巴西专利BR112014025391B1 can end and can set

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专利摘要:
CAN END, CAN SET, METAL CONTAINER, AEROSOL CONTAINER, AND, BOTTLE SET A container or part of a container can comprise fragrance encapsulated in microcapsules configured to release a substance that emits fragrance in at least a predetermined period of time.
公开号:BR112014025391B1
申请号:R112014025391-9
申请日:2013-04-12
公开日:2020-11-10
发明作者:Christopher Paul Ramsey；Peter Alan Young；Daniel A. Abramowicz
申请人:Crone Packaging Technology, Inc.；
IPC主号:

专利说明:

[1] This claim claims priority for US Provisional Application No. 61 / 636,916, filed on April 23, 2012, the contents of which is incorporated herein by reference, and US Provisional Application No. 61 / 624,015, filed on April 13, 2012, the contents of which are also incorporated by reference. TECHNICAL FIELD
[2] The following summary and descriptions refer to the deposition of fragrance encapsulated in containers used to store food and drinks. BACKGROUND
[3] Much of what is attributed to taste is actually a function of smell. By improving the smell of a food or drink, the perceived taste and other experiences associated with that food or drink can be affected. For example, a person who eats a chocolate bar while smelling mint might notice that the chocolate bar has a mint flavor even if it doesn't have a mint flavor.
[4] Aroma releases of the type of smell or trace are well known. ScentSational Technologies, LLC of Jenkintown, Pennsylvania markets FDA-GRAS (generally recognized as safe) food-grade flavors approved by FDA directly for food and beverage components and fragrances for consumer products under the Encapsulated Aroma Release ™ technology trade name . Encapsulating a fragrance is believed to be a friable microcapsule. In this sense, the packaging becomes flavored to improve the product and the overall consumer experience. ScentSational lists that its technology can be applied to all existing manufacturing methods, including blow molding, injection molding, thermoforming, extrusion and in gaskets and coatings.
[5] It has been suggested that beverage companies apply a microcapsule type fragrance to the outside of a can after filling, without specifying its location in the can. SUMMARY
[6] The use of fragrance in food or beverage containers can enhance the perceived experiences of those foods and drinks. In order to control the fragrance distribution time, the fragrance can be encapsulated in microcapsules. In one embodiment, a can end, such as a can end configured for use in a food or drink can comprise a peripheral ripple configured to be sewn to a can body flange, a central panel disposed within the peripheral ripple , a flap coupled with the central panel by a rivet, and fragrance encapsulated in microcapsules, the microcapsules that are positioned such that the flap actuation activates at least a portion of the microcapsules to release the fragrance.
[7] In another embodiment, a can assembly may comprise fragrance encapsulated in microcapsules, a can body, and a can end sewn to the can body, the can end further comprising a peripheral ripple sewn to the can body, a central panel, and a flap coupled with the central panel by a rivet.
[8] In another embodiment, a metal container may comprise a body, a blade cover sealed to the body having an outer surface and a flap configured for use in detaching the blade from the body, and fragrance encapsulated in microcapsules.
[9] Another embodiment may comprise a metal container comprising a lid, a body, and fragrance encapsulated in microcapsules.
[10] Another embodiment may comprise an aerosol container comprising a button outlet valve, a product compartment attached to the valve outlet, and fragrance encapsulated in microcapsules.
[11] In another embodiment, a bottle set comprising a bottle including a choke that defines an opening, a crown cap configured to cover the opening, and fragrance encapsulated in localized microcapsules and an open contact region. BRIEF DESCRIPTION OF THE DRAWINGS
[12] The previous summary, as well as the following detailed description of the various modalities of the application, will be better understood when read in conjunction with the attached drawings. For the purposes of illustrating the various types of disclosure, reference is made to the drawings. However, it should be understood that the application is not limited to the precise arrangements and instrumentalities illustrated in the drawings, in which: Fig-IA is a perspective view of a beverage can including a flap with cut out portions of the can body; Fig-1B is a top view of the beverage can flap shown in Fig. IA; Fig-1C is a cross-sectional view of the beverage can flap shown in Figs. IA, 1B, Fig-1D is a perspective view of the beverage can flap shown in Figs. 1A-C, Fig-2A is a perspective view of a beverage can including a flap with cut-out