CUP MADE OF PAPER OR PAPER-LIKE MATERIAL

Abstract

Cup made of paper material having a fillable interior space formed by a shell and a base. The base via a skirt at the lower end of the interior space is fastened in a substantially liquid-tight manner to the shell, and a lower periphery of the skirt forms a footprint for the cup. The cup has an external shell composed of a planar blank of paper or paper-like material. Longitudinal edges of the blank are connected to one another in an overlap region so that the external shell forms a sleeve. The external shell, has a frustoconical shape having a first cone angle and, except for the overlap region, from the predefined spacing to the lower end is configured in a single ply. The shell, from the predefined spacing to the lower end, at least in portions tapers more heavily than in the region above the predefined spacing.

Claims

1. A cup made of paper or paper-like material having a fillable interior space which is formed by a shell and a base, wherein the base via a skirt at the lower end of the interior space is fastened in a substantially liquid-tight manner to the shell, wherein a lower periphery of the skirt forms a footprint for the cup, wherein the cup has an external shell, wherein the external shell is composed of a planar blank of paper or paper-like material, the longitudinal edges of said blank at least in portions being connected to one another in an overlap region so that the external shell forms a sleeve, wherein the external shell, at least up to a predefined spacing from a lower end of said external shell, has a frustoconical shape having a first cone angle and, with the exception of the overlap region, at least from the predefined spacing to the lower end is configured in a single ply, wherein the external shell in the lower region, from the predefined spacing to the lower end, at least in portions tapers more heavily than in the region above the predefined spacing.

2. The cup according to claim 1, wherein the external shell in the lower region is configured so as to be frustoconical having a second cone angle, wherein the second cone angle is larger than the first cone angle.

3. The cup according to claim 1, wherein the external shell in the region of the lower end thereof is connected to an the external side of the shell, in particular sealed or adhesively bonded to the latter.

4. The cup according to claim 3, wherein the external shell is connected to the shell via hot-melt glue or hot-melt adhesive.

5. The cup according to claim 3, wherein adhesive between the external face of the shell and an internal face of the external shell is disposed at least over portions of a circumference of the shell and above the lower end of the external shell.

6. The cup according to claim 1, wherein the external shell in the lower region is configured so as to be corrugated, wherein corrugation troughs, from the predefined spacing to the lower end, run so as to be perpendicular to the circumferential direction.

7. The cup according to claim 6, wherein a corrugation height increases in the direction towards the lower end of the external shell.

8. The cup according to claim 1, wherein the shell has a stacking shoulder which is recessed in the direction towards the interior space of the cup, the dimensions of said stacking shoulder correlating with the lower periphery of the skirt so that, when stacking an upper and a lower cup, the lower periphery of the skirt of an upper cup comes to bear on the stacking shoulder of the lower cup.

9. The cup according to claim 8, wherein the shell on an external side thereof has a reinforcement on the stacking shoulder.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1 shows a schematic illustration of portions of a cup according to the invention according to a first embodiment,

[0026] FIG. 2 shows an illustration of portions of two stacked cups according to the invention according to a second embodiment,

[0027] FIG. 3 shows a sectional view of portions of two stacked cups according to the invention according to a third embodiment,

[0028] FIG. 4 shows a view onto the section plane IV-IV in FIG. 3,

[0029] FIG. 5 shows a view of a cup according to the invention according to a fourth embodiment, viewed obliquely from above,

[0030] FIG. 6 shows the cup of FIG. 5 from the side,

[0031] FIG. 7 shows a view onto the section plane B-B in FIG. 6,

[0032] FIG. 8 shows the detail B from FIG. 5,

[0033] FIG. 9 shows the detail A from FIG. 7,

[0034] FIG. 10 shows a sectional view of two cups according to the invention according to FIG. 5, in the stacked state,

[0035] FIG. 11 shows the detail X from FIG. 10,

[0036] FIG. 12 shows the detail Y from FIG. 10,

[0037] FIG. 13 shows a plan view onto a planar annular segment which is used for producing the external shell of the cup of FIG. 5,

[0038] FIG. 14 shows an illustration of a cup according to the invention according to a fifth embodiment, viewed obliquely from above,

[0039] FIG. 15 shows a lateral view of the cup of FIG. 14,

[0040] FIG. 16 shows a view onto the section plane B-B in FIG. 15,

[0041] FIG. 17 shows the detail B from FIG. 14 and

[0042] FIG. 18 shows the detail A from FIG. 16.

