CLOSURE CAP, CONTAINER COMPRISING THE CLOSURE CAP, AND METHOD FOR PRODUCING A CLOSURE CAP

Abstract

The invention relates to a closure cap (2) with a closure cap axis (10), a cylindrical cap shell (3), a cover disk (5), and an engagement element (6) formed on the inside of the cap shell (3) and projecting towards the closure cap axis (10), wherein the engagement element (6) is designed as an internally threaded part or as a bayonet locking part, wherein the cover disk (5) has a breakthrough (4) in the region of its periphery, and wherein the engagement element (6) is arranged below the break-through (4) with respect to the breakthrough (4) in the direction of the closure cap axis (10).

Claims

1-22. (canceled)

23. A closure cap with a closure cap axis, a cylindrical cap shell, a cover disk, and an engagement element formed on an inside of the cap shell and projecting towards the closure cap axis, the engagement element being designed as an internally threaded part or as a bayonet locking part, wherein the cover disk has a breakthrough in a region of its periphery, and wherein the engagement element is arranged below the breakthrough with respect to the breakthrough in a direction of the closure cap axis.

24. The closure cap according to claim 23, wherein the engagement element is arranged in alignment with the breakthrough in the direction of the closure cap axis.

25. The closure cap according to claim 23, wherein the breakthrough has a breakthrough length with respect to a circumferential direction of the closure cap axis, and wherein the engagement element has an engagement element length in the circumferential direction, and wherein the breakthrough length is greater than or equal to the engagement element length.

26. The closure cap according to claim 23, wherein it has a plurality of breakthroughs and engagement elements which are arranged mutually spaced apart in the circumferential direction, wherein each engagement element is assigned a corresponding breakthrough in the direction of the closure cap axis, and wherein the engagement element length of the engagement element is less than or equal to the breakthrough length of the respectively assigned breakthrough.

27. The closure ap according to claim 23, wherein the engagement element lengths of the engagement elements are the same length as the breakthrough length of the respectively assigned breakthrough.

28. The closure ap according to claim 27, wherein all breakthroughs and all engagement elements have the same length in the circumferential direction.

29. The closure cap according to claim 23, wherein it has at least eight breakthroughs and engagement elements, each engagement element being assigned a respective breakthrough.

30. The closure cap according to claim 25, each engagement element forms an internally threaded part, these being arranged mutually offset in the direction of the closure cap axis in such a way that the entirety of the engagement elements form an internal thread with a pitch in the circumferential direction.

31. The closure cap according to claim 30, wherein the cover disk comprises a circumferential sealing lip which runs in the circumferential direction between the breakthrough and the closure cap axis.

32. The closure cap according to claim 31, wherein the circumferential sealing lip is formed on the cover disk.

33. The closure cap according to claim 32, wherein the sealing lip is designed to be free of undercuts.

34. The closure cap according to claim 32, wherein it consists of polyethylene terephthalate (PET) or essentially of polyethylene terephthalate (PET).

35. The closure cap according to claim 31, wherein the sealing lip is hollow-cylindrical in shape.

36. The closure cap according to claim 31, wherein the outer cross-section of the sealing lip tapers in the opposite direction of the closure cap axis to the cover disk.

37. The closure cap according to claim 23, wherein the cap shell has a free edge at the end section opposite the cover disk, wherein a warranty tape is connected to the free edge via a material weakening running around in the circumferential direction, wherein the warranty tape comprises a locking part projecting towards the closure cap axis, and wherein the locking part is arranged in the direction of the closure cap axis below the breakthrough.

38. The closure cap according to claim 37, wherein the warranty tape is connected to the free edge via separating webs.

39. The closure cap according to claim 37, wherein the locking part is arranged in alignment with respect to the breakthrough.

40. The closure cap according to claim 37, wherein the warranty tape comprises a plurality of locking parts arranged mutually spaced apart in the circumferential direction, wherein certain openings in the direction of the closure cap axis are each assigned a locking part, and wherein the breakthrough length of the respective breakthrough is greater than or equal to a locking part length of the assigned locking part.

