CAPSULES FOR CONTAINING COFFEE OR ANOTHER SUBSTANCE FROM WHICH A BEVERAGE CAN BE EXTRACTED USING HOT WATER

Abstract

A capsule for use in a coffee extraction machine has a frustoconical side wall, a transverse base closing one end of the side wall, an open mouth at the end remote from the base and a peripheral flange encircling the open mouth. A section of the side wall of the capsule close to the flange is thicker than the remainder of the side wall.

Claims

1. A capsule for use in an extraction machine, the capsule having a frusto-conical side wall, a transverse base closing the smaller end of the capsule, an open mouth at the end of the capsule remote from the base and a peripheral flange encircling the open mouth of the capsule, characterised in that the side wall of the capsule is thickest over that section thereof which is closest to the flange, there being a single circumferentially extending sealing rib protruding from said flange in the direction towards the smaller end of the capsule and a circumferentially extending channel between said rib and said section.

2. A capsule as claimed in claim 1, wherein the outer surface of the capsule's wall has a first step in it at which the conical angle increases and a second step spaced axially towards the flange from the first step at which the conical angle decreases thereby to form a shoulder between said steps which has a circumferentially extending skew surface.

3. A capsule as claimed in claim 2, wherein the outer surface of the capsule is cylindrical between the skew surface and the flange.

4. A capsule as claimed in claim 2, and including a circumferentially extending sealing rib protruding from said flange in the direction towards the smaller end of the capsule, the rib being of triangular cross section with its base integral with the flange and having an apex which, in use, is crushed by the leading end of the pressing sleeve.

5. A capsule as claimed in claim 1, in which the conical angle of the outer surface of the side wall, over said section, is greater than the conical angle of the inner surface of said side wall over said section whereby said inner and outer surfaces diverge in the direction towards the flange and the wall thickness increases in the direction towards the flange.

6. A capsule as claimed in claim 5, and including a circumferentially extending sealing rib protruding from said flange in the direction towards the smaller end of the capsule, there being a circumferentially extending generally U-shaped channel between said rib and said section for receiving the leading end of the pressing sleeve.

7. A capsule as claimed in claim 3, and including a circumferentially extending sealing rib protruding from said flange in the direction towards the smaller end of the capsule, the rib being of triangular cross section with its base integral with the flange and having an apex which, in use, is crushed by the leading end of the pressing sleeve.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] For a better understanding of the present invention, and to show how the same may be carried into effect, reference will now be made, by way of example, to the accompanying drawings in which:

[0016] FIG. 1 is a axial section through a capsule in accordance with the present invention;

[0017] FIG. 2 is a radial section showing the relationship between the pressing sleeve of an extraction machine and the sealing structure of a capsule before the sleeve reaches the end of its travel towards the flange;

[0018] FIG. 3 is a radial section showing the relationship between the pressing sleeve and the sealing structure when the sleeve is at the end of its travel;

[0019] FIG. 4 is a section showing the pressing sleeve of a coffee extraction machine and a further form of capsule before the sleeve reaches the end of its travel; and

[0020] FIG. 5 is a section to a large scale illustrating the sealing zones which are created between the capsule and the pressing sleeve.

DETAILED DESCRIPTION OF THE DRAWINGS

[0021] The capsule shown in FIG. 1 is designated 10 and includes a frusto-conical body 12, a transverse base 14 at the smaller end of the body 12 and a flange 16 at the wider, open end of the body 12. Long internal strengthening ribs 18 and short internal strengthening ribs 20 are provided in the angle between the body 12 and the base 14.

[0022] The flange 16, see particularly FIGS. 2 and 3, has a planar annular surface 22 which faces away from the smaller end of the body 12. The opposite surface of the flange 16 is designated 24. A bead 26 extends around the periphery of the flange 16 and protrudes above the surface 24 when the capsule is orientated as shown, that is, with its wide end lowermost. The bead 26 is provided for strengthening purposes and inhibits flexing of the thin flange 16.

