EP4264491A1 - Ensemble de marquage électronique pour un récipient en plusieurs parties, et système et procédé pour fixer un ensemble de marquage électronique à un récipient en plusieurs parties - Google Patents
Ensemble de marquage électronique pour un récipient en plusieurs parties, et système et procédé pour fixer un ensemble de marquage électronique à un récipient en plusieurs partiesInfo
- Publication number
- EP4264491A1 EP4264491A1 EP21836496.6A EP21836496A EP4264491A1 EP 4264491 A1 EP4264491 A1 EP 4264491A1 EP 21836496 A EP21836496 A EP 21836496A EP 4264491 A1 EP4264491 A1 EP 4264491A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- additional element
- rfid
- functional unit
- vessel
- primary closure
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
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Classifications
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K19/00—Record carriers for use with machines and with at least a part designed to carry digital markings
- G06K19/06—Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the kind of the digital marking, e.g. shape, nature, code
- G06K19/067—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components
- G06K19/07—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components with integrated circuit chips
- G06K19/077—Constructional details, e.g. mounting of circuits in the carrier
- G06K19/07749—Constructional details, e.g. mounting of circuits in the carrier the record carrier being capable of non-contact communication, e.g. constructional details of the antenna of a non-contact smart card
- G06K19/07758—Constructional details, e.g. mounting of circuits in the carrier the record carrier being capable of non-contact communication, e.g. constructional details of the antenna of a non-contact smart card arrangements for adhering the record carrier to further objects or living beings, functioning as an identification tag
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K19/00—Record carriers for use with machines and with at least a part designed to carry digital markings
- G06K19/06—Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the kind of the digital marking, e.g. shape, nature, code
- G06K19/067—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components
- G06K19/07—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components with integrated circuit chips
- G06K19/0723—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components with integrated circuit chips the record carrier comprising an arrangement for non-contact communication, e.g. wireless communication circuits on transponder cards, non-contact smart cards or RFIDs
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K19/00—Record carriers for use with machines and with at least a part designed to carry digital markings
- G06K19/06—Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the kind of the digital marking, e.g. shape, nature, code
- G06K19/067—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components
- G06K19/07—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components with integrated circuit chips
- G06K19/077—Constructional details, e.g. mounting of circuits in the carrier
- G06K19/07749—Constructional details, e.g. mounting of circuits in the carrier the record carrier being capable of non-contact communication, e.g. constructional details of the antenna of a non-contact smart card
- G06K19/07758—Constructional details, e.g. mounting of circuits in the carrier the record carrier being capable of non-contact communication, e.g. constructional details of the antenna of a non-contact smart card arrangements for adhering the record carrier to further objects or living beings, functioning as an identification tag
- G06K19/0776—Constructional details, e.g. mounting of circuits in the carrier the record carrier being capable of non-contact communication, e.g. constructional details of the antenna of a non-contact smart card arrangements for adhering the record carrier to further objects or living beings, functioning as an identification tag the adhering arrangement being a layer of adhesive, so that the record carrier can function as a sticker
-
- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
- G06K7/00—Methods or arrangements for sensing record carriers, e.g. for reading patterns
- G06K7/10—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
- G06K7/10009—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves
- G06K7/10297—Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation sensing by radiation using wavelengths larger than 0.1 mm, e.g. radio-waves or microwaves arrangements for handling protocols designed for non-contact record carriers such as RFIDs NFCs, e.g. ISO/IEC 14443 and 18092
Definitions
- Electronic tag assembly for a multi-piece vessel system and method for applying an electronic tag assembly to a multi-piece vessel
- the present invention relates to an electronic labeling arrangement which provides reliable identification for a pharmaceutical container in a simple and cost-effective manner.
- the invention also relates to the use of such an electronic labeling arrangement for a multi-part container and to a system with such a labeling arrangement.
- the invention further relates to a method for attaching such an electronic labeling arrangement to a multi-part vessel.
- Labeling arrangements usually include a label that can be used for authorization and authentication or for proof of origin.
- labeling arrangements are used to provide information about a content or for traceability, or when it is necessary to protect ingredients against unauthorized access. This applies, among other things, to containers in the pharmaceutical and medical sectors, the contents of which are to be marked and protected.
- an electronic labeling arrangement for a multi-part vessel has a sleeve-shaped attachment which comprises a coupling structure and which is designed to, in relation to a longitudinal axis of the attachment or of the vessel by means of the coupling structure, have an outer surface of a primary closure for the vessel to be coupled and to surround the primary closure.
- the labeling arrangement also includes an RFID functional unit with an RFID chip and an antenna structure coupled to it.
- the additional element and the RFID functional unit are designed to be coordinated with one another and with one another coupled, so that the RFID functional unit can be attached to the primary closure of the vessel by means of the additional element.
- the additional element and the RFID functional unit are configured and coupled to one another in such a way that the RFID functional unit only extends in the region of the additional element or the primary closure of the container when the labeling arrangement is in an applied state on the container.
- the labeling arrangement enables a vessel to be marked electronically in a simple and cost-effective manner, even on a very limited area of the vessel closure, in a reliable and convenient manner.
- the electronic labeling arrangement is particularly suitable for Luer lock syringes and needle-secured syringes, so-called “staked in needle” syringes, which each have only a small identification area on their respective primary closure.
- the labeling arrangement described is also suitable for other primary packaging or vessels in the pharmaceutical sector, such as injection bottles or vials.
- the coupling structure comprises a toothed structure with one or more horizontal and/or vertical toothed elements on an inner surface relative to the longitudinal axis, which are designed to match the outer surface of the primary closure.
- the additional element is designed, for example, as a peripherally closed sleeve that can be pushed onto the primary closure.
- the additional element can be designed to be slotted on a side wall. If the primary closure has, for example, horizontally and/or vertically aligned recesses or grooves, it is expedient for the additional element to have a toothed structure with corresponding protruding horizontal and/or vertical areas that can engage in the grooves.
