• 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 invention relates to an antenna carrier for mounting on a container (1), wherein the container (1) has a base body (10) with bulges (11) for receiving small objects (7) and an electrically and / or magnetically conductive foil (2). has, which is applied flat on the base body (10) and the bulges (11) closes, so that between the bulges (11) and the film (2) closed cavities (8) are formed for the objects (7). The invention is characterized by a fastening element (21) for attachment to the base body (10) of the container (1) in the region of the film (2), a coil (3) spaced apart from the fastening element (21), 14) for supporting the coil (3), and a spacer (15) which connects the fastening element (21) with the carrier element, wherein the coil (3) from the fastening element (21) and optionally from the film (2) is spaced ,
    公开号:AT511517A1
    申请号:T673/2011
    申请日:2011-05-11
    公开日:2012-12-15
    发明作者:
    申请人:Seibersdorf Labor Gmbh;Ait Austrian Inst Technology;
    IPC主号:
    专利说明:

    • * i: • * * • * · · «
    The invention relates to an antenna support for mounting on a container, in particular a medicament blister.
    Antenna carriers according to the invention are used commercially, in particular in the field of compliance checking in the administration of medicaments.
    In principle, there is the major disadvantage with any type of medicament container that medicament blisters are subject to a complex approval procedure and changes to the medicament blisters can only be modified with a great deal of checking and approval effort. In particular, it is not readily possible to alter the form of medicament blister packs or to add more additional features to medicament blisters without having to go through the entire approval process multiple times.
    It is also common in known drug containers the problem that during the distribution of the drug, such as the packer, the pharmacist, the doctor or nursing home additional information is stored and the patient should be available. There is the problem that the effect of certain communication means, such as antennas, which allow wireless energy transfer to the container, by the electrically or magnetically conductive foil, which serves the closure of the container is greatly reduced.
    The object of the invention is therefore to advantageously enable a wireless energy and data transmission between a drug-containing container and the packer, pharmacist, doctor, nursing home or patient, wherein the container comprises a metallic or electrically or magnetically conductive foil. In addition, it is an object of the invention to provide a device which can be used for a wide variety of different drug containers, the effort of approval procedures should be largely reduced.
    The invention solves this problem in an antenna carrier according to the preamble of patent claim 1 with the features of the characterizing part of claim 1.
    According to the invention are in an antenna support for mounting on a container, wherein the container has a base body with bulges for receiving small objects and an electrically and / or magnetically conductive foil which is applied to the body surface and closes the bulges, so between the bulges and the film completed cavities are formed for the objects, provided: - a fastening element for attachment to the main body of the container in the region of the film, - a spaced apart from the fastening element and coil, - a support member for supporting the coil, and - a spacer, the the fastener connects to the carrier element, the coil being spaced from the fastener and optionally from the film.
    For advantageous energy transfer it can be provided that the carrier element has the shape of a closed band. In this case, it is additionally advantageous that, if appropriate, the carrier element is connected in an annular manner and is spaced at any point from the film or from the fastening element.
    Furthermore, in order to reduce the material requirement required for the production of the container, provision may be made for the carrier element to have at least one support element, in particular a number of support elements, which support the coil in the form of a closed band.
    The coupling of the signal can be improved if the distance between the fastening element and the carrier element is 1 mm to 10 mm.
    An inexpensive way of producing an antenna carrier provides that the coil is printed on the carrier element.
    A particularly robust and error-free manufacturable embodiment of the
    Antenna carrier is characterized by a, in particular arranged on the carrier element or cast into the carrier element, electronic circuit which is connected to the coil and which enables communication with an external communication unit, wherein the communication via radio or inductive coupling can be achieved, wherein the coil as a transmitting and / or receiving antenna can be controlled.
    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 fastener and the support member or the
    Fastening element and the coil is selected such that the electronic circuit is sufficiently supplied with energy at a predetermined signal power of the external communication unit.
