resealable beverage containers, methods for obtaining resealable can tops and resealable beverage co

专利摘要:
a resealable beverage container includes a seal that moves between the storage, opening, removing and closing positions. ramps are used to improve an opening force generally provided by the compromise between the support and the seal. an elastomeric sealing element is arranged between the seal and the holder so that when the seal is in the fully seated or sealed position, an airtight or at least substantially airtight seal is created to prevent the contents of the container from spilling. others are improved and include a dotted line structure on the back wall of the support that facilitates predictable and repetitive opening of the container along the dotted line. a handle is provided that includes an opening or space into which a coin or other accessory can be inserted to allow the consumer a better handle to provide adequate opening force.
公开号:BR112015002642A2
申请号:R112015002642
申请日:2013-08-08
公开日:2019-10-08
发明作者:Zabaleta Daniel；hackett Sam
申请人:Powercan Holding LLC；
IPC主号:

专利说明:

RESETTABLE DRINK CONTAINERS, METHODS FOR OBTAINING RESETTABLE CAN TOP AND RESUSTABLE LID FOR DRINK CONTAINER.
CROSS REFERENCES FOR RELATED APPLICATIONS [001] This application claims the benefit of the United States Non-Provisional Patent Application with Series 13 / 787,012, simultaneously pending, filed on March 6, 2013, which is a Continued-On- claim Part of the United States Non-Provisional Patent Application benefit with Serial No. 13 / 572,404, simultaneously pending, filed on August 10, 2012.
BACKGROUND OF THE INVENTION
Technical Field [002] The present invention relates to resealable beverage containers, methods for obtaining resealable can top and resealable lid for beverage container. In particular, and according to one aspect of the invention, a beverage container such as an aluminum can is provided with a seal which is twisted by the consumer to open the can. The twisting or rotational movement of the seal is converted into a linear motion by a gear to bring the seal to an opening action, in which a frangible sealing tongue is pushed into the can. Once the can is open, the seal can be twisted upside down to remove it from the opening and then, after drinking, the consumer can twist the seal back to a sealing position inside the opening.
Fundamento da Arte [003] The beverage and can industries have long sought to create a can that is both economically produced and convenient for consumers to use. In the past, beverage cans were provided with a pull handle that the consumer should grasp by a ring and pull until the seal is removed from the can. This created a problem by making the seal a disposable garbage for which the consumer was responsible for ensuring its proper disposal. Often the consumer failed to properly dispose of the seal, thus creating not only garbage, but also a safety problem, as the seals could be swallowed by young children. In addition, the edges of the seal
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2/26 removed were sharp enough to, if misused, cut the fingers or hands of the consumer or anyone else handling a loose pull handle. As a result of these problems, the industry moved towards a seal that would remain in the can after opening, thus preventing consumers' contact with both the garbage and any sharp edges.
[004] The current cutting edge technology is to have a permanent seal that is connected to the can lid by a rivet formed on the can lid next to the opening. The opening is formed by a dotted line, or frangible kiss cut ”, which breaks when the seal is pulled upwards by the consumer. The dotted line, when broken, produces a hinged flap that remains attached to the can lid, but inside the can.
[005] Beverage cans with permanent seals suffer from at least the following deficiencies: 1) they are not resealable, so once the consumer opens the drink, the contents are subject to loss of gasification and the influx of foreign materials due to the contents are open to the environment; 2) in order to form the rivet that is used to secure the permanent seal to the drink cap, the cap must be made of a different material, typically an aluminum alloy that is stronger than the aluminum alloy used to make the walls and bottom of the can. In addition, the seal itself is typically made of a different alloy than the walls and cover, reflecting the need for an even stronger material, typically heavier. As a result, recycling aluminum beverage cans is problematic due to the need to separate different materials. The use of three different materials also tends to add weight, and cost, to the final container.
[006] There is a need for improved beverage containers that are resealable, economically produced and green in terms of avoiding waste and facilitating the recycling of aluminum cans.
[007] At the same time, there is a need for more improved methods for the manufacture of beverage containers that result in faster production times, lower production costs and better products.
DESCRIPTION OF THE INVENTION
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3/26 [008] A beverage can has a side wall and a fully formed bottom. A top cover that includes a support there integrally formed that includes a substantially cylindrical side wall and a bottom wall. A dotted line formed on the back wall defines the lid that forms an opening in the can when the dotted line breaks. The cover is fitted on the support and has a side wall that is formed with gear surfaces. The gear cooperates with retainers formed on the cylindrical side wall of the support, so that when the cover is twisted or rotated through a sufficient number of radians, or angle of movement, the gear translates the rotational movement into linear motion, taking the cover down into the holder. As the lid moves downwards, a protrusion forms on the bottom surface of the lid that collides with the periphery of the dotted line, thus pushing the lid into the can.
[009] Once opened, the lid can be discarded if all contents of the can are consumed. Alternatively, the lid can be re-attached to the support, so that the gear engages with the protrusion and rotates to achieve a sealing position, in which the contents of the can are protected from the environment. This will result in preventing spillage, loss of gasification and preventing foreign objects from entering the can.
[010] Preferably, the beverage container is a can, but the same principles described above could be used for other types of beverage containers, including bottles made of various materials, including plastic, paper, metal (such as aluminum), packages , cups, glasses, etc. In a particular embodiment, the beverage container is an aluminum can and the seal is made of the same aluminum alloy material as the side wall of the can. The lid is preferably made of plastic material of sufficient hardness so that the gear does not deform during opening and closing operations.
[011] The lid can be a separate accessory, sold separately from the beverage container and reused after washing. Lids of different characteristics can also be provided, such as a lid that has the top of a baby cup, so that the beverage container can be converted
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4/26 in a baby cup. Other implementations can be devised, including a cap that is shaped like a bottle nipple to convert the beverage can into a bottle. In such an embodiment, the contents of the beverage can could be an infant formulation.
BRIEF DESCRIPTION OF THE DRAWINGS [012] The details of the present invention, both in terms of its structure and operation, can be better understood by reference to the accompanying drawings, in which the reference numbers and designations refer to the same elements.
Fig. 1 is a side elevation view showing an example of a beverage container according to the present invention;
Fig. 2 is a side elevation view, similar to Figure 1, but exploded to reveal the characteristics of the seal and the support of the beverage container;
Fig. 3 is a side elevation view, similar to Figures 1 and 2, but further exploded to reveal the lid of the beverage container;
Fig. 4 is an exploded view of the bottom elevation of the beverage container of Figures 1-3;
Fig. 5 is an enlarged and exploded view of the bottom elevation of the seal and the lid of the beverage container of Figures 1-4;
Fig. 6 is an enlarged view of the top elevation of the lid used in the previous figures;
Fig. 7 is an enlarged view of the bottom elevation of the lid used in the previous figures;
Fig. 8 is a top view of the beverage container of the previous figures, showing the seal in a pre-opening position;
Fig. 9 is a top view of the beverage container of Fig. 8, with the seal removed, showing the projections within the support of the gear engaging surfaces;
Fig. 10 is a side elevation view of the seal, enlarged to show the gear surfaces on the cylindrical side walls of the seal;
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Fig. 11 is a side view of the seal of Fig. 10, rotated 90 degrees;
Fig. 12 is a view of the top elevation, showing the top of the beverage container, or seal, with the lid removed to expose the characteristics of the support;