DETAILED DESCRIPTION

[0043] FIG. 1 shows in a schematic illustration portions of a cup 10 according to the invention according to a first embodiment. The cup 10 is configured so as to be rotationally symmetrical about a central longitudinal axis 12.

[0044] The cup 10 has an interior space 14 which is open towards the top and towards the bottom is delimited by a base 16. The base has a base plate 18 and a base collar 20. The base collar 20 extends from the base plate 18 towards the bottom, so that the base has the shape of an inverted pot.

[0045] The interior space 14 is furthermore formed by means of a shell 22. The shell 22 at the lower periphery thereof is folded about the base collar 20 by 180°. The shell 22 and the base collar 20 are mutually compressed and sealed to one another at least in a part of the folded-over region and as a result form a skirt 24 which connects in a liquid-tight manner the shell 22 and the base 16 to one another. As a result, liquids, in particular hot or cold liquids, can be filled into the interior space 14 of the cup 10.

[0046] The shell 22 is rolled in at the lower periphery thereof and as a result forms a mouth roll 26. The mouth roll 26 forms the upper end of an inner cup from the shell 22 and the base 16. The mouth roll 26 makes drinking from the cup 10 comfortable.

[0047] The cup 10 is embodied as a double-walled, air-gap-insulated cup. The cup 10 has an external shell 30 which is configured in the manner of a sleeve. The external shell 30 is connected to the shell 22 in a region 32 below the mouth roll 26 and above a shoulder 34 that is recessed into the interior space 14. A connection can be established by means of hot-melt adhesive, for example. As a result, an air gap 38 between the external shell 30 and the shell 22 lies below the shoulder 34 and up to a lower periphery 36 of the external shell 30. The air gap 38 ensures that the external shell 30 can still be readily held by hand even when the interior space 14 is filled with very hot liquids.

[0048] The external shell 30 forms a frustoconical sleeve and, from the upper periphery thereof to a predefined spacing 40 from the lower end 36, is configured so as to be frustoconical having a first cone angle. From the predefined spacing 40 to the lower end 36 of the external shell 30, the latter is likewise embodied so as to be frustoconical having a second cone angle. The second cone angle here is larger than the first cone angle.

[0049] Consequently, the external shell 30 in the lower region thereof, thus from the predefined spacing 40 to the lower end 36, has a constriction in which said external shell 30 is more heavily tapered than in the upper region from the predefined spacing 40 to the upper periphery of the external shell 30.

[0050] The external shell 30, in the lower region thereof, just above the lower end 36 thereof, is adhesively bonded to the external side of the shell 22 of the inner cup by means of an adhesive bead 42. As a result, the external shell 30 and the inner cup form a stable unit. It is also achieved as a result that the external shell 30, even in the filled state, is not squashed when a user grips the cup 10 by hand and the air gap 38 in terms of the width thereof is consequently also not reduced to the extent that the external shell 30 becomes too hot and the user can no longer hold the cup 10.

[0051] The cup 10 can be stacked. To this end, the skirt 24 in the lower region thereof has a widening, and a maximum diameter A of the skirt 24 is present approximately at the lower periphery of the skirt 24. Moreover, the lower periphery of the skirt also forms the footprint for the cup 10. The shell 22 is provided with a stacking shoulder 44 which is recessed into the interior space 14 and which forms a bearing for the lower periphery of the skirt 24 of a further cup. A maximum diameter B of the stacking shoulder is the same size as the maximum diameter A at the lower periphery of the skirt 24, or is slightly larger than said maximum diameter A. As a result, an upper cup in the stacked state, by way of the lower periphery thereof, can bear on the stacking shoulder 44 of the lower cup. As a result, two or even more cups 10 stacked inside one another cannot become wedged but can be stacked and also unstacked again in a very simple manner. This easy stacking capability and unstacking capability is also facilitated in that the external faces of the external shell 30 are situated in an imaginary parallel 44 to the shell 22 that delimits the interior space 14. As a result, a gap between the internal side of the shell 22 of a lower cup and the external face of the external shell 30 of an upper cup is provided even in the stacked state. This gap is referred to as stacking air.

[0052] FIG. 2 in portions and in a sectional view shows two further cups 50a, 50b according to the invention according to a second embodiment. The cups 50a, 50b differ only slightly from the cup 10 of FIG. 1, so that only the points of differentiation will be explained hereunder.