    A simple and stable attachment of a container on the antenna carrier provides that the fastening element has an adhesive layer for adhering the main body or the film of the container.
    Furthermore, in addition or as an alternative to the attachment of the container to the antenna carrier, provision may be made for the fastening element to have a catch recess for receiving the container, which surrounds in particular the planar basic body of the container along its circumference.
    To enable easy access to the objects or medicaments contained in the container, it can be provided that the fastening element is flat, in particular flat, and optionally has a central recess, wherein the fastening element has, in particular, the shape of a circumferential web projecting from the spacer.
    Alternatively or additionally, it may be provided for this purpose that the fastening element is designed to bear on the base body, wherein that region of the fastening element of the antenna support is free, in which the film covers the bulges of the container.
    For easy checking whether certain items have been removed from the container or whether certain drugs have been removed from their packaging, it can be provided that the recess of the fastener with another film, in particular an adhesive film is covered, the further film rests against the film of the container, wherein on the further film has a number of conductor tracks, which extend partially in those areas in which the film closes the cavities of the container, so that in each case one of the conductor tracks in by the removal of an object from the respective Cavity caused destruction of the other film is interrupted, where appropriate, the two ends of the tracks are connected to the electronic circuit.
    A mechanically stable embodiment of the invention, which is particularly easy to produce, provides that the spacer can be replaced by a support member and / or by a support member (s) (* * * l l l l l »» »» »· · · · ·. »* ·« · * * «» Φ »
    Fastening element adjacent fold portion is formed, which is at an angle to the support member and / or the fastener, wherein optionally the fold region normal to the surface of the support member and / or the fastener extends and connects the support member with the fastener.
    Furthermore, the invention relates to a combination of an antenna carrier according to the invention with a container, wherein the container has a base body with bulges for receiving small objects and an electrically and / or magnetically conductive foil which is applied flat on the body and closes the bulges, so between the bulges and the film completed cavities are formed for the objects. This advantageously enables wireless data and energy transmission between the antenna carrier connected to the container and an external transmitting or receiving unit. The transmitted between the transmitting and receiving unit and the antenna carrier data is not shielded by the film located on the container, it can be performed and maintained data communication with low energy consumption.
    A particularly simple to manufacture and mechanically stable embodiment provides that the base body is formed from a flat, electrically non-conductive material piece, from which the bulges are formed and project from a base surface of the base body.
    A structurally and geometrically advantageous embodiment provides that the carrier element is offset relative to the fastening element in the direction in which the bulges protrude from the base body.
    In the following, the invention will be described in more detail by means of exemplary embodiments without limitation of the general inventive idea with reference to the following figures
    Fig. 1 shows a first embodiment of an antenna carrier according to the invention. Fig. 2 shows the embodiment shown in Fig, 1 from above. Fig. 3 shows the placement of a container or medicine blister in the antenna carrier according to the invention. Fig. 4 shows a combination of an antenna carrier according to the invention with a container in the form of a medicament blister. Fig. 5 shows the embodiment shown in Fig. 4 from above. FIG. 6 shows the embodiment shown in FIG. 5 in: 5: i
    Section along the section line A-A of Fig. 5. Fig. 7 shows the combination shown in Fig. 6 of a container and an antenna carrier obliquely from below. Fig. 8 shows a further embodiment of an antenna carrier according to the invention with a further film. Fig. 9 shows the embodiment of the invention shown in Fig. 8 obliquely from below. Fig. 10 shows the embodiment of the invention shown in Fig. 9 in the course of its manufacture, Fig. 11 shows an alternative embodiment of an antenna arrangement according to the invention with a glued on this arrangement container. Fig. 12 shows the embodiment shown in Fig. 11 in one
    Sectional view along the section line B-B. In Fig. 1, a first embodiment of an antenna carrier 5 according to the invention is shown. This antenna carrier has a trough-shaped basic shape, wherein the bottom of the trough has a recess 22. The upper region of the trough-shaped construction forms a support element 14, which is annular or band-shaped and is arranged substantially in one plane. Adjoining the inner region of the carrier element 14 is a spacer 15 in the form of a folding region 15, which runs normal or alternatively at an angle to the plane of the carrier element 14. At the opposite lower end of the folding region 15 or spacer 15, a fastening element 21 forms a shape an inwardly parallel to the extension direction of the support member 14 projecting web on. This fastening element 21 protrudes inwardly from the folding area or spacer 15 and is covered with an adhesive layer in the present embodiment. The Abstandhaiter 15 and the folding area 15 is normal or alternatively aligned at an angle to the plane of the support member 14 and the fastener 21 and connects the support member 14 and the Befestigungseiement 21 together, spaced by the spacer 15, the support member 14 and the fastener 21 The distance between carrier element 14 and fastening element 21 in the present embodiment is 5 mm.
