Classifications

• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D17/00—Rigid or semi-rigid containers specially constructed to be opened by cutting or piercing, or by tearing of frangible members or portions
  • B65D17/50—Non-integral frangible members applied to, or inserted in, preformed openings, e.g. tearable strips or plastic plugs
  • B65D17/506—Rigid or semi-rigid members, e.g. plugs
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D47/00—Closures with filling and discharging, or with discharging, devices
  • B65D47/04—Closures with discharging devices other than pumps
  • B65D47/20—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge
  • B65D47/26—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge with slide valves, i.e. valves that open and close a passageway by sliding over a port, e.g. formed with slidable spouts
  • B65D47/28—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge with slide valves, i.e. valves that open and close a passageway by sliding over a port, e.g. formed with slidable spouts having linear movement
  • B65D47/286—Closures with discharging devices other than pumps comprising hand-operated members for controlling discharge with slide valves, i.e. valves that open and close a passageway by sliding over a port, e.g. formed with slidable spouts having linear movement between planar parts
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D53/00—Sealing or packing elements; Sealings formed by liquid or plastics material
  • B65D53/02—Collars or rings
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D85/00—Containers, packaging elements or packages, specially adapted for particular articles or materials
  • B65D85/70—Containers, packaging elements or packages, specially adapted for particular articles or materials for materials not otherwise provided for
  • B65D85/72—Containers, packaging elements or packages, specially adapted for particular articles or materials for materials not otherwise provided for for edible or potable liquids, semiliquids, or plastic or pasty materials
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D2205/00—Venting means
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D2205/00—Venting means
  • B65D2205/02—Venting holes
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D2401/00—Tamper-indicating means
  • B65D2401/15—Tearable part of the closure
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D2517/00—Containers specially constructed to be opened by cutting, piercing or tearing of wall portions, e.g. preserving cans or tins
  • B65D2517/0001—Details
  • B65D2517/0031—Reclosable openings
  • B65D2517/004—Reclosable openings by means of an additional element
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D2517/00—Containers specially constructed to be opened by cutting, piercing or tearing of wall portions, e.g. preserving cans or tins
  • B65D2517/0001—Details
  • B65D2517/0031—Reclosable openings
  • B65D2517/0046—Unusual reclosable openings
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D2517/00—Containers specially constructed to be opened by cutting, piercing or tearing of wall portions, e.g. preserving cans or tins
  • B65D2517/0001—Details
  • B65D2517/0091—Means for venting upon initial opening
• • B—PERFORMING OPERATIONS; TRANSPORTING
  • B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
  • B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
  • B65D2517/00—Containers specially constructed to be opened by cutting, piercing or tearing of wall portions, e.g. preserving cans or tins
  • B65D2517/0001—Details
  • B65D2517/0091—Means for venting upon initial opening
  • B65D2517/0094—Means for venting upon initial opening formed as a separate opening
• • Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
  • Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
  • Y02W—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
  • Y02W30/00—Technologies for solid waste management
  • Y02W30/50—Reuse, recycling or recovery technologies
  • Y02W30/80—Packaging reuse or recycling, e.g. of multilayer packaging

Definitions

• the present invention relates to a closure system for beverage containers, in particular beverage cans.
• the closure system according to the invention enables the beverage container to be opened and closed again.
• Beverage cans are one of the most important commercial packaging for beverages. They are mainly used for carbonated drinks, especially for beer, lemonades and energy drinks, and usually have an internal pressure resistance of at least 6.2 bar. Beverage cans used today mostly consist of a one-piece, essentially cylindrical container made of aluminum or tinplate and a - usually crimped - lid made of aluminum. To make it easier to open, the lid has a mostly oval scoring line, as well as a riveted metal flap that presses the scratched oval into the inside of the can by lever action and thus creates a drinking opening. This built-in can opener is also known as a "stay-on-tab".
• beverage cans for consumers are primarily their low weight, their unbreakability and the possibility of using them directly as a drinking vessel after opening.
• beverage manufacturers there is also the high barrier effect, since the neutrality of the material for flavors and the simultaneous light protection effect offer good protection even for sensitive products and enable a long shelf life.
• Another object is to provide such a closure system with a guarantee seal, which makes unopened from reclosable containers easily, in particular optically, distinguishable.
• Another object is to provide such a closure system which is particularly compact, in particular does not enlarge the external dimensions of the container and does not impair the stackability of the container.
• Another object is to provide such a locking system that can be manufactured with little design effort.
• Another object is to provide such a closure system which is designed for a pressure of at least 6.2 bar. Another object is to provide a can lid for a beverage can with such a closure system and a beverage can with such a closure system.
• Another object is to provide such a can lid with such a locking system, the can lid being connectable to the remaining can body to form a beverage can using existing machines and methods.
• Another object is to provide such a can lid and beverage can that can be stacked, in particular where the closure system is so flat that the outer dimensions of the can lid or beverage can are not enlarged or their stackability is adversely affected.
• a first aspect of the present invention relates to a closure system for a beverage container, for example a beverage can.
• the closure system has a closure element for closing a drinking opening of a lid of the beverage container and an operating element for manually opening the drinking opening by a user.
• the closure element can be positioned on an underside of the cover and can be firmly connected to the control element on the top of the cover.
• the closure element is designed to cover the entire opening of the drinking opening in a closed position to cover.
• the control element and the closure element can be arranged to be movable along a first axis, which runs essentially parallel to the top of the cover.
• Movement of the control element in a first direction along the first axis can cause movement of the closure element from the closed position and opening of the drinking opening, and movement of the control element in a second direction opposite to the first direction along the first axis Closure element in the closed position and a reclosing of the drinking opening can be effected.
• the lid When put together, the lid also belongs to the closure element.
• the closure element has said lid with an upper side, an underside and a drinking opening, furthermore a closing element for closing the drinking opening and an operating element for manually opening the drinking opening by a user.
• the closure element is then positioned on the underside of the cover and firmly connected to the control element on the top of the cover.
• the closure element is designed to cover the entire area of the drinking opening in a closed position, and the operating element and the closure element are arranged to be movable along a first axis, which runs essentially parallel to the top of the lid.
• Moving the control element in a first direction along the first axis causes the closure element to move out of the closed position and opens the drinking opening, and moving the control element in a second direction opposite the first direction along the first axis results in a (back) movement of the closure element in the Closed position and thus a reclosing of the drinking opening.
