange 230 and sealing fin 150 against the topmost surface of sealing shoulder 160. By this means a gas tight initial seal is achieved and a gas tight reseal is achieved during successive reinstallations of closure cap 70.
(24) FIG. 6 shows a close-up detail cross section view of a closure cap and can end assembly for a metal beverage container embodying teachings of the present disclosure in which the locking and sealing means may be more plainly seen. In this detail view, the engagement of the uppermost face of locking wing 110 against the lowermost edge of return wall 180 is clearly visible and it may be understood how a progressive increase in downward pressure in this area such as would be achieved by the interrupted thread means described above causes closure cap flange 230 and sealing fin 150 to be drawn down against the top surface of sealing shoulder 160 with sufficient force as to constitute a gas tight seal.
(25) FIG. 7A shows a top side perspective view of a closure cap 70 and can end 10 assembly for a metal beverage container embodying teachings of the present disclosure in the unlocked position wherein closure cap 70 is resting in dispensing mouth 40 in the unlocked position ready to be removed in order to dispense can contents, or to be rotated into the locked position, either action facilitated by bail handle 80 which has been positioned in the upwards position which affords the user excellent purchase.
(26) FIG. 7B shows a top side perspective view of a closure cap 70 and can end 10 assembly for a metal beverage container embodying teachings of the present disclosure in the locked position as would be typical of the initial, factory sealed condition, with tamper evident tear tab 90 intact and secured by the swage 60 of rivet 50.
(27) Operation
(28) The operation of the preferred embodiment of the invention is as follows:
(29) FIG. 7B illustrates the assembled configuration of the preferred embodiment of the closure cap 70 and can end 10 constituting this invention wherein closure cap 70 has been rotatably engaged with can end 10 to create a gas tight seal, then bail handle 80 is folded over into the stowed position and secured in this position by means of a swage 60 on rivet 50 which protrudes through the center hole of tamper evident tear tab 90. In this assembled state, the can end assembly may be applied to a filled can body by conventional means by seaming to the can body utilizing standard progressive seaming dies. Once seamed to the filled can, the end acts as a conventional sealing means.
(30) When a user wishes to dispense the liquid contents of the metal container, the closure cap 70 must be opened. This is accomplished by lifting bail handle 80 into the open or unlocked position as illustrated in FIG. 7A. In order to lift bail handle 80 the first time after initial filling and seaming of the can, the user must apply sufficient force to break tamper evident tear tab 90 out of bail handle 80 by ripping fracture tabs 100. Tamper evident tear tab 90 serves two functions: first, it is a visible deterrent to, and positive indication of tampering, or opening closure cap 70 subsequent to initial seal; and it serves as a positive mechanical lock to prevent accidental rotation and opening of closure cap 70. The user is able to grasp bail handle 80 between their thumb and forefinger, affording them excellent purchase and adequate mechanical advantage to rotate closure cap 70 counterclockwise to disengage the previously described threaded closure means which holds closure cap 70 tightly against can end 10 thereby releasing the gas tight seal. In the preferred embodiment of the present invention bail handle 80 is integrally molded with closure cap 70 and hingeably attached by means of living hinges. In alternate embodiments, bail handle 80 could be different shapes, geometries, or materials, or may be constructed of different materials including metal or plastics the same as or other than the materials used to construct closure cap 70 and may be hingeably attached to closure cap 70 by a mechanical pivot or some flexible material.
(31) Referring now to FIG. 7A it may be seen that this rotating motion of closure cap 70 is facilitated by radial slot 200 which is so oriented and configured as to permit rotation of closure cap 70 about its center of rotation which is coincident with the geometric center of dispensing mouth 40, thereby permitting closure cap 70 to be rotatably engaged or disengaged using the interrupted thread means previously described, which remaining captively engaged by swage 60 of rivet 50. By this means, closure cap 70 remains fixably secured to can end 10 when sealed, unsealed, and even when displaced for beverage dispensing.