    On the support member 14, a coil 3 is printed. In the present exemplary embodiment (FIG. 2), the coil 3 has three turns on the carrier element 14, and the two ends of the coil 3 are connected to an electronic circuit 4. Alternatively, the coil 3 may also be cast, glued or otherwise fastened to the carrier element 14. The coil 3 can also have more or less than three turns to correspondingly stronger or weaker couplings of signals to • ···· * * · «···» »•« · · ♦ * - · · · «* * * * ♦ * * Ο * · · • · »· · · * * * * * * t t t t t t t t t t. In particular, such a coil can also have 2, 4, 5, 6 or 7 turns.
    In Fig. 2, the embodiment of the invention shown in Fig. 1 is shown from above. In Fig. 2, an electronic circuit 4 is further shown, which is connected to the support portion 14. This electronic circuit 4 may alternatively also be arranged in the fold region or spacer 15 or in the region of the fastening element 21. The electronic circuit 4 is connected to the two terminals of the coil 3 and cast in the present Ausführungsbetspielen in the support member 14. The special arrangement of the coil, a communication of the electronic circuit with an external communication unit, not shown, is possible. Such communication can be achieved by means of radio or inductive coupling. The coil 3 can function either as a transmitting antenna or as a receiving antenna or as a combined transmitting or receiving antenna.
    In Fig. 3 the antenna carrier 5 shown in Fig. 1 is shown together with a container 1 in the form of a medicine blister. The container 1 has a base body 10, which comprises a number of bulges 11, which serve for the exclusion of small objects 7, such as tablets. Furthermore, the container 1 comprises a metallic electrically and magnetically conductive film 2, which is applied flat on the base body 10. Holes 8 (FIG. 6) are formed between the bulges 11 and the conductive foil 2. These cavities 8 can be opened by tearing the conductive film 2 and the respective objects 7 are removed from the cavities 8.
    The main body 10 may be generally metallic or non-metallic, electrically or magnetically conductive or non-conductive.
    The main body 10 is prior to the manufacturing process as a planar body made of plastic or of a metal-plastic composite material, which is brought by deep drawing under heat treatment in its final form. In this particular embodiment, a number of bulges has been created by deep drawing, which protrude from a base surface 13 formed by the body in one direction. The illustrated container comprises ten bulges 11, in each of which a small article 7, such as a tablet or a capsule, is inserted. The film 2 is welded to the base body 10, so that the cavities 8 located between the film 2 and the bulges 11 are hermetically sealed. Foil 2 is mostly called 14 "." "" * * * "" * * * * · * * * · «« ·· «« * * « A multilayer composite film is formed, wherein one or more layers of the film may be electrically and / or magnetically conductive.
    The tablets are thus limited by the area between the bulges 11 and the film 2 and sealed airtight.
