Beverage can having a grommet

Abstract

A drawn and wall ironed beverage can body, method for forming same, and a sealed and filled can, include a through-hole or aperture in the base. A grommet for charging a propellant in can is located in the aperture. The aperture has a burr that is located on the inboard side of the rim of the aperture.

Claims

1. A beverage can body and grommet combination comprising: a drawn and wall ironed can body including a dome in a base, a foot outboard the base, and an elongate ironed sidewall extending upwardly from the foot; the dome having an aperture therethrough and a wall about the aperture that terminates in a rim, the rim having an inboard side and an outboard side, wherein the inboard side is radially inward relative to the outboard side with respect to the aperture; a burr located on the inboard side of the rim; and a grommet disposed in the aperture.

2. The combination of claim 1 wherein the wall is an upstanding wall.

3. The combination of claim 2 wherein the upstanding wall is vertical or nearly vertical.

4. The combination of claim 2 wherein the upstanding wall is circumferential about the aperture.

5. The combination of claim 2 wherein the dome does not have a recess about the upstanding wall such that the dome has an unbroken curve that extends outwardly from the upstanding wall.

6. The combination of claim 2 wherein the dome has a recess about the upstanding wall such that the base of the grommet is positioned within the recess of the dome.

7. The combination of claim 2 wherein the upstanding wall terminates at a rim surface that forms an angle A relative to a horizontal reference line that is between 30 degrees and 60 degrees.

8. The combination of claim 7 wherein angle A is between zero and 45 degrees.

9. The combination of claim 7 wherein angle A is between 5 and 40 degrees.

10. The combination of claim 1 wherein the burr contacts the grommet.

11. The combination of claim 1 wherein the grommet includes a base located on the outboard side of the dome, a crown located on the inboard side of the dome, and a neck between the base and the dome for receiving the rim of the aperture.

12. The combination of claim 1 wherein the burr contacts the neck of the grommet when the grommet is in its sealing state.

13. The combination of claim 1 wherein the grommet is adapted for contacting a liquid.

14. A filled and sealed beverage can comprising: a drawn and wall ironed can body including a dome in a base, a foot outboard the base, and an elongate ironed sidewall extending upwardly from the foot; the dome having an aperture therethrough and a wall about the aperture that terminates in a rim, the rim having an inboard side and an outboard side, wherein the inboard side is radially inward relative to the outboard side with respect to the aperture; an end seamed to an open end of the can body opposite the base to enclose the can; a burr located on the inboard side of the rim; a grommet disposed in the aperture, an inboard portion of the aperture being in contact with the liquid product contents of the can.

15. The beverage can of claim 14 wherein the wall is an upstanding wall.

16. The beverage can of claim 15 wherein the upstanding wall is vertical or nearly vertical.

17. The beverage can of claim 15 wherein the upstanding wall is circumferential about the aperture.

18. The beverage can of claim 15 wherein the dome does not have a recess about the upstanding wall such that the dome has an unbroken curve that extends outwardly from the upstanding wall.

19. The beverage can of claim 15 wherein the dome has a recess about the upstanding wall such that the base of the grommet is positioned within the recess of the dome.

20. The beverage can of claim 15 wherein the upstanding wall terminates at a rim surface that forms an angle A relative to a horizontal reference line that is between 30 degrees and 60 degrees.

21. The beverage can of claim 19 wherein angle A is between zero and 45 degrees.

22. The beverage can of claim 19 wherein angle A is between 5 and 40 degrees.

23. The beverage can of claim 14 wherein the burr contacts the grommet.

24. The beverage can of claim 14 wherein the grommet includes a base located on the outboard side of the dome, a crown located on the inboard side of the dome, and a neck between the base and the dome for receiving the rim of the aperture.

25. The beverage can of claim 14 wherein the burr contacts the neck of the grommet when the grommet is in its sealing state.

26. The beverage can of claim 14 wherein a portion of the grommet within the can contacts the liquid product.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a side view of a beverage can assembly according to an aspect of the present invention.

(2) FIG. 2 is a top perspective view of the beverage can assembly of FIG. 1, with the end removed for clarity.

(3) FIG. 3 is a bottom perspective view of the beverage can assembly of FIG. 1.

