beverage can

专利摘要:
The invention relates to a can (1) comprising a body, in particular made of aluminum, wherein on an end wall (14) of the can (1) a closure region (2) is at least partially delimited by a predetermined breaking edge (3) and wherein the can (1) is an opening element (1). 4) which, in its initial position, bears at least partially against the end wall (14) of the can (1) and is connected to the end wall (14) at at least one setting means of a connecting element (12) formed as part of the opening element (4) , and in particular with the end wall (14) is connected, wherein when pivoting the opening element (4) relative to the can (1) from the starting position into an open position, the closure region (2) along the predetermined breaking edge (3) tears off and in the of the predetermined breaking edge (3 ) defines an opening (7) for emptying the contents of the can (1), wherein the opening element (4) comprises a carrier body of electrically and / or magnetically insulating Or comprises material, the opening element (4) carries an antenna (8) arranged on or in the carrier body and a transponder chip (9) connected to the antenna (8), an electrical connecting line (13) is provided which connects the two terminals of the antenna (8). 8) electrically conductively connects and short-circuits each other in the initial position, and the electrical connection line (13) is arranged such that it is irreversibly interrupted when the can (1) is opened by pivoting the opening element (4) from the starting position to the open position, and thus the antenna (8) are activated.
公开号:AT514156A1
申请号:T50190/2013
申请日:2013-03-20
公开日:2014-10-15
发明作者:
申请人:Seibersdorf Labor Gmbh；
IPC主号:

专利说明:

1
The invention relates to a can according to the preamble of claim 1.
A variety of beverage cans are known from the prior art, which can be opened by means of a disposable closure, wherein each opening a closure area is broken out of the body of the can with the opening, so that the contents of the can can be emptied from this.
It is also possible from the state of the art to arrange objects, in particular also cans, RFID VN FC antennas and RFID / NFC transponders in order to transmit data stored in the transponder to the external communication device by means of an external data communication device transfer.
However, there is no known possibility from the prior art that data can only be transferred from a container to an external data communication device if a one-off closure has been opened on the container. Such a device could, for example, be used to make certain information stored in the transponder accessible only to the person who has purchased the respective can or the respective container. Typically, such a can be advantageously used for sweepstakes, where it is necessary that the respective player bought the can or opened.
The object of the invention is thus to provide a can with the data from a transponder located on the can to an external one
Data communication device can only be transferred if the respective box is open and / or with an external data communication device on a arranged on the can transponder data can be stored only when the respective box is open.
The invention solves this problem in the case of the type mentioned above with the features of the characterizing part of claim 1. According to the invention in a can comprising a body, in particular made of aluminum, wherein on a front wall of the can a closure region is at least partially defined by a predetermined breaking edge and wherein the can has an opening element which, in its initial position on the end wall of the box at least partially, in particular flat, and is connected to the end wall at at least one point by means of a connecting element which is formed as part of the opening element 2/24 2 and in particular is connected to the end wall, and wherein upon pivoting of the opening element relative to the can from the starting position in an open position of the closure region tears off along the predetermined breaking edge and forms an opening for emptying the contents of the can in the delimited by the predetermined breaking edge intermediate region, vo rescheduled, - that the opening element comprises a carrier body made of electrically and / or magnetically insulating material, - that the opening element carries a arranged on or in the carrier body antenna and a transponder chip connected to the antenna, - that an electrical connection line is provided, the two terminals of the antenna in the initial position electrically conductively connects and short-circuits, and - that the electrical connection line is arranged such that it is irreversibly interrupted by the pivoting of the opening element from the starting position to the opening position and thus the antenna when opening the can activated.
This construction ensures that data communication between the transponder disposed on the can and an external data communication device is possible only then. when the can is open. In any case, data communication is impossible if the opening element is in its starting position and the can has not yet been opened.
A particularly simple structure, which allows a simple tearing of the connecting line, provides that the electrical connection line is partially disposed in or on the connecting element and partially in or on the opening element, and the connecting line tears when pivoting the opening element relative to the connecting element.
In order to enable a simple tearing, it can be provided that the electrical connection line has a predetermined breaking point in at least one intermediate region between the connecting element and the opening element, which breaks when the opening element is pivoted relative to the connecting element.
A particularly simple construction of a can according to the invention provides that the antenna and the transponder chip are arranged on a common film, in particular a common adhesive label, which is arranged on the opening element, in particular adhered to the opening element. 3/24 3
In order to allow a simple separation of the connecting line, it can be provided that the electrical connecting line is arranged in or on the film, and that the connecting line and the film are arranged partially on the opening element and partially on the connecting element.
An advantageous guidance of the connecting line and a simple integration of the connecting line into the opening element provides that the connecting element and / or the opening element has a partially electrically conductive body and that the connecting line formed by the electrically conductive part of the body of the connecting element and / or the opening element is.
An advantageous mounting of the connecting element with the end wall of the box provides that the connecting element is connected to the end wall of the box by the connecting element is flat and is fixed in a plane parallel to the end wall or runs and connected thereto, wherein the connecting element is arranged in particular rotatable about an axis normal to the plane of the end wall.
