• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention relates to a container comprising - an electrically non-conductive base body (10) with bulges (11) for receiving small objects (7) and - an electrically and / or magnetically conductive foil (2), which on the base body (10) is applied flat and the bulges (11) closes, so that between the bulges (11) and the film (2) closed cavities for the objects (7) ausgebildet.Erfindungsgemäß is provided that - the base body (10) has a support region (14 ) for carrying one of the film (2) spaced and isolated coil (3)
    公开号:AT511037A1
    申请号:T125/2011
    申请日:2011-01-31
    公开日:2012-08-15
    发明作者:
    申请人:Seibersdorf Labor Gmbh;Ait Austrian Inst Technology;
    IPC主号:
    专利说明:

    The invention relates to a container according to the preamble of patent claim 1. Furthermore, the invention relates to an adhesive label according to the preamble of claim 12 and a packaging unit according to the preamble of claim 15.
    The invention is advantageously used in the field of packaging of medicaments which, after being equipped with corresponding additional components, can subsequently be used to monitor the intake of medicaments.
    From the prior art, a variety of different drug packages are known, on which data about the dosage, the effect, the production, the packaging of the respective drugs in the package, such as tablets, are stored.
    There is often the problem with known medicine containers that during the distribution of the drug, such as by the packer, the pharmacist, the doctor or nursing home additional information is stored and should be available to the patient. There is the problem that the effect of antennas, which allow wireless energy transfer to the container, by the electrically or magnetically conductive metallic foil, which serves the closure of the container is greatly reduced.
    The object of the invention is to provide a container which advantageously enables wireless data and energy transfer to a chip applied to the container, which on one side in particular comprises a metallic or electrically or magnetically conductive foil.
    The invention solves this problem in a container of the type mentioned above with the characterizing part of patent claim 1.
    According to the invention, in a container comprising an electrically non-conductive base body with bulges for receiving small objects and an electrically and / or magnetically conductive film which is applied to the body surface and closes the bulges, so between the bulges and the film completed cavities for the objects are formed, provided that the main body has a carrier region for supporting a spaced apart from the film and the coil. This has the significant advantage that * * t * «* ♦ · * ·
    a coupling of radio signals in an applied to the carrier body of the container coil is possible.
    It can also be provided that the carrier area is free of the film and spaced. This allows a particularly simple arrangement of a coil in the region of the carrier body with high stability. Alternatively or additionally, it can be provided that the carrier region is connected in a ring-shaped manner and is spaced at any point from the film. As a result, an alternative embodiment of the carrier body for receiving the coil is achieved with an advantageous coupling of electromagnetic signals.
    Another aspect of the invention provides that the carrier region has the shape of a closed band. As a result, a good coupling of electromagnetic signals is achieved.
    In order to reduce the material requirement required for the production of the container, provision can be made for the carrier region to have at least one support element, in particular a number of support elements, for supporting a coil extending in the form of a closed band on the support elements.
    A particularly simple to manufacture and mechanically stable embodiment of the invention provides that the base body is formed from a flat, electrically non-conductive piece of material from which the bulges are formed and projecting from a base surface of the body and that the carrier region formed along the edge of the body and is exposed to the base surface, wherein a folding region adjacent to the support region extends at an angle and / or normal to the base surface and connects the support region to the base surface.
    A structurally and geometrically advantageous embodiment of the invention provides that the carrier region is offset from the base surface in the direction in which the bulges protrude from the base surface.
    The coupling of a signal can be improved if the distance between the film and the carrier region or the film and the coil is 1 mm to 10 mm.
    A container is particularly easy to produce if a circulating coil, which is spaced from the film, is arranged on the carrier region. • *
    An inexpensive way of producing a container is when the coil is printed on the carrier area.
    A particularly robust and error-free manufacturable embodiment of the container is characterized by a, preferably integrated in the body, in particular arranged in the carrier area or cast, electronic circuit which is connected to the coil and which allows communication with an external communication unit, wherein the communication Radio or inductive coupling can be achieved, wherein the coil can be controlled as a transmitting and / or receiving antenna.