• the closure system has at least one security and / or control element, this control element being designed such that it
• Such a security element which does not necessarily have to provide a control function, secures this
• Control element preferably against displacement.
• the second state can be assumed irreversibly.
• the control element maintains the second state in particular when the control element is moved back in the second direction or when the closure element is moved back into the closed position.
• Such a control element enables a user to recognize whether the beverage container is still unopened or whether the closure system has already been used to open and reclose the container.
• control element has at least one control web attached from the outside (ie visible to the user), the control web being arranged and designed such that it is broken when the control element is moved in the first direction, or when the closure element is moved out of the closure position.
• the control web (s) can each have a predetermined breaking point.
• control element is arranged and designed such that the movement of the control element in the first direction causes an evasive movement of the control element, which causes the at least one control web to break.
• control element is attached to the control element by means of one or more crossbars (e.g. by means of at least two crossbars). These preferably ensure that the control element can be moved about a tilt axis orthogonal to the first axis.
• the at least one control web preferably runs along the first axis and can in particular be attached to both the control element and the control element.
• control element is arranged on the control element in such a way that it collides with the cover when the control element is moved in the first direction, the evasive movement being effected in whole or in part by the collision, and wherein the evasive movement includes tilting the control element about the tilt axis .
• control webs break through the tilting movement about an axis orthogonal to the alignment of the control webs.
• the securing and / or control element can be operated with the control element also be connected by a hinge.
• the hinge can be provided as a notch in the control element.
• the hinge preferably defines a tilt axis that is orthogonal to the first axis.
• the securing or control element can have one or more control webs which connect the securing or control element of the control element to the handle and are intended to break when the handle is lifted, and thus to make the lifting of the handle irreversibly visible.
• control element has an elevation on its underside, which is arranged such that it collides with the cover when the operating element moves in the first direction.
• the elevation can be designed as a hook.
• the evasive movement is at least partially effected by this collision.
• the elevation can, for example, rest on the edge of the drinking opening or at the end of a guide slot in the drinking opening on the lid.
• the closure element can have a depression, the elevation projecting into this depression.
• control element is made in one piece with the control element.
• control element is designed as an integral part of the control element and consists of the same material.
• control element and the control element can be made of aluminum.
• control element is provided on the closure element. In the first state it intervenes an opening of the cover and is then visible from the outside through a viewing opening of the control element.
• control element can be designed and positioned relative to the opening of the cover in such a way that it breaks when the control element is moved in the first direction or when the closure element is moved out of the closed position.
• the drinking opening has a guide slot which runs along the first axis, and the control element and / or the closure element have a guide element which engages in the guide slot, so that the control element can only be moved along the first axis.
• This guide element can also serve, for example, to firmly connect the control element and the closure element to one another.
• the guide slot and the drinking opening can merge into one another and / or be designed as a continuous common opening.
• the guide slot is optional.
• the drinking opening is preferably round, oval or crescent-shaped.
• the closure element has at least one notch which is arranged such that when the closure element moves from the closure position, the drinking opening is first opened by the notch.
• the notch can be arranged, for example, adjacent to an edge section of the drinking opening, in particular an edge section of the drinking opening, which is released first when the closure element moves from the closure position into the open position.
• the notch can be like this be arranged on the closure element such that it is positioned on the first axis when the closure element is in the closure position.
• the lid has a notch or opening on the first axis, and the closure element is designed to cover the notch or opening in addition to the drinking opening in the closed position.
• the notch on the drinking opening, or the opening next to the drinking opening is arranged such that when the closure element moves from the closing position, the notch or opening is opened in front of the drinking opening.
• the notch or opening can be arranged, for example, adjacent to an edge section of the drinking opening, in particular an edge section of the drinking opening, which is first released when the closing element moves from the closing position into the open position.
• the cover has at least one recess, which is arranged relative to the closed position of the closure element such that the movement of the closure element from the closed position, ie. H. in particular a movement in the first direction, which at least one recess is completely or partially covered by the closure element.
• the at least one depression can be embossed or punched - either in the top or the bottom of the lid.
• said at least one depression is arranged in such a way and the closure element is dimensioned such that when the closure element moves out of the closure position, the at least one depression is at least partially covered by the closure element before the drinking opening is opened, and gas exchange is thereby made possible - ie between the top and bottom of the lid or can interior and surroundings - if the at least one depression is partially covered by the closure element, in particular if at the same time the drinking opening (including the guide slot, if present) is at least partially covered by the closure element.
• the gas exchange is used in particular to compensate for an overpressure and / or underpressure in the beverage container.
• the at least one depression is made in the underside of the lid, and the gas exchange takes place through the at least one depression.
• the depressions can in particular be produced (e.g. embossed or punched) in such a way that each depression corresponds to an elevation on the top of the lid.
• the at least one depression is made in the top of the lid in such a way that there is an elevation corresponding to the depression on the underside of the lid, the closure element being spaced apart from the underside of the lid by covering the at least one depression. and the gas exchange takes place past the at least one elevation, for example in an intermediate space between two elevations.
• the closure element and the control element are firmly connected either by a welded connection, an adhesive connection, a riveted connection or a latching connection.
• a single weld especially a single weld Ultrasonic or friction welding
• a single weld in particular a single ultrasonic weld
• a single weld is provided in the area of the connection between the fastening bolt of the closure element and the recess in the control element.
• the length of such a fixed connection is preferably not variable and / or non-rotatable.
• the distance between the operating element and the closure element in the area of the connection is preferably fixed and / or not variable and / or the two elements cannot be rotated relative to one another.
• the closure element has a fastening bolt and the operating element has a cutout, the fastening bolt being inserted into the recess for the fixed connection of the closure element and the operating element.
• the fastening bolt can have barbs for snapping onto the operating element, and / or can engage in a guide slot of the drinking opening which runs along the first axis.
• the operating element has a handle which rests on the can lid, the handle on the underside being preferably bevelled, and can be set up by at least 45 °, in particular at least 90 °, by a pivoting movement about a pivot axis orthogonal to the first axis is.
• the handle on the underside being preferably bevelled, and can be set up by at least 45 °, in particular at least 90 °, by a pivoting movement about a pivot axis orthogonal to the first axis is.