In order to additionally effectively avoid shielding or displacement of electromagnetic waves directed towards the antenna in the open position, it can be provided that at a transmission frequency of the transponder chip in the range between 100 kHz and 1000 MHz, in particular in the range from 120 to 135 kHz, in the Range of 13 to 14 MHz or in the range of 860 to 910 MHz, the specific electrical conductivity of the carrier material of the opening element is less than 1 S / m, and / or that the electrical permittivity of the carrier material of the opening element is less than 100 * 8.854 * 10'12 As / Vm, and / or that the magnetic permeability of the orifice member is less than (1 + 2.2 * 10 " 5) * 4 * π * 10 'Vs / Am.
An embodiment of the invention which is particularly easy to produce provides for the closure region and the predetermined breaking edge to be formed on an end wall of the can.
An arrangement with which an advantageous pivoting of the opening element is possible, provides that the opening element is connected via a rivet to the box, wherein the opening element has a voltage applied in its initial position on the closure area pressure area for pressing in the closure area. 4/24 4
In order to open the can easily, it can be provided that the opening element has an actuating region opposite the pressure region, whereby the pressure region and the actuating region are delimited from one another by the rivets and together act like a two-armed lever, in particular articulated by the rivet (6) Act.
A particularly simple mechanical design, which enables a good pivoting of the opening element relative to the can, provides that the opening element has a relative to its body pivotable connecting element, which is connected by means of the rivet with the end wall of the box.
A particularly simple positioning of the transponder can be achieved by the transponder chip is arranged in the starting position in a region of the opening element, which abuts the closure area.
Particularly advantageous in the use of transmission frequencies of 120-135 kHz or 10-15 MHz is that the antenna is annular and in particular along the peripheral edge of the opening element is arranged in a notch.
A particularly advantageous manufacturable design provides that the opening element is formed in two pieces and has a hinged to the end wall base part and connected to the base part and an electrically non-conductive body having antenna part, wherein the transponder chip and the antenna disposed in the antenna part, in particular cast, and wherein the Basisisteii at least one extension, in particular two extensions, which is connected to the antenna part and in particular rests against this.
It can be advantageously provided that the antenna part has a housing part and an annular extension, wherein the antenna extends at least partially in the ring extension.
An advantageously simple construction of the opening element provides that the housing part has at least one latching recess, in particular two latching recesses, into which engages the end of the extension, in particular the two ends of the extensions of the base part, in particular engaged, and / or wherein the extension or abut the extensions of the base part of the annular extension of the antenna part. 5/24 5
In order to enable a secure activation of the transponder chip, it can be provided that the antenna part has a web in the region of the ring extension, which connects a first part of the ring extension to a second part of the ring extension and forms two recesses, one of the recesses permeating the rivet is and the web is arranged in the initial position below the connecting part and ruptures upon actuation of the opening element.
A preferred embodiment of the invention will be described in more detail with reference to the following drawing figures.
In Fig. 1, a first embodiment of the invention is shown in the starting position. In Fig. 2, the embodiment of the invention shown in Fig. 1 is shown in the open position. Fig. 3 shows the opening element of the embodiment of the invention shown in Fig. 1 in the starting position from above. Fig. 4 shows the opening element of the embodiment of the invention shown in Fig. 1 in the opening position obliquely from the side.
Fig. 5 shows an opening element according to a second embodiment of the invention in the starting position from above. FIG. 6 shows a detail from FIG. 5.
Fig. 7 shows a third embodiment of the invention in initial position in a sectional view. Fig. 8 shows an adhesive label used in the third embodiment of the invention.
Fig. 9 shows a fourth embodiment of the invention in the starting position. Fig. 10 shows two parts, from which the opening element of the fourth embodiment of the invention is created, in sectional view. Fig. 11 shows the two parts in an oblique view. Fig. 12 shows a sectional view of the fourth embodiment of the invention in the starting position. Fig. 13 shows the opening element of the third embodiment of the invention in an oblique view. Fig. 14 shows the opening element of the third embodiment of the invention in oblique view, wherein the body of the opening element is shown transparent. In Fig. 15, the end wall of the can and the opening element is shown in the open position in a sectional view.