[0053] The skirt 24 of the cups 50a, 50b is only slightly widened, which can barely be seen in the illustration of FIG. 2. This minor widening of the skirt 24 is sufficient because the air gap 38 between the external shell 30 of the cup 50a and the shell 22 of the cup 50a is comparatively small. Nevertheless, the air gap 38 is sufficient to have the effect of an adequate insulation of the double-walled cup 50a. The widening of the skirt 24 may be dispensed with in the context of the invention. The cup 50b is configured so as to be identical to the cup 50a and will therefore not be separately explained.

[0054] The external shell 30, to the predefined spacing 40 from the lower end 36 of the external shell 30, is also frustoconical having a first cone angle in the case of the cup 50a. In the lower region of said external shell 30, thus from the predefined spacing 40 to the lower end 36, the shell 22 is then likewise frustoconical, but has a larger cone angle than in the upper region, so that the external shell 30 is constricted in the lower region, in other words tapers more heavily than in the upper region. The differences between the first cone angle and the second cone angle in the case of the cup 50a are smaller than in the case of the cup 10 of FIG. 1. The predefined spacing 40 in the case of the cup 50a is larger than in the case of the cup 10 of FIG. 1.

[0055] Further to be seen in FIG. 2 is the adhesive bead 42 which connects and adhesively bonds the external shell 30 and the shell 22 of the inner cup. It can be seen on the stacking shoulder 44 of the shell 22 of the inner cup that a reinforcement 52 has been attached to the external face of the shell 22 on the stacking shoulder 44. For example, this reinforcement 52 can be configured as an adhesive bead applied across the entire circumference on the external face of the shell 22.

[0056] The illustration of FIG. 3 in portions and in a sectional view shows two further cups 60a and 60b according to the invention stacked inside one another according to a third embodiment. The inner cups of the cups 60a, 60b are configured identically to the inner cups of the cups 50a and 50b of FIG. 2 and are therefore not explained again.

[0057] As opposed to the cups 50a and 50b, the cups 60a and 60b each have an external shell 30 which is corrugated in the lower region thereof, thus from the predefined spacing 40 to the lower end 36. With the exception of the design of the lower region from the predefined spacing 40 to the lower end 36 of the external shell 30, the external shell 30 of the cup 60a is configured identically to the external shell 30 of the cup 50a and is not explained further. The cup 60b is configured identically to the cup 60a.

[0058] In the case of the cups 60a, 60b, the external shell 30 bears on the shell 22 of the inner cup only in the region of the corrugation troughs of the corrugations. Therefore, only adhesive spots or adhesive drops 62, in particular of hot-melt adhesive, are provided in the region of the corrugation troughs, said adhesive spots or adhesive drops 62 reliably connecting the external shell 30 to the shell 22.

[0059] The corrugated configuration of the external shell 30 in the lower region thereof facilitates the configuration of the constriction in the lower region, because the excess material arising in the corrugation troughs during the constriction can be displaced into the corrugation peaks.

[0060] It can be derived from FIG. 3 that a corrugation height of the corrugation increases in the direction towards the lower end 36 of the external shell 30.

[0061] FIG. 4 shows a sectional view of the cup 60b of FIG. 3 onto the section plane IV-IV in FIG. 3. The corrugated configuration of the external shell 30 can be readily seen in this view, and it can also be seen that the external shell 30 bears on the external face of the internal shell 22 only in the region of the corrugation troughs of said external shell 30. The adhesive spots 62 or adhesive drops are only indicated in the illustration of FIG. 4.

[0062] The cup according to the invention permits the external shell 30 and the shell 22 of the inner cup to be connected by means of hot-melt glue or hot-melt adhesive. A substantial advantage of the cups 10, 50a, 50b, 60a, 60b according to the invention is that less material is required for the external shell 30 in comparison to a conventional external shell which is folded in or rolled in at the lower end.

[0063] FIG. 5 shows a cup 70 according to a further embodiment of the invention. The cup 70 has an inner cup 72 and a sleeve-shaped external shell 74. The external shell 74 in the upper region 76 thereof has a frustoconical shape having a first cone angle, and in the lower region 78 thereof has a constricted shape which tapers more heavily than in the upper portion 76. As can be derived from FIG. 5, the lower region 78 has corrugations or indentations 80 which are uniformly distributed across the circumference. The external shell 74 bears on the shell 82 of the inner cup 72 in the region of these indentations or corrugations 80, see FIG. 9.