(32) Referring now to FIG. 5, one may plainly see how closure cap 70 engages with can end 10 by the relative action of the polygonal shapes of dispensing mouth 40 and sealing fins 150. In one orientation, when sealing fins 150 are so aligned that sealing fin vertices 210 are substantially aligned with dispensing mouth vertices 140, because sealing fin 150 is the identical polygonal shape as the opening of dispensing mouth 40, but concentrically slightly smaller, sealing fins 150 may be understood to be able to drop down into dispensing mouth 40 when such an alignment exists. Similarly, sealing fins 150 may be withdrawn from dispensing mouth 40 when said alignment exists. When sealing fins 150 are rotated relative to dispensing mouth 40, however, such that sealing fin vertices 210 are no longer aligned with dispensing mouth vertices 140, it may be plainly seen how this creates an interference condition whereby closure cap 70 may no longer be removed.
(33) Once closure cap 70 has been unscrewed to the unlocked or disengaged position, the user may grasp bail handle 80 and withdraw closure cap 70 vertically out of dispensing mouth 40 and rotate closure cap 70 around rivet 50 in order to position it clear of dispensing mouth 40 so as not to interfere with the poured dispensing of the liquid contents or to provide an unobstructed path for the user to place their mouth over dispensing mouth 40 to consume the liquid contents directly out of the can.
(34) It should be noted that closure cap flange 230 advantageously covers the periphery of dispensing mouth 40 thereby protecting it from environmental contaminants during manufacture, transit, storage, or public display, and thereby dramatically improving the sanitary and hygiene conditions of the dispensing mouth 40. A further benefit of this design is the absence of a sealing panel which would be displaced downwards into the liquid contents of the can during initial opening of dispensing mouth 40, thereby further reducing the possibility of contamination of the liquid contents.
(35) After partial dispensing or consumption of the liquid contents, if the user wishes to reclose and reseal the can, the procedure is the reverse of the above outlined steps. First the user grasps bail handle 80 and lifts and rotates closure cap 70 into position over dispensing mouth 40. Once positioned concentrically over dispensing mouth 40 and once aligned as described earlier such that dispensing mouth vertices 140 are substantially aligned with sealing wing vertices 210, the user applies slight downward pressure to seat closure cap 70 fully within dispensing mouth 40, then rotates closure cap 70 clockwise to progressively engage locking wings 110 with return wall 180, thereby augering closure cap 70 into dispensing mouth 40 and creating a gas tight seal between sealing fin 150 and sealing shoulder 160.
(36) Once can contents have been fully dispensed or consumed, the metal container may be recycled without fear of contaminating the recycle process by tearing the closure cap 70 off of can end 10 and separately recycling this plastic component.
(37) Variations
(38) There are many possible variations of the implementations described above consistent with the teaching of the present disclosure. Variations include different sizes, shapes, colors, textures, and materials for the various components of the assembly.
(39) In the preferred embodiment, the closure cap is made of injection molded plastic, but could be made of other materials including rubber or stamped or cast metal. Similarly, the bail handle can be made in many different shapes, sizes, geometries, configurations and materials. In the preferred embodiment the can end is made out of stamped aluminum in the conventional manner and the rivet is stamped from the same material, and therefor hollow. In alternative embodiments, the can end and/or the can itself could be made of other materials including plastic, even transparent or translucent plastic materials, or metals other than aluminum such as steel or tin, or even paperboard or laminated composite materials. Similarly in alternate embodiments the rivet could be solid, or a separate piece bonded or welded or by some other means permanently attached to the can end, or the rivet could be entirely replaced by another mechanism which performs the same function of providing a fixed pivot point about which the radial slot on the closure cap may rotate and pivot.
(40) In broad embodiment, the present invention is a resealable closure for a metal beverage container including a closure cap which engages with a dispensing mouth which provides an initial gas tight seal, tamper resistant and tamper evident means, good purchase and mechanical advantage to tighten and loosen as well as remove and reapply the closure mechanism, a gas tight reseal capability, and a protected, hygienic dispensing mouth. The several embodiments of the invention employ designs, materials, and manufacturing methods which are inexpensive and consistent with current manufacturing practices. The functionality, size, cost, simplicity, reliability and robustness of the proposed designs are all advantageous.
(41) While the foregoing written description of the invention enables one of ordinary skill to make and use what is considered presently to be the best mode thereof, those of ordinary skill will understand and appreciate the existence of variations, combinations, and equivalents of the specific embodiment, method, and examples herein. The invention should therefore not be limited by the above described embodiment, method, and examples, but by all embodiments and methods within the scope and spirit of the invention as claimed.