41. The closure cap according to claim 37, wherein both an engaging element and a locking part are assigned to the same breakthrough in succession in the circumferential direction.

42. A container comprising a pouring opening and comprising a closure cap according to claim 23, wherein the pouring opening is closed with the closure cap.

43. The container according to claim 42, wherein the container and the closure cap are made of the same material.

44. The container according to claim 43, wherein the container and the closure cap are made of polyethylene terephthalate (PET) or essentially of polyethylene terephthalate (PET).

45. The container according to claim 43, wherein at least one ofthe container has a container neck, the inner cross-section of which widens towards the pouring opening, andthe sealing lip has an exclusively tapering outer cross-section in the direction of the closure cap axis opposite to the cover disk.

46. The container according to claim 45, wherein the inner cross-section of the container neck widens conically towards the pouring opening.

47. The container according to claim 46, wherein the inner cross-section of the container neck widens conically by a constant opening angle.

48. The container according to claim 46, wherein the opening angle lies in a range between 0.5? and 5?.

49. A method for producing a closure cap, having a closure cap axis, a cover disk and a cylindrical cap shell with an engagement element projecting towards the closure cap axis, in that a first mold half and a second mold half form a shaping cavity in the closed state, in that the outer contour of the closure cap is determined by the first mold tool half, in that the inner contour of the closure cap is essentially determined by the second mold tool half, the first mold tool half having a finger-like web extending in the direction of the closure cap axis, which projects into the cavity, a cavity part delimiting the engagement element being defined by a mold part of the second mold half and by a tip of the web of the first mold half, so that when the cavity is filled with plastic, the closure cap comprising the cover disk and the cap shell with engagement element is produced, wherein the web also produces a breakthrough in the cover disk, wherein the two halves of the mold are displaced linearly relative to each other during opening, and the produced closure cap is released and ejected without forced demolding.

Description

[0015] Various embodiments of the invention are described below with reference to drawings, whereby identical or corresponding elements are generally provided with identical reference lines. The drawings show

[0016] FIG. 1 a perspective top view of a closure cap according to the invention;

[0017] FIG. 2 a top view of the closure cap according to FIG. 1;

[0018] FIG. 3 a bottom view of the closure cap according to FIG. 1;

[0019] FIG. 4 a longitudinal section through the closure cap along the line A-A according to FIG. 2;

[0020] FIG. 5 a longitudinal section through the closure cap along line B-B according to FIG. 2;

[0021] FIG. 6 a longitudinal section through a further embodiment of a closure cap along line A-A according to FIG. 2;

[0022] FIG. 7 a longitudinal section through the embodiment example according to FIG. 6 along line B-B according to FIG. 2; a perspective bottom view of the closure cap shown in FIG. 8 FIGS. 6 and 7;

[0023] FIGS. 9, 10 and 11 a molding tool and process steps in the manufacture of a closure cap;

[0024] FIG. 12 a perspective top view of a further embodiment of a closure cap according to the invention;

[0025] FIG. 13 a top view of the closure cap according to FIG. 12;

[0026] FIG. 14 a bottom view of the closure cap according to FIG. 12;

[0027] FIG. 15 a perspective bottom view of the closure cap according to FIG. 12;

[0028] FIG. 16 a side view of the closure cap according to FIG. 12;

[0029] FIG. 17 a side view of the closure cap rotated by 90? according to FIG. 16;

[0030] FIG. 18 a longitudinal section through the closure cap along the line C-C according to FIG. 13;

[0031] FIG. 19 a longitudinal section through the closure cap along line D-D as shown in FIG. 13;

[0032] FIG. 20 a longitudinal section of a detailed view of a container outlet opening closed with a closure cap according to the invention;

[0033] FIG. 21 a side view of a container neck of a container body;

[0034] FIG. 22 a view of a warranty tape after it has been attached to a container neck ring;

[0035] FIG. 23 a process step during the attachment of the warranty tape of the closure cap to the container neck ring;

[0036] FIG. 24 an embodiment of a container neck for securing the closure cap with a bayonet lock;

[0037] FIG. 25 a closure cap comprising a bayonet locking part for fastening to the container neck according to FIG. 24.