can body portions; Fig. 2B is a cross-sectional view of the flap shown in Fig. 2A; Fig. 2A is a perspective view of a beverage can with cut-out can body portions; Fig. 3B is an enlarged partial perspective view of Section A of the beverage can shown in Fig. 3A; Fig. 4A is a top view of a beverage can including the sewn can end, Fig- a cross-sectional view of the can end shown in Fig-4A in an unsewn state; Fig-5A is a top perspective view of a can end including a mark, Fig-5B is a cross-sectional view of the can end mark shown in Fig. 5A, Fig-6A is a view of perspective of a beverage can with cut-out portions of the can body, Fig. 6B is an enlarged partial perspective view of Section B of the beverage can shown in Fig. 6A; Fig. 7A is a perspective view of a beverage can with cut-out portions of the can body. Fig-7B is a perspective view of the drink can shown in Fig. 7B with cut-out portions of the can body; Fig-8A is a perspective view of a food can; Fig-8B is an enlarged partial perspective view of Section C of the food can shown in Fig. 8A; Fig-9 θ is a perspective view of a metal container including a blade cover; Fig-10A is a perspective view of a metal container including a blade cover. Fig-10B is an enlarged partial cross-sectional view of the metal container shown in Fig. 10A; Fig-11 is a perspective view of a metal container including a metal lid; Fig-12A is a perspective view of an aerosol container; Fig. 12B is an enlarged perspective view of the aerosol container shown in Fig. 12A with cut out portions; Fig-13 is a perspective view of a bottle including a crown cap with cut-out portions of the bottle; Fig-14A is an enlarged top view of microcapsules containing oil that emits fragrance in which the microcapsules are in an unbroken state; and Fig-14B is an enlarged top view of the microcapsules shown in Fig. 14A in which most of the microcapsules are in a broken state and a fragrance-emitting oil has been released. DETAILED DESCRIPTION OF THE ILLUSTRATIVE MODALITIES
[13] The following description refers to the use of microcapsules 100, such as microcapsules 100 shown in Figs. 14A, B, in containers such as those shown in Figs. 1A-13. Microcapsules 100 contain fragrance-emitting substance 101, which includes fragrance such as fragrance oil. Microcapsules 100 can be any type of microcapsule configured to contain fragrance-emitting substance 101, such as fragrance oil or essential oil. Each of containers, microcapsules, and fragrance-emitting substance 101 can be configured so that an end user of the container smells the fragrance-emitting substance 101 at some point while using the container or the contents of the container.
[14] Microcapsules 100 are configured in such a way that, through the application of force, the microcapsules break and the substance that emits fragrance 101 is released from the microcapsules. Force can be applied to microcapsules 100 in a variety of ways. For example, a user of a container can directly touch the microcapsules 100 in the container in order to enclose the microcapsules 100 in a generally linear manner or to create an axial force that crushes the microcapsules. These types of forces created, for example, by the user's finger, can cause the microcapsules 100 to shear, exposing the fragrance-emitting substance 101 to the user's skin. Through contact with the user's skin, the substance that emits fragrance 101, such as oil, can mix with oil on the user's skin, in order to improve the user's perception of the smell of the substance that emits fragrance 101. Alternatively , the force can be applied to the microcapsules indirectly by the user, such as during a process of opening the container. For example, during the process of opening the container, two parts of the container can move relative to each other, shearing microcapsules in either part or both parts of the container and releasing the substance that emits fragrance 101. The microcapsules 100 they can also release the fragrance-emitting substance 101 without force being applied. For example, the outer hulls of microcapsules 100 may spontaneously rupture or dry out after a given amount of time.
[15] Microcapsules 100 can be deposited on the surfaces of container 10 for rupture before, during and / or after opening by a user. The following examples of the locations of microcapsules 100 are not intended to be limiting. It will be realized that the modalities can be configured such that there is minimal rupture of the microcapsules before the consumer's use in order to minimize fragrance exposure during manufacture, as well as during transport and at the point of sale. In some embodiments, microcapsules 100 can be applied to the container during last stage fabrications, such as after filling the container. Additionally, it will be realized that modalities will include microcapsules that are located in one location or more than one location in the container 10.
