The invention will be elucidated on the basis of the non-limitative embodiments shown in the following figures. Herein:
FIG. 1
a shows a perspective view of a device for closing a food product container according to the invention,
FIG. 1
b shows a semi-transparent, perspective top view of the device according to FIG. 1a,
FIG. 1
c is a semi-transparent, perspective bottom view of the device according to FIGS. 1a and 1b,
FIG. 1
d is a semi-transparent side view of the device according to FIGS. 1a-1c,
FIG. 2
a shows a perspective view of another device according to the invention in the closed situation,
FIG. 2
b shows a perspective view of the device according FIG. 2a in the opened situation,
FIG. 2
c is a perspective top view of the device according to FIGS. 2a and 2b in closed situation,
FIG. 3
a shows a perspective cross-section of an alternative device according to the invention in closed situation,
FIG. 3
b shows a perspective cross-section of the device according to FIG. 3a in opened situation,
FIG. 3
c is a perspective bottom view of the device according to FIGS. 3a and 3b in closed situation,
FIG. 3
d is a perspective top view of the device according to FIGS. 3a-3c in closed situation, and FIG. 4 shows a schematic cross-section of a soft drink can provided with a device according to the invention.
FIG. 1
a shows a perspective view of a device 1 for closing a food product container (not shown) according to the invention in closed situation. The device 1 comprises a sealing element 2 and an operating element 3 connected rotatably to sealing element 2. Sealing element 2 is adapted to be positioned inside the food product container, and operating element 3 (for a user) is adapted to be positioned outside the food product container. Sealing element 2 and operating element 3 mutually co-act by means of a screw thread connection (see FIGS. 1b-1d). The mutual distance between operating element 3 and sealing element 2 can be changed by means of rotating the operating element 3 relative to sealing element 2. In order to prevent simultaneous rotation of sealing element 2 during rotation of operating element 3, sealing element 2 is locked two-dimensionally by means of two stationary pins (see FIGS. 1c and 1d). The pins herein form part of an intermediate ring (see FIGS. 1c and 1d). Sealing element 2 is provided for this purpose with two receiving spaces 4 for the two pins. Operating element 3 is provided with a projecting coupling flange 5 for clamping the operating element 3 in a wall opening of the food product container. Operating element 3 is provided with a moon-shaped passage opening 6 for the food product held in the food product container. In the shown closed situation of device 1, the passage opening is filled by a likewise moon-shaped projection 7 in order to enable hygienic sealing of the space situated below operating element 3. Operating element 3 is provided with a fin-like projection 8 to facilitate rotation of operating element 3 by the user. In the shown situation the device 1 is closed, whereby removal of food product from the food product container will not be possible. After arranging the shown device 1 on the wall of the food product container, an edge 9 forming part of sealing element 2 will support under bias on the wall, whereby a medium-tight sealing of the food product container can be realized. In the shown device 1 however, there is no physical contact present between the edge 9 of sealing element 2 and the wall, since a sealing layer 10 is arranged between the two. This layer 10 can be fixed by means of an adhesive to the wall or to the edge 9 of sealing element 2. Operating element 3 is provided with a venting opening 11 in order to facilitate removal of—particularly liquid—food product. In venting opening 11 a free end of a rod 12 connected to sealing element 2 is now visible. The rod will break and/or deform permanently once the operating element 3 is rotated relative to sealing element 2. Rod 12 therefore functions in fact as an indicator of whether the device 1 is still sealed or not. Device 1 is arranged in the shown situation on the food product container and marketed commercially as an assembly. Device 1 is preferably manufactured wholly, or in any case at least partially, from plastic. It is also conceivable to manufacture the device 1 from a different material, such as for instance metal.
FIG. 1
b shows a semi-transparent perspective top view of the device 1 of FIG. 1a. In the present view the operating element 3 is shown semi-transparently. The other components are shown in the normal situation of device 1. FIG. 1b shows clearly that the sealing element is provided with a centrally located tubular member 11 provided with an internal screw thread 12. The tubular member 11 is also provided with a protrusion 13 located at a distance from screw thread 12 for the purpose of bounding the maximum relative rotation of operating element 3 and sealing element 2. In the present embodiment the maximum angle of rotation amounts to (substantially) 120°. An opposite boundary of this maximum angle of rotation is formed by the moon-like projection 7 which is bounded in the closed situation by mutual co-action with passage opening 6. The mutual distance between screw thread 12 and protrusion 13 is here minimally the wall thickness of a projecting tubular member which forms part of operating element 3 and which is provided with an external screw thread (see FIG. 1c). Also shown clearly in FIG. 1b is the intermediate ring 14 which is positioned concentrically relative to sealing element 2. The intermediate ring 14 is usually manufactured from plastic and is generally connected fixedly to the wall of the food product container.