[0038] FIG. 1 shows a perspective view of a closure cap 2 according to the invention with a closure cap axis 10, a substantially cylindrical cap shell 3, a cover disk 5 and a free edge 7, the closure cap 2 consisting essentially of the cap shell 3 and the cover disk 5, which delimits the cylindrical cap shell 3 at the top. The closure cap axis 10 runs through the center of the cover disk 5, and the cylindrical cap shell 3, in particular its outer surface 3b, preferably runs concentrically to the closure cap axis 10. The free edge 7 is located at the end of the closure cap 2 opposite the cover disk 5 with respect to the direction of the closure cap axis 10. In one possible embodiment, the cap shell 3 runs exactly parallel to the closure cap axis 10. Particularly preferably, the cap shell 3 has a slightly widening, in particular conically widening course in the direction of the closure cap axis 10, as shown for example in FIG. 4, from the cover disk 5 to the free edge 7, with an angle relative to the closure cap axis 10 in the range of, for example, 0.1? to 5?. This slight widening of the cap shell 3 in the direction of the closure cap axis 10 has the advantage that the closure cap 2 can be removed more easily, and preferably without forced demolding, from a molding tool after it has been manufactured. A cap shell 3 designed in this way is also referred to herein as a cylindrical cap shell, since the cap shell 3 extends cylindrically or essentially cylindrically with respect to the closure cap axis 10.

[0039] The cap 2 has a circumferential direction U concentric to the cap axis 10, whereby the cap 2 can be opened with a rotation in the opening direction of rotation U1. The cap shell 3 has an outer surface 3b, which can be designed and structured in a variety of embodiments. In the embodiment example shown, the outer surface 3b comprises a plurality of grooves 3a running in the direction of the closure cap axis 10. This design has the advantage that the outer surface 3b can be held better with the fingers.

[0040] FIG. 2 shows a top view and FIG. 3 a bottom view of the closure cap 2 according to FIG. 1, and FIGS. 4 and 5 show a longitudinal section through the closure cap 2 according to FIG. 2 along section line A-A and section line B-B respectively.

[0041] In an advantageous embodiment, the closure cap 2 comprises a single engagement element 6 formed on the inside of the cap shell 3 and projecting from the cap shell 3 towards the closure cap axis 10, wherein the engagement element 6 is designed as an internally threaded part or as a bayonet locking part. In this embodiment, the cover disk 5 preferably has a single break-through 4 in the region of its periphery, wherein the engagement element 6 is arranged with respect to the breakthrough 4 in the direction of the closure cap axis 10, in particular in the direction of extension of the closure cap axis 10, and below the breakthrough 4, in the direction of the closure cap axis 10 in a region between the cover disk 5 and the free edge 7. As shown in particular in FIG. 4, the engagement element 6 is arranged below the breakthrough 4 with respect to the breakthrough 4 in the extension direction of the closure cap axis 10, so that a parallel line to the closure cap axis 10 running through the engagement element 6 also runs through the opening surface of the breakthrough 4. In an advantageous embodiment, the engagement element 6 is arranged in alignment with the breakthrough 4 in the direction of the closure cap axis 10. In other words, in an advantageous embodiment, the engagement element 6 is dimensioned in such a way that a light beam extending in the direction of the closure cap axis 10 and shining through the breakthrough 4 defines the maximum dimension of the engagement element 6 in a plane extending perpendicular to the direction of the closure cap axis 10. This aligned arrangement of engagement element 6 and breakthrough 4 in the direction of the closure cap axis 10 can be seen in particular from FIG. 4, in that the engagement element 6, or the surface 6x of the engagement element 6 aligned towards the breakthrough 4, is arranged in alignment with the breakthrough 4 in the direction of the closure cap axis 10, wherein the surface 6x can run perpendicular to the closure cap axis 10 or, as shown in FIG. 4, can run at an angle deviating from the perpendicular with respect to the closure cap axis 10, wherein the surface 6x can run flat or also curved.