Fig. 13A through 13D shows cross-sections of the lid moving sequentially between the opening and resealing positions;
Fig. 14 is a flow diagram showing the manufacturing steps according to an aspect of the present invention;
Fig. 15 is a flow diagram showing the manufacturing steps according to another aspect of the present invention;
Fig. 16 is a partial vertical section, partial section of the beverage container of the previous drawings;
Fig. 17 is the same elevation as Fig. 16, but seen from a different angle;
Fig. 18 is a side perspective view of a beverage container in another embodiment of the present invention;
Fig. 19 is a side perspective view of a beverage container of Fig. 18, exploded to show the beverage container of Fig. 18;
Fig. 20 is a bottom perspective view of a beverage container of Fig. 18, showing characteristics of the lid, which is separate from the beverage container;
Fig. 21 is an enlarged perspective view of the seal, without the lid, of the beverage container of Fig. 18;
Fig. 22 is a bottom perspective view of the seal and lid of the beverage container of Fig. 18;
Fig. 23 is an enlarged perspective view of the lid of the beverage container of Fig. 18;
Fig. 24 is a bottom perspective view of the cover shown in Fig. 23;
Fig. 25 is a top view of the seal and lid assembly of the beverage container of Fig. 18;
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Fig. 26 is a top view of the Fig. 25 seal, without the cover to show details of the support;
Fig. 27 is a side view of the lid of Fig. 18;
Fig. 28 is a side view of the lid of Fig. 27, rotated 90 degrees;
Fig. 29 is a perspective view of the seal and cap subset of the embodiment of Fig. 18;
Fig. 30 is a sectional perspective view of the lid of the Fig. 18 embodiment, taken along the line 1-1 of Fig. 29;
Fig. 31 is a sectional view of the lid of Fig. 18, taken along line ll-ll of Fig. 29;
Fig. 32 is a sectional view of the lid of Fig. 19, similar to Fig. 30, but shown in a side elevation and taken along the line 1-1 of Fig. 29;
Fig. 33 is a sectional view similar to Fig. 30, but without the cover;
Fig. 34 is a bottom perspective view of the seal and lid sub-assembly, showing the opening of the beverage container after the lid has been rotated to transmit linear movement that pushes the frangible portion of the seal into the beverage container; and
Fig. 35 is a sectional view of the seal and cap subset, taken along the line ll-lll of Fig. 34.
Fig. 36 is a bottom elevation view of a cover, similar in all aspects to the covers previously illustrated, but including a soft plastic sealing ring to further improve the sealing capabilities of the cover;
Fig. 37 is a sectional view of the lid of Fig. 36;
Fig. 38 is a top view of the seal of a beverage container, showing another embodiment of the dotted line used to create two tear panels during the opening process;
Fig. 39 is a side view and perspective view, showing a handle capable of being used with a coin or other tool to provide the consumer with greater opening force;
Fig. 40 is a side view and perspective view, in partial section, showing
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7/26 a handle capable of being used with a coin or other utensil to provide the consumer with greater opening force; and
Fig. 41 is a top perspective view of the seal of a beverage container with a dotted line having the ability to improve the fracture of the dotted line.
MODES FOR CARRYING OUT THE INVENTION [013] Referring to Figures 1 to 12, a beverage container 10 includes a cylindrical side wall 12, a closed bottom wall 14, integrally formed with side wall 12 and a seal 16 attached to the wall side 12 on the side opposite the bottom wall 14.
[014] In the illustrated embodiment, the beverage container is a can, in which the bottom wall 14 and the side wall 12 are formed from a single piece of aluminum material using any other known processes. The aluminum material is a light alloy commonly used in the canned beverage industry. The seal 16 is preferably made of the same aluminum alloy material and is attached to the upper side of the side wall by also known processes. The seal 16 includes a cylindrical support 18 which extends down into the beverage container 10 from an upper wall 17. The support 18 is formed close to a peripheral edge or edge of the seal 16 as is common in the art, to allow drinking from the beverage container 10. A lid 20 fits onto the holder 18 and engages it in a manner described in more detail below. The side cylindrical wall 12 of the beverage container 10 is preferably covered on both the upper and lower sides, to provide superior structural integrity, particularly for use with pressurized contents, such as when used for carbonated drinks.
[015] The seal 16 has an outer perimeter which is connected to the open upper side of the side wall 12 of the beverage container, using known methods, to form a wrapper which contains the beverage. The drinks contained therein are not limited, but include carbonated or non-carbonated drinks and could also include foodstuffs and inedible products. Support 18 is fully
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8/26 formed on the top wall 17 of the seal 16 and includes a side cylindrical wall 22, which extends down into the beverage container 10 and a bottom wall 24. A dotted line 26 is formed at the bottom of the bottom wall 24 in order to create a flap or cutting panel 25 (see Figures 13B, 13e and 13D) which is pushed into the can when the can is opened. In the open position, the cutting panel 25 remains connected to the lower wall 24 due to the fact that the dotted line 26 does not make a circle or complete turn; a hinge 28 is created where the bottom wall 24 is not marked (see Fig. 5).
[016] As seen in the figures, the lid 20 is dimensioned to fit substantially within the holder 18, and includes an annular flat surface 21 which is disposed between the gear-shaped bottom surface 38 and the cylindrical side wall of the lid 40. In Figure 9, the lower wall 24 of the support 18 can include a flat annular surface 27 which is disposed between the side wall of the support 22 and the circular dotted line 26. When assembled and in the resealed position shown in Figure 13D, the annular flat surface 21 of the lid 20 is in contact with the annular flat surface 27 of the bottom of the support 18 to effectively reseal the container 10.
[017] The seal 16 has a shallow, elongated U-shaped depression 30 which serves two purposes. First, the depression 30 acts as a hardening structure to provide greater strength to the seal 16. This is particularly advantageous if the seal 16 is made of the same aluminum alloy as the side wall 12 and the bottom wall 14 only container 10. In second, the depression 30 adds a familiar aspect to consumers who are accustomed to prior art beverage containers that used a pull handle that is first operated in an opening direction and then in a seated direction, in which the pull handle hinged is positioned after opening.
[018] As seen in Figures 2, 3 and 5, the side cylindrical wall 22 of the support 18 has a plurality of equally spaced projections 32, arranged substantially in the same plane and being integrally formed in the side wall 22. Figure 5 shows a protrusion as an indentation or recess, once
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9/26 that Figure 5 shows the outer cylindrical side wall of the support 16, while other Figures show the inner cylindrical side wall of the support 16. The projections 32 cooperate with the cap 20 in a manner described below in order to open and reseal container 10.
[019] Referring to Figures 5-7, the lid 20 has a radially extended skirt 34 which acts as an indicator of tampering. As seen in Figure 1, before opening the beverage container 10, the skirt 34 is flush with the flat outer surface 36 of the seal 16. The skirt is integrally formed with the lid 20, which is preferably made of plastic material. The skirt 34 includes a series of frangible dotted lines 34a, extending radially outwardly, which are operative to break during the can opening operation. The break of the dotted lines is effected by the skirt being carried downwards while the lid is twisted or rotated and, therefore, advances downwards and into the support 18.
[020] The opening of the beverage container will thus be evident by the breaking of the dotted lines of the skirt 34, and preferably, by the sections of the skirt 34 which are formed by the broken dotted lines that extend at an upward angle, thus extending radially to out and radially upwards.
[021] The lid 20 is preferably made of a molded plastic material, is dimensioned to fit substantially within the support 18 and includes a gear-shaped bottom surface 38 formed at the lower or inner end of a substantially cylindrical side wall 40. The gear-shaped surface 38 can include a sharp or pointed projection 39 disposed at a distance from the center of the lid 20 axis and extending down into the holder 18 when the lid 20 is mounted on the holder 18. When assembled, the lid The sharp projection 39 is arranged immediately above the dotted line 26, so that when the lid 20 moves downwards during the opening of the container 10, the projection 39 punctures the can at the beginning of the dotted line 26, proceeding to the hinge 28, then progressively propagates the rupture along the dotted line 26 until it ends at the opposite end of the hinge 28.