FIG. 1
c shows a semi-transparent, perspective bottom view of the device 1 of FIGS. 1a and 1b. In FIG. 1c the sealing element 2 is shown semi-transparently. The other components of device 1 are however shown normally. In the present figure the projecting tubular body 15 forming part of operating element 3 is clearly shown. The body 15 is herein provided with an external screw thread 16 and is provided on an inner side with a projecting counter-protrusion 17. Screw thread 16 is adapted to co-act with the screw thread 12 forming part of sealing element 2. The counter-protrusion 17 is herein adapted to co-act with the protrusion 13 forming part of sealing element 2, as already stated above. The intermediate ring 14 is now also clearly shown, wherein the intermediate ring is provided with the above mentioned pins 18. Pins 18 are herein received in the receiving spaces 4 of sealing element 2, whereby only one-dimensional displacement of sealing element 2 is possible during rotation of operating element 3.
FIG. 1
d shows a semi-transparent side view of the device 1 of FIGS. 1a-1c. Sealing element 2 is once again shown semi-transparently. The wall of the food product container is now shown by means of a broken line 19. After rotation of operating element 3, sealing element 2 will be displaced linearly along the pins 18 in a (downward) direction away from operating element 3, whereby sealing element 2 comes to lie at a distance from wall 19. In this opened situation the food product can be removed along the sealing element and via the wall opening (not shown). In an alternative embodiment the pins 18 are formed integrally by a deformed part of the wall of the food product container. Pins 18 can thus be formed by downward deformation of (punched) parts of the food product container, whereby a passage opening for the food product is also provided situated between pins 18.
FIG. 2
a shows a perspective view of another device 20 according to the invention in the closed situation. The operation very largely corresponds with the operation of the device 1 shown in FIGS. 1a-1d. Device 20 comprises a top element 21, an intermediate layer 22 rotatably connected to top element 21, and a cover element 23 co-acting with top element 21 and intermediate layer 22. Arranged between intermediate layer 22 and cover element 23 is a sealing ring 24 which is connected to intermediate layer 22. Cover element 23 is provided with a receiving opening 25 for a pin 26 forming part of intermediate layer 22. Top element 21 is provided with a handgrip 27 and a profiled edge 28 to facilitate rotation of top element 21. Top element 21 is also provided with a venting opening 29 in which a flexible rod-like member 30 is received in the closed situation. The rod-like member 30 in fact seals the venting opening 29 in the closed situation. When top element 21 is rotated relative to intermediate layer 22 and cover element 23, the rod-like member 30 will be removed from venting opening 29. The cover element will simultaneously be displaced linearly along the pin 26, whereby removal of the relevant food product, usually drink, from the food product container can take place along cover element 23 and via intermediate layer 22 and a passage opening 32 arranged in top element 21 (see FIG. 2b).
FIG. 2
b shows a perspective view of the device 20 of FIG. 2a in the opened situation. FIG. 2b shows clearly that top element 21 and cover element 23 are located a distance from each other, whereby removal of food product from the food product container can take place (see arrow A). Also shown is that rod-like member 30, temporarily deformed, rests against an underside of top element 21 until top element 21 is rotated back to the situation shown in FIG. 2a, whereafter the rod-like member 30 will once again extend into venting opening 29.
FIG. 2
c shows a perspective top view of the device 20 of FIG. 2a and 2b in closed situation. In the closed situation the passage opening 32 is sealed by means of a raised part 33 forming part of cover element 23. Also shown is that handgrip 27 is provided with an eye 34 which co-acts with an elevated member 35 arranged in intermediate layer 22. The elevated member 35 prevents the top element 21 from being able to rotate in undesired and simple manner. Only after overcoming a determined bias can the eye 34 be carried over the elevated member 35, whereafter unimpeded rotation of top element 21 through a determined angle is made possible. Top element 21 can in fact therefore be locked in the closed position of device 20.