- the coupling structure can also designate only a surface structure on an inner side of the additional element, which can set up a reliably coupling contact with the outer surface of the primary closure.
- the additional element is plugged or pushed onto the primary closure, for example, so that at least some sections have direct contact with it the outer surface of the primary closure, which already establishes a reliable coupling in the form of an interference fit.
- the additional element can in particular have a toothed structure with a snap-in hook, which is set up to form a circumferential form-fitting coupling with the primary closure of the vessel, so that a holding force can be set up in the direction of the longitudinal axis between the additional element and the primary closure relative to the longitudinal axis.
- the additional element is then interlocked with the primary closure by turning or pushing it on until the one or more interlocking elements snap into a surface structure on the primary closure.
- the additional element can be connected to the primary closure by means of gluing and/or welding.
- the additional element is designed in particular such that the additional element has a circumferential contour on an inner surface relative to the longitudinal axis, which partially or completely simulates a negative shape of a circumferential contour on a respective outer surface of the primary closure.
- the additional element has, for example, on its inner surface a contour with the toothed structure, which is designed to match a contour on the outer surface of the primary closure.
- a particularly reliable hold on the primary closure of the vessel can be established by means of such an inverse shaping of the inner contour of the additional element.
- the additional element forms a form-fitting cap, which compensates for the geometry of the primary closure and can also be subsequently attached to existing syringes or other vessels in order to provide them with a space-saving electronic identification.
- a toothed element of a toothed structure can be web- or pin-shaped in relation to the longitudinal axis and set up a positive coupling with the primary closure, so that in relation to the longitudinal axis between the additional element and the primary closure a holding force can be exerted in the radial direction around the Longitudinal axis is set up.
- the additional element forms, for example, a sleeve which is open at the top in relation to the longitudinal axis and which can be slipped onto the primary closure.
- the additional element can also be designed to be closed on an upper side and have a cover element or an end wall, which forms a separate element or which is designed as a section of the additional element in one piece with a side wall.
- the additional element is in particular rotationally symmetrical, for example cylindrical or conical, in relation to the longitudinal axis of the additional element, which also corresponds to the longitudinal axis of the primary closure and the vessel when it is arranged on the vessel.
- the additional element has a first and a second partial element relative to the longitudinal axis and a separation area formed between them, so that when the container applied with the labeling arrangement is opened, the additional element can be separated in the separation area and the first partial element together with the primary closure or a part thereof is removable from the second sub-member and a vessel body of the vessel.
- the first partial element is then pressed against an outer surface of the primary closure and separated from the second partial element by pulling and/or turning and pulled upwards or twisted off together with the primary closure or a part thereof and removed from the vessel body.
- top and bottom and inside and “outside” refer to an operational arrangement or use of the labeling arrangement and the container. This also applies to designations such as "head” and "body”, with the head usually being at the top and the body usually being at the bottom.
- the primary closure of the vessel forms, for example, an upper part of an injection vial or a syringe, and includes, for example, in Based on a Luer-Lock syringe, a head part and a threaded part that can be screwed together. The head portion is unscrewed and removed from the threaded portion to open the vessel.
- the vessel body forms a lower part of the injection vial or the syringe and implements a container for receiving and storing a predetermined content.
- the separating area of the additional element can be defined as a boundary area between the two partial elements, which are designed as two separate parts of the additional element and which are coupled to one another when the labeling arrangement is attached to the vessel.
- the partial elements can also be connected to one another or formed in one piece and produce a coherent additional element which is placed on the vessel.
- the separation area can then also be referred to as a severing area, since it enables the connected additional element to be severed in a targeted manner.
- the partial elements of the additional element can be connected, for example, by means of holding webs or connecting webs, so that when the container applied with the labeling arrangement is opened, the additional element can be severed in the separation area in a predetermined manner and the first partial element can be removed from the second partial element by breaking such connecting webs.
- the partial elements of the additional element can be connected to one another by means of the RFID functional unit, which adhesively connects the two partial elements, for example in the form of an RFID label on an outside of the additional element.
- the applied additional element and/or the RFID label has a separation or severing area and is connected to the primary closure and/or the additional element by means of gluing, there is preferably one in the severing area adhesive-free surface formed. This makes it easier to separate the partial elements of the additional element or to sever the RFID label and remove the upper sections in each case. The amount of force required to separate the additional element and/or the RFID label is reduced in comparison to completely bonded components, and the opening dynamics of the container applied with the labeling arrangement are improved.
- a respective separating area of the additional element is designed in coordination with the vessel in an area which, when the labeling arrangement is in an applied state on the vessel, is associated with a transition between a head part and an adjacent body part of the vessel.
- a sufficiently forceful turning and/or pulling on the additional element leads at the same time to a predetermined separation of the labeling arrangement.
- the separation area can also be arranged in other areas which enable the additional element and/or the RFID functional unit to be separated when the container is opened.
- the RFID functional unit in particular in the form of an RFID label, can also have a separating area which is arranged between two label sections, so that when the container applied with the labeling arrangement is opened, the RFID label can be severed in a predetermined manner in its separating area and a first label section, together with the additional element or a sub-element thereof and the head part of the primary closure, can be removed from a second label section remaining on the vessel and the vessel body.
- a severing element for example in the form of a perforation or a tear-off strip, can also be provided in the respective separation area, which enables the respective components to be severed in a controlled manner.
- the RFID label or the RFID functional unit can be severed in a targeted manner by means of a tear strip when the container is opened. In this way, controlled severing along a predetermined perforation or along the tear strip can also be carried out in a simple and cost-effective manner.
- a perforation can in particular also be combined with punched-out sections or branches upwards and/or downwards, in order to leave behind clearly visible damage after the RFID label has been severed and the container opened, for example.
- the perforation can, for example, be jagged in order to clearly indicate that it has been opened for the first time.
- the RFID label or the additional element can have a film or a film element in the separation or severing area, which has a predetermined tear resistance.
- the additional element has a recess which extends into or through a wall of the additional element and provides a channel for fluid exchange between an interior and an exterior of the additional element.