[16] Fig. IA shows a container 10, such as a metal drink can assembly that includes a can end 20 and a can body 50. The can end 20 has an outwardly extending peripheral wave. 22 sewn to a can body flange. The peripheral corrugation 22 connects with an inwardly extending mandrel wall 24. A countersink layer 26 connects the mandrel wall 24 with the center panel 28. The center panel 28 has an outer surface 28a and an opposite inner surface 28b (as shown in Figs. 7A, B).
[17] The central panel 28 further comprises a mark 29 which defines a tear panel 30. The mark 29 further defines a recess in the mark 32 (shown in Fig. 5B). As shown in Figs. 2A, 7B the tear panel 30 can be configured to partly or completely detach from the central panel 28 to form a pour opening 34.
[18] The central panel 28 can comprise a rivet 36 that attaches a flap 38 to the central panel 28. The flap 38 has a top side 38a and a bottom side 38b. The flap 38 is additionally configured to have a nose 40 and a heel 42. The rivet 36 acts as a pivot point for the flap such that when the heel 42 is raised, the nose 40 is configured to slidably engage the tear panel. 30, pressing down on the tear panel 30 and stretching the mark 29 such that the mark 29 begins to break and the pouring opening 34 begins to form.
[19] In some example embodiments, as shown in Figs. 1A-2B, microcapsules 100 may be located on flap 38. For example, flap 38 may include a flap well 41 between flap heel 42 and nose 40. Flap well 41 may be a recessed portion both the top side 38a (as shown in Fig. 1C) and the bottom side 38b (as shown in Fig. 2B) of flap 38. Flap well 41 can contain microcapsules 100. By depositing the microcapsules on the bottom side 38b of the flap 38, the microcapsules can be protected from accidental rupture before the container is opened by the user, such as a final consumer. The user can access the contents of the container by lifting the heel 42 of the flap away from the central panel 28 with their fingers. During this process, the user's fingers create a force against the microcapsules 100 in the flap 38, axially and / or linearly with respect to the top side 38a and / or bottom side 38b of the flap. Axial and / or linear forces break microcapsules 100, releasing the substance that emits fragrance 101.
[20] Some example embodiments include microcapsules 100 on the outer surface 28a of the central panel 28. For example, as shown in Fig. 3, the flap 38 does not include a flap well 41 and instead includes a flap cutout 39. The cutout 39 exposes a portion of the central panel 28 that is otherwise covered by the flap 38. This exposed portion can be partially or completely covered with the microcapsules 100. The microcapsules 100 can be arranged in the central panel 28 so that a user pivots the flap 38 sliding a finger under the heel 42, the microcapsules 100 break due to the generally linear abrasion force created by the sliding movement of the user's finger and the fragrance-emitting substance 101 is released.
[21] As shown in Fig. 4A, some embodiments may include microcapsules 100 that are deposited in the form of a ring 110 (shown partially) on the center panel 28 around rivet 36. Such ring 110 can have several geometries including circular geometry shown in Fig. 4A. In one embodiment, ring 110 has a diameter in the range of 8 to 10 mm. The configuration of a ring 110 allows the application of microcapsules 100 without orienting the end. The microcapsules 100 of the ring 110 can be sheared by contact with the nose 40 of the flap 38 during opening. The microcapsules 100 can alternatively or additionally be sheared when the user slides a finger under the flap 38 during opening.
[22] In some embodiments, microcapsules 100 may be located on the nose 40 of the flap 38 or on the central panel 28 below the nose 40 such that during opening, the contact between the flap 38 and the central panel 28 causes the microcapsules break up. Some modalities include a nose recess 45 that provides housing for the microcapsules 100. During opening, the nose recess 45 can be compressed in order to crush the microcapsules 100, releasing the substance that emits fragrance 101. Some modalities include a tear panel recess 44 defined by the tear panel and providing a housing for microcapsules 100. Microcapsules 100 in the tear panel recess 44 can be compressed and crushed during opening when the nose 40 presses against the tear panel to release the fragrance-emitting substance 101. It will be appreciated that microcapsules 100 may have other locations at the can end 20 in addition to those shown. In addition, microcapsules 100 can be located in the can body 50.