In Fig. 1, a cylindrical box 1 according to a first embodiment of the invention is shown. The body of the box 1 is entirely made of aluminum, the box 1 may have on its lateral surface 13 a printed, decorative film. On the end wall 14 of the box 1, a closure portion 2 is provided, which is delimited by a predetermined breaking edge 3. Furthermore, the can 1 has an opening element 4 which is connected to the end wall 14 of the can 1 via a rivet 6 passing through a recess 16 (FIG. 3) of the opening element 4. The opening element 4 has a 6/24 6 verschwenKbares against its body connecting element 12 with the recess 16 which is connected by means of the rivets 6 with the end wall 14 of the box 1, parallel to the end wall 14 and in particular on the end wall 14 of the box 1 flat. Usually, the opening element 4 can be rotated about the rivet axis of the rivet 6, there is no rigid connection of the opening element 4 with the can 1 in the present embodiment. The opening element abuts flat on the end wall 14 of the can 1.
In Fig. 2, the embodiment shown in Figure 1, the can 1 is shown in the open position. In the process of opening a the closure portion 2 remote from the actuating portion 11 of the opening element 4 is raised and the entire opening element 4 pivoted with respect to a lying between the connecting element 12 and the body of the opening element 4 to steering edge 15. As a result, the pressure region 10 of the opening element 4 resting against the closure region 2 is pressed into the interior of the can 1 in the direction of the closure region 2, whereby the closure region 2 tears off the end wall 14 of the can 1 along the predetermined breaking edge 3 and enters the can 1. As a result, an opening 7 is provided, via which the can 1 can be emptied.
In Fig. 4, the opening element 4 is shown in detail. The opening element 4 has a carrier body made of electrically and magnetically insulating material, wherein on the end wall 14 facing side of the opening element 4, a notch is provided, which is annularly closed in the opening element 4 extends. In this notch extend the wire windings of the antenna 8, which is connected to a located in the pressure region 10 of the opening element 4 transponder chip 9. The antenna 8 extends along the edge of the lower end face of the opening element 4, which faces the end wall 14 of the can 1.
Furthermore, a connecting line 13 is shown in Fig. 3, which short-circuits the two terminals of the antenna 8 with each other. As long as the can 1 is unopened and in the starting position and the connecting line 13 is intact, the two terminals of the antenna 8 are electrically conductively connected to each other and short-circuited. The electrical connection line 13 is arranged such that it irreversibly interrupted when opening the can 1 by the pivoting of the opening element 4 of the Ausgangsläge in the open position and thus the antenna 8 is activated. 7/24 7
In the embodiment shown here, this is achieved in that the connecting line 13 is connected to the transponder chip 9, wherein each of the two ends of the connecting line 13 is respectively connected to the two terminals of the antenna 8 connected to the transponder chip 9. The connecting line 13, the transponder chip 9 and the antenna 8 are connected in parallel. The connecting line 13 extends in the body of the opening element 4 and exits from this body in the region of the connecting element 12. In the present embodiment, the connecting line 13 extends in the connecting element 12 and finally in the opposite part of the body of the opening element 4 back to the transponder chip 9. In the intermediate region between the body of the opening element 4 and the connecting element 12, the connecting line 13 predetermined breaking points 17. In Fig. 4, the opening element 4 is shown in the open position, wherein the predetermined breaking points 17 are visible from the side at which the connecting line 13 is torn. The predetermined breaking points 17 are located in areas of the connecting element 12 and the opening element 4, which are moved by the pivoting of the opening element 4 of in the open position against each other and away from each other. The predetermined breaking points 17 are arranged at the end region of the connecting element 12 opposite the pressure region 10 and the articulation edge 15, since this end region covers the greatest possible distance in the course of the pivoting into the open position due to the lever ratios of the opening element 4.
Also, in a second embodiment of the invention, the connecting line 13, as shown in Fig. 5, arranged such that it tears off after pivoting of the opening member 4 in the open position and the antenna 8 is activated or terminated their short circuit. As shown in Fig. 5, the connecting part 12 is made conductive, wherein the connecting part 12 acts as part of the connecting line 13. The remaining parts 13a, 13b of the connecting line 13 are each electrically connected via predetermined breaking points 17 to the connecting part 12. FIG. 6 shows the region A (FIG. 5) of one of the predetermined breaking points 17 in detail.
In a third embodiment of the invention shown in Figure 7, all electromagnetically active components, i. the antenna 8, the transponder chip 9 and the connecting line 13 together with the predetermined breaking points 17 are arranged together on a film 18 in the form of an adhesive label 18, wherein the adhesive label 18 is glued on the opening element 14. The electrical connection line 13 may be arranged in or on the adhesive label 18. The connecting line 13 and the film 18 are partially disposed on the opening element 4 and partially on the connecting element 12 8/24 8. The adhesive label 18, which is shown in Fig. 8 from above, has in the region between the connecting element 12 and the body of the opening element 4, in particular at the predetermined breaking points 17, a perforation edge 19 which tears when pivoting the opening element 4 and also the tearing allows the connecting line 13 at the predetermined breaking points 17.