[022] The surface of the gear-shaped bottom 38 may also include a
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10/26 sharp or pointed projection 42 arranged on the central axis of the lid 20 and extending downwards into the holder 18 when the lid 20 is mounted on the holder 18. When assembled, the projection is arranged immediately above the dotted line in shape of X 44, so that when the lid 20 moves downwards during the opening of the container, the projection punctures the can in the dotted line in the form of X 44, thus relieving the internal pressure and watching the break of the dotted line 26 by the sharp projection 39.
[023] The opening operation of the beverage container 10 is made possible by the formation of the gear structure between the support 18 and the cap 20. In particular the gears 46 are formed in the cylindrical side wall 40 of the cap 20. The projections 32 are adjusted and engage the gears 46 so that when the cap 20 is twisted by hand by the consumer, the rotational movement of the cap 20 is converted into linear motion of the cap 20, thus leading the cap in a downward direction relative to the support 18. While the cover 20 moves downwards, the dotted line 26 breaks through the sharp projection 39, then the rupture progressively propagates along the dotted line 26 until its end. In an alternative embodiment, an optional X 44-shaped dotted line can be broken by a projection 42 just before the broken line 26 by the sharp projection 39.
[024] As can be seen in Figure 8, the lid 20 includes a handle 48 for the consumer to pick up when ready to open the beverage container, and also, as described above, to reseal the beverage container after opening.
[025] Depending on the contour of the gear and its orientation direction, the cover can be rotated in one direction, preferably to open in the direction of the hands, and then in the opposite direction, against the direction of the hands, to remove the cover during consumption of the drink and then again back to the direction of the can opening to reseal the beverage container if the contents have not been fully consumed. Figure 9 shows the symmetry of the arrangement of the three projections 32 at approximately equal intervals at an angle of 120 degrees. Each projection engages an element of the corresponding gear, such as the one
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11/26 of the illustrated embodiment, the side wall 40 of the lid 20 would be contoured, as if to form grooves, to form three gear elements 446a, 46b and 46c. The gear elements are shaped and angled in a way designed to force the cap 20 to advance to an open position of no more than a quarter to a half turn, and as when measured in radians, this would be no more than 1 to 2 radians. The number of projections and gear elements can be varied, although three of these projections are sufficient to provide a balance between cost and effectiveness.
[026] Referring to Figures 10 and 11, the side wall 40 of the cover includes three equally spaced gear elements 446a, 46b and 46c. Figure 10 shows the gear elements 446a and 46b and the handle 48 that extend across the page. The bottom surface 47 of the lid 20 includes the projection 42, acting as a piercing element, which pierces the dotted line in the form of X 44 and also includes another projection 39 that also acts as a piercing element. The projection is designed and shaped to interfere with the bottom wall 24 of the support 18 inside and juxtaposed with the dotted line 26. While the cover 20 is rotated, from the closed position shown in Figure 10, the gear transforms the rotational movement into translational movement, thus moving the cover inward. While the lid 20 moves inward, the projection 39 rotates until it preferably reaches the position shown in Figure 11, where a portion of the bottom wall 24 breaks and is pushed inward to form the cutting panel 25 that remains articulated to the bottom wall 24 due to the dotted line 26 not extending to a complete turn. Projection 39 starts at the beginning of dotted line 26 and travels only 90 degrees. Thus, only a portion of the length will have traveled. What pushes the cutting panel 25 out of the way is the gear-shaped bottom surface body 38 going beyond the bottom wall plane 24 of the support 18. Note that the gear-shaped bottom surface 38 protrudes out of the flat annular surface 21.
[027] Figures 13A through 13D show a cross-sectional view of the lid moving between the opening and resealing positions. In Fig. 13A, the lid 20 is shown in cross-section before opening the beverage container. Thus, the
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12/26 the bottom wall 24 of the support 18 and the horizontal top wall 23 form the seal 16. As seen in Fig. I3A, the lid 20 is shown in the storage position, i. e., pre-opening of the can, in which the bottom of the support 24 is not perforated and the contents of the beverage can 10 are airtight for potential long-term storage. The handle element 48 is shown in a first closed position. In this position, the flat annular surface 21 of the lid 20 is spaced above the bottom wall 24, but the projection 39 is close to or in slight contact with the dotted line 26. Similarly, if a second projection 42 is used in the center of the bottom top of the lid 20, is also arranged very close to the dotted line 44 or even in light contact.
[028] In Figure I3B, cover 20 is rotated clockwise by 90 degrees. Due to the gears, the cover is translated downward enough to cause the dotted line 26 to break through the projection 39 while the projection moves along the inside side of the dotted line. The break creates a cutting panel 25 which is pushed by the projection into the can by rotating downwards from the hinge 28 formed between the opposite sides of the dotted line 26. The opposite sides of the dotted line are positioned to form a pivot axis for the cutting panel 25.
[029] After the cutting panel 25 has formed and the cover is arranged in its innermost position relative to the support, the consumer will then rotate the cover counterclockwise, preferably by turning the handle 48. As seen in Fig. 13C, the lid 20 is presented separately from the beverage container 10 and can be pocketed by the consumer, or placed in an easily accessible location in case the consumer chooses not to consume the entire contents of the beverage container 10. As evidence that the beverage container has been opened, the skirt 34 can be tilted upwards as a result of the frangible dotted lines having been broken, so that the individual sections of the skirt are directed in an upward direction. Also, when rotated counterclockwise, gears 46 and projections 32 will eventually separate, allowing the lid 20 to be free of the beverage container 10.
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13/26 [030] In the event that the consumer wishes to reseal the beverage container 10, and as seen in Fig. 13D, the lid 20 is brought into contact with the support 18 by the consumer, causing the gears 46 to engage with the projections 32. Once this has occurred, the clockwise rotation will cause the cover 20 to undergo downward translation until a sealing arrangement is made between the annular surface 27 of the back wall 24 of the support and the annular surface 21 of the lid 20, thus keeping the contents of the beverage container fresh and safe from foreign contamination.
[031] The lid 20 can be removed again and again to access the contents of the beverage container until all the contents have been consumed. There is no limit to the type of drinks that can be stored in the beverage container 10, but the most commonly canned drinks include soft drinks, beer, juices, etc. It is also within the scope of the present invention that the contents of the containers may be food and liquids, gels, powders, etc., non-consumable.
[032] The meaning of gear here in this publication can be used for lids that provide another functionality for the beverage can 10. For example, a variety of lid 20 would be one that could include a passage that extends through lid 20 with accessories formed on the upper outer top, such as a baby cup, which would allow a child to drink from the beverage container 10 without spilling. Alternatively, the lid 20 could be formed with an infant spout for infant formulation, juice, water or other drinks suitable for children. When using implementations for drinks such as a baby cup and bottle nipples, however, a lid 20 would have to be used to open the container and then another lid could be used to consume the contents. In any event, the opening lids and beverage implements could be sold separately from the beverage container, as long as the container included the projections formed on the cylindrical side wall of the support.
[033] Although a wide variety of plastic materials can be used to form the lid 20, other materials could be used including crockery and metals.
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However, for materials as hard as these, it may be necessary to position a joint between the opposite annular surfaces of the support and the cover to ensure the best possible seal.