[23] Microcapsules 100 can also be located in the recess 32 defined by the mark 29. Figs. 5A, B show microcapsules 100 deposited on the groove of the mark and on the outer surface 28a of the central panel 28. When the mark 29 breaks, the microcapsules 100 on the groove of the mark are crushed and sheared, releasing the fragrance-emitting substance 101. The central panel 28 can additionally include other recesses, such as heel recess 43 shown in Fig. 6B. The recess 43 can be partially or completely filled with the microcapsules 100. When the user places a finger under the flap 38, his finger also contacts the microcapsules 100 in the recess 43, compressing and / or shearing the microcapsules 100 in a linear manner to release the substance that emits fragrance 101.
[24] Other types of containers 10 can also include microcapsules 100. For example, Figs. 7A, B show a beverage can in which the tear panel '30 comprises a majority of the central panel 28. The microcapsules 100 can be located on multiple surfaces in the container 10, including the mandrel wall 24, as shown in Figs. 7A, B.
[25] Other types of containers 10, such as a food can, may also include microcapsules. For example, Figs. 8A, B show a container 10 with microcapsules 100 on the outer surface 28a of the central panel 28.
[26] Microcapsules 100 can also be deposited in other types of containers. Fig. 9 shows a metal container 900 including a metal container body 950 attached to a peeling blade 905. In some embodiments, the metal container 900 includes a lid (not shown). The blade 905 includes a flap 910 to peel the blade 905 from the metal container 900. The flap 910 can include microcapsules 100 such that when a user pulls the flap 910 to remove the blade, axial force is applied to the microcapsules 100 by user's finger while the fingers squeeze the tab 910 so that they break and the substance that emits fragrance 101 is released.
[27] Microcapsules 100 can be located at various other locations in metal container 900. For example, microcapsules 100 can be located on an outer surface of blade 905a such that when the blade is peeled from metal container 900 and the blade 905 is subsequently folded and / or stretched, microcapsules 100 break, releasing the fragrance.
[28] Some embodiments, such as the metal container 900 shown in Figs. 10A, B, can include microcapsules 100 between the flap 910 and the outer surface 905a of the blade 905. When the flap 910 is pulled from the outer surface 905a of the blade 905, the capsules are sheared away and / or between each other to release the substance that emits fragrance.
[29] Other types of metal containers that can be used for depositing microcapsules 100 include a metal container 1100 (shown in Fig. 11) with a metal lid 1105 that attaches to the metal container body 1150. The metal container 1100 can include microcapsules 100 in body 1150 that are configured to be broken when cap 1105 is removed from body 1150. Specifically, when cap 1105 slides against body 1150, linear abrasion breaks microcapsules 100, releasing the substance that emits fragrance 101.
[30] Containers such as aerosol container 1200 shown in Figs. 12A, B can also include microcapsules 100. The aerosol container 1200 includes a product compartment 1215 that connects with a valve outlet 1210 that is controlled by a 1205 actuator button. The 1205 actuator button can be made of various types of material including metal and plastic. In some embodiments, microcapsules 100 can be deposited on actuator button 1205 as shown in Fig. 12B. Thus, when the pressure applied by the user to the actuator button 1205 in order to actuate the valve outlet 1210, the axial force (and alternatively or in addition the linear abrasion force) breaks the microcapsules 100, releasing the substance that emits fragrance 101.
[31] Fig. 13 shows a 1300 bottle set with cut-out portions. The embodiment shown is a 1305 glass bottle, but it will be appreciated that the 1305 bottle can be made of various types of other materials such as metal. Bottle 1305 includes a choke 1307 that defines an opening (not shown) through which the contents of bottle 1305 can be dispensed. A crown cap 1310 is configured to cover the opening. Crown cap 1310 includes a skirt 1315 which has a bottom edge 1309. Crown cap 1315 can be a pry-off or twist-off cap.
[32] Microcapsules 100 may be located at various locations in the 1300 bottle assembly. For example, microcapsules 100 may be located in the choke 1307 of bottle 1305 in a region where the bottle can be kept while consuming the contents. As the user holds the 1305 bottle, pressure and / or linear abrasion can crush the microcapsules 100, releasing the fragrance-emitting substance 101. Some embodiments may include microcapsules in an open contact region 1320 of the 1300 bottle assembly such as a location on the bottle set 1300 where a user contacts the bottle set with a hand or bottle opener to lift or twist the crown cap 1310 of bottle 1305. In some embodiments, the bottom edge 1309 of skirt 1315 may include microcapsules. The user's hand and / or the bottle opener can crush the microcapsules 100, releasing the substance that emits fragrance 101 during the opening process.