- a recess or recess allows gas or liquid to enter and exit, which is useful, for example, during a sterilization process between an interior and an exterior of the additional element.
- This is advantageous, for example, in the case of prefilled syringes that are sterilized with steam or ethylene oxide (ETO) gas, so that the sterilization medium can reach the primary closure through the recess in the additional element.
- ETO ethylene oxide
- Such a fluid opening can be introduced into the additional element, for example, in a side wall and/or a front wall and enable an exchange of media.
- a plurality of such fluid openings are preferably provided, which allow gas and/or liquid to pass through.
- a penetrating recess can ventilate a space between the primary closure and the attached additional element and help to ensure that an undesired inclusion of media in the space does not have any adverse effects on the vessel and its contents.
- the additional element can be made of a material that allows a look through and thus enables a visual inspection of the primary closure.
- the additional element is made of a transparent plastic. This could be particularly useful in a lower area of the additional element, which encloses a threaded element of a Luer lock syringe, for example. This allows the syringe tip to be inspected from the outside, for example to check for air bubbles collected in a vessel neck.
- the additional element preferably has plastic, such as polypropylene (PP), polyethylene terephthalate (PET), polycarbonate, cycloolefin polymers (COC) or cycloolefin copolymers (COP).
- An outer surface of the additional element is preferably roughened in a predetermined manner and/or has a microstructure that contributes to particularly reliable adhesion of the RFID functional unit.
- an outer surface of the additional element is adapted for the attachment of an RFID label equipped with pressure-sensitive adhesive. This can be achieved by choosing a plastic with a high surface energy and/or roughness of the surface.
- the outer surface of the additional element can, for example, also have a ribbing which, as a handle structure for executing an opening rotary movement, enables a non-slip handling.
- the RFID label can also provide a certain roughness or grip and contribute to an improved feel of the container provided with the labeling arrangement. Beneficial surface properties can be provided.
- the labeling arrangement preferably includes an adhesive layer which is arranged on an underside of the RFID functional unit.
- the RFID functional unit includes the RFID chip and the antenna structure coupled to it, which enable information to be read out electronically.
- the RFID functional unit can implement an RFID transponder or RFID tag, which can form what is known as a “soft tag” as a flexible component.
- an RFID tag can implement a so-called “hard tag”.
- the RFID functional unit is particularly preferably implemented as an RFID tag and has a carrier layer with an adhesive layer, so that the RFID tag can be easily and reliably attached to the primary closure and/or the additional element by means of gluing.
- the RFID label has a specifically predetermined severing area, an adhesive-free area is preferably formed in this area. This makes it easier to sever the RFID label.
- the RFID tag can be single-layer or multi-layer. For example, it implements an all-round or over-all-round label, which encloses a circumference of the primary closure in relation to the longitudinal axis of the latter.
- the geometry of the RFID label can also be designed in such a way that it only partially covers the circumference of the vessel or the primary closure. In terms of height or length, the RFID tag can partially or fully cover the primary closure from bottom to top.
- the RFID label can extend from a bottom end of the vessel body to a top end of the primary closure.
- the additional element comprises a side wall and a front wall in relation to the longitudinal axis
- the RFID functional unit is arranged on or in the side wall and/or the front wall.
- the RFID functional unit can, for example, be embedded in the additional element and/or arranged on an inner surface of the additional element, so that the RFID functional unit is arranged on the vessel between an outer surface of the additional element and the primary closure of the vessel when the labeling arrangement is in an applied state is.
- the RFID functional unit is thus built in securely and stably against external influences and can provide a particularly reliable and tamper-proof electronic identifier.
- the RFID functional unit can also comprise a carrier element or a label, by means of which the RFID functional unit is arranged on the additional element.
- the RFID functional unit can include a label with a reusable adhesive layer, by means of which the label can be attached to the additional element and at least partially detached again.
- the reusable adhesive layer is preferably based on a reusable adhesive layer, so that a label portion can be stuck to the additional element, peeled off again and stuck again.
- a reusable coupling can be set up between the RFID functional unit and the additional element by means of electrostatic adhesion.
- one label section can be detached from the additional element or the primary closure and can form a label tag that can provide a particularly useful readability of the RFID functional unit.
- the antenna structure is then preferably in the and foldable label section arranged for improved electronic readability.
- the RFID functional unit is designed as a multi-layer RFID label, for example as a label booklet, and has at least one section that can be opened and folded in again, so that a label tab protruding from the remaining RFID label can be formed.
- an opening verification element can be provided, which is arranged in a separation area of the additional element and/or a separation area of the RFID functional unit and is designed to indicate opening of the container applied with the labeling arrangement.
- a removal of at least one sub-element of the additional element and/or the RFID functional unit from the vessel can thus be clearly displayed.
- the additional element has sub-elements and connecting webs, for example, which connect the upper, first sub-element to the lower, second sub-element, the connecting webs break open when the vessel is opened by pulling and/or turning the attached primary closure. Such broken connecting webs form a proof of opening and visually indicate that an opening has taken place at least partially.
- a severed or torn label section and/or a severed or torn conductor track of the RFID functional unit can provide reliable proof of opening.
- the RFID chip can thus detect an opening attempt in the form of a change in the electrical conductivity and/or signal strength and thereby provide an electronic opening verification element in the form of the specially designed conductor track. Such an opening attempt can be stored in the RFID chip and read out if required.
- a severed or torn part of the antenna structure of the RFID functional unit can provide secure proof of opening. The RFID functional unit can then either no longer be read at all or only with a significantly reduced reading range, which clearly indicates that it has been opened for the first time.
- a labeling arrangement without an additional element can also be provided, which has the RFID functional unit which is directly coupled to a primary closure or can be coupled to this. Accordingly, the primary closure and the RFID functional unit are specifically designed to be coordinated with one another, so that a reliable coupling can be formed between these elements and, moreover, an advantageous electronic identification of the vessel provided with the primary closure can be set up.