    To further improve the coupling of the electromagnetic field of the communication unit in the coil can be provided that the minimum distance between the film and the carrier region or the film and the coil is selected such that the electronic circuit at a given signal power of the external communication unit with sufficient Energy is supplied.
    Particularly advantageously, an adhesive label can be used, wherein it is provided that the adhesive label is formed in the form of a band and the coil circulates along the tape, wherein a circuit connected to the coil is integrated in the adhesive label, in particular it in the of the coil covered interior has a hole. By sticking such an adhesive label to a container according to the invention, information can subsequently be assigned to the container and made available to the consumer for retrieval.
    For the advantageous distribution of containers and for providing containers with information, a packaging unit is suitable, wherein the containers are arranged such that the minimum distance between in each case two coils of the containers is a maximum.
    A particularly space-saving and transfer-technically advantageous packaging unit with two containers is characterized in that in both containers the carrier region is offset from the base surface in the direction in which the bulges protrude from the base surface, wherein the two containers are arranged in the packaging, that the two base surfaces face each other with the side carrying the respective film.
    I 9
    Several embodiments of the invention will be described with reference to the drawings illustrated below without limiting the general inventive concept.
    Fig. 1 shows a first embodiment of a container according to the invention from above. Fig. 2 shows the container shown in Fig. 1 in a sectional view taken along section line A-A. Fig. 3 shows a further embodiment of the invention from above. 4 shows a particular embodiment of a container according to the invention with a coil and an electronic circuit arranged on the container and in electrical communication with the coil and / or a microchip arranged on the container. Fig. 5 shows the container shown in Fig. 1 in a sectional view taken along section line B-B. Fig. 7 shows an adhesive label according to the invention. Fig. 6 shows the adhesive label shown in Fig. 7, glued to the embodiment shown in Fig. 1. Fig. 8 shows a section through the adhesive label shown in Fig. 7 along the section line C-C. Fig. 9 shows a section through the adhesive label shown in Fig. 7 along the chopping line D-D. 10 shows an alternative container with an adhesive label containing a coil and an electronic circuit and / or a microchip according to FIG. 7, which is glued onto a base body in the embodiment illustrated in FIG. 3. Fig. 11 shows the container shown in Fig. 10 in a sectional view along the section line E-E. Fig. 12 shows a particular way of packaging two containers in a common packaging unit. Fig. 13 shows the packaging shown in Fig. 12 in a sectional view taken along the section line F-F.
    Fig. 1 shows a first embodiment of a container according to the invention 1. The container 1 is made of an electrically and magnetically non-conductive base body 10. The main body 10 is before the manufacturing process as a flat body made of plastic, which is brought by deep drawing under the action of heat in its final form. In this particular embodiment, a number of bulges 11 has been created by deep drawing, which project from one of the base body 10 formed by the base surface 13 in one direction (Fig. 2). These bulges 11 form areas for receiving small objects 7, such as drugs 7 in solid form, such as tablets or capsules. The illustrated embodiment of the invention comprises six bulges, in each of which the drug 7 is inserted and subsequently welded or glued airtight with a film 2. The film 2 is usually designed as a multilayer composite film, wherein one or more layers of the film can be electrically and / or magnetically conductive. The tablets 7 are thus limited by the area between the bulges 11 and the film 2 and hermetically sealed.
    The embodiment shown in FIG. 1 furthermore has, along its edge, a carrier region 14 which is freed from the metallic foil 2 and onto which a coil (not shown in FIG. 1) can be applied. The carrier region 14 runs continuously along the edge of the main body 10, wherein in this particular embodiment the carrier body 14 is freed from the base surface 13 by deep drawing. The carrier body 14 is formed substantially planar or planar, wherein the surface formed by the carrier body 14 extends substantially parallel to the base surface 13. Alternatively, however, alternative forms of the carrier area are possible, which allow a better coupling of signals of an external communication unit. The carrier region 14 hangs together annularly. The support portion 14 is spaced from the metallic foil 2 at each point.