• it can
• the control element with the handle can be made in one piece, the control element having a notch acting as a hinge in the top, which runs along the pivot axis, or
• the handle can be designed semi-ring-shaped, the
• both the cover and the control element are made of aluminum, and the locking element can also be made of aluminum.
• the closure element is adapted to a shape of the cover with regard to its outer shape.
• the closure element can be oval or elliptical and have a greater length along a second axis orthogonal to the first axis than along the first axis.
• a second aspect of the invention relates to a beverage container with a closure system according to the first aspect of the invention.
• the beverage container is a beverage can, comprising an essentially cylindrical body for holding liquids, in particular carbonated beverages.
• the can can be made in particular from tinplate or aluminum.
• the lid of the closure system can be attached to the box by a fold connection.
• closure system in the case of beverage cans known from the prior art can replace the lid with the “stay-on tab”.
• Fig. 1 is a beverage can with an exemplary
• Fig. 2 shows a first embodiment of the invention
• Fig. 3 shows the main components of the first embodiment of the closure system in an exploded view
• Closure element as part of the first embodiment of the closure system
• Control element as part of the first embodiment form of the closure system
• Embodiment of the can lid show a fourth and a fifth exemplary embodiment of the can lid;
• Control element as part of a closure system according to the invention
• 16a-c show various exemplary configurations of the
• Fig. 20 shows another design of a lid for
• Closure element for use with the lid of Fig. 20;
• FIG. 1 shows a beverage can 2 as an exemplary embodiment of a beverage container with a closure system 1 according to the invention.
• the beverage can 2 shown as an example can be used for all types of beverages, in particular for carbonated beverages such as beer, lemonades and energy drinks. It has an internal pressure resistance of at least 6.2 bar. It has a one-piece, essentially cylindrical container made of aluminum or tinplate, and - as part of the closure system 1 - a crimped lid, for example made of aluminum. For crimping, for example, a flanged edge of the can can be folded over once, and that of the lid twice, so that the resulting folded connection consists of a total of five metal layers that form-fit.
• the locking system 1 according to the invention can be used for crimping, for example, a flanged edge of the can can be folded over once, and that of the lid twice, so that the resulting folded connection consists of a total of five metal layers that form-fit.
• the locking system 1 according to the invention can be used for crimping, for example, a flanged edge of the can can be folded over once, and that
• Beverage cans can also be used for other types of packaging, for example for beverage cartons or bottles.
• the other components of the locking system are fixed to the lid.
• FIG. 2 shows a first exemplary embodiment of the closure system 1 prior to attachment to the beverage can 2 from FIG. 1.
• this has the lid 10, the top 12 of which is visible here.
• an operating element 30 is shown, which is on the top 12 the lid is provided and allows a manual opening of the can by a user.
• FIG. 3 shows the Hauptko components of the first embodiment of the closure system 1 in an exploded view. These main components are the lid 10 with a drinking opening 14, the operating element 30 and a closure element 20 for covering the drinking opening 14 from the underside of the lid.
• the described closure system 1 can, on the one hand, comprise the closure element 20 and the operating element 30 (and possibly the sealing ring 50), which are fastened to one another around a suitable cover 10, before this cover is then assembled into a can with a cylindrical body.
• the described closure system 1 can also include the lid 10 itself.
• an optional sealing ring 50 which can be made of silicone or rubber, for example, and can be attached to the closure element 20. If the closure element, as shown here, has a notch 23, the sealing ring can preferably be shaped such that it has an indentation 53 corresponding to the shape of the notch 23. Since the sealing ring 50 can come into contact with the beverage, it is preferably designed to be food-safe and free of plasticizers. It can optionally have a hydrophobic surface.
• the cover 10, the closure element 20 and the control element 30 can be made of the same material, for example of aluminum.
• the production can be carried out using known methods, for example by casting or stamping.
• the closure element 20 and the control element 30 can also consist of non-metallic materials, for example plastics.
• Polycarbonate in particular can be used as the material; the components can then be manufactured, for example, by injection molding.
• the closure element 20 and the control element 30 can be made transparent.
• the closure element 20 and the control element 30 are designed in such a way that they can be firmly connected to one another after assembly through the drinking opening 14, for example by means of welding, gluing, barbs or other mechanical methods.
• Figures 4a to 4d show a first embodiment of the closure element 20.
• Figure 4a is a perspective view of the closure element 20, and
• Figure 4b shows a plan view of the same closure element 20.
• On the top 21 there is a recess 26 and a fastening bolt 28 for connection to the control element 30 (not shown here) provided.
• An outer seal 24 and an inner seal 25 are arranged concentrically and serve to seal against the underside of the lid (not shown here).
• a constant pressure of the seals 24 and 25 on the underside of the lid ensures a hermetic seal.
• An optional central elevation 27 ensures - in particular if the control element is curved - an equal distance between the cover on the one hand and the top of the closure element 20 and the underside of the control element on the other.
• the closure element 20 has a notch 23, the seals 24 and 25 are also notched accordingly. Notch 23, mounting bolt 28 and recess 26 are arranged along a first axis A. A second axis B runs at right angles to this.
• FIG. 4c shows a sectional view of the closure element 20 along the axis B, and FIG. 4c shows a sectional illustration of the along the axis A.
• the underside 22 of the closure element 20 facing the can interior is also optionally shown a sealing ring made of silicone or rubber (see FIG. 3) can be provided on or between the seals 24 and 25.
• the closure element 20 can be round as shown, but can also have other shapes (for example, be semicircular or polygonal in shape).
• the shape can, for example, be at least partially adapted to the shape of the drinking opening to be covered.
• the closure element 20 can be oval or elliptical.
• an oval or elliptical closure element is preferably wider along the second axis B than along the first axis A.
• Figures 5a to 5b show a first embodiment of the control element 30.
• Figure 5a is a perspective view of the top 31 of the control element 30.
• a recess 38 together with the fastening bolt 28 of the closure element (not shown here) serves to connect the two elements.
• the recess 38 can optionally have barbs into which the fastening bolt 28 can snap.
• the fastening bolt 28 inserted into the recess 38 can be fixed by welding or gluing.
• the control element 30 has a securing or control element 34.
• Control element 34 can display this as a kind of seal of quality for the integrity of the can contents as long as the closure system has not been opened.
