Metallic can end

Abstract

A metallic can end having a reclosable opening, a microgap or weakening line provided in the metallic end surface and peripheral about the opening, a sealing frame connected to the end surface and surrounding the opening region, a closure unit connected to the upwardly pivotable metal end region disposed within the microgap or weakening line, that is pivotably attached to the end surface via a pivot bearing. The sealing frame and the closure unit are composed of plastic material and cooperate in a sealing manner with one another via sealing and latching ribs that form sealing edges with associated reception grooves. The metallic can region disposed within the peripheral microgap or weakening line is received and held in the opening region of the end. The sealing edges are configured such that the radially innermost sealing edge still seals when the radially outer sealing edges have just been released.

Claims

1. A metallic can end comprising: a reclosable opening, a microgap or a weakening line provided in a fixed end surface and peripheral about an opening region, a sealing frame composed of plastic material connected to the fixed end surface and surrounding the opening region, a closure unit that is composed of plastic material, the closure unit being connected to an upwardly pivotable metallic end region disposed within the microgap or the weakening line, and the closure unit being pivotably attached to the fixed end surface via a pivot bearing, wherein the sealing frame and the closure unit cooperate in a sealing manner via sealing and latching ribs and associated reception grooves and the metallic end region disposed within the peripheral microgap or the weakening line is received and held in the opening region of the end, and wherein the sealing and latching ribs form at least two sealing edges with the reception grooves, and wherein the sealing edges are configured such that on opening of the can end, the radially innermost sealing edge still seals when the radially outer sealing edge or the radially outer sealing edges have just been released.

2. The metallic can end in accordance with claim 1, wherein the radially innermost sealing edge has a greater distance from the end surface than the other sealing edge or both the other sealing edges.

3. The metallic can end in accordance with claim 1, wherein the radially innermost sealing edge extends in a plane that is inclined with respect to the plane of the metallic end region disposed within the microgap or weakening line, with the two planes having the greatest distance from one another on a side of the metallic end region remote from the pivot bearing.

4. A metallic can end comprising: a reclosable opening, a microgap or weakening line provided in a fixed end surface and peripheral about an opening region, a sealing frame composed of plastic material connected to the fixed end surface and surrounding the opening region, a closure unit that is composed of plastic material, that is connected to an upwardly pivotable metallic end region disposed within the microgap or the weakening line, and that is pivotably attached to the fixed end surface via a pivot bearing, wherein the sealing frame and the closure unit cooperate in a sealing manner via sealing and latching ribs and associated reception grooves and the metallic end region disposed within the peripheral microgap or the weakening line is received and held in the opening region of the end, wherein the sealing and latching ribs form sealing edges with the reception grooves, and wherein the sealing and latching ribs, on the one hand, and the reception grooves, on the other hand, are configured such that they increasingly interlock with one another with an upwardly arching can end.

5. The metallic can end in accordance with claim 4, wherein a latching rib provided at the sealing frame has an outwardly facing hook that cooperates with a correspondingly inwardly facing latching projection of an associated reception groove of the closure unit.

6. A metallic can end comprising: a reclosable opening, a microgap or weakening line provided in the metallic end surface and peripheral about the opening, a sealing frame composed of plastic material connected to the fixed end surface and surrounding the opening region, a closure unit that is composed of plastic material, that is connected to the upwardly pivotable metallic end region disposed within the microgap or the weakening line, that is pivotably attached to the fixed end surface via a pivot bearing, and that is provided with a tear-open member that is upwardly pivotably connected to the closure unit diametrically opposite the pivot bearing, wherein the metallic end region disposed within the peripheral microgap or weakening line is received and held in the opening region of the end, and wherein the tear-open member has an aperture into which a prolongation of the closure unit engages, with the prolongation being so firmly connected to the tear-open member that the prolongation is torn off from the closure unit on the upward pivoting of the tear-off member, and wherein the aperture and the prolongation are provided in the region of the pivot bearing of the tear-open member.

7. The metallic can end in accordance with claim 1, wherein the closure unit is provided with a tear-open member that is upwardly pivotably connected to the closure unit diametrically opposite the pivot bearing.

8. The metallic can end in accordance with claim 1, wherein the sealing and latching ribs form three sealing edges with the reception grooves.

9. The metallic can end in accordance with claim 4, wherein the closure unit is provided with a tear-open member that is upwardly pivotably connected to the closure unit diametrically opposite the pivot bearing.

10. The metallic can end in accordance with claim 6, wherein the sealing frame and the closure unit cooperate in a sealing manner via sealing and latching ribs and associated reception grooves.

11. The metallic can end in accordance with claim 6, wherein the prolongation is so firmly bonded to the tear-open member that the prolongation is torn off from the closure unit on the upward pivoting of the tear-open member.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) An embodiment of the invention is represented in the drawing and will be described in the following. There are shown, schematically in each case

(2) FIG. 1 a perspective view of a can end in accordance with the invention;

(3) FIG. 2 a plan view of the upper side of the can end of FIG. 1;

(4) FIG. 3 a section in accordance with the line A-A in FIG. 2;

(5) FIG. 4 a section in accordance with the line B-B in FIG. 2;

(6) FIG. 5 detail C of FIG. 3 at an increased scale;

(7) FIG. 6 detail D of FIG. 3 at an increased scale;

(8) FIG. 7 a plan view of sealing frame of a can end in accordance with the invention;

(9) FIG. 8 a section in accordance with the line A-A in FIG. 7;

(10) FIG. 9 a section in accordance with the line C-C in FIG. 7; and

(11) FIG. 10 detail B of FIG. 8 at an increased scale.