(4) FIG. 4 is a longitudinal cross section view bisecting the can assembly of FIG. 1.

(5) FIG. 5 is a perspective view of the cross section of FIG. 4.

(6) FIG. 6 is a top view of the can of FIG. 1, with the end of the can assembly removed for clarity.

(7) FIG. 7 is bottom view of the can assembly of FIG. 1.

(8) FIG. 8 is an enlarged cross sectional view a portion of the dome of the can of FIG. 1 bisecting the grommet.

(9) FIG. 9 is a cross sectional view bisecting the grommet before installation into the aperture.

(10) FIG. 10 is an enlarged cross sectional view of a portion of the aperture in the can bottom.

DETAILED DESCRIPTION OF ILLUSTRATIVE EMBODIMENTS

(11) Referring to the figures, a beverage can assembly 10 includes a can body 20, an end, and a grommet 40. In the figures, the can end is omitted for clarity to illustrate the grommet.

(12) The can end, which may be conventional, is seamed onto the end of the can body. It is understood that the can end may be, for example, one of the ends as marketed by Crown Cork & Seal, Inc. under its SuperEnd mark, such as an end as generally described in U.S. Patent Application Number 102070.006145 (ISE), the structural description of which is incorporated herein by reference. Accordingly, it is understood that the end includes a curl or hook that cooperates with a can body flange to form the seam shown in the figures, a center panel, a pour opening defined by a score on the center panel, a tab for opening the pour opening upon actuation, and other structure that will be understood by persons familiar with beverage can configuration. The present invention is not limited to the particular end configuration.

(13) It is understood that the present invention is employed with a sidewall that is formed by wall ironing and bottom that is formed in by a doming operation. Thus, it is understood that the present invention encompasses any upper configuration of the can, such as DWI metal bottles having necks that taper to a neck finish and that often are capped with a roll-on pilfer-proof metal closure, metal cans having small, seamed on ends such as disclosed in U.S. patent application Ser. No. 14/773,892, entitled Necked Beverage Can Having a Seamed-On End, sometimes referred to as cottle cans.

(14) Can body 20 is a drawn and wall-ironed, single-piece body that includes an integral sidewall 22, a neck 24 that extends to a seam 26, and a base 30. Base 30 extends from the lower portion of sidewall 22 and includes a foot 32, inboard of which is a dome 34. In cross section, foot 32 includes the curved standing ring on which the can rests, an inboard wall of the foot that extends upwardly from the standing ring, and a transition that merges into the dome 34. The profile shape of base 30 may be conventional.

(15) Preferably, can body 20 is a conventional 211 or 66 mm can body of the type that is sold commercially in the United States as a 12 ounce or 16 ounce can and in Europe as a 330 ml or 440 ml can. The can body can be any height and diameter, such as 52 mm or 58 mm diameter marketed as Slim or Sleek cans, or any other DWI beverage can body diameter. The can body is formed of a 3000 series aluminum, such as 3004. Sidewall 22 typically is approximately 0.004 inches thick, or 0.003 inches to 0.006 inches. Dome 34 is typically approximately 0.010 inches thick, or 0.008 inches to 0.011 inches.

(16) An aperture 36 is formed in the base, preferably at the center for convenience of forming and charging. Aperture 36 preferably includes a wall 62 that deviates, in cross sectional profile, from the curvature of dome 34. To the extent that wall 62 deviates from the curvature of the dome local to wall 62, wall 62 is referred to as an upstanding wall. Preferably, the wall projects inwardly (that it, inward toward the can or upwardly in the resting orientation). Alternatively, the present invention may be employed with a dome for which there is no wall at all, either inwardly protruding or outwardly protruding.

(17) Wall 62 terminates at a rim 64, which defines a rim surface 64 at its terminal face. In circumstances in which upstanding wall 62 approaches vertical at rim 64, rim surface 64 will form an angle A that is approaches horizontal. The angle that rim surface 64 (in cross section) forms relative to a horizontal reference line, as shown best in FIG. 10, encompasses any angle (other than 90 degrees or nearly 90 degreesthat is, other than vertical). Preferably, angle A is between 30 degrees and 60 degrees, more preferably zero and 45 degrees, more preferably between 5 and 40 degrees. For measuring, a best fit line can be drawn through rim surface 64 and projected therefrom.