• the control element 34 is opened, it is changed irreversibly and visually. In particular, this allows a user to easily recognize whether the can is still in its original state or whether it was already open and closed again.
• the securing or control element 34 which can be configured to be round, is connected to the main part of the operating element 30 via two transverse webs 35. It has two control webs 36 which are arranged orthogonally to the rotary webs 35 and which are designed to break when the closure system is opened.
• turnstiles 35 are optional in this respect.
• the securing or control element 34 could also be connected to the remaining control element 30 via a hinge (not shown).
• control webs 36 are also optional.
• a handle 33 which is connected as a tab to the rest of the control element 30 via a notch 37 which acts as a hinge.
• FIGS. 5b and 5c show a section through the control element 30 and illustrate the use of the handle to open the locking system.
• the handle 33 is preferably chamfered in order to make it easier for a user to grip and pull up the handle resting on the can lid.
• Around the hinge 37 one Pivoting movement 7 of the handle 33 takes place, preferably by up to 135 °. With the handle 33 raised in this way, the operating element 30 can simply be moved out of its original closed position by pulling 8 on the handle along the axis A in order to open the can.
• Figure 6a shows the first embodiment of the closure system 1 in a plan view. Three axes A, B and C are shown, the first axis A running along the direction of movement of the control element, and the axes B and C orthogonal to this.
• the axis B intersects the axis A at the level of the fastening bolt 28 of the closure element and the recess 38 of the control element, and axis C at the level of the control element 34 (cf. FIGS. 4a and 5a).
• FIGS. 6b, 6c and 6d each show a sectional illustration along one of these axes. 6b shows a section through the closure system 1 along the first axis A, FIG. 6c shows a section along the axis B, and FIG. 6d shows a section along the axis C.
• control element 30 is mounted above and the closure element 20 below the cover 10.
• the fastening bolt 28 engages through the drinking opening of the lid into the cutout of the operating element 30 and ensures (for example by hooking, welding or gluing) a firm, twist-free connection of the operating and closing element.
• the operating and locking element can also be riveted.
• the control element 30 can be designed curved.
• the control element 30 preferably acts as a plate spring, which is supported in an outer area on the cover 10 and so pushes a central region of the actuating element away from the cover 10.
• the closure element 20, in particular its seal 24 and / or its seal 25 is preferably pressed onto the underside 12 of the cover 10.
• the middle area can be set back from the outside area or can be concave, in particular upwards.
• the actuating element can be supported on the upper side of the cover 10 via the outer region.
• the control element 34 lies above the recess 26 of the closure element and is connected to the control element at the crossbars 35.
• the control webs 36 connect the control element 34 to the control element along the first axis A.
• the control element 34 has on its underside a peg-shaped elevation 39, which on the edge of the drinking opening or at the end of a guide slot in the drinking opening (see FIG. 7a) on the can lid 10 is present.
• the control element 34 and its elevation 39 are positioned and such that a movement of the control element along the first axis A (opening movement 8) necessary for opening the can leads to a collision of the control element 34, or the elevation 39, with the top of the Can lid 10 leads, wherein an evasive movement of the control element 34 takes place.
• An upward movement 5, a rotary movement 6 about the axis C or a combination of the two movements 5, 6 can take place as the evasive movement of the control element 34, for example as a result of the fastening of the control element 34 by means of the optional transverse webs 35 the can is inevitably triggered by the closure system, the control webs 36 are broken.
• An opening of the can without destroying the control bars is according to this embodiment of the Accordingly, locking system according to the invention excluded.
• the control webs 36 have a tolerance, in particular production-related, so that a certain force has to be applied in order to break them and thus to be able to open the can.
• the control element is then positioned and designed such that the opening movement 8 generates evasive movements 5, 6 that exceed this tolerance.
• the control webs can preferably have 36 predetermined breaking points.
• each of the control webs 36 can have an essentially triangular shape, one corner of the triangle representing the connection with the control element 34 and (as the thinnest point of the control web 36) also serving as a predetermined breaking point.
• the cover 10 can optionally be curved outwards (or upwards).
• the control element 30 and / or the closure element 20 have a corresponding curvature in this case. This advantageously reinforces the seal by the closure element 20.
• the closure system is dimensioned in such a way that the stackability of several can lids provided with the closure system is not impaired.
• the stackability of several beverage cans designed with such a can lid is also not impaired.
• the operating element 30 and the closure element 20 are each designed to be sufficiently flat to ensure processing of the can lid (including the closure system) in existing machines and processes in which the lid is attached to the can.
• FIGS. 7a-b, 8a-b and 9a-b show various exemplary embodiments of the lid 10 or the drinking openings 14.
• Figures 7a and 7b show a first embodiment.
• Figure 7a shows the can lid 10 from above. Shown is the top 11 of the lid with the drinking opening 14.
• the fold edge 13 is located all around the top for connecting the lid 10 to the can 2 (see FIG. 1).
• the fold edge 13 is increased compared to the top 11 of the lid (core depth).
• Figure 7b shows the underside 12 of the same cover.
• the first embodiment of the lid 10 has a drinking opening 14 with a guide slot 17 which runs along the axis A and which specifies the directions of movement for opening and reclosing the can.
• the fastening bolt of the closure element can engage in the guide slot 17 and be guided along this when the can is opened.
• FIGS. 8a and 8b show, as second and third exemplary embodiments of the cover 10, two modifications of the first embodiment of FIGS. 7a and 7b.
• the drinking opening 14 has a notch 15 opposite the guide slot 17.
• a small opening 16 is provided next to the drinking opening 14 opposite the guide slot 17.
• Notch 15 and opening 16 are each positioned so that they are covered by the closure element 20 (not shown here) as long as the can is closed. They can be provided in addition or as an alternative to the notch 23 of the closure element and allow - particularly in the case of carbonated drinks - a gentle compensation of the excess pressure in the can when it is opened.
• they are advantageously arranged on the first axis A, since there is no cover element by the closure element when the closure element is opened along this axis.
• FIGS. 9a and 9b show, as fourth and fifth exemplary embodiments of the lid 10, two modifications of the embodiments shown in FIGS. 8a and 8b with a notch 15 and an opening 16.
• the drinking opening 14 is essentially circular and without one Guide slot designed. In principle, however, various other shapes known from the prior art can also be used for the drinking opening.