[0042] As shown in FIG. 2, the breakthrough 4 has a breakthrough length 4z in the circumferential direction U and has a breakthrough width 4y radial to the closure cap axis 10. As shown in FIG. 3, the engagement element 6 has an engagement element length 6z in the circumferential direction U and has an engagement element width 6y radially to the closure cap axis 10. Advantageously, the engagement element 6 is arranged in alignment with the breakthrough 4 in the direction of the closure cap axis 10 in such a way that the engagement element length 6z corresponds to the breakthrough length 4z, or these have the same or essentially the same length, and preferably also in such a way that the engagement element width 6y corresponds to the breakthrough width 4y, or these have the same or essentially the same width. It may prove advantageous to design the engagement element length 6z slightly smaller than the breakthrough length 4z and/or to design the engagement element width 6y slightly smaller than the breakthrough width 4y, in particular in order to make it easier to remove a closure cap 2 produced by injection molding from a molding tool.

[0043] In a further, advantageous embodiment, the breakthrough 4 has a breakthrough length 4z with respect to the circumferential direction U, and the engagement element 6 has an engagement element length 6z in the circumferential direction U, wherein the breakthrough length 4z is greater than or equal to the engagement element length 6z, wherein the breakthrough length 4z is preferably at least twice as great as the engagement element length 6z.

[0044] In a further advantageous embodiment, the locking cap 2, as shown in FIGS. 1 to 5, has a plurality of breakthroughs 4, 4b, 4c and engagement elements 6, 6b, 6c, which are arranged mutually spaced apart in the circumferential direction U, preferably mutually evenly spaced apart, wherein each engagement element 6, 6b, 6c is assigned a corresponding breakthrough 4, 4b, 4c in the direction of the closure cap axis 10, wherein the engagement element length 6z of the engagement element 6, 6b, 6c is less than or equal to the breakthrough length 4z of the respectively assigned breakthrough 4, 4b, 4c.

[0045] In a further advantageous embodiment, the engagement element lengths 6z of the engagement elements 6, 6b, 6c are of the same length as the breakthrough length 4z of the respectively associated breakthrough 4, 4b, 4c, and preferably, as shown in FIGS. 1 to 5, all breakthroughs 4, 4b, 4c and all engagement elements 6, 6b, 6c have the same length in the circumferential direction U.

[0046] In an advantageous embodiment, the closure cap 2 has at least two breakthroughs 4, 4b and two engagement elements 6, 6b, wherein each engagement element 6, 6b is assigned a respective breakthrough 4, 4b, wherein the closure cap 2 may in particular have between two and twenty engagement elements 6, 6b, 6c, 6d, 6e, 6f, 6g, 6h, 6l, 6k, 6l, 6m, and may correspondingly have between two and twenty associated breakthroughs 4, 4b, 4c, 4d, 4e, 4f, 4g, 4h, 4l, 4k, 4l, 4m. Particularly preferably, the closure cap 2 comprises at least eight and preferably at least twelve engagement elements 6, 6b, 6c and preferably at least eight and preferably at least twelve breakthroughs 4, 4a, 4b, each assigned to one of the engagement elements 6, 6b, 6c.

[0047] An inwardly projecting sealing lip 11 is preferably formed on the cover disk 5 of the closure cap 2, whereby the sealing lip 11 can also be in the form of a sealing cylinder or a sealing cone, for example. As shown in FIGS. 4 to 7, the sealing lip 11 is particularly advantageously designed without an undercut. Particularly advantageously, the cover disk 5 of the closure cap 2, as shown for example in FIG. 4, 5, 18, 19 or 20, comprises a circumferential sealing lip 11 which, as shown for example in FIGS. 3 and 14, extends in the circumferential direction U between the breakthrough 4 or the breakthroughs 4, 4b, 4c, 4d, 4e, 4f, 4g, 4h, 4l, 4k, 4l, 4m and the closure cap axis 10. The sealing cap 2 and the sealing lip 11 are designed in one piece.