FIGS. 9 to 14 show a fourth embodiment of the invention. In this embodiment of the invention, the opening element 4, as shown in Fig. 10, 11, formed in two parts and includes a first, consisting of non-conductive material antenna portion 20 and a second, consisting of conductive material base portion 40. The antenna portion 20 is in particular made Polyethylene formed. The antenna part 20 comprises a first housing part 21, in which the NFC transponder chip 9 is embedded or cast. Furthermore, the antenna part 20 comprises an annular annular extension 22, which goes off from the housing part 21 and forms an annular body together with the housing part 21. Inside the ring body, the antenna 8 is arranged. The two ends of the antenna 8 are connected to attenuating NFC transponder chip 9.
The base part 40 and the antenna part 20 correspond, as shown in FIG. 12, to the opening element 4 shown in FIGS. 3 and 4, with the difference that instead of the closed path, two latching projections 41, 42 projecting in the direction of the antenna part protrude. These two latching projections 41, 42 bear against an annular extension 22 formed by the antenna part 20. The two front end portions of the latching projections 41, 42 engage in openings which are provided in the housing part 21 of the antenna part 20, whereby a non-destructively releasable connection between the antenna part 20 and the base part 40 is made.
As shown in FIG. 11, the antenna part 20 has a web 23 which connects the two parts of the antenna part 20 lying against the latching projections 41, 21. The connecting line 13 runs in the interior of the antenna part 20, wherein the two ends of the connecting line 13 are respectively connected to one of the terminals of the antenna 8 and the transponder chip 9. As long as the connecting line 13 are intact, the antenna 8 and the transponder chip 9 is short-circuited by the connecting line 13, so that data communication between an external data communication device via the antenna 8 with the transponder chip 9 is impossible. The connecting line 13 extends partially in the web 23. The web 23 divides the formed by the antenna part 20 annular extension 22 into two separate, separate rings, wherein a front recess 26 is formed. This recess 26 9/24 9 is located in the region of the recess 16 of the connecting part 12 and is of the rivet 6, as shown in Fig. 12, interspersed. In the case of the concrete arrangement of the base part and / or with respect to the antenna part 20 and the resulting formation of the opening element 4, the web 23 comes to lie in the region below the connecting element 12. If the opening element 4 is pivoted away from the starting position into the open position, then the web 23 is retained by the connecting element 12 and torn off due to the lever forces acting on the web 23 via the connecting element 12 after pivoting into the open position. As a result, the connecting line 13 running in the web 23 is also disconnected, so that the antenna 8, which has hitherto been short-circuited, and the short-circuited transponder chip 9 now become functional and can produce data communication with an external data communication device.
In Flg, 15, the end wall 14 of the can and the opening element 4 is shown in opening division. By the pivoting of the opening element 4, the extension 10 of the opening element 4 presses on the closure region 2 of the can 1 and presses it, so that an opening in the end wall 14 of the can 1 is formed. By pivoting the opening element 4 relative to the end wall 14 of the box 1, the connecting element 12 is bent at the edge 15 and the base part and the antenna part versehwenkt about the edge 15. Since the web 23 is retained by the connecting part 12, the web 23 ruptures at its two ends, wherein the connecting line 13 extending in the web 23 is separated.
Due to the particular structural design of the opening element 4 is additionally achieved that the opening element 4 itself neither shields nor displaces electromagnetic waves, so that in the open state, a particularly good radio connection between the transponder 9 via the antenna 8 to an external data communication device can be produced.
Normally, cans 1 are made entirely of aluminum or other metal. It can, in addition to the effect of the invention to allow additional field displacement, be provided that that wall and surface region 5 of the can 1, on which the opening element 4 is applied, is electrically and / or magnetically conductive. This is particularly advantageous if production or transport due to the connection line 13 is disconnected or, and thereby an electromagnetic communication via the antenna 8 would be possible. The wall or surface area 5 of the can 1, against which the opening element 4 rests, has an electrical conductivity of at least 10 6 S / m, in particular of at least 10 S / m. In addition, the can 1 in the wall and surface region 5 against which the opening element 4 abuts has a magnetic permeability of at least 4 * π * 10 "7 Vs / Am, in particular of at least 0.99 * 4 * π * 10" 7 Vs / Am on. Aluminum, which is typically used as the material for the wall and / or surface area of the can 1, in particular for the entire can 1, has an electrical conductivity of 37 × 10 6 S / m and a magnetic permeability of (1 + 2, 2 * 10 " 5) * 4 * π * 10 " 7 vs / am on.
Typically, frequencies of 13.56 MHz are used for transmission. Of course, alternatively, another transmission frequency, such as 120-135 kHz or a transmission frequency of 860-910 MHz can be used. 11/24