[0023] A sealing rib 28 is provided which protrudes above the surface 24 when the capsule is orientated as shown.

[0024] The rib 28 has a radially outer flat flank 30. Between the flank 30 and the radially inner flank 32 of the bead 26 there is a circular channel 34 which extends around the body 12. If the pressing sleeve is of the type which includes a sealing ring, this enters the channel 34 during extraction.

[0025] The radially inner flank of the rib 28 is designated 36 and slopes radially inwardly from the apex of the rib 28.

[0026] The flank 30 is of greater height, measured in the direction parallel to the longitudinal axis of the body 12, than the flank 36. The thickness d (FIG. 2) of the flange 16 between the surfaces 22 and 24 is consequently less than the thickness D of the flange between the surface 22 and the bottom of a U-section channel 38 which is defined between the body 12 and the rib 28.

[0027] The wall 40 of the body 12 is not of uniform conical angle throughout its axial length from the base 14 to the flange 16. The angle changes a number of times over the section 42 of the wall 40 which lies between the planes P1 and P2 (FIG. 1).

[0028] Over the section 42 the conical angles of the inner and outer surfaces of the wall 40 change in the same way. Hence the wall thickness remains the same.

[0029] At plane P2 the conical angle of the inner surface of the wall 40 and of the outer surface of the wall 40 both change as best seen in FIGS. 2 and 3. Over the wall section between the plane P2 and the plane P3, which is coincident with the beginning of the radially outer flank of the channel 38, the conical angle of the inner surface of the wall 40 differs from the conical angle of the outer surface.

[0030] The conical angle of the outer surface of the wall 40 over the section closest to the flange is greater than the conical angle of the inner surface of the wall 40. Hence from the plane P2 to the plane P3 the wall thickness steadily increases. The maximum wall thickness is where the outer surface of the wall 40 curves outwardly to become the radially inner bounding flank of the channel 38.

[0031] The shape of the leading end of the pressing sleeve PS can be seen in FIGS. 2 and 3. In radial section it has a radially inner frusto-conical surface 51, a rounded circumferentially extending protrusion R1, a radially outer, circumferentially extending protrusion R2 and a circumferentially extending groove G between the protrusions R1 and R2.

[0032] As the leading end of the sleeve PS moves towards the sealing structure of the capsule, its inner surface 51 approaches the outer surface of the thicker part of the wall 40 of the capsule 10 (see FIG. 2).

[0033] During the last part of the movement of the sleeve PS (see FIG. 3) the surface 51 bears on the outer surface of the wall 40 of the capsule over the section which has the increasing wall thickness, the inner protrusion R1 enters the channel 38 and the rib 28 enters the groove G. The wall thickness of the section adjacent the flange is such as to resist any inward deformation of the wall.

[0034] In FIGS. 4 and 5 the pressing sleeve PS and a capsule 10.1 are illustrated.

[0035] The inner and outer surfaces 12.1, 12.2 of the capsule 10.1 are of constant conical angle between the plane P4 and the smaller diameter of the capsule. At plane P4 the conical angle of the outer surface 12.2 increases sharply, and then decreases again at plane P5, so as to provide a frusto-conical shoulder 42. The wall thickness of the capsule increases steadily over the extent of the shoulder 42. The part of the wall between the shoulder 42 and the bottom of the channel 38.1 is of constant thickness but is thicker than the part of the wall of the capsule between the shoulder 42 and the capsule's base. The rib 18.1 in this form is triangular in radial cross section with its base integral with the flange 16.1.

[0036] As can be seen in FIG. 5, the inner surface of the pressing sleeve PS bears on the capsule in the region of the shoulder 42, compressing the wall 40 of the capsule and forming a first radially inner sealing zone. The end of the pressing sleeve crushes the rib 28.1 thereby to form a second radially outer sealing zone.