FIG. 3
a shows a perspective cross-section of an alternative device 36 according to the invention in closed situation. Device 36 is arranged on a cover 37 of a drink can. Device 36 comprises an internal element 38 and an external element 39 co-acting with internal element 38. Internal element 38 is provided for this purpose with a cylindrical member 40 provided with an internal screw thread 41, and external element 39 is likewise provided with a cylindrical member 42 provided with an external screw thread 43. Rotation of internal element 38 is prevented by locking of internal element 38 on one side. The one-sided locking is realized by mutual co-action of an irregular portion 44 arranged in cover 37 on the one hand and two fixation protrusions 45 forming part of internal element 38 and engaging on either side on the irregular portion 44 on the other. A part of external element 39 is arranged with clamp fitting in a passage opening for drink arranged in cover 37. External element 39 herein engages on cover 37 on two sides. External element 39 is provided for this purpose with a projecting flange 46 for engaging on the inner side of cover 37, and a supporting edge 47 for engaging on an outer side of cover 37. External element 39 is also provided with a drinking opening 48 for a user, which drinking opening 48 is filled in the shown, closed situation by a plunger member 49 forming part of internal element 38. In the shown situation a sealing edge 50 forming part of internal element 38 engages under bias on cover 37. A sealing edge (not shown) is preferably arranged between sealing edge 50 and cover 37 in order to ensure a long-term medium-tight sealing of the drink can. When external element 39 is rotated, internal element 38 will move linearly in a direction away from cover 37, whereafter sealing edge 50 also comes to lie at a distance from cover 37, whereby the can is thus opened and removal of drink is made possible. This opened situation is shown in FIG. 3b. In the shown situation the maximum rotation of external element 39 has been reached, as a lip 51 forming part of external element 39 engages on an edge 52 forming part of cover 37. FIG. 3b also shows that plunger member 49 of internal element 38 has an surface with an inclining orientation relative to a remaining part of device 36. The higher situated part of plunger member 49 herein forms a boundary to excessive rotation of external element 39 in the direction of the closed position as shown in FIG. 3a.
FIG. 3
c shows a perspective bottom view of device 36 of FIGS. 3a and 3b in closed situation. FIG. 3c shows in particular the mutual co-action of the irregular portion 44 and the fixation protrusions 45 enclosing the irregular portion 44, whereby rotation of internal element 38 relative to cover 37 and external element 39 can be prevented.
FIG. 3
d shows a perspective top view of device 36 of FIGS. 3a-3c in closed situation. Passage opening 48 of external element 39 is now filled by plunger member 49. FIG. 3d also shows that external element 39 is provided with venting opening 53 to make it possible to prevent gurgling removal of drink. External element 39 is moreover provided with a profiled edge 54 to facilitate rotation of external element 39 for the user.
FIG. 4 shows a schematic cross-section of a soft drink can 55 provided with a device 56 according to the invention. Can 55 is filled with a carbonated soft drink 56. Can 55 is constructed from a base element 57, a body 58 connected to base element 57 and a cover 59 seam-folded round body 58. Cover 59 is provided with a passage opening 60 for drink. Device 56 is coupled to cover 59 and is adapted for renewed medium-tight sealing of cover 59. Cover 59 comprises for this purpose a guide means 61 connected fixedly to cover 59 and provided with a receiving space 62 for a slide 63 connected in guiding manner to guide means 61. Slide 63 is coupled by means of a flexible element 64 to a sealing element 64 located in can 55. By sliding the slide 63 along guide means 61 (arrow A) and positioning it on receiving space 62, sealing element 64 can be pulled firmly against cover 59 (arrow B) such that a medium-tight sealing is created. Cover 59 is however now provided with a rubber ring 65 to ensure the medium-tight sealing. So as to stabilize the position of sealing element 64 to some extent, cover element 64 is provided with a pin 66 which protrudes with clamp fitting through an opening 67 arranged in cover 59. A seal 68 is likewise arranged between pin 66 and opening 67. In order to facilitate displacement of slide 63, this latter is provided with a handgrip 69.
It will be apparent that the invention is not limited to the exemplary embodiments shown and described here, but that numerous variants, which will be obvious to the skilled person in the field, are possible within the scope of the appended claims.