    Due to the manufacturing process of deep drawing, a fold region 15, shown in FIG. 2, was formed between the carrier body 14 and the base surface 13, which adjoins the outer edge of the base surface 13 and protrudes from the base surface 13 in the direction of the convexities 11. The fold region 15 adjoins the inner edge region of the carrier body 14. In the present advantageous embodiment, the bulges 11 have a maximum height with respect to the base surface 13 of the container 1. This height substantially corresponds to the height of the fold region 15 or the distance of the plane formed by the carrier region 14 from the base surface 13. This structural measure achieves an advantageous geometry with good space utilization. Depending on the size of the tablets 7, the height or the distance between the plane formed by the carrier region 14 and the base surface 13 is between 1 mm and 10 mm, in particular between 3 mm and 5 mm.
    With an embodiment of a container 1 shown in FIGS. 1 to 2, medicaments 7, for instance in the form of tablets, can be sold, the complexity of manufacturing the containers 1 being approximately the same as the complexity of producing containers according to the prior art have no relative to the base surface 13-free carrier area for receiving a coil 3. For the manufacturers of containers, in particular drug packages, thus resulting in no disadvantages. The space requirement of the container 1 is not increased compared to known containers 1. In the case of the container 1 shown in FIG. 1, there is additionally the advantage that with large pressure effects on a number of containers 1 stacked one above the other, a large part of the pressure is diverted via the fold regions 15 and the carrier regions 14.
    An alternative embodiment of a container 1 according to the invention is shown in FIG. The two containers 1 are constructed substantially the same, with only the differences between the two embodiments will be discussed below. In contrast to the embodiment shown in FIG. 1, the container 1 shown in FIG. 3 has a carrier region 14, which is formed by a plurality of individual support elements 16. The support members 16 as well as the support portion 14 shown in the first embodiment, a geometric shape or design, along which a coil 3 may advantageously be arranged for signal transmission between the container 1 and an external transceiver. In this embodiment, the support region 14 and the individual support elements 16 are free from the metallic foil 2 and spaced. The distance is, as in the first embodiment, depending on the height of the bulges 11 between 1 mm and 10 mm. The area formed by the individual support members 16 for supporting a coil 3 has the shape of a closed band.
    In principle, other methods available according to the state of the art for shaping and producing plastic parts may be used instead of a deep drawing process.
    4 shows an embodiment of a container 1 according to the invention with a coil 3 mounted on the container 1 or integrated into the container 1 and an electronic circuit 4 arranged on the container 1 or integrated in the container 1, which also contains one or more microchips may contain.
    Fig. 5 shows the embodiment of the invention shown in Fig. 4 in section along the section line B-B. From Fig. 5 it can be clearly seen that between the coil 3 and the electrically and / or magnetically conductive foil 2, an intermediate region is provided which does not provide an electromagnetic coupling between the coil 3 and the transmitting and receiving coil or antenna of an external allows communication unit shown. There is thus advantageously the possibility that emitted by the communication unit electromagnetic waves and / or magnetic fields are sufficiently received by the coil 3, so that all components of the electronic circuit 4 are sufficiently supplied with electrical energy without the film 2 that Electromagnetic field of the communication unit attenuated by mutual induction such that a sufficient power supply of the electronic circuit 4 is prevented.
    FIG. 6 shows an embodiment of a container 1 according to the invention onto which an adhesive label 40 is applied, which comprises the coil 3 as well as the electronic circuit 4 and any microchips contained therein. The adhesive label 40 and the carrier region 14 of the container 1 have substantially identical shape. The adhesive label 40 has an adhesive layer on the side facing the carrier region 14, by means of which it is glued to the carrier region 14.