[33] The foregoing descriptions are not intended to be limiting in terms of either the location of the microcapsules or the types of container. For example, microcapsules 100 can be located anywhere in container 10, including portions not shown such as the base. In addition, microcapsules 100 can be deposited in types of container such as release cans or glass jar lids.
[34] Microcapsules 100 are configured to break at various times. It will be realized that some microcapsules may break before being deposited in a 10, 900, 1100, 1200, 1300 container. Some microcapsules may break after deposition in the container, but before use by the final consumer. The container, microcapsules, and fragrance can be configured in such a way that at least a portion of the microcapsules will break at least one key time in the container's life cycle. For example, containers and microcapsules can be configured in such a way that microcapsules break when the final consumer opens the container. The microcapsules can also break after opening, so the fragrance can be continuously released while the contents of the container are consumed. It will be realized that the designs of the container, the microcapsules, including the coating of the microcapsule, and the fragrance can all be configured so that the end consumer feels the fragrance at an appropriate time in the life cycle of the container.
[35] In one example, a beverage can can be configured to contain beer. The can can include microcapsules with fragrance that smell like tasty foods that can be served with beer. In this way, the end consumer can enjoy a beer with a perceived flavor that complements a meal.
[36] In other modalities, microcapsules may contain the fragrance that would otherwise modify the perceived taste of the contents of the container. For example, cherry fragrance can be used in a way that the end user perceives normal glue having the flavor of cherry glue.
[37] In addition to modifying perceived flavors, microcapsules can be used to otherwise affect the consumer experience. In an example embodiment, a can containing soup may have microcapsules with fragrance that smell like meat so that the end consumer can perceive the soup as having an abundance of meat. In other example modalities, fragrance can be encapsulated with the smell of fresh herbs or vegetables so that the end consumer can attribute qualities to the contents of the container.
[38] Some modalities may include microcapsules that have two or more fragrances. In such modalities, at least two types of oils that emit fragrance can be encapsulated separately in different microcapsules. The at least two groups of microcapsules can then be combined and attached to a container. In one embodiment, a can of common-flavored cola can have microcapsules with a cherry fragrance and microcapsules with a vanilla fragrance. The end user of such a product may perceive the common flavored glue as having a vanilla and cherry glue flavor.
[39] In some embodiments, microcapsules 100 and the fragrance-emitting substance 101 contained therein may be suitable for human consumption. These modalities may include containers that have microcapsules deposited in areas where the microcapsules and the oil that emits fragrance can contact the contents of the container and / or be consumed by the end user.
[40] Some modalities can be configured in such a way that the microcapsules change color when they are broken. For example, microcapsules can be configured to display a first color, such as white, when less than a majority of the microcapsules have broken and a second color, such as red, when a majority of the microcapsules are broken.
[41] For the modalities described here, several types of application methods can be used to apply microcapsules to cans and containers. For example, microcapsules can be dispersed in a lacquer or paint that is coated in a can or container during the manufacturing process. In some embodiments, cans or containers can be coated on the spot with a lacquer or paint containing microcapsules during or following the formation of the container. Alternatively, the microcapsules can be sprayed on a can or container such that the microcapsules form a film that dries or is cured on the substrate of the container.
[42] In yet another embodiment, tabletop or block printing can be used to apply microcapsules to a can or container. Block printing involves transferring a 2D image to a 3D object through the use of an indirect offset printing process. Specifically, an image can be transferred from the cliché through a silicone block to a substrate. The properties of the silicone block allow it to take the image from a flattened plane and transfer it to various surfaces such as those shown in the cans and containers here.