[034] While the embodiments described here in this document place the holder and lid on top of the beverage can, it is possible to have the same opening and resealing structures on the bottom surface 14 of the beverage container 10. Also, while a cylindrical can has been described in this document, other forms of containers, for example, oval, rectangular, etc., could also be used.
[035] The preferred shape of the frangible dotted line 26 at the bottom of the support 18 is circular, with a closed top and an open top. The inner dotted line (less deep line) ends in an arcuate curve towards the cylindrical side wall of the support to avoid losing the cutting panel into the container. The outer dotted line (deeper line) ends in a circular shape spaced from the inner dotted line. There is an articulated portion of the cutting panel that keeps the panel in contact with the seal once torn, as previously described.
[036] Projection 39, described as a perforating element, is intended to be a single contact tip that moves further down and radially along the inside of dotted line 26 while the cap 20 is rotated. The projection 39 can also include additional areas to take the cutting panel 25 further into the container. A single point will apply more force to break the cutting panel, but additional areas acting in a secondary way could help with the opening process.
[037] The projections 32 used on the support allow the use of a very shallow support (when compared to thread designs) and still provide a positive opening, closing and sealing of the lid 20. The design of the projections 32 also provides positive stops for the cover positions to open, close and removable. As seen in Figures 10 and 11, each gear element 46a, 46b and 46c includes an inclined portion 50, a lower brake 52 and an upper brake 54.
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Once assembled, the three projections 32 are respectively positioned so that the brakes prevent the cover 20 from disconnecting from the support 18, during transport or storage, and retreat from a sealed position, when the cover 20 is positioned in a position resealing. This can be illustrated with reference to Figure 11, in which the projection 32 is shown as a broken circular line. When the cover 20 is in the closed position, each projection 32 will be positioned close to the lower brake 52, as seen with the broken circular line 32. The brake 52 prevents the cover 20 from returning to a position where the projection 32 is disengaged from the gear 46c, for example, if vibration or the like causes the projection to pass beyond the inclined portion 50. Similarly, when the lid 20 is intentionally turned clockwise, both to open and to reseal the beverage container , the projection passes beyond the upper brake 54 to be locked by interference adjustment between the brake and the projection. The upper brake thus prevents the cover 20 from inadvertently receding from the sealing position. Thus, the lid 20 is locked in two positions by the brakes. The first position can be called the transport safety position and the second position is closed. The distance between the two brakes, measured along the rotational axis of the cap 20 is equal to the distance between the resealing surface on the cap 20 and the bottom surface of the support. The transport safety brake, or lower brake 52, restricts the rotation movement of the cover 20 due to the interference between the stabilization skirt 34 and the flat upper rim of the support 20, as well as the interference between the drilling element or projection 39 and the cutting panel 25.
[038] When the lid 20 is turned in the open position, i. e., in the direction of the hands, the projections 32 on the cylindrical side walls of the support follow the inclined portions 50 of the gear 46, which form gradual ramps, causing the conversion of the rotation movement of the cap 20 into a linear or translational movement that takes the cap 20 into the container. This engages the perforator element 39 against the cutting panel 25 and provides the necessary force to break the frangible dotted line 26. Continuously rotating the cover 20 in the opening direction it progressively pushes the cutting panel 25 out of the way and into the
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16/26 container, until the projection 32 reaches the closed position of the upper brake 54. A slightly higher point on the inclined portion 50 of the gear 46 just before the closed position provides the necessary resistance to prevent the lid from receding.
[039] When the lid 20 is turned in the opposite direction to the opening, the projections 32 follow the same path to their starting positions, but after opening, the projections 32 can pass over the safety brakes in the transport or below 52 because the stabilization skirt and the cutting panel 25 because now the stabilization skirt and the cutting panel 25 are not providing any interference between the transport safety brakes or lower 52 and the void between the gear elements 46, allowing the release of the lid 20 from the container.
[040] In the embodiments described and illustrated here in this document, the gear elements 46 are seen as grooves having an inclined portion that ends with a brake at the opposite upper and lower ends, in which all the gear elements are formed in the cylindrical side walls 40 of the cover 20. It is also possible to form the gear elements as projections from the surface, integrally formed with it, or as separate parts connected to the cover. In addition, while the projections 32, acting as gear followers, project from the cylindrical side wall of the supports, the support could have been formed with gear surfaces and the gear followers could have been formed on the cap 20. The exact size and the shapes of the gear surfaces can be selected to match the particular needs of the beverage container. The overall objective is to select a structure that results in an operable torque which can be applied by consumers without exerting an excessive effort.
[041] The structures described above can be manufactured using unique manufacturing processes, which combine some of the known processing steps with new, modified or avoided steps. In a particularly preferred method of making beverage containers, as illustrated in the flow diagram in Figure 14, prefect seals are provided from a
Petition 870190076574, of 08/08/2019, p. 20/31 / 26 cup press. Then, supports are formed on the seals in a conversion press. Then, a dotted line is formed at the bottom of the support in the conversion press, either at the same time, or sequentially after the support has been formed. The covers are made by injection mold, or another very suitable one and the covers are supplied to the assembly line, where they are inserted in the supports. The lids are then secured to the supports by pressure forming the projections by spacing three matrices around the support, all centered on a common plane. The dies are pressed inwardly against the cylindrical side wall of the support, and the cover acts as a mandrel against the internal pressure force of the dies, thus forming projections 32 projecting into the grooves of the gear elements. The can seals or tops are then packaged and sent to the bottlers, who can then use conventional processing steps to secure the seal to any of the various cans or other beverage containers.
[042] The process described above achieves several cost and environmental advantages over previous manufacturing techniques. First of all, the seal does not have to be processed to form a rivet, which has been conventionally used to secure the pull handle to the can seal. There is no need for a rivet because there is no need for a pull handle. The rivet required that the seal be made of a stronger and thicker material, commonly consisting of a different aluminum alloy as opposed to the material from which the side wall and bottom were made. In addition, the conventional process would have required the formation of a pull handle, probably made of a different third aluminum alloy. The use of three different aluminum materials presented a problem for recycling, whereas in the present invention, a single material can be used to form the can body and the can seal.
[043] Referring to Figure 15, another variation of the manufacturing process is presented. In the first step, a preformed seal is provided from a cupped press with an already formed support. In the next step, the seal and support are aligned directionally to the conversion press. Then, a
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18/26 dotted line on the conversion press at the bottom of the support. Molded caps are provided on the assembly line and inserted into the molded caps. The molded lids are secured to the support forming the projections 32 in a manner previously described, in which the lid functions as a mandrel during the formation of the projections. Then, the seals with the attached lids are packaged and sent to the bottlers or others for conventional filling, sealing and shipping to consumers. As in the manufacturing process previously described, there is no need to form a rivet on the seal or to attach a pull handle to the rivet. Avoiding these steps saves money and makes the resulting product easier to recycle.