[0048] As shown in FIGS. 4 and 5, each of the engagement elements 6, 6b, 6c, 6d, 6e, 6f, 6g, 6h, 6l, 6k, 6l, 6m forms an internally threaded part, whereby these are advantageously arranged mutually offset in the direction of the closure cap axis 10 in such a way that the entirety of the engagement elements 6, 6b, 6c, 6d, 6e, 6f, 6g, 6h, 6l, 6k, 6l, 6m and the closure cap axis 10 are mutually offset, that the entirety of the engagement elements 6, 6b, 6c, 6d, 6e, 6f, 6g, 6h, 6l, 6k, 6l, 6m form an internal thread with a pitch S in the circumferential direction U, whereby this internal thread, as can be seen from FIG. 5, extends essentially through almost 360? in the circumferential direction U.

[0049] In contrast to the embodiment example shown in FIGS. 4 and 5, the engagement elements 6, 6b, 6c, 6d, 6e, 6f, 6g, 6h, 6l, 6k, 6l, 6m shown in FIGS. 6, 7 and 8 have a different arrangement, whereby these engagement elements are arranged mutually offset in the direction of the closure cap axis 10 in such a way that the entirety of the engagement elements 6, 6b, 6c, 6d, 6e, 6f, 6g, 6h, 6l, 6k, 6l, 6m in turn form an internal thread in the circumferential direction U, this internal thread extending essentially by almost 720? in the circumferential direction U. The locking cap according to the invention has the advantage that the total length of the internal thread formed by the engagement elements in the circumferential direction U and/or the pitch of the internal thread can be varied over a wide range by a corresponding arrangement and/or a corresponding number of engagement elements, so that the internal thread can also be designed with multiple threads, for example.

[0050] FIGS. 9 to 11 show a molding tool 20 for producing the closure cap 2 shown in FIGS. 1 to 5. As can be seen from FIG. 9, the molding tool 20 comprises a first molding tool half 21 and a second molding tool half 22, which form a shaping cavity 23, preferably without an undercut, within which the closure cap 2 is produced by filling the cavity 23 with a plastic material by injection molding. In FIG. 9, the cavity 23 is already filled with plastic material. As can be seen from FIG. 10, the two mold halves 21, 22 are mutually displaceable in a linear direction of movement 24, wherein the direction of movement 24 runs parallel to the closure cap axis 10, and wherein the first mold half 21 has finger-shaped webs 21a which run in the direction of movement 24 and are spaced apart from the edge of the first mold half 21 by a gap 21b. As explained in detail in FIG. 11, these finger-shaped webs 21a are used in particular to produce the engagement elements 6, 6b . . . 6m. FIG. 11 shows the molding tool 20 in a fully extended state, in which the manufactured closure cap 2 can be removed. The first molding tool half 21 comprises an inner side surface 21c for producing the outer surface of the cap shell 3, and comprises a plurality of finger-shaped webs 21a, which have a boundary surface 21d at their tip. The second mold half 22 comprises an outer surface 22a for producing the inner surface of the cap shell 3, and comprises a plurality of grooves 22c which end in a boundary surface 22b. A groove 22c is assigned to each finger-shaped web 21a, whereby, as shown in FIG. 9, all finger-shaped webs 21a engage in the corresponding assigned grooves 22c when the molding tool 20 is closed, and internal cavities are formed by the boundary surfaces 21d and 22b and the side walls of the grooves 22c, which serve to produce the engagement elements 6. Each finger-shaped web 21a also creates a breakthrough 4, 4b . . . 4m in the cover disk 5 of the closure cap 2.