- an outer surface of the primary closure is preferably roughened in a predetermined manner and/or has a microstructure that leads to a particularly reliable adhesion of the RFID functional unit.
- an outer surface of a cap member and/or threaded member for a luer lock syringe, or a needle guard for a needle-secured syringe is tailored for attachment of a pressure-sensitive adhesive equipped RFID tag. This can be achieved by choosing a plastic with a high surface energy and/or roughness of the surface for the respective primary closure.
- the outer surface of the primary closure can also be divided in two, with one section being set up for adhesion or arrangement with the RFID tag.
- the RFID functional unit can also be integrated in the primary closure when it is formed and, for example, embedded in the respective closure element as part of an injection molding process.
- features and properties described, as they are described in connection with the labeling arrangement with an additional element also apply to the labeling arrangement without an additional element, provided that they are not necessarily connected to the additional element.
- properties and features that relate to a surface condition or a surface structure of the additional element can also relate to configurations of the surface condition or the surface structure of the primary closure.
- the RFID functional unit can continue to be a
- Opening proof element in the form of separable label sections and/or Have conductor track sections, which are arranged in the separation area of the RFID label and are designed to indicate an opening or an attempt to open the applied with the labeling vessel vessel.
- the RFID label and/or the specifically designed electrical conductor track extend over a predetermined separation area of the primary closure, so that a severed label section and/or conductor track section realizes such an opening verification element.
- An electronic opening verification element can thus be implemented in connection with the electrical conductor track, the status of which can be stored and read out in the RFID chip.
- the conductor track or a conductor track section can form part of the antenna structure or be provided in addition to it. Accordingly, the described conductive path that can be severed as part of the antenna structure can result in the antenna structure being destroyed in a predetermined manner when a syringe labeled in this way is opened, so that an opening that has taken place can be clearly detected by electronic readability that is no longer possible.
- the antenna structure can thus be designed in a targeted manner such that protection against first-time opening or an indication of first-time opening by destruction of the antenna structure is set up.
- the primary closure or a part thereof can be designed to be lengthened in a targeted manner, so that it is possible to achieve improved readability of labeled syringes that are arranged in large numbers in a syringe holder, such as a syringe tray or a syringe nest.
- the RFID functional unit can also have the special antenna structures and/or dimensions described above in order to provide reliable and convenient electronic identification even with the usually very small radii and surfaces of syringe closures. Reliable and secure labeling of the vessel can thus also be achieved by means of the labeling arrangement without an additional element, which also counteracts unauthorized manipulation of the vessel contents and clearly indicate first use or first opening that has already taken place and can provide this in an electronically readable form.
- the RFID functional unit can have an identifying medium with an imprint or an inscription, in particular as an RFID label.
- the RFID tag can contribute to a reliable hold of a primary closure by connecting it to the container body by means of the RFID tag.
- a length and a width of the antenna structure of the RFID functional unit and a circumference of the additional element are designed to be coordinated with one another on an outer surface in relation to the longitudinal axis.
- a length and a width of the antenna structure of the RFID functional unit and an end wall surface of the additional element can be designed to be coordinated with one another on the upper side or the end wall in relation to the longitudinal axis.
- the antenna structure and the additional element are designed to match commercially available syringes, so that the antenna structure preferably has a rectangular shape with a length of at least 20 mm and a width of at least 2 mm in relation to the longitudinal axis.
- the antenna structure can also be rectangular in shape in such a way that it is wrapped spirally around the element provided for this purpose.
- a particularly advantageous Ab beam characteristic of the RFID functional unit can be provided for reading out by a reading device.
- the rectangular antenna structure described above is attached to the side wall of the additional element and wrapped around the outer surface, the resulting radiation characteristic has a donut shape, with maxima of the radiation being set up in the axial direction along the longitudinal axis.
- an RFID functionality can be provided which has a reading range of 15 cm up to 40 cm or more. Accordingly, a large number of labeled syringes, which are stored upside down in a syringe tub, can be used at once in a reliable and time-saving manner be read out.
- such a rectangular antenna structure can also be provided for attachment to the top or the end wall of the additional element.
- the antenna structure can have a circular and meandering structure for attachment to the top side or the end wall of the additional element.
- such an antenna structure can also be arranged on a side wall of the additional element and can provide advantageous radiation characteristics for reading. For example, due to the intricate loop shape, such an antenna structure has an antenna length of 80-100 mm. Arranged on the front wall, such an antenna structure is again donut-shaped
- an RFID functionality can be provided which achieves a reading range of up to 6 cm in the axial direction and of 15 cm to 25 cm or more laterally or transversely to the axial direction.
- Such a relatively long lateral radiation can have a further advantageous effect with regard to the storage of a large number of labeled syringes in a syringe trough or a syringe tub, in that they are usually arranged next to one another and mutually support each other in their stimulus for reading. This again enables a large number of such labeled syringes to be reliably recorded and read out.
- the antenna structures described can also be provided for attachment directly to a primary closure, so that the antenna structure can be designed to be coordinated with one another, in particular with regard to its length and width and a circumference and/or a surface of the primary closure intended for attachment.
- the antenna structures and their radiation characteristics which are advantageous despite the relatively small dimensions, are therefore also suitable for labeling arrangements without a separate additional element.
- the area available for this is used in the best possible way, with the geometries of the additional element and/or the primary closures being able to be configured in a targeted manner. It is a finding in connection with the present invention that a classic dipole antenna with typical dimensions in the range of half a wavelength cannot be used due to the limited space available or at least does not provide any radiation characteristics that can be used for the applications described.
- a round RFID antenna structure is preferably attached to a corresponding end wall for reasons of shape.
- the antenna structure is designed as a "loop" so that the antenna has the right resonance frequency for the small dimensions.
- Such a loop can be designed to be intertwined or interlaced, and a total loop length can thus be achieved which is again in the region of half the wavelength of the readout field.
- the antenna structure can be used to set up an advantageous tuning to the frequency of the reading device, which has a useful performance for information retrieval and information transmission.