• FIGS. 10a and 10b illustrate the process of opening the can using the closure element 20.
• FIG. 10a shows the lid 10 with the closure element 20 underneath from above
• FIG. 10b shows the same configuration from below.
• the control element 30 is not shown here for the sake of clarity.
• FIG. 10b shows the underside 22 of the closure element 20 from below in front of the underside 12 of the can lid 10. After the opening movement 8, the drinking opening 14 is exposed.
• the underside 22 of the closure element 20 comes into contact with the contents of the can and is accordingly preferably insensitive and food-safe designed. In particular, it can be smooth and flat.
• the bottom 22 in contrast to the top 21) has no features characterized by elevations or depressions.
• Figure 10a shows the top 11 of the can lid 10 with a folded edge 13 and a drinking opening 14.
• the closure element 20 which rests with its top 21 on the can lid and through an outer seal 24, an inner one Seal 25 and a central elevation 27 causes a sealing of the part of the cover underside covered by the closure element 20. It can be seen that the fastening bolt 28 is guided in the guide slot of the drinking opening along the first axis A.
• FIG. 11a and 11b illustrate (analogous to Figures 10a and 10b) the process of reclosing the can.
• 11a shows the cover 10 with the closure element 20 located underneath from above, and FIG. 11b shows the same configuration from below.
• the control element 30 is also not shown here for the sake of clarity.
• the closure element 20 is in its closed position under the drinking opening 14 and thus prevents the can contents from escaping.
• the closure element 20 initially occupies this position and after a closing movement 9, by means of which the can can be closed again after it has already been open.
• the closing movement 9 runs along the first axis A and counter to the opening movement 8 (cf. FIG. 10a).
• the fastening bolt 28 is in the closed position of the closure element 20 at the beginning position of the guide slot.
• Figures 12a and 12b show a second embodiment of the control element 30 with an alternative embodiment of the control element 40.
• Figure 12a shows the control element 30 from above, and Figure 12b from below.
• the control element 40 has a locking element 41, which is provided to snap into place on the edge of the cover when the closure system is being assembled.
• the locking element 41 is fastened to the control element via a hinge 43, which enables this locking.
• the control element 40 has two control webs 42 on the blocking element 41. When the control element 30 moves away from the edge of the can lid, these control webs 42 break, whereby an opening of the can remains visible even after it has been closed again.
• the control element 30 is shown purely by way of example with the two differently designed control elements 34 and 40.
• the control element 30 can of course also be equipped with only one of the two control elements or also with a differently designed control element that serves the same purpose, ie. H. to indicate to a user whether the locking system has already been opened.
• FIGS. 13a to 13d show a further exemplary embodiment of a closure system according to the invention, the closure system having an alternative control element.
• FIG. 13a shows the cover 10 of this embodiment of the closure system. This is shown from below, so that the underside 12 with the drinking opening 14 and a guide slot 17 is visible. In the extension of the A further elongated opening 48 is provided in the guide slot 17.
• Figure 13b shows the closure element 20 of this embodiment of the closure system.
• a recess 26 and a fastening bolt 28 are provided on the upper side 21 for connection to the control element 30 (not shown here).
• An outer seal 24 and an inner seal 25 serve to seal against the underside of the lid (not shown here).
• the closure element 20 shown here additionally has a control element 45 in the form of a rod.
• This control rod 45 is attached to the edge of the recess 26.
• Rod 45 and recess 26 are dimensioned such that the rod fits into the recess.
• the control rod 45 is shown cylindrical here, it can also be shaped differently. In particular, it can be conical, in the form of a half-cylinder or cuboid.
• the rod 45 is positioned on the closure element 20 such that it is in a closed position of the closure element 20, i. H. in a position in which the closure element 20 covers the drinking opening 14, engages in the elongated opening 48 of the lid 10 (see FIG. 13a).
• FIGS. 13c and 13d show the control element 30 of this embodiment of the locking system from above and from below.
• Figure 13c shows the top 31 of the control element 30.
• the control element 30 shown here has no control element. Instead, a viewing opening 46 is provided, which is positioned above the control rod 45 of the closure element 20 when the control element 30 and the closure element 20 are connected to one another - for example by means of fastening bolts 28 and recess 38.
• control element 30 has control bars 44, which connect the main part of the control element to the handle 33 and are intended to break when the handle 33 is lifted (see FIGS. 5a-c), and thus the lifting of the handle 33 is irreversible make visible. It goes without saying that this embodiment of the handle 33 can also be combined with the previously illustrated embodiments of the control element 30.
• FIG. 13d shows the underside 32 of the control element 30.
• a chamfered depression 47 can be seen at the view opening 46, which is positioned above the depression 26 of the closure element 20 when the control element 30 and the closure element 20 are connected to one another.
• the embodiment of the closure system shown in FIGS. 13-d has an alternative control system in order to make an original closed can clearly distinguishable from a closed one.
• the control rod 45 acts as a control element. In the original closed state, the control rod 45 engages through the cover opening 48 into the viewing opening 46 in the operating element 30 and is visible there to the consumer.
• An upper side of the control rod 45 can preferably be colored in order to improve the visibility.
• the control rod 45 bumps against the can lid 10 and breaks.
• the control rod 45 can preferably have a predetermined breaking point in order not to break in an uncontrolled manner and possibly to block the opening process.
• the broken control rod 45 is replaced by the chamfered recess 47 in the underside 32 of the operating element 30 and tilted by the opening movement and comes to rest in the recess 26 on the upper side 22 of the closure element 20.
• the control rod is therefore no longer visible in the viewing opening.
• the sides of the control rod 45 can be designed in a different color than the upper side, so that the opening that has occurred can be recognized by the color in the viewing opening 46.
• the closure element 20 can also have an oval or elliptical basic shape in addition to the round one shown.
• FIGS. 14a-c show a second exemplary embodiment of the closure element 20.
• the closure element 20 is shown from above, so that the top side 21 with the elements arranged thereon (and already with reference to FIGS. 4a-d or 13b) shown) is visible.
• These features include the outer seal 24 and the inner seal 25 with the notch 23, the recess 26, the central projection 27 and the fastening bolt 28.
• the control rod 45 is part of the closure element 20 here.
• the closure element 20 in this embodiment has a contour region 29 which gives the closure element an oval shape overall. The contour area 29 is adapted to the can lid in terms of shape and size.