[0051] The method for producing a closure cap 2 having a closure cap axis 10, a cover disk 5 and a cylindrical cap shell 3 with at least one engagement element 6 projecting towards the closure cap axis 10 is carried out in such a way that a first mold half 21 and a second mold half 22 form a shaping cavity 23 in the closed state, wherein the outer contour of the closure cap 2 is determined by the first mold half 21, wherein the inner contour of the closure cap 2 is essentially determined by the second mold half 22, wherein the first mold half 21 has a finger-like web 21a which extends in the direction of the closure cap axis 10 and projects into the cavity 23, wherein a cavity part delimiting the engagement element 6 is defined by a mold part 22b of the second mold half 22 and by a tip 21d of the web 21a of the first mold half 21, so that when the cavity 23 is filled with plastic, the closure cap 2 comprising the cover disk and the cap shell 3 with engagement element 6 is produced. The web 21a also creates a breakthrough 4 in the cover disk 5. The two mold halves 21, 22 are displaced linearly relative to each other during opening, and the produced closure cap 2 is preferably released and ejected without forced demolding. The second mold half 22 comprises an end face 22e, in which a groove 22d for producing a sealing lip 11 is advantageously recessed. The groove 22d is preferably shaped in such a way that the sealing lip 11 produced is free of undercuts, so that the sealing lip 22 is removed from the second mold half 22 during a linear movement of the two mold halves 21, 22 in the direction of movement 24 without forced demolding. However, it may also prove advantageous to design the groove 22d in such a way that a sealing lip 11 with an undercut is produced. However, a sealing lip 11 designed in this way would be subject to forced deformation when removed from the second mold half 22.

[0052] FIGS. 12 to 19 show a further embodiment of a cap 2. The cap shell 3 is connected to a warranty tape 8 at the end section opposite the cover disk 5, the free edge 7. The warranty tape 8 is connected to the free edge 7 via a material weakening 9 running around in the circumferential direction U, preferably via a plurality of separating webs 9a spaced apart in the circumferential direction.

[0053] The warranty tape 8 comprises at least a single, and preferably a plurality of locking parts 8b projecting towards the closure cap axis 10. The at least one locking part 8b is arranged in the direction of the closure cap axis 10 below the breakthrough 4, and in particular aligned with respect to the breakthrough 4. Preferably, the warranty tape 8 comprises a plurality of locking parts 8b, 8d, 8f, 8h spaced apart from one another in the circumferential direction U, wherein one locking part 8b, 8d, 8f, 8h is assigned to each of certain breakthroughs 4, 4b, 4c in the direction of the closure cap axis 10. The break-through length 4z of the respective break-through 4, 4b, 4c is greater than or equal to a locking part length 8z of the associated locking part 8a, 8b, 8c. Preferably, both an engagement element 6 and a locking part 8a are assigned to the same breakthrough 4, 4b, 4c in succession in the circumferential direction U, as can be seen, for example, in FIGS. 13 and 14.

[0054] The closure cap 2 shown in FIGS. 1 to 8 could also be provided with a circumferential warranty tape 8. In an advantageous embodiment, the warranty tape 8 is connected to the cap shell 3 via an additional first connecting part 12a and an additional second connecting part 12b, wherein the first and second connecting parts 12a, 12b are advantageously connected to each other via a stronger or stiffer connecting part 14, and/or wherein the second connecting part 12b is connected to the warranty tape 8 via a stronger or stiffer connecting part 15. In addition to the direct connection to the cap shell 3, as shown in FIG. 16, for example, the first connecting section 12a is preferably also connected to the cap shell 3 via a first tear line 13a extending in the circumferential direction U. The first connecting section 12a and the second connecting section 12b are, in addition to the connecting part 14, preferably also connected to one another via a second tear line 13b. In addition to the connecting part 15, the second connecting section 12b is also connected to the warranty tape 8 via the material weakening 9, in particular separating webs 9a. However, the first and/or second tear line 13a, 13b could also be dispensed with.

[0055] A closure cap 2 comprising the first and/or the second connecting section 12a, 12b has the advantage that it is held on a container neck via the warranty tape 8 even after opening. Preferably, the closure cap or the connecting sections 12a, 12b are designed in such a way that the cap shell 3 is inseparably connected to the warranty tape 8, so that a closure cap preferably remains captively connected to a container neck even after it has been opened.