    In the adhesive label 40, an electronic circuit 4 and a coil 3 are integrated, wherein the electronic circuit 4 may contain one or more microchips. The coil 3 is wound one or more times along the carrier region 14 and connected to the adhesive label 40. In this particular embodiment of the invention, the bobbin 3 is arranged on the adhesive side of the adhesive label 40 facing the carrier region 14 and printed on the adhesive label 40. Alternatively, the coil 3 can also be arranged or embedded in the interior of the adhesive label 40. Furthermore, alternatively, the adhesive label 40 are formed in two or more layers, wherein the individual layers are glued together and wherein the coil 3 and / or the circuit 4 are arranged between different layers.
    The body 48 of the adhesive label 40 is advantageously made of paper, cellulose or a plastic film. In the present exemplary embodiment, the region of the adhesive label 40 has been punched or cut out in the interior of the carrier region 14 prior to adhering to the carrier region 14.
    The adhesive label 40, shown alone in FIG. 7, can either be applied directly to the container 1 during the manufacture of the containers 1 or else be adhesively attached to the prepared container 1 during the prescription or the dispensing by a pharmacist or doctor. In a particular embodiment of the invention, the individual adhesive labels 40 can also be supplied together in one packaging unit. During the dispensing of the container 1, the physician or pharmacist can transmit information about the coil 3 to the circuit 4 by means of an external communication unit, in which this information is stored and made available for interrogation by the consumer. The consumer also has a communication unit, by means of which he can deny the information and thereby in particular information about the dosage and the timing of the
    Taking the medication contained in the container 1, such as tablets 7, receives. The transmission of the information from the external communication unit to the electrical circuit 4 and from the electrical circuit 4 to the communication unit is wireless by electromagnetic coupling between the antenna of the external communication unit and the coil 3. The external communication unit can be integrated in particular in a commercial mobile phone or as a stand-alone reading Be designed or writing instrument.
    The selection of the distance of the base surface 13 from the support portion 14 is also determined in the specified embodiments of the invention that to maintain the possibility of information and energy transfer between the coil 3 and the circuit 4 and an external communication unit, the minimum distance between the film 2 and the carrier region 14 or the film and the coil 3 is given. This is chosen such that at a predetermined output from the communication unit signal power, the circuit 4 is sufficiently supplied with energy.
    FIGS. 8 and 9 each show a cross section through the adhesive label 40 along the two cutting lines C-C and D-D. In Fig. 9, a connection between the coil 3 and the circuit 4 is shown. The adhesive label 40 has a body 48 which has a hole 49 in the center. The hole 49 is used in particular to ensure that even after application of the adhesive label 40 on the container 1, an unhindered removal of the tablets 7 from the container 1 can take place.
    An alternative embodiment of a container 1 according to the invention has a coil 3 printed or integrated on the carrier region 14 of the container 1 and an electronic circuit 4 welded into the container 1. Such an embodiment is particularly suitable for immediate storage of the production and the durability as well as the authenticity of the medicaments 7 located in the container 1. The possibility of manipulating data and the counterfeiting of drugs 7 is greatly hampered by such a measure.
    In addition, the electronic circuit 4 can offer the possibility that further information regarding the dosage, intake, prescription, side effects, etc. can be additionally stored. This can in turn be done by the doctor or pharmacist has at the output of the medication 7 via a corresponding communication unit, the data via the coil 3 to the electronic
    Circuit 4 transmits, whereupon the electronic circuit 4 stores the data and keeps it available for further queries by the patient.
    Furthermore, in this embodiment there is the possibility that the doctor or pharmacist checks the information stored on a microchip of the electronic circuit 4, in particular the durability and the authenticity of the medicament, and optionally dispenses the medicament to the patient.
    By gluing the adhesive label 40 shown in FIGS. 7 to 9 onto an embodiment of a container 1 shown in FIG. 3, a further particular embodiment of the invention can be achieved, as seen in FIG. 10 from above and in FIG. 11 in a sectional view is shown.