• FIGS. 14b and 14c show the closure system 1 with the closure element from FIG. 14a from below.
• the underside 12 of the can lid and the underside 22 of the closure element can be seen in each case.
• the closure element is in the closed position - the drinking opening is completely covered.
• the can is opened in FIG. 14c.
• the closure element has been moved out of the closure position along the first axis A, so that the drinking opening 14 is exposed.
• the shape of the closure element adapted to the can lid improves the stability of the closure system 1 on the one hand and prevents an excessive opening or reclosing movement of the closure system on the other hand.
• FIGS. 15a-c show a further exemplary embodiment of the closure system 1.
• the closure system is shown from below, so that the underside 12 of the can lid and the underside 22 of the closure element are visible.
• the closure element here is purely by way of example that shown in FIGS. 14a-c.
• the can lid has one or more recesses 18, which can be elongated, for example. These can be introduced into the top or bottom of the cover, for example by punching or embossing become. These deformations, which can also be implemented as grooves or grooves, serve on the one hand to increase the stability and strength of the cover. On the other hand, they can serve as ventilation channels for gas exchange, so that this embodiment has no notches on the closure element or on the drinking opening.
• air can escape from the can in a controlled manner and outside air can flow into the can when drinking.
• the recesses can also be combined with notches.
• the closure element is in the closure position - the drinking opening is completely covered, the elongated recesses 18 are not affected by the closure element, so that neither gas exchange is possible nor liquid can escape.
• FIG. 15b shows the closure element during an opening movement 8 along the first axis A.
• the drinking opening is still completely covered, but the closure element has already been moved under the depressions 18.
• gas exchange 7a between the interior of the can and the surroundings can take place via the part of this at least one recess 18 that is not yet covered and the still covered drinking opening, the recess serving as a ventilation duct.
• the excess pressure inside the can particularly in the case of carbonated beverages, can advantageously be compensated for particularly gently and even before the drinking opening 14 is opened.
• FIG 15c the can is fully opened.
• the closure element was moved out of the closure position along the first axis A, so that the drinking opening 14 exposed.
• the recesses 18 are partially covered by the closure element, so that a gas exchange 7b between the surroundings and the interior of the can can take place not only through the drinking opening but also through the recesses 18, which serve as a ventilation duct.
• the negative pressure which arises when drinking or pouring out can be compensated for inside the can.
• Drinking or pouring the contents of the can through the drinking opening can be done both more evenly and faster. Since the liquid emerging from the can can be replaced uniformly by air from the environment via the depressions 18, at least a larger part of the drinking opening 14, in particular the entire drinking opening 14, is available for the flow of the liquid.
• the depressions 18 are preferably designed to ensure a controlled optimal gas exchange 7a, 7b between the interior of the can and the surroundings.
• An optimization of the design of the depressions should preferably take into account a controlled, as gentle as possible discharge 7a of gas when opening the can, in particular in the case of carbonated beverages, and / or the greatest possible entry 7b of air into the can, while the can content through the Drinking opening 14 is drunk or decanted.
• depressions 18 optimized for the outlet 7a can be combined with depressions 18 optimized for the inlet 7b (although one type of recesses - for outlet or inlet - can also suffice).
• Wells optimized for the outlet 7a in particular be positioned such that they are reached by the closure element immediately after the opening process begins and act as a ventilation duct, but are completely covered by the closure element when fully opened.
• depressions optimized for entry 7b can be positioned such that they can only be reached by the closure element when the opening is completely open and act as a ventilation duct.
• Figures 16a-c illustrate different shapes and arrangements of the depressions 18 ', 18' ', 18' ''.
• the bottom 12 of the can lid with the bottom 22 of the closure element is also shown here.
• drop-shaped depressions 18 ', diamond-shaped depressions 18' 'and an arcuate depression 18' '' are shown.
• radial arrangements are also possible.
• recesses with more complex patterns can also be used, in particular figures, logos or lettering that relate to or inform about the contents of the can.
• the samples can contain, for example, a trademark of the manufacturer, or information about a filling quantity or an expiry date.
• a combination of such patterns with recess shapes optimized for gas exchange 7a, 7b is also possible.
• the shape and the arrangement of the depression or the depressions can vary as long as they provide a ventilation duct which bypasses the seal of the closure element.
• Either the underside of the lid 12 can have one or more Have depressions 18, 18 ', 18'', 188 "''', so that the top 11 has corresponding elevations, or the one or more depressions 18, 18 ', 18'',18''' are in the lid top 11 and correspondingly one or more raised features are present on the underside 12.
• the closure element can be designed to be lifted slightly (for example up to 1 mm) from the underside of the cover by the one or more elevations during an opening movement, so that the gas exchange 7a , 7b each take place through spaces between the elevations or between the seal and the underside of the cover 12.
• FIGS. 17a-c An exemplary embodiment of the closure system with depressions in the can lid is shown in a sectional illustration in FIGS. 17a-c. You can see the lid 10 with the drinking opening 14 and two recesses 18a and 18b. The depressions are made in the underside of the lid so that they represent elevations on the top. Below the cover, the closure element 20 is shown, which contacts the underside of the cover with its sealing ring 50. The closure element is not shown here for the sake of clarity.
• the closure element 20 is in its closed position below the drinking opening 14 and covers it.
• the depressions 18a and 18b are not affected by the closure element 20 in this position.
• Figure 17b shows a situation in which the opening process has started.
• the closure element 20 is moved in the opening direction 8 and reaches a first recess 18a, which creates a ventilation channel through which a gas outlet 7a from the inside of the can into the environment can, so that an overpressure in the can can be reduced or reduced before the closure element 20 opens the drinking opening 14.
• Figure 17c shows the closure system in the open state.
• the drinking opening 14 is largely exposed, the closure element 20 covers only a small part of the opening 14 - this part can, for example, also be a guide slot of the drinking opening (see, for example, FIGS. 7a, b).
• the closure element 20 covers only a small part of the opening 14 - this part can, for example, also be a guide slot of the drinking opening (see, for example, FIGS. 7a, b).