    As shown in Fig. 3, the container 1 is inserted into the trough-shaped antenna support 5, wherein the peripheral edge 27 of the support portion 14 is formed so that the container 1 passes through it. Furthermore, the spacer 15 is designed such that the container 1 can be spent in the inner region of the folding region 15 of the spacer 15 to the web-shaped fastening element 21. Since adhesive is arranged on the side of the fastening element 21 facing the container 1, as shown in FIG. 4, the container 1 can be glued to the fastening element 21. The film 2 of the container 1 is permanently adhesively bonded to the fastening element 21. In Fig. 5, the combination shown in Fig. 4 of a container 1 in the form of a medicine blister and the antenna carrier 5 shown in Fig. 1 is shown from above. Preferably, a particularly strong adhesive can be used, so that after bonding the splice can not be solved without destroying the antenna support.
    Fig. 6 shows the embodiment of the invention shown in Fig. 5 in section along the section line A-A. From Fig. 6 it can be seen that between the coil 3 and the electronically and / or magnetically conductive film 2, a distance or an intermediate region is provided, which is predetermined by the spacer 15 and the electromagnetic coupling between the coil 3 and the Transmitting and receiving coil or antenna of an external, not dargesteilten communication unit allows. The coil 3 is spaced from the film 2 at each point. The spacer 15 is electrically and magnetically non-conductive, electromagnetic waves can thus penetrate the spacer 15, whereby a data and energy transfer to and from the coil 3 is possible. There is the possibility that electromagnetic waves emitted by the communication unit and / or magnetic fields are sufficiently received by the coil 3, so that all the components of the electronic circuit 4 are sufficiently supplied with electrical energy without the film 2 subjecting the electromagnetic field to the electromagnetic field external communication unit, not shown, attenuated by mutual induction so that a sufficient power supply of the electronic circuit 4 is prevented, Advantageously, to save energy, load modulation is used, the electronic circuit 4 modulates an impedance parallel to the coil, wherein the different impedance due to changed behavior and the changed overall electromagnetic behavior of the antenna assembly by the external communication unit is perceptible. In this way, information can be transmitted from the antenna carrier to the external communication unit.
    Another particular embodiment of the invention is shown in FIGS. 7 and 8. Fig. 7 shows an antenna support 5, the fastening element 21 is continued on its inside by a further film 23. The further film 23 attaches to the inner peripheral edge of the fastening element 21 and covers the recess 22nd
    The further film 23 has a number of conductor tracks 24 which extend partially in those areas in which the film rests against the cavities of the container 1. This ensures that in each case one of the conductor tracks 24 is interrupted during the destruction of the further foil 23 caused by the removal of an article 7 from the respective cavity 8. As shown in FIGS. 9 and 10, the tracks 24 are connected to the electronic circuit 4, so that the electronic circuit 4 can determine which of the tracks 24 is interrupted and thus the respective associated cavity 8 of the container 1 has been opened. In the present exemplary embodiment, the individual interconnects 24 have a common interconnect section 25, from which the individual interconnects 24 depart and which are not interrupted by opening any of the cavities 8.
    In a further alternative embodiment, the additional film 23 may have an adhesive layer on the side facing or facing away from the antenna carrier 5, which enables the further film 23 to be adhesively bonded to the fastening element 21. Optionally, the further film 23 may be completely covered on the side facing the antenna carrier 5 with adhesive and allow bonding to the container 1. In particular, it is also possible that only the further film 23 has adhesive surfaces and that the container 1 is connected exclusively to the adhesive film 23 with the antenna carrier 5.
    Alternatively it can be provided that the further film 23 is covered on both sides with adhesive and on the carrier body 14 closer surface of the fastening element 21 is hinktekte. The side facing away from the fastening element 21 of the further film 23 is completely covered with adhesive, so that the container 1 can be connected or glued by means of the film 23 with the antenna carrier 5.