    A particular embodiment of the invention, shown in Figs. 12 and 13, relates to the storage and packaging of containers 1, to which a coil 3 and an electronic circuit 4 have been applied in the course of their packaging. This can be done either by gluing an adhesive label 40 or by making the alternative embodiment described above. In the present embodiment, two containers 1 are packed in a common packaging 20.
    A package 20 is chosen which is permeable to electromagnetic fields and waves. In particular, the packaging should be permeable to electromagnetic fields and waves in the 13.56 MHz frequency range typically used for RFID. Optionally, however, another suitable frequency can be used.
    In this embodiment, a packaging made of cardboard is selected, wherein the packaging is cuboidal. In the package 20, two of the container 1 shown in Fig. 4 or Fig. 6 or Fig. 10 are introduced with drugs 7, wherein the two containers 1 are arranged such that the distance between each two coils 3 of the container 1 is a maximum. In the present case, this is achieved in that, in the case of both containers 1, the carrier region 14 is offset from the base surface 13 in the direction in which the bulges 11 protrude from the base surface 13, the two containers 1 being arranged in the packaging 20, the two base surfaces 13 face one another with the side carrying the respective film 2. The two base surfaces 13 abut each other, wherein the films 2 can touch each other. The two coils 3 of the two containers 1 thereby have a sufficiently large distance to each other. Furthermore, the two coils 3 also have a sufficiently large distance to the electrically or magnetically capable films 2.
    This type of packaging makes it very easy to transfer data to containers 1 that are already packaged during the production process or immediately after the production process. In addition, it is possible for a doctor or pharmacist to transfer data to containers 1 which are packaged without having to open the package 20.
    In the exemplary embodiments illustrated, the illustrated containers 1 or the adhesive labels 40 affixed to the respective container 1 each have a coil 3 and an electronic circuit 4. The electronic circuit 4 contains one or more microchips, in particular a memory chip for storing data associated with the medicaments 7 contained in the container 1. For writing to the memory chip, a communication connection with an external communication unit can be established. This has an antenna and establishes the data communication connection with the electronic circuit 4 by electromagnetic coupling to the coil 3 connected to the circuit 4. In addition to the data transmission, it is provided in the illustrated examples that an energy transfer also takes place, so that the electronic circuit 4 itself does not need any constantly available energy store. The communication unit of a physician, pharmacist or manufacturer is basically suitable for writing or reading data from or in the memory chip located in the electronic circuit 4. By transmitting correspondingly coded commands, the electronic circuit 4 carries out the corresponding memory call and optionally transmits the requested memory value to the communication unit. The patient also has a corresponding communication unit, such as an RFID reader, which is integrated in his mobile phone. On the mobile phone runs an application that activates the RFID reader to read in the circuit of the respective container. Normally, the patient only has read access, but not write access to the data stored in the memory chip of the circuit 4. However, in special applications it may also be possible or desirable for the patient also to receive write access to a subarea of the memory.
    权利要求:
    Claims (15)
    [1]
    • ··· * * · ♦ »· t * * ·« * »% 4 - ♦ * * ** ft · t I f > 1. Container comprising - an electrically non-conductive base body (10) with bulges (11) for receiving small objects (7) and - an electrically and / or magnetically conductive Foil (2) which is applied flatly to the base body (10) and closes the bulges (11) so that closed cavities for the objects (7) are formed between the bulges (11) and the foil (2), characterized in that - the base body (10) has a carrier region (14) for carrying a coil (3) which is spaced apart from the film (2) and made free.
    [2]
    2. Container according to claim 1, characterized in that - the carrier region (14) of the film (2) is free and spaced and / or - that the carrier region (14) is annular and spaced at each point of the film (2) is.
    [3]
    3. Container according to claim 1 or 2, characterized in that the carrier region (14) has the shape of a closed belt.
    [4]
    4. Container according to one of the preceding claims, characterized in that the carrier region (14) at least one support element (16), in particular a number of support elements (16), for supporting one in the form of a closed band on the support elements (16) extending Coil (3).