[044] An alternative embodiment of a beverage container 100 is shown in Figures 18-35 and includes a body having a cylindrical side wall 102 and opposing axial tops. The beverage container, like that of the previous embodiment, is illustrated in the size and shape of an ordinary aluminum can used today for a wide variety of drinks, including soft drinks, juices and beer. The body itself differs from the prior art in the characteristics at the top of the container in that the characteristics of the present invention allow the opening and resealing of the container 100.
[045] A bottom wall 104 (seen in Fig. 20) is integrally formed on one of the axial tops with the side wall 102 in the known way of making aluminum cans. However, the body can be made of other materials and have other shapes, depending on both style and functionality or a combination of the two. A seal 106 is attached to the axial opening top of the body, at the opening top defined by the cylindrical side wall 102, after the body is filled with the beverage in a common and known way, of attaching seals or tops to cans. Once assembled, the seal 106, the bottom wall 104 and the cylindrical side wall 102 define an interior enclosed space.
[046] A support 108 is formed on the seal 106 and includes a cylindrical side wall 110 and a bottom wall 112. Support 108 is located eccentrically so that it approaches a peripheral edge of the seal 106 to facilitate drinking and
Petition 870190076574, of 08/08/2019, p. 22/31
19/26 pour after opening. The support 108 further includes a dotted line 114 slightly inserted from the peripheral edge of the bottom wall 112 and forming a frangible area 113 around substantially closed. An additional dotted line 116 is provided in the center of the bottom wall 112 and preferably includes two dotted lines that intersect to form an X, the intersection of the two lines being in the center of the bottom wall 112. The bottom wall 112 also includes three ramps 118, 120 and 122 which are spaced equidistantly around the periphery of the bottom wall 112 within the dotted line 114. A different number of ramps could be used, but three is preferable. The ramps 118, 120 and 122 are integrally formed in the bottom wall 112.
[047] The support 108 also includes three projections spaced equally spaced 124, 126 and 128 formed on the side wall 110. From an interior view, as shown in Figs. 22 and 34, projections such as projections 124 and 128 are presented as indentations, since the projections are formed from material of the sidewall. Seal 106 also includes a recess area 130, as in the previous embodiment, which may include instructional text to inform the consumer how to use the opening and resealing characteristics of the beverage container 10.
[048] A cover 132 fits into the support 108 and includes a cylindrical side wall 134 and a bottom wall 136. A series of spiral slots 138, 140 and 142 are provided on the side wall 134 of the cover 132 at spaced equally spaced apart. designated to receive the projections 124, 126 and 128, respectively, of the holder 108 when the lid 132 is mounted inside the holder 108. In this respect, the embodiment of the beverage container 100 is similar to the embodiment of the beverage container 10 When assembled and before opening the container, the lid rests on support 108 as shown in Figs. 3032.
[049] The cover 132 also includes a handle or handle 144 on the top top of the cover 132 so that the consumer is able to rotate the cover in both directions in the direction of the hands and in the opposite direction to the hands. As in embodiments
Petition 870190076574, of 08/08/2019, p. 23/31
Previous 20/26, the upper perimeter of the lid is provided with a frangible skirt 146 which provides a tamper-resistant element, in which the skirt would extend upward if the lid had been rotated causing the lid 132 to descend further into the support 108. The skirt 146 and all other characteristics of the cover 132 are integrally formed in a one piece construction preferably of a plastic material. Within the scope of the invention, other materials could be used including ceramic or metallic materials.
[050] A sharp projection 148 is formed in the center of the bottom surface of the lid 132, so that when the lid 132 is attached to the holder 108, before the opening of the beverage can 100, the tip of the sharp projection 148 is positioned close or juxtaposed with the center of the bottom surface of the support 108, at the point of intersection between the two lines that form the dotted line 116. The sharp projection 148 perforates the bottom wall 112 of the support 108 while the cover 132 moves linearly down and further into the holder 108 during the opening operation of the beverage can 100.
[051] To understand how the beverage can embodiment 100 operates, reference is made to Fig. 25, which is a top view of the beverage container before opening. Optionally, the recessed area 130 is engraved, printed or otherwise marked with instructions on how to use the lid 132. First, the consumer is instructed to open the beverage container by turning or turning the lid 132 in the direction of the hands. The degree of inclination of the ramps and the degree of inclination of the spiral grooves is selected to ensure that the beverage container 100 can be opened with the same or similar force used to open a conventional beverage container, such as a can of alcohol. soda. This can be achieved with a rotation movement of the lid which is preferably in the range of 45 to 90 degrees.
[052] After the lid has been rotated or rotated to the maximum allowed limit, the lid pushes the frangible area into the can, but the frangible area remains connected to the seal through a portion of the seal between the tops of the dotted line. In order to then drink the contents of the beverage container 100, the consumer
Petition 870190076574, of 08/08/2019, p. 24/31
21/26 turns, twists or turns the cover 132 in the opposite direction until it passes through the starting point where the opening rotation started, placing the projections 124, 126 and 128 in the open area of the spiral grooves 138,140 and 142.
[053] At that point, the cap 132 is pulled upwards by the consumer to separate from the beverage container 100 and the consumer is then free to drink through the opening formed in the seal 106 as a result of the frangible area having been pushed into the container 100. When the consumer has finished drinking and if the beverage container 100 is not empty, the consumer can reseal or close the beverage container by pushing the lid 132 back onto the holder 108 and then turning, twisting or turning the lid 132 in the same direction as the opening direction, until the lid 132 is fully seated on the holder 108, thus sealing the opening in the beverage container 100. In the resealing state, the contents of the beverage container 100 can be kept fresh, aerated (in the case of aerated drinks) and spill-proof (when the beverage container is mobile, as in the case where it is stored in a backpack, on a cart, car drink holder etc.).
[054] As in the other embodiments described here in this document, the invention includes a beverage container assembled with or without contents, with a unique resealing mechanism. The invention also includes a subset of the beverage container including a resealable seal and lid, capable of further joining with a beverage container body, such as those commonly in use such as aluminum cans for a wide variety of drinks. The invention also includes a lid capable of use with a seal or with a beverage container that contains a seal, so that beverage containers can be purchased without lids, and lids could be purchased separately for later use with the beverage containers that were formed with the aforementioned support. In this way, the lids would be reused repeatedly. Purchasing lids separately from beverage containers would have a green effect, in the sense that the lids could be washed and reused over and over again, thus reducing waste.
Petition 870190076574, of 08/08/2019, p. 25/31
22/26 [055] Referring to Figures 36 and 37, another feature of the invention is to provide a cover 200 that has the features shown above, including ramps 202, 204 and 206, and grooves 208, 210 and 212. As in the case of the other embodiments, the lid 200 has a top face or bottom wall 214 from which the ramp protrudes. A sealing ring 216 is provided on the surface of the top face 214 near its periphery. The sealing ring 216 is made of an elastomeric material which is different from the material constituting the cap 200, which is preferably made of a hard plastic material. The material that forms the sealing ring 216 can be injected through doors into a mold and formed in the lid 200 at the same time that the lid 200 is being molded by injection. Alternatively, the sealing ring 216 may be a separate preformed article which can be adhesive bonded in place after the cap 200 has been removed from its mold.