- the antenna structure is therefore preferably configured with regard to its radiation characteristics and a reading range to a reading device provided for reading.
- the RFID functional unit can also be attached in the form of an RFID tag on a side face of the additional element or the primary closures. This results in further possibilities for realizing a useful performance despite the small dimensions.
- a suitable antenna structure can be wrapped around a preferably round section of the additional element or the primary closure. This results in completely different radiation characteristics compared to the flat, non-coiled antenna structure, which favor a readout, in particular also of several syringes at the same time. In relation to a relatively simple design of the antenna structure with a rectangular conductor loop, this is wound around the syringe body, the end structure of the syringe or the additional element, so that the magnetic field distribution results in a radiation characteristic that is mainly oriented in the axial direction. This directional radiation from the RFID functional unit means that very advantageous ranges can be achieved with a small size.
- the RFID functional unit is also designed in such a way that a section can be detached as a flag, this can contribute to an even better reading range for information transmission.
- the RFID functional unit is applied as an RFID tag or as an RFID label to the syringe body, the syringe closure or the additional element, so that the antenna structure can be detached at least partially from the corresponding element via a grip tab.
- the labeling arrangement preferably has elements and/or structures that enable such an antenna or label flag to be formed in a stable and reliable manner, so that it remains in the unfolded position. Reading ranges of more than 2 m can be achieved with such an unfolded antenna flag, so that such labeled syringes can be electronically recognized particularly conveniently and reliably.
- the invention includes the use of an embodiment of the described electronic labeling arrangement for a vessel that can be divided into several parts and has a vessel body and a primary closure.
- a system comprises a primary closure which can be coupled to a vessel body of a vessel which can be divided into a number of parts.
- the system also includes an embodiment of the electronic labeling arrangement described above, which is coupled to the primary closure in such a way that the additional element surrounds the primary closure at least in sections.
- it can System still include a vessel body which is coupled to the primary closure.
- the system preferably implements a Luer lock syringe or a needle-secured syringe, with a cap element and a Luer adapter in the design of a Luer-lock syringe and a needle protective cap in the design of a needle-secured syringe setting up the respective primary closure.
- the labeling arrangement is particularly suitable for use on a syringe, which is a multi-part container with a syringe head and a syringe body.
- the principle can also be used for other pharmaceutical packaging, such as injection bottles or vials.
- the labeling arrangement described also enables subsequent sealing or electronic labeling of prefilled syringes.
- An adapter for the primary closure of the vessel can be realized by means of the additional element, which can also set up a geometry compensation on the syringe head or between the syringe head and the syringe body.
- the labeling arrangement can also contribute to a simple, automated and process-reliable labeling capability of such vessels and, in particular, provide an enlarged area for the reliable attachment of the RFID functional unit.
- the threaded portion of the primary closure is smaller than the head portion or vessel body.
- this relates in particular to a diameter of the respective vessel components.
- a threaded section of a Luer lock syringe generally has a conically tapering threaded section, which can only be labeled with increased effort.
- a method for attaching an embodiment of the electronic labeling arrangement described above to a primary closure for a multi-part vessel comprises providing the primary closure for a vessel which can be divided into several parts and which can be coupled to a vessel body of the vessel.
- the method further includes providing the sleeve-shaped additional element, which includes a coupling structure, and providing the RFID functional unit with an RFID chip and an antenna structure coupled thereto.
- the method further includes coupling the RFID functional unit to the additional element and coupling the additional element to an outer surface of the primary closure by means of the coupling structure, so that the additional element surrounds the primary closure and the RFID functional unit is attached to the primary closure by means of the additional element.
- the labeling arrangement Using the application or assembly method described, it is possible to use the properties and features provided by the labeling arrangement for secure protection and reliable and convenient electronic identification of the vessel. Because the method relates to an application or assembly of an embodiment of the described electronic labeling arrangement and its arrangement on the primary closure, the described properties and features of the labeling arrangement are also disclosed for the method and vice versa.
- the method also includes providing the vessel body of the vessel and coupling the primary closure to the vessel body.
- the primary closure is coupled to the vessel body after the additional element and/or the RFID functional unit is coupled to the primary closure.
- the coupling of the additional element to the primary closure of the vessel can include forming a respective positive, non-positive and/or material connection. Such couplings can be formed in particular by interlocking, by gluing, by welding and/or by the action of thermal radiation.
- the electronic labeling arrangement attached to the vessel enables reliable electronic identification, in particular for Luer syringes, which can also be arranged only in the area of the primary closure.
- pharmaceutical containers, in particular prefillable syringes can be equipped in a simple and cost-effective manner using RFID functionalities and can thereby be made connective. This is of great importance, for example, for tracking and backtracking or tracking and tracing or for identifying the vessel.
- Prefillable syringes, in particular their primary closures are part of pharmaceutical approvals in terms of their design and function. Changing these structures is usually associated with high costs.
- the labeling arrangement enables an integration of RFID functionalities, for example in a syringe, whereby this or its primary closure cannot be adapted or only slightly adapted to its shape and applicability.
- the labeling arrangement can be designed in such a way that the circumference of the primary closure, for example the cap element and/or Luer adapter of a Luer lock syringe, is not increased or not increased too much in the case of the RFID integration, so that the syringes can still be inserted into the intended cavities of Syringe nest or syringe trays, also known as syringe tubs.
- the additional element can in particular also be designed to increase and in particular lengthen in a targeted manner.
- the additional element can enlarge the syringe in one or more dimensions. For example, it can be advantageous to increase a syringe length by means of the additional element and/or by adjusting the primary closure, so that the RFID functional unit applied to the additional element and/or primary closure is closer to the bottom of a syringe tub in which syringes are housed upside down are.
- the available distance can be used specifically for the formation of the additional element and/or the adjustment of a primary circuit of the tips in order to be able to place the RFID functionality closer to the bottom side of the syringe trough and accordingly to contribute to a reliable reading and transmission of information.