权利要求:
Claims (18)
[1]
1. can (1) comprising a body, in particular of aluminum, wherein on an end wall (14) of the can (1) a closure region (2) by a predetermined breaking edge (3) is at least partially defined and wherein the can (1 ) has an opening element (4) which is in its initial position on the end wall (14) of the box (1) at least partially and is connected to the end wall (14) at at least one point by means of a connecting element (12), as part of the opening element (4) is formed, and in particular with the end wall (14) is connected, - wherein upon pivoting of the opening element (4) relative to the can (1) from the initial position in an open position of the closure region (2) along the predetermined breaking edge (3 ) and in the intermediate region delimited by the predetermined breaking edge (3) forms an opening (7) for emptying the contents of the can (1), characterized in that - the opening element (4) forms a carrier body of ele comprises or consists of ktrically and / or magnetically insulating material, - that the opening element (4) carries an antenna (8) arranged on or in the carrier body and a transponder chip (9) connected to the antenna (8), that an electrical connection line (13) is provided which electrically conductively connects and short-circuits the two terminals of the antenna (8) in the starting position, and - that the electrical connection line (13) is arranged such that upon opening the can (1) by the pivoting of the opening element (4) is irreversibly interrupted by the initial position in the open position and thus activates the antenna (8).
[2]
2. Box according to claim 1, characterized in that the electrical connection line (13) is partially conveyed in or on the connecting element (12) and partially in or on the opening element (4), and the connecting line (13) during pivoting of the opening element ( 4) against the connecting element (12) breaks.
[3]
3. Box according to claim 1 or 2, characterized in that the electrical connection line (13) in at least one intermediate region between the connecting element (12) and the opening element (4) has a predetermined breaking point, during pivoting of the opening element (4) relative to the connecting element (12) breaks. 12/24 12
[4]
4. box (1) according to one of the preceding claims, characterized in that the antenna (8) and the transponder chip (9) on a common film, in particular a common adhesive label (18) are arranged, which or the opening element (4 ) is arranged, in particular glued to the opening element (4).
[5]
5. Box according to claim 4, characterized in that the electrical connection line (13) is arranged in or on the film, and that the connecting line (13) and the film partially on the opening element (4) and partially on the connecting element (12). are arranged.
[6]
6. Box according to one of the preceding claims, characterized in that the connecting element (12) and / or the opening element (4) has a partially electrically conductive body and that the connecting line (13) through the electrically conductive part of the body of the connecting element (12 ) and / or the opening element (4) is formed.
[7]
7. Box according to one of the preceding claims, characterized in that the connecting element (12) is connected to the end wall (14) of the box by the connecting element (12) is flat and in a plane parallel to the end wall (14) is fixed or extends and is connected to this, wherein the connecting element (12) is arranged in particular rotatable about an axis normal to the plane of the end wall (14) standing axis.
[8]
8. box (1) according to any one of the preceding claims, characterized in that at a transmission frequency of the transponder chip (9) in the range between 100 kHz and 1000 MHz, in particular in the range of 120-135 kHz, in the range of 13 to 14 MHz or in the range of 860-910 MHz, the specific electrical conductivity of the carrier material of the opening element (4) is less than 1 S / m. and / or - that the electrical permittivity of the support material of the opening element (4) is less than 100 * 8.854 * 10 "12 As / Vm, and / or - that the magnetic permeability of the support material of the opening element: (4) is less than 1.00Γ4 * π * 10 7 Vs / Am.
[9]
9. socket (1) according to one of the preceding claims, characterized in that the closure region (2) and the predetermined breaking edge (3) on an end wall (14) of the can (1) are formed. 13/24 1: 3:
[10]
10. can (1) according to one of the preceding claims, characterized in that the opening element (4) via a rivet (6) with the can (1) is connected, wherein the opening element (4) in its initial position on the closure region (2 ) adjoining pressure region (10) for pressing in the closure region (2).
[11]
11. socket (1) according to claim 10, characterized in that the opening element has a pressure range (10) opposite actuating portion (11), wherein the pressure region (10) and the actuating portion (11) by the rivet (6) are delimited from each other and act together as a two-armed, in particular by the rivets (6) hinged lever.
[12]
12. socket (1) according to claim 10 or 11, characterized in that the opening element (4) has a relative to its body pivotable connecting element (12) which is connected by means of the rivet (6) with the end wall of the box (1).
[13]
13. socket (1) according to any one of the preceding claims, characterized in that in the starting days of the transponder chip (9) in a region of the opening element (4) is arranged, which rests against the closure region (2).
[14]
14. Box (1) according to any one of the preceding claims, characterized in that the antenna (8) is annular and in particular along the peripheral edge of the opening element (4) is arranged in a notch.
[15]
15. Box according to one of the preceding claims, characterized in that the opening element (4) is formed in two pieces and a hinged to the end wall base part (40) and connected to the base part (40) and an electrically non-conductive body having antenna part (20 ), wherein the transponder chip (9) and the antenna in the antenna part (20) arranged, in particular cast, and wherein the base part (40) at least one extension (41, 42), in particular two extensions (41,42), the is connected to the antenna part (20).
[16]
16. pose according to claim 15, characterized in that the antenna part (20) has a housing part (21) and an annular extension (22), wherein the antenna (8) extends at least partially in the annular extension (22). 14/24
[17]
17. Box according to claim 15 or 16, characterized in that the housing part (21) has at least one latching recess, in particular two latching recesses into which the end of the extension (41, 42), in particular the two ends of the extensions (41, 42 ), the base part (40) engages, in particular is engaged, and / or that the extension or the extensions (41,42) of the base part (40) abut the annular extension (22) of the antenna part (20).
[18]
18. Box according to one of claims 15 to 17, characterized in that the antenna part (20) in the region of the annular extension (22) has a web (23) having a first part of the annular extension (22) with a second part of the ring extension (22). 22) connects and forms two recesses, wherein one of the recesses (26) of the rivet (6) is penetrated and the web (23) is arranged in the initial position below the connecting part (12) and upon actuation of the opening element (4) breaks. 15/24