[056] Any of a variety of thermoplastic elastomers (TPEs) can be used to make the seal ring 216 and the selection of what is necessary is a matter of design choice, since the requirements are simply that the material is easy to mold. , easily adhered to the material of manufacture of the cover and somehow deformable under pressure (in use). Other materials can be used if a sealing ring is pre-made and adhesive-bonded to the top face or bottom wall of the lid. However, it is preferable to mold the ring in place. TPEs are sometimes referred to as thermoplastic rubbers and are in a class of copolymers or a mixture of polymers that consists of both thermoplastic and elastomeric properties. These are particularly suitable for injection molding, which is the preferred way to form the seal ring 216 on the face of the cap.
[057] Note that in Figure 38, two ramps are shown as opposed to three, which are found in other embodiments. Essentially any number of ramps can be used, but two or three are more preferred, for the reason that two or three can generate an opening force without requiring too much torque and are easier to manufacture than a number greater than three. As seen in Figure 38, the cover used in the Figure 38 embodiment has two ramps on the bottom top face that are shaped and are positioned compatible with the ramps
Petition 870190076574, of 08/08/2019, p. 26/31
23/26
226 and 228 shown in Figure 38.
[058] The lid 200 operates in the same way as the caps of the previous embodiments, since the consumer rotates the lid in one direction to open the container, then rotates the lid in the opposite direction to remove the lid and then the lid is reinserted in the holder and rotated in the first direction, opening the container, until the lid is completely sealed in the holder. Figure 35 shows how the lid 132 in this fully seated position, to reseal the container, in which the bottom wall 136 of the lid 132 presses against the bottom wall 112 of the support 108 to form a sealing engagement between the support and the cover. With the cover embodiment 200 which includes the sealing ring, in this position, the sealing ring 216 is pressed against the bottom wall 112 of the support to improve the sealing relationship between the support and the cover. The contact between the hard surface, i. e., the metallic material of which the support 108 is made and a relatively soft material, i. e., the elastomeric material from which the sealing ring 216 is made, will ensure a better seal for the contents of the beverage container. This is particularly useful when it comes to carbonated drinks, such as soft drinks and beers.
[059] In the previously described embodiments, the lid is provided with a handle or handle 48, as shown in Figures 39 and 40, in which handle 232 includes two parallel crossbars 234 and 236, spaced apart enough to fit a force-enhancing or handle-enhancing element, such as a 238 coin or other object made of a rigid material and strong enough to transfer torque from the consumer's hand to the lid. Obviously, the larger the diameter of the coin or other object, the greater the force that can be transmitted to the lid. The beverage container 240 can be sold as a set including lid 242 and accessory 238 (assuming it is not a coin), a subset including seal 244, lid 242 and accessory 238 (without the container body and sealed contents) or cap 242 can be sold by itself. For ease of storage and transportation, and as a cost reduction, it is preferable not to sell or package an accessory 238 with the beverage container 240 or lid 242 and / or seal / lid assembly.
Petition 870190076574, of 08/08/2019, p. 27/31
24/26 [060] Referring now to Figure 41, another aspect of the invention includes making the dotted line which defines the panel or cutting panels in a way that improves the opening or fracture capacity of the dotted line. As shown in Figure 41, a seal 244 includes a support 246 that includes a bottom wall 248. The bottom wall 248 includes three ramps 250, 252 and 254 and a frangible area 256 defined by the dotted line 258. The dotted line 258 , as in a previous embodiment, it is in the form of a loop, practically not entirely arranged, so that a hinge is defined between the opposite ends of the dotted line. The dotted line 258 is made during the formation steps that create the seal 244, which in the case of beverage cans, is made of a material with a thickness of 0.008 inches. The dotted line is typically 0.004 inches deep, so that the thickness of the seal under the dotted line is typically about 0.004 inches thick in the case of aluminum beverage cans. The thinning of the material occurs during the pressure of the seal, and in essence, the material that includes the seal is deformed and spreads to create a thin area under the line.
[061] Using the same principles of deformation or spreading of the material during the pressure steps, a puncture area 260 is formed on one of the tops of the dotted line 258 where one of the ramps will collide with the dotted line. At the beginning of the opening process, the ramps push into the extended punch area 260, which has been thinned essentially to the thickness of the side wall of the beverage container, in the case of an aluminum can. In other words, the total area of the puncture area is thinned relative to the surrounding surface of the seal to make it easier to pierce or break the dotted line. Once the dotted line is broken, the break will propagate more easily and predictably along the dotted line to facilitate opening the beverage container. Although the puncture area 260 is thinned, and therefore potentially more vulnerable to accidental opening, it is no thinner than the side wall of the beverage container and therefore capable of withstanding internal pressures. It is also protected from accidental external breakage due to the cover being resting on the support.
[062] Each embodiment described here in this document referred to a panel
Petition 870190076574, of 08/08/2019, p. 28/31
25/26 of cut, such as cutting panel 25, as that part of the support embodiment which is defined by a circular or round line. This cutting panel has also been described as a frangible area because it separates from the rest of the back wall when the cover goes down to the support. However, the cutting panel or frangible area is not required to be substantially circular or round in shape and as such, a second illustrated embodiment is shown in Figure 38. While all other aspects of the beverage seal 218 are the same as in the previous embodiments, including a support 220 having a bottom wall 222, the bottom wall is provided with a dotted line 224 in the shape of an S when pierced by operating the downward movement of the lid and fitting ramps 226 and 228, the fracture forms two separate cutting panels which are pushed inward during the opening operation, the two cutting panels being connected to the can by a hinge area on the opposite sides of the bottom wall 222. During the opening process, the sharp protrusion in the middle of the bottom wall of the cover will pierce the center of the dotted line in a thinned area 230. About the same height, the ramps of the support and cover cooperate to push the frangible areas in opposite locations that will become the hinges, essentially in the portions around the dotted S-shaped line. two cutting panels and are pushed into the beverage container.
[063] During the opening and closing operations, the handle or handle is preferably rotated 90 degrees in one direction and then to remove the support cover, the handle is rotated 90 degrees in the opposite direction to the starting point. In order to remove the cap completely from the seal, the handle is rotated approximately 10 degrees more until the grooves and protrusions are separated and the cap is free to be lifted out of the container. Different combinations of embossed and embossed ramps and different number of ramps can be used to achieve the desired effect. The space between the lid and the back wall of the support is equal to the length of the linear travel when the lid is operated between the transport and the open / resealed positions (in the case of aluminum beverage cans,
Petition 870190076574, of 08/08/2019, p. 29/31
26/26 approximately 0.055 inches). With the use of ramps that are engraved on the cutting panel, this distance can be doubled, forcing the cutting panel to fold on its hinges further away from the opening.
[064] In all cases using ramps, it is preferred that the peak height of the ramps be arranged close to or very close to the hinge, as this will help to push the cutting panel out of the way when the gear body of the cover pushes through the opening. The ramps help to propagate the drilling line along its length. There are matching ramps or other structures at the bottom of the cover that will interact with ramps on or on the cutting panels. All of the ramps are engraved (they rise from the bottom surface of the support), but they could also be cleared ramps that start below the bottom surface of the support and continue up the engraved ramp. If the respective ramp in the lid begins within the ramp removed from the seal, during operation the effective linear travel of the lid can be doubled, tripled and perhaps quadrupled.
[065] Although specific embodiments of the present invention have been described, it will be understood by those skilled in the art that there are other embodiments that are equivalent to the described embodiments. Accordingly, it should be understood that the invention is not limited by the specific embodiments illustrated, but only by the scope of the appended claims.