[0056] The closure cap 2 shown in FIGS. 12 to 19 is preferably produced with a molding tool which, in addition to the first and second molding tool halves 21, 22 shown in FIGS. 9 to 11, also comprises two further molding tool halves which are moved perpendicular to the direction of movement 24, and which in particular form the area of the warranty tape 8, and the connecting parts 14, 15 and the connecting parts 12a, 12b, or form the cavity for shaping the said parts. Such a molding tool is designed in particular in such a way that the end cap 2 can be produced and ejected from the molding tool without forced demolding.

[0057] FIG. 21 shows a side view, partly in section, of a container neck 31 of a container body 30. The container neck 31 comprises a pouring opening 32, an external thread 33, a projection 34, also referred to as a pilfer-proof ring, and a container neck ring 35. The container neck 31 has an end face 37 and a container outlet inner face 38. In addition, an end section 36 of the container body 30 is also shown. The sealing cap 2 according to the invention can, for example, be screwed onto such a container body 30. If the closure cap 2 comprises a warranty ring 8, its locking parts 8a, 8b, 8c, 8d preferably come to lie in the direction of the closure cap axis 10 below the projection 34. Advantageously, the locking parts 8a, 8b. 8c, 8d over the projection 34 as shown in FIGS. 22 and 23 in such a way that the warranty ring 8 is guided over the projection 34 in the position shown in FIG. 23, so that the warranty ring 8 then assumes the position shown in FIG. 22. The transfer of the warranty ring 8 is preferably carried out in FIG. 23 in such a way that no plastic deformation occurs on the warranty ring 8 and therefore no excessive tensile forces occur.

[0058] In an advantageous embodiment, the container interior is sealed by the sealing cap 2 in such a way that the end face 37 of the container neck 31 rests against the sealing cap 2. Particularly advantageously, as shown in FIG. 20, the sealing cap 2 also has a sealing lip 11 which rests against the inside of the container neck 38. Particularly advantageously, the container neck 31 comprises an inner container neck side 38 with an end section 39 which widens towards the pouring opening 32 and which advantageously widens conically by a constant angle ?, the angle ? preferably being in a range between 0.5? and 5?. Particularly advantageously, the sealing lip 11 tapers towards its tip, especially advantageously at least in sections conically, at an angle ? that is preferably constant at least in sections. The sealing lip 11 can also be in the form of a sealing cylinder, a hollow cylinder or a sealing cone, for example. For a reliable seal, the container 30 preferably has a container neck 31 whose inner cross-section widens towards the pouring opening 32, and/or the sealing lip 11 preferably has an outer cross-section that tapers exclusively in the opposite direction of the closure cap axis 10 to the cover disk 5, as shown in FIG. 20. The embodiment shown in FIG. 20 is particularly suitable for sealing if the container neck 31 or the container body 30 and the closure cap 2 are made of the same material, in particular a material with a low coefficient of elasticity such as PET or essentially PET.

[0059] FIG. 24 shows a container body 30 whose container neck 31 is designed as part of a bayonet lock. The container neck 31 has a complementary engagement element 40 on its outer side with a sectional part 40a that runs perpendicular to the longitudinal axis of the container neck 31. FIG. 25 shows a closure cap 2 with a total of four engagement elements 6, 6b, 6c, 6d projecting towards the closure cap axis 10, these engagement elements being designed as bayonet locking parts, so that this closure cap 2 is suitable for closing the container body 30 shown in FIG. 24.

[0060] The container body 30, which is closed with the closure cap according to the invention, can be designed in a variety of ways, the container comprising a container neck 31 with an external thread 33 or with a bayonet locking part. The container can, for example, be designed as a bottle or as a cardboard container comprising a container neck.

[0061] Particularly preferably, at least the container neck and the closure cap are made of the same material, in particular generally of polyethylene terephthalate (PET). The entire container body, including the container neck, is particularly preferably made of the same material as the closure cap. This embodiment has the advantage that a container comprising the container body and the closure cap can be recycled particularly easily, especially if the warranty tape or fragments of the warranty tape are still on the container neck after the container has been opened, and in particular are connected to it.