- the additional element and/or the respective primary closure can therefore be designed in such a way that they lengthen an original or commercially available syringe geometry by 10 mm, 15 mm, 20 mm, 30 mm up to 40 mm.
- a surface of closure structures and, in the case of glass syringes, also the surface of a Luer adapter for the application of RFID tags by means of pressure-sensitive adhesive are designed unfavorably or not usefully.
- the surfaces are not sufficiently large and flat, and on the other hand, the materials used have a surface microstructure and surface tension that are unsuitable for pressure-sensitive adhesives.
- the described labeling arrangements can be used to implement RFID functionalizations of pharmaceutical containers, which can be applied to such closure structures of prefillable syringes, preferably using adhesive, and also provide sufficient RFID functionality without having to change the shape and applicability of the syringe.
- the RFID functionalization of the present invention takes place in particular in the area of the end structures of multi-part vessels which have a primary closure. The areas available in this area require a relatively small RFID functional unit, which usually limits the reading range of the RFID functionality.
- a special configuration of the RFID functional unit according to the labeling arrangement described allows a reading range that is sufficient for the planned applications, for example in the field of track & trace in the pharmaceutical supply chain, to be set up despite its small size.
- the RFID functional unit for example in the form of an RFID tag, can be applied directly to the end structures currently on the market. Reliable and convenient electronic labeling of syringes can already be implemented, particularly in connection with a special antenna structure that can be wrapped around the end structure. Accordingly, the RFID functional unit is preferably designed as an wrap-around label and comes to rest on itself in sections, so that a secure and reliable hold on a commercially available end structure can be set up. In addition, however, it is particularly useful that the shape and form of these end structures are predetermined for the application of such an RFID tag or are coordinated with one another and are prepared for the application of the RFID tag. Alternatively, this can be achieved in a simple and cost-effective manner by means of the additional element, which can be designed to be adapted to the RFID functional unit to be attached or accommodated.
- the configurations of the labeling arrangements described enable both prior and subsequent attachment to a primary closure of a syringe, before or after this is or was attached to the syringe body.
- Existing syringes can be retrofitted with an RFID functionality in a simple and cost-effective manner by means of the labeling arrangement, in particular in connection with the additional element.
- the risk can also be eliminated that, for example in the case of syringes with a secured syringe needle, a relative movement of the Needle cap for syringe needle is effected, which can damage a needle cut and lead to undesirable particle formation.
- the application of force in the closure area could result in the syringe needle being bent.
- there is a risk that the force applied during labeling will result in a relative movement of the threaded part relative to the syringe body, as a result of which sealing or sterility can be impaired.
- the distance between the RFID tag and a reader is defined by the dimensions of the syringe and the position of the syringe in a mounting system, such as a syringe trough or a syringe tub. Depending on the circumstances, this can be too large for reading an RFID chip.
- the labeling arrangements described can be used to implement electronic functionalizations of syringes, which are optimized in particular for application to the limited surfaces of the syringe end structures in order to provide a sufficient reading range for the respective application despite their small size.
- the configurations of the labeling arrangements concentrate on the closure structures or the primary closures, so that labeling of the syringe body does not have to be taken into account at the same time for RFID functionalization.
- the closure area is electronically functionalized in a simple and reliable manner without having to change the syringe itself in this regard.
- FIG. 1 shows an exemplary embodiment of a system with a Luer lock
- FIG. 2 shows an exemplary embodiment of a system with a needle-safe syringe and an electronic labeling arrangement attached thereto
- FIGS. 11-24 different exemplary embodiments of an additional element and an RFID functional unit of the electronic labeling arrangement coupled thereto,
- FIGS. 46-47 different exemplary embodiments of an antenna structure of the RFID functional unit
- Figure 49 is a flow chart for a method of applying the electronic labeling assembly to a multi-component vessel.
- FIG. 1 shows a schematic side view of a system with a multi-part vessel and an electronic labeling arrangement 1 attached thereto Syringe body 34 are coupled, in which a content is arranged or can be arranged, which can be expelled from the syringe body 34 by means of a syringe plunger 36 if necessary.
- the cap element 31 can also be referred to as the head part of the Luer lock syringe 30 .
- the Luer adapter 32 can also be referred to as a threaded part or threaded section.
- the cap element 31 and the Luer adapter 32 realize a head end structure of the Luer lock syringe 30 as a primary closure.
- FIG. 2 shows a schematic side view of another system with a multi-part vessel and an electronic labeling arrangement 1 attached to it.
- the vessel is designed as a needle-secured syringe 30 and includes a primary closure with a needle protective cap 33 which is attached to a syringe needle 37 and connected to the syringe body 34 is coupled.
- a needle protective cap 33 which is attached to a syringe needle 37 and connected to the syringe body 34 is coupled.
- the syringe body 34 is a content introduced or can be arranged, which can be driven out of the syringe body 34 by means of the syringe plunger 36 if necessary.
- the needle protective cap 33 realizes a head-side end structure of the needle-secured syringe 30 as a primary closure.
- the RFID functional unit 20 comprises in each case an RFID chip 21 and an antenna structure 27 coupled thereto, which enable information to be read out electronically.
- a functional carrier such as a carrier foil
- the RFID functional unit 20 can also be referred to as an RFID transponder or RFID tag.
- the RFID functional unit 20 can also be implemented as an RFID label and, for example, have a carrier layer with an adhesive layer, so that the RFID label can be easily and reliably attached to the respective primary closure 31, 32 or 33 of the syringes 30 and/or to the Additional element 10 can be arranged.
- possible configurations of the labeling arrangement 1 are described, which always have an RFID functional unit 20, which in particular can be embodied and designated as an RFID tag or as an RFID label.
- top and bottom and inside and outside refer to an operational arrangement or application of the labeling arrangement 1 according to the illustrated alignments of the syringes 30 according to FIGS. 1 and 2.
- a head of a respective syringe is therefore at the top and the body usually located below.
- the primary closure 31, 32 or 33 forms a component of the respective syringe 30, which is completely or partially unscrewed and/or pulled off and removed from the syringe body in order to open the syringe.