权利要求:
Claims (29)
[1]
1) CONTAINERS RESSE LAVELAS DE DRINKS AND METHODS FOR OBTAINING A TOP OF BESSELABLE TIN ", cgrvcíerizeda to understand; a body having a side wall and opposite opposing tops; a back wall on one of the tops a>: iai & e being integrally formed with the side wall; a seal attached to the laieml wall on the other axial top to define a closed interior space and having a frangible area; a rotatable and detachable cap attached to the seal in a juxtaposition with the frangible area, a first conduction means for bringing the lid to an operational engagement with the frangible area, thus pushing the frangible area into the can to form an opening in the seal; and a second driving device, operational in response to the first driving means, to increase the engagement between the cover and the frangible area
[2]
2} BEVERAGE CONTAINER, according to claim 1. comctor / zurfo in that the seal includes a support extending downwards into the interior space and having a side wall and a bottom wall and the lid including a side wall and a bottom wall and where the cover fits the support.
[3]
3) BEVERAGE CONTAINER, according to claim 2, in that the first driving means includes a first mechanism that conducts, a linear movement, capable of converting the rotational movement of the lid into a linear movement of the lid.
[4]
4) BEVERAGE CONTAINER, according to claim 3, connected per second conduction method to include a second mechanism that conducts a linear movement, capable of converting the rotational movements of the lid into a linear movement of the lid.
[5]
5) BEVERAGE CONTAINER '*, according to claim 3, shortened by the first mechanism that conducts a linear movement, including a first and a second gear structure, formed respectively on the side wall of the lid and on the side wall of the support ,
[6]
6) BEVERAGE CONTAINER ", according to claim 4, corocterizodo in that the second mechanism that conducts a linear movement, includes a third and a
2/6 fourth gear structure, formed respectively on the back wall of the cover and on the back wall of the support.
Λ) BEVERAGE CONTAINER, according to claim 5, body in that the first gear structure includes a groove formed in the side wall of the lid and the second gear structure includes at least one projection formed in the side wall of the support.
A BEVERAGE CONTAINER according to claim 6, in that the strong gear structure includes at least one ramp in the cover and the fourth gear structure includes less than one ramp in the support in a sliding coupling with at least one ramp of the cover,
[7]
9) BEVERAGE CONTAINER, according to claim 8, with merfeodo in that at least one cover ramp includes three ramps peripherally mounted around the bottom wall of the cover, in a sliding coupling with at least one support ramp .
[8]
10) "BEVERAGE CONTAINER, according to claim .1, rorocteforodo in that the lid includes a sharp projection formed in the center of the bottom wall of the lid and the support includes a dotted line formed in the center of the bottom wall of the support, in juxtaposition with sharp projection when the cover is positioned on the support.
[9]
11) “BEVERAGE CONTAINER, according to claim 10. corgcterâodo in that the dotted line includes at least two intersecting lines, and in which the sharp projection is in juxtaposition with the intersection between the two nails.
32) BEVERAGE CONTAINER, character to be understood; a body having a closed top and an open top; a cover arranged over the open top and closing the body to define an interior space; a support formed on the roof and including a frangible area; a cap fitted to the support and sendr .; between the storage position, an opening position, a drinking position, in which the cap is removed from the holder, and a resealing position; a first linear, detachable and rotating driving mechanism connecting the cover to the support and being operable by rotation of the cover to break the frangible area leaving it at least
3/6 less in part, free from the top and force the frangible area into the interior space of the body; and a second linear guiding mechanism in sliding engagement between the lid and the holder and being operable by rotation of the lid to increase the linear movement of the lid to the holder and therefore increase the force implemented by the first linear conduction.
[10]
13) BEVERAGE CONTAINER ** according to claim 12, çor octet wdo in that the support and the lid include opposite side walls and the first hnear mechanism includes a groove formed in the side wall of the lid and a projection formed in the side wall of the Support.
[11]
14) CONTAINER OF BESÍOAS ", according to claim 12, used in that the support and the lid include opposite side walls and opposite bottom walls and the second linear mechanism includes a first series of ramps arranged in the bottom wall of the lid and a second series of ramps arranged on the back wall of the support, in sliding engagement with the first series of ramps.
[12]
15) BEVERAGE CONTAINER, according to claim 12, fitted with a support and the lid includes opposite side walls and opposite bottom walls and the lid further includes a sharp projection arranged in the center of the bottom wall of the lid and the support it also includes a dotted line formed in the center of the support, in juxtaposition with the sharp projection.
[13]
16) '' BEVERAGE CONTAINER **, according to claim 12, coroctenzodo in that the frangible area is defined by a dotted line substantially closed in one turn, extending to the periphery of the back wall of the support.
[14]
17) METHOD FOR OBTAINING A RESETTABLE CAN TOP, coroctenzodo by: forming a seal from a planar disc; forming a support on the disk, the support having a side wall, a wall of the base, projections extending outwards from the side wall and ramps extending upwards from the back wall; form a first dotted line on the back wall of the support, defining the first dotted line a tan panel; form a lid having a side wall, a sling wall, at least one spiral groove formed on the side wall, a handle on an upper top ramps extending upwards from the
4/6 bottom wall; <3 cover being inserted into the support so that the projections of the support engage at least one spiral groove; and the cutting panel being pushed inwardly when the cover is rotated by the force generated by the ramps, guards and at least one spiral groove formed in the support and the cover.
[15]
18) BEVERAGE CONTAINER, according to claim 1 , characterized by the formation of a perforating element in the center of the back wall of the lid and a second dotted line formed in the center of the back wall of the support, in juxtaposition with the perforating element and the second dotted line when the cover is inserted in the holder.