权利要求:
Claims (14)
[0001]
1. Can end comprising: a peripheral undulation (22) configured to be sewn to a can body flange; a central panel (28) disposed within the peripheral undulation; a flap (38) coupled with the central panel by a rivet (36); the can, characterized by the fact that it comprises a recess, formed in the central panel between a heel (42) of the flap and said peripheral undulation; and fragrance encapsulated in microcapsules (100), the microcapsules being positioned within said recess such that the actuation of the flap activates at least a portion of the microcapsules to release the fragrance.
[0002]
2. Can end according to claim 1, characterized by the fact that the microcapsules are positioned so as to release the fragrance to a user's skin during opening.
[0003]
3. Can end according to claim 1, characterized in that the central panel includes a tear panel (30) formed in it, at least a portion of the microcapsules being located in the tear panel below a nose of the flap such that the nose (40) is able to activate the microcapsule by activating the flap (38).
[0004]
4. Can end according to claim 3, characterized by the fact that the flap and the tear panel are configured such that the nose slidably engages the tear panel to activate the microcapsules through the actuation of the flap.
[0005]
5. Can end according to claim 3, characterized in that the tear panel has a recess to house at least a portion of the microcapsules.
[0006]
6. Can end according to claim 1, characterized in that the flap comprises a nose and at least a portion of the microcapsules is in the nose of the flap.
[0007]
7. Can end according to claim 1, characterized by the fact that the microcapsules encapsulate at least two different fragrances.
[0008]
8. Can end according to claim 1, characterized by the fact that at least a portion of the microcapsules is on the heel of the flap.
[0009]
9. Can end according to claim 1, characterized by the fact that at least a portion of the microcapsules is in the central panel (28).
[0010]
Can end according to claim 9, characterized in that at least a portion of the microcapsules is in the form of a ring around the rivet.
[0011]
Can end according to claim 1, characterized in that the central panel additionally comprises a mark that defines a recess and at least a portion of the microcapsules is in the recess.
[0012]
Can end according to claim 1, characterized in that the microcapsules have a first color when less than 50 percent of the microcapsules are broken and a second color when more than 50 percent of the microcapsules are broken.
[0013]
13. Can set, characterized by the fact that it comprises fragrance encapsulated in microcapsules (100); a can body (50); and a can end (20) sewn to the can body, the can end further comprising a peripheral corrugation (22) sewn to the can body; a central panel (28); and a flap (38) coupled with the central panel by a rivet (36), the can, distinguished by a recess, formed in the central panel between a heel (42) of the flap and said peripheral undulation; and fragrance encapsulated in microcapsules (100), the microcapsules being positioned within said recess such that the actuation of the flap activates at least a portion of the microcapsules to release the fragrance.
[0014]
14. Can set according to claim 13, characterized by the fact that the microcapsules are positioned so as to release the fragrance to a user's skin during opening.

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法律状态:
2018-12-04| B06F| Objections, documents and/or translations needed after an examination request according [chapter 6.6 patent gazette]|

2019-10-22| B06U| Preliminary requirement: requests with searches performed by other patent offices: procedure suspended [chapter 6.21 patent gazette]|

2020-06-23| B09A| Decision: intention to grant [chapter 9.1 patent gazette]|

2020-11-10| B16A| Patent or certificate of addition of invention granted|Free format text: PRAZO DE VALIDADE: 20 (VINTE) ANOS CONTADOS A PARTIR DE 12/04/2013, OBSERVADAS AS CONDICOES LEGAIS. |

2020-12-08| B16C| Correction of notification of the grant|Free format text: REF. RPI 2601 DE 10/11/2020 QUANTO AO TITULAR. |

优先权:

申请号 | 申请日 | 专利标题

US201261624015P| true| 2012-04-13|2012-04-13|

US61/624015|2012-04-13|

US201261636916P| true| 2012-04-23|2012-04-23|

US61/636916|2012-04-23|

PCT/US2013/036384|WO2013155423A2|2012-04-13|2013-04-12|Structures and methods for controlling fragrance release using encapsulated fragrance on container bodies|

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