DETAILED DESCRIPTION

(12) The can end 1 shown in the Figures comprises metal, in particular aluminum, and has a reclosable opening. An upwardly pivotable end region 3 is provided beside a fixed end surface 2 for this purpose. The upwardly pivotable end region 3 is separated from the fixed end region 2 by a peripheral microgap 4 or by a weakening line (see in particular FIG. 6).

(13) A sealing frame 5 that is composed of plastic material and that surrounds the opening region is connected to the fixed end surface 2, and indeed in particular by a so-called hot melt process using a bonding agent to ensure a firm connection to the aluminum of the end. A closure unit 6 that is likewise composed of plastic and that is pivotably attached via a pivot bearing 7 to the fixed end surface 2 is furthermore connected to the upwardly pivotable metallic end region 3. The pivot bearing 7 and the closure unit 6 are in turn in particular connected to the fixed end surface 2 or to the upwardly pivotable end region 3 via a hot melt connection using a bonding agent.

(14) The closure unit is connected at the side diametrically opposite the pivot bearing 7 to an upwardly pivotable tear-open member 8 that is arranged in parallel with the upper end side 9 in the non-upwardly pivoted state. The tear-open member 8 is formed as annular in a known manner and can be pivoted upwardly about a pivot bearing 11 by being engaged by a finger in an engagement end 10 opposite the end surface.

(15) The sealing frame 5 and the closure unit 6 cooperate in a sealing manner via sealing and latching ribs 12, 13, 14 at the sealing frame 5 and via associated reception grooves 15, 16, 17 at the closure unit 6. Three sealing edges 18, 19, 20 are thereby formed by which the opening region of the can end is sealed. An imperviousness of the can end is thereby also ensured when using a microgap 4 between the upwardly pivotable end region 3 and the fixed end region 2.

(16) As can in particular be seen in FIG. 6, the radially innermost sealing edge 18 is further remote from the end surface than the two other sealing edges 19 and 20. The innermost sealing edge 18 therefore still seals when the two outer sealing edges 19 and 20 have already just been released on the opening of the can end. A so-called venting of the can interior, that is a slow pressure drop prior to the complete opening, can take place in this manner.

(17) As can in particular be seen in FIGS. 9 and 10, the radially innermost sealing edge 18 extends in a plane I that is inclined with respect to the end plane II. The inclination here, for example, amounts to 1 to 2°, in particular to 1.5°. It is hereby ensured that the innermost sealing edge 18 still seals on the upward pivoting of the end region 3 over the total periphery of said sealing edge 18 when the two outer sealing edge 19, 20 have just released. It can hereby be prevented on the venting of the can interior that liquid moves from the can interior to the outside.

(18) As can in particular be recognized in FIGS. 5 and 6, the radially outermost sealing and latching rib 12 provided at the sealing frame 5 has an outwardly facing hook 21 that cooperates with a correspondingly inwardly facing latching projection 22 of the associated receiver 15 of the closure unit 6. It is hereby achieved that the sealing and latching rib 12 increasingly interlocks with the receiver 15 or its latching projection when the can end arches upwardly, for example due to a rising internal pressure in the can.

(19) As can in particular be seen in FIGS. 2 and 6, the tear-open member 8 has an aperture 23 into which a prolongation 24 of the closure unit 6 engages. The prolongation 24 is so firmly connected to the tear-open member 8, in particular bonded, that the prolongation 24 is torn off from the closure unit 6 on the upward pivoting of the tear-open member 8. Such a firm connection can, for example, be achieved in that the prolongation 24 is initially melted after the injection molding of this plastic part such that it is firmly connected to the part of the tear-open member 8 forming the aperture 23. This can, for example, be achieved by a kind of soldering iron.

(20) As can be recognized in FIG. 6, the aperture 23 and the prolongation 24 are provided in the region of the pivot bearing 11 of the tear-open member 8. It is thereby achieved that a small raising of the tear-open member 8 is already sufficient to tear off the prolongation 24.

(21) In the embodiment shown, the inner side of the can end is laminated by a plastic film 25 that covers the total inner can side. Differing from this, the plastic film can also be formed as annular and can only extend a few tenths of a millimeter, in particular 3 to 4 tenths of a millimeter, at both sides beyond the microgap 4 or the weakening line. A different possibility comprises using a disk-shaped sealing film that extends a few tenths of a millimeter, for example 3 to 4 tenths of a millimeter, radially outwardly beyond the microgap 4 or the weakening line. The sealing film can be formed as a largely flat disk in this case. Both the annular and the disk-shaped sealing films are preferably formed as stamped parts.

(22) Whereas the sealing frame 5 and the closure unit 6 are always attached to the outer side of the can end 1 and are connected to the can end via a bonding agent, the inner end side can also, differing from the embodiment, be at least largely free of laminations and the like. The inner end side can, however, be provided with a lacquer layer, in particular suitable for use in foodstuffs, to prevent a contact of the product contained in the can to the metallic end material.

(23) As can in particular be recognized in FIGS. 5 and 6, the closure unit 6 bonded to the fixed end region 2 engages over the microgap 4. An imperviousness of the can end can also be achieved in this manner without a sealing film at the inner end side.

REFERENCE NUMERAL LIST

(24) 1 can end 2 fixed end region 3 upwardly pivotable end region 4 microgap 5 sealing frame 6 closure unit 7 pivot bearing 8 tear-open member 9 upper can side 10 engagement end 11 pivot bearing of 8 12 sealing and latching rib 13 sealing and latching rib 14 sealing and latching rib 15 reception groove 16 reception groove 17 reception groove 18 sealing edge 19 sealing edge 20 sealing edge 21 hook 22 projection 23 aperture 24 prolongation 25 sealing film I plane II plane