[16]
19) RESESSABLE COVER FOR A SERIES CONTAINER, fitted with a body formed and molded to movably engage the beverage container by juxtaposing a frangible area of the beverage container: the body being rotatable in a first direction to pierce the frangible area, opening thus the beverage container and being rotatable in a second direction to allow separation of the body from the beverage container and rotatable in the first direction to reseal the beverage container after opening,
[17]
20) RESETTABLE COVER. according to claim 19, raroctemrmfc in that the body is a one-piece body having a side wall which includes at least one spiral slot, a bottom wall in an axial top and having a series of ramps formed and a handle formed on an affixed axial top, the body of a piece being inserted into a support formed in a beverage container, and being able to engage the corresponding formations in the support that engages the spiral groove and the ramps to provide the force capable of opening the beverage can when the body of a piece is rotated in the first direction.
[18]
21) CONTAINER BEDIDAS ', ^r ° P comprises a body having a bottom wall and a side wall defining an open top .; an iacre fitted on the open top in a sealing coupling and having a support; a lid fitted to the support and being movable between the pre-opening, opening and reseated positions; and means for improving the force provided to the lid for movement between the various positions.
[19]
22) DRINK CONTAINER. according to claim 21, corocrenzorfo in that the cover includes a handle and means for improving a cover accessory to engage the handle,
[20]
23) BEVERAGE CONTAINER ", according to claim 18, camyferfofoo as it also includes a sealing ring disposed between the support and the lid when the lid is in a sealing position on the support.
.
[21]
24) «METHOD FOR MAKING A RESINTABLE CAN TOP, correcting by forming a seal from a planar disk; forming a support on the disk, the support having a side wall, a back wall, projections extending outwardly from the side wall and ramps extending upwardly from the back wall; forming a first dotted line on the back wall of the support, the first dotted line being a cutting panel; forming a lid having a side wall, a bottom wall, at least one spiral groove formed in the side wall, a handle on an upper top, ramps extending upwards from the bottom wall; the lid being inserted into the support so that the projections of the support engage at least one spiral groove; and the tanning panel being pushed inwardly when the lid is rotated by a force generated by the ramps, projections and at least one spiral groove formed in the support and the lid.
[22]
25) “METHOD according to claim 24, coroctertzudq by the formation of a perforating element in the center of the back wall of the cover and a second dotted line formed in the center of the back wall of the support, in juxtaposition with the perforating element and the second dotted line when the cap is inserted in the holder.
28) REMOVABLE COVER FOR DM DRINK CONTAINER ”, formed by a body formed and molded to movably engage the beverage container juxtaposing a frangible area of the beverage container; the body being rotated in a first direction to perforate the frangible area, thus opening the beverage container and being rotatable in a second direction to allow separation of the body from the
6/6 beverage container and rotates in the first direction to reseal the beverage container after opening.
[23]
27) RESETTABLE COVER. according to claim 26, corocteozorfo in that the body is a piece having a side wall which includes at least one spiral groove, a bottom wall at the top axia.ie having a series of ramps there formed and a handle formed at the top opposite axial, the body of a piece being inserted into a support formed in a beverage container, and being able to engage the corresponding formations in the support that engages the spiral groove and the ramps to provide the force capable of opening the can. drinks when the body of a piece is rotated in the first direction.
[24]
28) BEVERAGE CONTAINER, body with a body having a bottom wall and a side wall that define an open top; an iacre fitted on the open top in a sealing coupling and having a support; a lid fitted to the support and being removable between the pre-opening, opening and resealed positions; and means for improving the force provided to the cover for movement between the various positions.
28) BEVERAGE CONTAINER "according to claim 28, in that the lid includes a steel and the means for improvement include an accessory capable of engaging the handle.
[25]
30) BEVERAGE CONTAINER, according to claim 29 ,. roroctertzptfo por accessory is a coin.
[26]
31) BEVERAGE CONTAINER, according to claim 28, co-formed by a sealing element disposed between the support and the lid.
[27]
32) BEVERAGE CONTAINER, according to claim 28, in which the support has a wall and a tear strip defined by a dotted line on the bottom wall.
[28]
33} BEVERAGE CONTAINER ", according to claim 32, crzmcter-õtorfo in that the dotted line is substantially in the form of a loop.
[29]
34) BEVERAGE CONTAINER ", according to claim 32, characterized in that the dotted line is substantially in the form of an S.

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法律状态:
2017-07-25| B08E| Application fees: payment of additional fee required [chapter 8.5 patent gazette]|

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2017-09-19| B08G| Application fees: restoration [chapter 8.7 patent gazette]|

---

2018-11-21| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

---

2019-10-29| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

---

2020-02-18| B11B| Dismissal acc. art. 36, par 1 of ipl - no reply within 90 days to fullfil the necessary requirements|

---

2021-10-05| B350| Update of information on the portal [chapter 15.35 patent gazette]|

优先权:

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申请号 | 申请日 | 专利标题

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US13/572,404|US8844761B2|2012-08-10|2012-08-10|Resealable beverage containers and methods of making same|

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US13/787,012|US8985371B2|2012-08-10|2013-03-06|Resealable beverage containers and methods of making same|

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PCT/US2013/054210|WO2014026047A1|2012-08-10|2013-08-08|Resealable beverage containers and methods of making same|

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