[0062] In an advantageous embodiment, the breakthroughs 4, 4b, . . . 4m of the closure cap 2 could be closed after the closure cap 2 has been manufactured, for example by at least partially filling them with a material such as a plastic. In a further advantageous embodiment, the closure cap comprises an attachment, for example designed as a second cover disk, wherein this attachment has coupling parts extending in the direction of the closure cap axis 10, which are arranged and designed in such a way that they can be inserted into at least one and preferably into all breakthroughs 4, 4b, . . . 4m of the closure cap 2, and preferably can be firmly connected or are connected to the closure cap 2, preferably in such a way that the attachment lies against the first cover disk 5, and preferably lies flat, wherein the diameter of the attachment is preferably selected in such a way that the attachment covers all breakthroughs 4, 4b, . . . 4m. Advantageously, the attachment has the same diameter as the cover disk 5 of the closure cap 2. The attachment can be designed in a variety of ways and could, for example, also be designed as a container or a drinking vessel that is firmly or detachably connected to the closure cap 2.

[0063] The closure cap according to the invention is preferably designed in such a way that the cover disk has a breakthrough in the area of its periphery, and that the engagement element is arranged below the breakthrough in the direction of the closure cap axis and in alignment with the breakthrough in the direction of the closure cap axis.

[0064] In a further, advantageous embodiment, the closure cap according to the invention is designed such that the cover disk has a breakthrough in the region of its periphery, and that the engagement element is arranged below the breakthrough with respect to the breakthrough in the direction of the closure cap axis, wherein the engagement element is arranged in alignment with respect to the breakthrough, wherein this aligned direction does not run parallel to the closure cap axis, but has a different direction and, for example, runs inclined with respect to the closure cap axis. The closure cap can also have a plurality of engagement elements and associated breakthroughs, wherein each engagement element is arranged in alignment with respect to the associated breakthrough, wherein the aligned directions do not run in the direction of the closure cap axis but are parallel and/or inclined to one another.

LIST OF REFERENCE SYMBOLS

[0065] 1 Container closing device [0066] 2 Closure cap [0067] 3 Cap shell [0068] 3a Groove [0069] 4, 4a, 4b, 4c, 4d, 4e, 4f, 4g, 4h, 4l, 4k, 4l, 4m Breakthrough [0070] 4y Breakthrough width [0071] 4z Breakthrough length [0072] 5 Cover disk [0073] 6, 6a, 6b, 6c, 6d, 6e, 6f, 6g, 6h, 6l, 6k, 6l, 6m Engagement element [0074] 6y Engagement element width [0075] 6z Engagement element length [0076] 7 Free edge [0077] 8 warranty tape [0078] 8a, 8b, 8c Locking part [0079] 9 Material weakening [0080] 9a Separating web [0081] 10 Closure cap axis [0082] 11 Sealing lip [0083] 12 Connecting strip [0084] 12a First connecting section [0085] 12b Second connecting section [0086] 13a First tear line [0087] 13b second tear line [0088] 14 Connecting part [0089] 15 Connecting part [0090] 20 Molding tool [0091] 21 First mold half [0092] 21a web [0093] 21b Gap [0094] 21c Inner side surface [0095] 21d Boundary surface [0096] 22 Second mold half [0097] 22a Outer side surface [0098] 22b Boundary surface [0099] 22c Groove [0100] 22d Recess [0101] 22e End face [0102] 23 Shaping cavity [0103] 24 Direction of movement [0104] 30 Container body [0105] 31 Container neck [0106] 32 Pouring opening [0107] 33 External thread [0108] 34 Projection [0109] 35 Container neck ring [0110] 36 End section [0111] 37 End face [0112] 38 Container outlet inner face [0113] 39 Widening end section [0114] 40 Complementary engagement element [0115] 40a Section part [0116] S Pitch [0117] U Circumferential direction [0118] U1 Opening direction of rotation