- the labeling arrangement 1 comprises the RFID functional unit 20 and, according to the exemplary embodiments according to Figures 1-35, the sleeve-shaped additional element 10.
- the additional element 10 has a coupling structure and is designed for this purpose, based on a longitudinal axis L by means of the coupling structure, with an outer surface 311 and / or 321 or 331 of the respective primary closure 31, 32 or 33 to be coupled and surround it.
- the longitudinal axis L corresponds to a longitudinal axis of the additional element 10, a longitudinal axis of the primary closures 31, 32 and 33 and also a longitudinal axis of the respective syringes 30.
- the additional element 10 and the RFID functional unit 20 are designed to coordinate with one another and are coupled to one another, so that the RFID functional unit 20 is attached to the respective primary closure 31 , 32 or 33 of the associated syringe 30 by means of the additional element 10 .
- the coupling structure can form an engagement structure with coupling elements which can engage or be pushed into corresponding recesses on a respective primary closure 31, 32 or 33 (see FIGS. 27, 28 and 30).
- the coupling structure can also represent the surface structure on an inner side of the additional element, which is placed or pushed onto the primary closure 31, 32, 33 and is at least partially in permanent contact with the outer surface 311 and/or 321 or 331 of the respective primary closure 31 , 32 or 33 and forms a press fit (see FIG. 29).
- the coupling structure comprises a toothing structure 15 with one or more toothing elements 151, 152, 153, which are formed on an inner surface 13 of the additional element 10 and which are aligned horizontally and/or vertically with respect to the longitudinal axis L, for example, and which are coordinated with the outer surface 311, 321, or 331 of the respective primary closure 31 and/or 32 or 33 are designed in a predetermined manner (see FIGS. 26-31).
- the labeling arrangement 1 preferably comprises an adhesive layer which is arranged on an underside of the RFID functional unit 20 .
- the RFID functional unit 20 enables information to be read out electronically by means of the RFID chip 21 and the antenna structure 27 .
- the RFID functional unit 20 can be glued onto the additional element 10, for example by applying a hard tag or soft tag, for example as part of a label.
- the RFID functional unit 20 can already be integrated into the additional element 10 during the production thereof, for example by means of casting or so-called “in-mold” technologies.
- the RFID functional unit 20 can be arranged on or in a side wall 191 and/or on or in an end wall 192 of the additional element 10 (see FIGS. 11-24).
- the additional element 10 is preferably mechanically connected to the end structure or the primary closure 31, 32, 33. This is preferably done by mechanical interlocking using the interlocking structure 15, with an outer structure of the primary closure 31, 32, 33 and an inner structure of the additional element 10 being designed to be coordinated with one another (see FIGS. 26-28 and 31). According to the exemplary embodiment according to FIG. Alternatively or additionally, a press fit of the additional element 10 can be set up on or on the cap element 31 or the needle protective cap, so that the additional element 10 is already securely and reliably coupled to the primary closure 31, 32 or 33 due to its pressed-on state (see Figure 29). The dashed lines drawn in FIG.
- the additional element 10 can be configured in particular and geometrically matched to the respective primary closure in such a way that it does not lead to an enlargement of the syringe geometry.
- the widest point of the illustrated Luer lock syringe 30 is formed, for example, by a collar in the transition area of the cap element 31 and the Luer adapter 32.
- the additional element 10 can therefore be designed in such a way that it does not increase the circumference compared to the point with the largest circumference and handle elements on the primary closure 31, 32 are not covered.
- the additional element 10 can completely or partially cover the end structures 31, 32 or 33. In relation to the longitudinal axis L, it can thus completely or partially surround a section on the cap element 31, the Luer adapter 32 or the needle protective cap 33.
- the additional element 10 is attached in such a way that the end structure 31, 32, 33 is not further enlarged in its largest diameter and is thus advantageously designed with regard to the placement of such labeled syringes 30 in nests or syringe troughs.
- the additional element 10 is sleeve-shaped and can surround the primary closure 31, 32, 33 over the entire surface or without any recesses.
- surface structures of the cap element 31 and/or the Luer adapter 32 which are important for the application, can remain uncovered by means of the additional element 10. This can, for example, relate to the grip grooves of the primary closure 31, 32, 33, which serve to improve grip when opening the syringe (see FIGS. 29 and 30).
- the additional element 10 it is also possible for the additional element 10 to have structures on an outer surface 14 which facilitate handling.
- a handle structure 16 with handle grooves can be provided on an outside (see FIG. 6).
- the attachment of the additional element 10 to the primary closure 31, 32, 33 is preferably designed in such a way that a force transmission in the rotational direction perpendicular and parallel to the longitudinal axis L of the syringe 30 is possible. This can ensure, for example, that the additional element 10 together with the cap element 31 or the needle protective cap 33 can be rotated and removed to open the syringe 30 .
- the additional element 10 can be provided, for example, with one or more holes or recesses 18 in order to allow a flow of media after attachment to the syringe 30 (see FIGS. 15-18 and 21-24). This is particularly important when sterilizing the syringes 30 .
- ETO gas could penetrate through the openings from the outside to the inside, so that the sterilization is not affected.
- the recesses 18 can also be used for drying if, for example, moisture has penetrated between the syringe 30 and the additional element 10 during steam sterilization.
- the additional element 10 can be made in two parts and have a first partial element 11 and a second partial element 12 (see FIGS. 32-35). According to such a configuration, it is advantageous if, for example, the first partial element 11 is attached in the area of the head part or the cap element 31 and the second partial element 12 is attached in the area of the threaded part or the Luer adapter 32 .
- the two partial elements 11 and 12 can form separate elements and have a separation area 17 (see FIGS. 34-35).
- the two partial elements 11 and 12 can be connected to one another by means of the RFID functional unit 20 which is designed, for example, in the form of an RFID label and which has a severing area 23 and is purposefully weakened by a perforation 24 .