    FIG. 10 shows a further embodiment of an antenna carrier according to the invention, which comprises a further film 23 which is glued to the end of the fastening element 21 remote from the carrier region 14. The further film 23 comprises a contact tongue 26, which is brought into contact with a partial region of the spacer 15 and a partial region of the carrier region 14. The contacts of the contact tongue 26 are guided over the carrier area to the electronic circuit 4.
    FIG. 11 shows a further embodiment of the invention. FIG. 11 shows an antenna carrier with a divided carrier region 14, which has a multiplicity of supporting elements 16. Between the individual support elements 16, an intermediate region is provided in each case, which is free of material. The coil 3 extends over the carrier region 14, via the support elements 16 and bridges the free material-free intermediate regions between the individual support elements. Incidentally, the embodiment of an antenna carrier illustrated in FIG. 11 corresponds to the antenna carrier illustrated in FIG. 5,
    Fig. 12 shows the embodiment of the invention shown in Fig. 11 in cross-section along the section line B-B.
    A further embodiment of the invention shown in FIG. 12 has a latching recess in the region of a fastening element 21 for receiving a container 1 in the form of a medicament blister. In the present case, the latching recess is formed by a latching element 29 and projecting from the spacer 15 web of the fastener 21, After snapping the drug bladder in the catch recess rests firmly in the antenna carrier, but may optionally be removed by applying pressure from the antenna support.
    Alternatively, however, the locking elements 29 can also be arranged so that a non-destructive release of the container 1 from the antenna carrier is not possible and subsequent reassembly of the antenna carrier 5 with another container 1 is impossible. Μ ·· * · ♦ * 10 < »C« * * '# w ·
    In the present exemplary embodiment, the latching element 29 projecting from the spacer 15 is of circumferential design and extends over the entire circumferential inner region of the spacer 15.
    权利要求:
    Claims (16)
    [1]
    1. Antenna support for mounting on a container (1), wherein the container (1) has a base body (10) with bulges (11) for receiving small objects (7) and an electrically and / or magnetically conductive foil (2) , which is applied flatly on the base body (10) and the bulges (11) closes, so that between the bulges (11) and the film (2) closed cavities (8) are formed for the objects (7), characterized by - Fastening element (21) for attachment to the base body (10) of the container (1) in the region of the film (2), - a coil (3) spaced apart from the fastening element (21), - a carrier element (14) for supporting the coil ( 3), and - a spacer (15) which connects the fastening element (21) with the carrier element, wherein the coil (3) from the fastening element (21) and optionally from the film (2) is spaced.
    [2]
    2. Antenna support according to claim 1, characterized in that the carrier element (14) has the shape of a closed band, wherein optionally the carrier element (14) is annularly connected and at each point of the film (2) or from the fastening element (2) is spaced ,
    [3]
    3. Antenna support according to one of the preceding claims, characterized in that the carrier element (14) at least one support element (16), in particular a number of support elements (16), which support the running in the form of a closed coil coil (3).
    [4]
    4. Antenna support according to one of the preceding claims, characterized in that the distance between the fastening element (21) and the carrier element (14) is 1 mm to 10 mm,
    [5]
    5. Antenna support according to one of the preceding claims, characterized in that the coil (3) is printed on the carrier element (14).
    [6]
    6. Antenna support according to one of the preceding claims, characterized by a, in particular on the carrier element (14) arranged or in the carrier element (14) cast, electronic circuit (4) which is connected to the coil (3) and communicating with an external communication unit allows, wherein the communication via radio or inductive coupling can be achieved, wherein the coil (3) is controllable as a transmitting and / or receiving antenna.
    [7]
    7. Antenna support according to one of the preceding claims, characterized in that the minimum distance between the fastening element (2) and the carrier element (14) or the fastening element (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.
    [8]
    8. Antenna support according to one of the preceding claims, characterized in that the fastening element (21) has an adhesive layer for adhering the base body (10) or the film (2) of the container (1).
    [9]
    9. Antenna support according to one of the preceding claims, characterized in that the fastening element (21) has a latching recess for receiving the container (1) which engages around in particular the planar base body (10) of the container along its circumference.