[0064] FIG. 6 shows a lateral view of the cup 70 of FIG. 5. It can be seen that a constriction or heavier tapering is present in the lower region 78 of the external shell 74 than in the upper region 76.

[0065] FIG. 7 shows a view onto the section plane B-B in FIG. 6. It can be seen that the corrugations or indentations 80 are uniformly distributed across the circumference of the external shell 74. The corrugations or indentations 80 can for example be impressed in the external shell using a tool, cf. also FIG. 9.

[0066] FIG. 8 shows the detail B from FIG. 5. The indentations or corrugations 80 on the external shell 74 can be clearly seen in this view.

[0067] FIG. 10 shows two cups 70a, 70b according to the invention in the stacked state.

[0068] FIG. 11 shows the detail X from FIG. 10. It can be seen that the external shell 74 of the cups 70a, 70b in each case abuts the lower side of a mouth roll. The upper periphery of the external shell here bears on a location of the mouth roll which lies in that half of the mouth roll that faces the inner cup. The upper periphery of the external shell 74 can therefore not readily slip radially outward, as this action is blocked by the mouth roll. The external shell 74 is connected to the external side of the shell of the inner cup by means of an adhesive bead or a plurality of adhesive spots 84, wherein this adhesive bonding by means of the adhesive bead or adhesive spots 84 is optional.

[0069] FIG. 12 shows the detail Y from FIG. 10. It can be seen on the lower cup 70b that the external shell 74 between a predefined spacing 40 above the lower periphery 36 tapers more heavily than in the upper region above the predefined spacing 40. It can furthermore be seen in FIG. 12 that a spacing 86 from the lower periphery 36 of the external shell 74 to the lower periphery of the skirt 24 or to the footprint of the cup is the same size as the predefined spacing 40. This results in a visually appealing design of the cups 70a, 70b. It can furthermore be seen in FIG. 12 how the lower periphery of the skirt 24 of the upper cup 70a bears on the stacking shoulder on the lower cup 70b. As a result of the spacing between the stacking shoulder and the lower periphery of the skirt, a stacking height S between the respective upper ends of the cups 70a, 70b results, said stacking height S being plotted in FIG.

[0070] 11.

[0071] A widening of the skirts 24 is very modestly configured in the case of the cups 70a, 70b and can barely be seen in the illustrations of FIGS. 5 to 12. As has been explained, a widening of the skirts 24 may be dispensed with in the context of the invention.

[0072] FIG. 13 shows a planar annular segment 90 which can be used for producing the external shell 74 of the cup 70 of FIG. 5. The two longitudinal edges 92, 94 are connected to one another in order for a conical sleeve to be produced. This is performed by overlapping and adhesively bonding the regions adjacent to the longitudinal edges 92, 94. This results in an overlap region having a width U, which is plotted so as to be adjacent to the two longitudinal edges 92, 94 in FIG. 13.

[0073] FIG. 14 shows a cup 100 according to the invention according to a further embodiment. The cup 100 of FIG. 14 differs from the cup 70 of FIG. 5 only in terms of the design of the lower region 78 of the external shell 74. It can indeed be seen already in FIG. 14 that the corrugations or indentations 80 in the case of the cup 100 are not uniformly distributed across the circumference. The corrugations or indentations 80 arise randomly while constricting the lower region 78 of the external shell 74. This non-uniform distribution of the corrugations or constrictions 80 can also be seen in FIG. 17, the latter showing the detail B from FIG. 14.

[0074] In the production of the cups 70, 100, it is possible for the corrugations or indentations 80 to be applied already prior to the production of a sleeve from a planar segment 90, see FIG. 13. In the context of the invention, it is, however, also possible for a frustoconical sleeve to be first produced from the planar segment 90 and for the lower region of this planar sleeve then to be constricted and to be provided with the indentations or corrugations 80.

[0075] FIG. 15 shows a lateral view of the cup 100 of FIG. 14.

[0076] FIG. 16 shows a view onto the section plane B-B in FIG. 15. The non-uniform and random distribution of the corrugations or indentations 80 across the circumference of the external shell 74 can be seen in FIG. 16.

[0077] FIG. 18 shows the detail A from FIG. 16. The external shell 74 is connected to the shell of the inner cup only in the region of the indentations or corrugations 80.