• Closure element covers a second depression 18b, so that a ventilation duct is created. If the liquid can content is now drunk or emptied, in particular by tilting the can, it flows out of the can through gravity through the drinking opening 14 (illustrated by arrow 4). This can create a negative pressure in the can, which can disadvantageously reduce the flow rate. However, gas can enter the can 7b through the ventilation channel of the second recess 18b, as a result of which the suppression can advantageously be compensated for.
• the first recess 18a is preferably designed with regard to its dimensioning, shape, position, orientation, surface structure for an optimal gas outlet 7a.
• the recess 18b is preferably designed with regard to its dimensioning, shape, position, orientation, surface structure for an optimal gas inlet 7b.
• a depression can be used that has features that enable both gas outlet 7a and gas inlet 7b as desired.
• the closure element 20 can advantageously correspond to the depressions in the lid have, the depressions depending on the position of the closure element 20 form differently designed ventilation channels in order to guide the gas exchange 7a, b as optimally as possible.
• the control element is preferably designed in such a way that gas exchange 7a, b is not hindered, or is designed in such a way that gas exchange 7a, b is promoted and is carried out as controlled as possible.
• the control element can also have ventilation ducts or, together with the closure element 20, form ventilation ducts.
• a gas outlet 7a can be targeted into the environment, in particular guided away by a user of the can, e.g. B. orthogonal to the opening direction.
• the closure element 20 and the operating element can also be designed to absorb an overpressure of the interior of the can and to release it to the environment in a controlled manner.
• the opening process can optionally be delayed by one or more mechanical resistors (not shown here) when the closure element is in a specific position in order to optimally design the gas outlet 7a.
• These resistors can be designed, for example, as elevations in the cover, against which the control element or the closure element abut during the opening process.
• the one or more resistors can in particular also be generated by a control element (cf. FIGS. 5a, 12a, 13b), by means of which the user can recognize a first opening of the closure.
• the resistors can result in a slight delay in the opening process at a certain position. This can be chosen so that a certain amount of gas can escape before the drinking opening 14 is opened. However, the resistors can also produce a noticeable resistance for a user opening the shutter. In this case, the user can wait for the can to be vented, in particular for the overpressure to be completely reduced, until he continues with the opening process.
• a ventilation duct in the closure element or in the control element can be designed in such a way that an acoustic signal is generated through the gas outlet 7a, for example in the form of a pipe or flute.
• the user can, for example, recognize from the volume of the signal whether there is still overpressure in the can and, depending on this, continue the opening process.
• FIG. 18 shows a further exemplary embodiment of an operating element 30 that can be combined with the closure elements 20 described above.
• a securing and / or control element 34 is connected via a hinge 70 to the remaining control element 30, in particular to the section of the control element 30 at which the connection to the closure element is provided (here the area in which the recess 38 is provided for receiving the fastening bolt 28; however, instead of the recess 38, other types of connection can also be selected, as described above).
• the securing and / or control element 34 is optionally connected to the handle 33, e.g. firmly connected (e.g. via a rigid section 71) or via one or more control webs 44 which break when the handle 33 is raised.
• An elevation 39 is preferably provided on the underside of the securing and / or control element 34 (here, because it is concealed, indicated by a dashed line), which can be designed in particular as a hook.
• the guide slot 17 can have at least one or more relief notches 72 at its end facing away from the drinking opening 14.
• the opposite end can be a rear end of the guide slot 17.
• the relief notches 72 can form a radius in corners of an otherwise rectangular cross section of the guide slot 17.
• the relief notches 72 can, for example, be punched out in such a way that this end of the guide slot 17 does not have a right angle. In this way, tearing of the cover 12 and / or bursting of the cover 12 can be prevented at high internal pressures.
• the one or more relief notches 72 preferably extend substantially perpendicular to the longitudinal direction of the guide slot 17.
• the respective relief notch 72 is preferably curved, a center of the circle of curvature preferably being closer to the center of the cover 12 than the relief notch 72.
• the respective relief notch 72 can for example, be arched.
• a length of the relief notch 72, in particular an arc length, can be greater than the width of the guide slot 17 perpendicular to its longitudinal axis.
• such relief notches 72 can be used with any of the lids 12 described above.
• the cover 12 has at least one first recess 18A or a plurality of recesses 18A, which can form a first air channel during the opening of the closure element 20 and / or in its open position, as already described above.
• the at least one first recess 18A is preferably arranged such that it is arranged in the closed position of the closure element 20 within the seal (not shown in FIGS. 20 and 22; see the sealing ring 50 in FIGS. 17a to 17c).
• the at least one first depression 18A is preferably arranged such that it is covered, preferably completely, by the closure element 20 (not shown in FIGS. 20 and 22) and / or by the control element 30 in the closed position.
• a position in particular an intermediate position, is preferably achieved in which the seal 50 and / or the closure element 20 partially overlaps the at least one first recess 18A.
• a pressure equalization can thus be achieved, in particular an initial pressure equalization when the closure system is opened.
• the at least one first depression 18A can be arranged such that it is completely overlapped by the closure element 20 in the open position and / or is arranged entirely within the seal 50.
• the cover 12 can have at least one second depression 18B. This is preferably arranged such that it is not covered by the closure element 20 in the closed position and / or is not arranged within the seal 50 in the closed position, not even partially.
• the at least one second recess 18B is in the closed position preferably not covered by the control element 30.
• the at least one second depression is preferably partially (in particular only partially) overlapped by the closure element 20 and / or the seal 50 and / or the control element 30.
• the second recess can e.g. be designed as one or more recesses 18B, which is arranged in the direction of displacement of the control element 30 behind the control element 30 (see FIG. 20) and / or next to the control element 30 (see FIG. 22).
• the at least one first depression 18A and / or the at least one second depression 18B can protrude upward or downward.
• the at least one first depression 18A and / or the at least one second depression 18B can in particular be designed as an embossing.
• the cover 12 can furthermore have one or more (in particular two) third depressions 19. These can interact with one or more corresponding projections 73 on the upper side of the closure element 20 (see FIG. 21) in order to provide a longitudinal guide and / or anti-rotation device for the closure element 20.
• the recess 19 preferably projects upwards. It can be designed as an embossing in the cover 12.
• the disclosed closure system can also be attached to other containers for liquids or bulk goods.
• liquid containers can e.g. be made of cardboard, plastic and / or metal. This applies in particular to containers which are made at least in the region of a pouring opening from a material which has sufficient rigidity.