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JP5446451B2|2008-05-20|2014-03-19|東洋製罐株式会社|Metal lid with metal tag and metal container|

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WO2009142146A1|2008-05-20|2009-11-26|東洋製罐株式会社|Metallic cover having ic tag, and metallic container|

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JP5649798B2|2008-05-20|2015-01-07|東洋製罐株式会社|Metal lid with metal tag and metal container|

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AT509627B1|2010-03-29|2012-04-15|Ait Austrian Institute Of Technology Gmbh|DEVICE FOR DETECTING THE POSITION OF A PLAY UNIT|

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JP2014510677A|2011-01-28|2014-05-01|セイイットコーポレイション|Automatic message sending device and method for beverage containers|

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AT512504B1|2012-03-22|2013-09-15|Seibersdorf Labor Gmbh|Apparatus and method for determining the capacity|

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AT513017B1|2012-06-06|2015-03-15|Seibersdorf Labor Gmbh|can|

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AT514156B1|2013-03-20|2018-06-15|Seibersdorf Labor Gmbh|beverage can|AT514156B1|2013-03-20|2018-06-15|Seibersdorf Labor Gmbh|beverage can|

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AT514860A1|2013-09-17|2015-04-15|Seibersdorf Labor Gmbh|can|

法律状态:
2020-11-15| MM01| Lapse because of not paying annual fees|Effective date: 20200320 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA50190/2013A|AT514156B1|2013-03-20|2013-03-20|beverage can|ATA50190/2013A| AT514156B1|2013-03-20|2013-03-20|beverage can|

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US14/778,674| US9487327B2|2013-03-20|2014-03-07|Beverage can|

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EP14714918.1A| EP2976269B1|2013-03-20|2014-03-07|Drinks can|

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RU2015144904A| RU2645655C2|2013-03-20|2014-03-07|Metal can for beverages|

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PCT/AT2014/050059| WO2014146155A1|2013-03-20|2014-03-07|Drinks can|