    [5]
    5. Container according to one of the preceding claims, characterized in that the base body (10) is formed from a flat, electrically non-conductive piece of material from which the bulges (11) are formed and by a base surface (13) of the base body (10). and that the carrier region (14) is formed along the edge of the base body (10) and is exposed relative to the base surface (13), wherein a folding region (15) adjoining the carrier region (14) is at an angle and / or normal to the base surface (14). 13) and connects the carrier region (14) with the base surface (13). · · · · · Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α Α
    [6]
    6. Container according to one of the preceding claims, characterized in that the carrier region (14) relative to the base surface (13) is offset in the direction in which the bulges (11) protrude from the base surface.
    [7]
    7. Container according to one of the preceding claims, characterized in that the distance between the film (2) and the carrier region (14) or the film (2) and the coil (3) is 1mm to 10mm.
    [8]
    8. Container according to one of the preceding claims, characterized in that on the carrier region (14) a circumferential coil (3) is arranged, which is spaced from the film (2).
    [9]
    9. Container according to one of the preceding claims, characterized in that the coil (3) is printed on the carrier region (14).
    [10]
    10. Container according to one of the preceding claims 8 or 9, characterized by a, preferably in the base body (1) integrated, in particular in the carrier region (14) arranged or cast, electronic circuit (4) which is connected to the coil (3) and which allows communication with an external communication unit, wherein the communication via radio or inductive coupling can be achieved, wherein the coil (3) is controllable as a transmitting and / or receiving antenna.
    [11]
    11. Container according to one of the preceding claims, characterized in that the minimum distance between the film (2) and the carrier region (14) or the film (2) and the coil (3) is selected such that the electronic circuit (4 ) is sufficiently supplied with energy at a given signal power of the external communication unit.
    [12]
    12. Adhesive label for adhering to a container, which comprises a coil (3), in particular according to one of the preceding claims, characterized in that the adhesive label (40) is in the form of a band and the coil (3) circulates along the band, wherein a circuit (4) connected to the coil (3) is integrated in the adhesive label (40), wherein in particular it has a hole (49) in the inner region encompassed by the coil (3)
    [13]
    13. container on which an adhesive label (40) is glued according to claim 12. • · • ·. • # 13 · * ♦
    [14]
    14. Packaging unit with a packaging (20) and at least two containers (1), each according to one of the claims 10, 11 or 13, characterized in that the containers (1) are arranged such that the minimum distance between each two coils (3 ) the container (1) is maximum.
    [15]
    15. Packaging unit according to claim 14 with two containers (1), characterized in that in both containers (1) of the carrier region (14) relative to the base surface (13) is offset in the direction in which the bulges (11) of the base surface (13) protrude, wherein the two containers (1) in the package (20) are arranged so that the two base surfaces (13) facing each other with the respective film (2) bearing side. Vienna, January 31, 2011
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    同族专利:
    公开号 | 公开日
    EP2671194A1|2013-12-11|
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    AT511037B1|2013-08-15|
    EP2671194B1|2015-09-23|
    引用文献:
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    DE10148563A1|2001-10-01|2003-04-10|Tyco Electronics Idento Gmbh|Transponder label|
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    WO2009000425A2|2007-06-22|2008-12-31|Alcan Technology & Management Ltd.|System for verifying the integrity of a blister package|
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    DE102018222332A1|2018-12-19|2020-06-25|Fraunhofer-Gesellschaft zur Förderung der angewandten Forschung e.V.|Packaging with transponder and crypto module|
    法律状态:
    2019-09-15| MM01| Lapse because of not paying annual fees|Effective date: 20190131 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA125/2011A|AT511037B1|2011-01-31|2011-01-31|CONTAINER AND PACKAGING UNIT|ATA125/2011A| AT511037B1|2011-01-31|2011-01-31|CONTAINER AND PACKAGING UNIT|
    PCT/AT2012/000015| WO2012103564A1|2011-01-31|2012-01-31|Container and packaging unit|
    EP12705040.9A| EP2671194B1|2011-01-31|2012-01-31|Container and packaging unit|
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