• the present lid can be used in a liquid container e.g. be replaced by a wall of the container and / or be formed by such a wall.
• the invention relates inter alia to on the following aspects:
• Liquids especially drinks
• closure element (20) can be positioned on an underside (12) of the cover (10) and is fixed to the control element (30) on the top side (11) of the
• Lid (10) is connectable
• the closure element (20) for closing the drinking opening (14) is designed in one Cover position completely covering the drinking opening (14);
• control element (30) and the closure element (20) along a first axis (A) which is essentially parallel to the top side (11) of the cover (10)
• runs can be arranged movably, wherein
• Drinking opening (14) can be effected, and
• Closure system (1) according to aspect 1, comprising the
• closure element (20) is positioned on the underside (12) of the cover (10) and is firmly attached to the
• control element (30) and the closure element (20) are arranged movably along the first axis (A), wherein
• the closure system has at least one control element (34, 40, 45), the control element being designed such that it
• control element (34, 40, 45) maintains the second state even when the control element (30) is moved back in the second direction (9) and / or the closure element (20) is moved back into the closed position;
• control element (30) is made in one piece with the control element (34), in particular wherein the control element (30) and the control element (34) consist of aluminum.
• Locking system according to aspect 3 is made in one piece with the control element (34), in particular wherein the control element (30) and the control element (34) consist of aluminum.
• control element (34, 40) has at least one control web (36, 42) attached from the outside, which is arranged and designed in such a way that it is broken when the control element (30) is moved in the first direction (8), and / or the closure element (20) is moved out of the closure position,
• Control element (30) in the first direction (8) causes an evasive movement (5, 6) of the control element (34), by means of which the at least one control web (36) is broken, in particular by
• control element (34) is attached to the control element (30) by means of two transverse webs (35) which ensure that the control element (34) can move about a tilt axis (C) orthogonal to the first axis (A),
• the at least one control web (36) runs along the first axis (A), in particular the at least one control web (36) on
• control element (34) is arranged such that when the control element (30) moves in the first direction (8) with the cover (10)
• the evasive movement (5, 6) is caused at least in part by the collision
• control element (34) has an elevation (39) on its underside, which is arranged such that it moves when the
• Control element (30) collides with the cover (10) in the first direction (8), in particular where
• the evasive movement (5, 6) is at least partially caused by the collision
• the elevation (39) bears on the edge of the drinking opening (14) or at the end of a guide slot (17) of the drinking opening (14) on the lid (10); and or
• the closure element (20) has a recess (26), the elevation (39) in the
• control element (45) is provided on the closure element (20), and in the first state in one
• Opening (48) of the cover (10) engages and is visible through a viewing opening (46) of the control element (30), in particular the control element (45) being so positioned and positioned relative to the opening (48) of the cover (10) that the control element (45) breaks when the control element (30) is moved in the first direction (8) and / or the closure element (20) is moved out of the closed position.
• Locking system according to one of the preceding aspects, characterized in that the drinking opening (14) has a guide slot (17) which runs along the first axis (A), and
• Closure element (20) has a guide element which engages in the guide slot, so that the control element (8) can only be moved along the first axis (A),
• Locking system according to one of the preceding aspects, characterized in that
• the closure element (20) has at least one notch (23), the at least one notch (23) being arranged such that when the
• the drinking opening (14) is first opened by the notch (23), in particular the notch (23) being arranged in such a way that it is on the first
• Axis (A) is positioned when the
• Closure element (20) is in the closed position
• the notch (15) or opening (16) being arranged on or next to the drinking opening (14) such that when the closure element (20) moves from the closure position the notch (15) or opening (16) in front of the
• the lid (10) has at least one recess (18, 18 ', 18' ', 18' '') which is relative to the lid (10)
• Closure position of the closure element (20) is arranged such that the movement of the
• Depression (18, 18 ', 18' ', 18' '') is at least partially covered by the closure element (20) before the drinking opening (14) is opened, and
• a gas exchange (7a, 7b) in particular to compensate for an overpressure and / or underpressure in the
• At least one recess (18, 18 ', 18'',18'') is partially covered by the closure element (20), in particular if at the same time the drinking opening (14) is completely or partially covered by the closure element (20).
• the at least one recess (18, 18 ', 18' ', 18' ') is provided in the underside (12) of the cover (10), and the gas exchange (7a, 7b) by the
• At least one recess (18, 18 ', 18' ', 18' '') is made through it;
• the at least one recess (18, 18 ', 18' ', 18' ') is provided in the top (12) of the cover (10) in such a way that on the underside (12) of the cover (10) one corresponding to the recess Elevation exists, the closure element (20) when covering the at least one depression (18, 18 ', 18' ', 18' '') by the elevation from the underside (12) of the
• Locking system according to one of the preceding aspects, characterized in that
• control element (30) and the closure element (20) consist of aluminum, in particular with a fixed connection of the closure element (20) and the
• Control element (30) by a welded connection and / or a snap connection;
• control element (30) and / or the closure element (20) consists of plastic, in particular wherein the control element (30) and the closure element (20) consist of the same plastic and / or a fixed connection of the closure element (20) and the
• Locking system characterized in that the closure element (20) has a fastening bolt (28), and the operating element (30) has a recess (38), the fastening bolt for firmly connecting the closure element (20) and the
• Control element (30) is inserted into the recess, in particular with the fastening bolt (28)
• Locking system according to one of the preceding aspects, characterized in that
• control element (30) has a handle (33) resting on the can lid, the handle (33)
• control element (30) is made in one piece with the handle (33), a notch (37) acting as a hinge running along the pivot axis, and / or
• the handle (33) is designed in the shape of a half ring. Locking system according to one of the preceding aspects, characterized in that
• the closure element (20) is adapted to a shape of the cover (10) with regard to its outer shape
• closure element (20) is oval or is elliptical and has a greater length along a second axis (B) orthogonal to the first axis (A) than along the first axis (A).
• Beverage can (2) having a cylindrical body for holding liquids, in particular

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• Engineering & Computer Science (AREA)
• Mechanical Engineering (AREA)
• Closures For Containers (AREA)
• Containers Opened By Tearing Frangible Portions (AREA)
• Rigid Containers With Two Or More Constituent Elements (AREA)
• Closing Of Containers (AREA)

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• 2018
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• 2019
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• 2021
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• 2023
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