(18) As wall 62 is upstanding and/or rim surface angle A is not 90 degrees, rim 64 has an inboard side and an outboard side, as defined radially relative to the a vertical centerline of aperture 36. Inboard side is radially inward relative aperture 36 and outboard side is radially outward relative to aperture 36. When aperture 36 is formed by opposing tooling, as is common for forming grommet apertures, a burr 66 is formed at least on one edge of the rim of the aperture.

(19) A burr, in general, is a thin projection of metal that extends from an edge or rough edge. Burrs are formed as part of metal fabricating steps, such as forming the through-hole in a domed base. When used for aerosols, it may be preferable when forming an aperture for a grommet to set up the tooling and control it so that the burr is formed on outboard side of the rim such that the burr does not contact or dig into the polymer material of the grommet. The inventors have found, however, that when employing modern tooling with modern grommets, a burr can contact the grommet in a way that does not compromise the function of the grommet during and after charging. The burr when formed on the inboard side is thus not in contact with or has reduced contact with the liquid product (compared with a burr located on the outboard side of the aperture rim), which is beneficial because burrs of apertures usually lack sufficient lacquer coating as a barrier against liquid product contact.

(20) The invention is not limited to any particular grommet. For purposes of illustration, a grommet marketed as the Ultramotive grommet is shown in the figures and described. A person familiar with grommet and propellant charging technology related to grommets will understand the use of other grommet configurations, such a universal grommet or other commercially available grommets.

(21) Grommet 40 has a base 42, a neck 44, and a crown 46. Neck 16 fits within the aperture 36 as shown in the figures, as best illustrated in FIG. 8. FIG. 9 illustrates grommet 40 before insertion into aperture 36.

(22) Base 42 has four through openings 48 through which propellant may be inserted to charge can 10. Openings 48 extend through base 42 to the extent that at least a portion of the openings 48 are in communication with the space about neck 44. During the charging process, a pin of a gassing head is applied to the center of grommet 40 to stretch neck 44 and extend crown 46 upwardly to lift crown 46 out of engagement with base 42. Thus, upon stretching, openings 48 communicate with the interior of can assembly 10 to charge the can with propellant. Then when the gassing head is removed, the elastic grommet returns to its at-rest positions shown in FIG. 8 in which openings 48 are sealed, which is referred to as the grommet's sealing state. Grommet 40 also has features that facilitate stretching the neck 16 during the charging process, as is understood by persons familiar with grommet structure and function. The portion of U.S. Pat. No. 6,729,362 explained the structure of the grommet in its relaxed state, sealing state, and charging state is incorporated herein by reference. The inventors have found that, contrary to the conventional thinking, even with a burr located on the inboard side of the rim 64 (that is, inwardly facing toward the grommet), the grommet can extend between its relaxed state and charging state and back again without interfering in the charging or sealing functions of the grommet.

(23) To form can 10, can body 20 is first formed, preferably by conventional means. Aperture 36 is formed by the action of opposing tools contacting the opposing surfaces (inboard and outboard) of dome 34. The tooling deforms the dome surface about aperture 36 to thereby form upstanding wall 62 and rim surface 64. Preferably, there is no recess or countersink about upstanding wall 62 to receive or recess grommet base 42. Thus, dome 34 preferably has a smooth and unbroken curve that extends outwardly from upstanding wall 62. The grommet 40 is installed from the bottom of can body 20. After the can is filled with product and sealed by seaming an end onto the can body, the can is charged with a gas. The product may be any beverage. One example is a coffee product with milk or cream, and the charging gas is nitrous oxide.

(24) The tooling for forming aperture 36, including aperture rim 60, upstanding wall 62, and rim surface 64 are well known, which will be understood by persons familiar with manufacturing of cans having grommets. Preferably, the grommet is installed from the underside of can 20, rather than through the open end of the can, for reasons of access and alignment. Moreover, persons familiar with grommet technology will understand tooling configurations that are capable of forming the burr on the inboard side of rim surface 64.

(25) The present invention is described using embodiments that are not intended to be limiting. Rather, the claims are intended to define the scope of the invention.