    [10]
    10. Antenna support according to one of the preceding claims, characterized in that the fastening element (21) is flat, in particular flat, and optionally has a central recess (22), wherein the fastening element in particular in the form of a spacer (15) protruding circumferential ridge having.
    [11]
    11. Antenna support according to claim 10, characterized in that the fastening element (21) is designed to bear on the base body (10), wherein that portion of the fastening element (21) of the antenna carrier (21) is free, in which the film (2) the bulges (11) of the container (10) covered.
    [12]
    12. Antenna support according to claim 10 or 11, characterized in that the recess (22) of the fastening element (21) with a further film (23), in particular an adhesive film, is spanned, wherein the further film (23) on the film (2 ) of the container (1), wherein on the further film (23) has a number of conductor tracks (24) which extend partially in those areas in which the film closes the cavities (8) of the container (1), so that in each case one of the strip conductors (24) is interrupted in the destruction of the further film (23) caused by the removal of an article (7) from the respective cavity (8), wherein the two ends of the strip conductors (24) are optionally connected to the electronic circuit (4 ) are connected.
    [13]
    13. Antenna support according to one of the preceding claims, characterized in that the spacer (15) by a to the support element (14) and / or to the fastening element (21) adjacent fold region (15) is formed, which at an angle to the support element (14 ) and / or to the fastening element (21), wherein optionally the fold region (15) normal to the surface of the carrier element (14) and / or the fastening element (21) and connects the carrier element (14) with the Befestigungsseiement (21).
    [14]
    14. Combination of an antenna carrier (5) according to one of the preceding claims with a container (1), wherein the container (1) has a base body (10) with bulges (11) for receiving small objects (7) and an electrically and / or has magnetically conductive foil (2) which is applied flatly to the base body (10) and closes the bulges (11), so that between the bulges (11) and the foil (2) closed cavities (8) for the objects (7) are formed.
    [15]
    15. A combination according to claim 14, characterized in that the base body (10) is formed from a flat, in particular electrically and / or magnetically non-conductive piece of material from which the bulges (11) are formed and a base surface (13) of the body (10) stand out.
    [16]
    16. A combination according to claim 14 or 15, characterized in that the carrier element (14) relative to the fastening element (21) is offset in the direction in which the bulges (11) from the base body (10) protrude.
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    同族专利:
    公开号 | 公开日
    AT511517B1|2015-11-15|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    WO2002005039A1|2000-07-07|2002-01-17|Ddms Holdings, L.L.C.|Drug delivery management system|
    WO2007043858A2|2005-09-02|2007-04-19|Kort, Willem, Theo|BLISTER PACK WITH CONTENT MONITORING SYSTEM BASED ON PRINTED POLYMER ELECTRONICS|
    WO2007138520A1|2006-05-30|2007-12-06|Nxp B.V.|Electronic blister pack|
    WO2009000424A2|2007-06-22|2008-12-31|Alcan Technology & Management Ltd.|System for monitoring administering of medication|DE102013109221A1|2013-08-26|2015-02-26|Infineon Technologies Ag|Chip assembly, analyzer, receptacle, and receptacle system|
    AT515453A3|2014-02-11|2016-05-15|Seibersdorf Labor Gmbh|Device for detecting the withdrawal of drugs|
    法律状态:
    2016-04-15| HA| Change or addition of new inventor|Inventor name: GERNOT SCHMID, AT Effective date: 20160307 Inventor name: MANFRED BAMMER, AT Effective date: 20160307 |
    2020-01-15| MM01| Lapse because of not paying annual fees|Effective date: 20190511 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA673/2011A|AT511517B1|2011-05-11|2011-05-11|AERIAL VEHICLES|ATA673/2011A| AT511517B1|2011-05-11|2011-05-11|AERIAL VEHICLES|
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