- the separating area 17 can also be designed as a severing area, in that the two partial elements 11 and 12 are connected to one another, for example by means of holding or connecting webs 171 (see FIGS. 32-33).
- the perforation 24 implements a severing element and can be located in an intermediate region between the upper, first partial element 11 of the additional element 10, which is attached to or on the cap element 31, and the lower, second partial element 12 of the additional element 10, which is attached to the Luer adapter 32 is appropriate to be placed.
- a severing element can be arranged in an adjacent area of the two partial elements 11 and 12 of the additional element 10 .
- the RFID functional unit 20 in the form of an adhesive RFID label, this is preferably in an area of the perforation 24 and/or the connecting webs 171 and a separating gap between the two Sub-elements 11, 12 of the additional element 10 designed non-sticky to facilitate the removal of the cap member 31 when opening.
- the connecting webs 171 and/or the RFID label 20 are destroyed and the cap element 31 can be removed from the Luer lock syringe 30 together with the first partial element 11 of the additional element 10 (see Figures 33 and 35).
- the broken connecting webs 171 and/or the RFID label 20 torn along the perforation 24 can then serve as an opening verification element, which clearly indicates that the Luer lock syringe 30 has been opened.
- an electronic opening verification element can be provided in the form of an electrical conductor track 22 .
- the conductor track 22 is preferably placed over a severing line of the RFID label 20 and is formed, for example, by printing a conductive paste or as part of an etched antenna structure 27 of the RFID functional unit 20 (see FIG. 34).
- the conductor track 22 can be connected to the RFID chip 21 of the RFID functional unit 20 .
- the conductor track 22 is destroyed (see FIG. 35) and conductor track sections 26 remain on the elements which have been separated from one another.
- Such a destruction of the purposefully arranged conductor track 22 can be registered by means of the RFID chip 21 by sensors as a detuning of the antenna structure 27 or as a clear change in a reading range.
- an electronic first-opening display and protection against manipulation can be implemented by means of the labeling arrangement 1 .
- the additional element 10 can in particular be designed in such a way that a region of the primary closure 31, 32, 33 to which the additional element 10 is applied has the same diameter or the same circumference as the syringe body 34 after the application.
- the additional element 10 can thus provide a targeted geometry compensation, so that it is advantageously possible to apply a label which adheres both to the additional element 10 and to the syringe body 34 (see FIG. 8).
- the additional element 10 can also be attached to the syringe 30 and an undesired turning of the Luer adapter 32, for example when the syringe 30 is opened or when a syringe needle is inserted, can be counteracted in a targeted manner.
- syringes 30 with a secured syringe needle so-called “staked in needle” syringes
- a perforation 24 can be made in the RFID label 20 in a targeted manner, analogously to the previous statements, in order to weaken the RFID label 20 and form the severing area 23 in a predetermined manner so that it can be opened and removed the needle protective cap 33 is facilitated together with the additional element 10.
- the perforation 24 can also be placed in the needle-secured syringe 30 in an intermediate area between the additional element 10 and the syringe body 34 or in an adjacent area of the additional element 10 or the syringe body 34, with such a function carrier preferably being placed according to one embodiment of an adhesive RFID label 20 is not sticky in the area between the perforation 24 and a separating gap between the additional element 10 and the syringe body 34 in order to facilitate the removal of the needle protective cap 33 when opening.
- the additional element 10 can also be designed in such a way that it enlarges the syringe 30 in one or more dimensions and thus, for example, increases the length of the syringe in a targeted manner (see FIG. 4). This makes it possible, for example, for the RFID tag 20 applied to the additional element 10 to be closer to a bottom of a syringe barrel is arranged, in which a plurality of syringes 30 can be accommodated upside down, and can thereby be detected more reliably by readers, which are intended to read the RFID chips 21 from a bottom side of the syringe barrel.
- the additional element 10 can also be designed with a predetermined surface structure on the outer surface 14 which is optimized or coordinated for the application of the RFID functional unit 20 . This can be achieved, for example, by a sufficiently large and suitably shaped planar surface of the additional element 10.
- the RFID functional unit 20 can be applied as an RFID tag or RFID label by means of a pressure-sensitive adhesive on such a predetermined surface, it being advantageous if a material of the additional element 10 has a surface tension suitable for the adhesion of a pressure-sensitive adhesive and/or the external Surface 14 has a microstructure suitable for adhesion of a pressure-sensitive adhesive.
- the RFID tag 20 can be applied to the outer surface 14 on the side wall 191 and/or the top or end wall 192 of the additional element 10 (see FIGS. 11-12). Alternatively, the RFID tag 20 can be attached to the inner surface 13 on the side wall 191 or the end wall 192 of the additional element 10, so that after the attachment of the additional element 10 to the syringe 30, the RFID tag 20 is between the additional element 10 and the primary closure 31 , 32 or 33 is protected from environmental influences (s. Figures 13-14).
- the additional element 10 can be constructed in multiple layers, so that the RFID tag 20 is accommodated in an intermediate layer of the additional element 10 (see FIGS. 19-24).
- Such an intermediate layer space can be designed as a cavity 181 in order to give the RFID tag 20, in particular the RFID chip 21, sufficient space.
- Individual layers of the additional element 10 can be connected to one another mechanically, for example by click connections.
- individual layers of the additional element 10 can be connected to one another by means of an adhesive and/or welded to one another, for example by means of ultrasonic welding.
- the RFID tag 20 is particularly reliably protected from environmental influences.
- the RFID tag 20 can be reached by media from the outside, for example in connection with sterilization using ETO gas or steam, this can be done through the recesses 18 in the side wall 191, the end wall 192 or an outer layer of a multi-layer additional element 10 (see FIGS. 15-18 and 21-24). It can be useful to make the cavity 181 in intermediate layers of the additional element 10 sufficiently large so that the medium for sterilization can be well distributed in the cavity 181 and thereby encompasses the RFID tag 20 and also penetrates under a pressure-sensitive adhesive (see figures 23 and 24). Such recesses 18 are then also used, for example, for drying after sterilization by steam has taken place.
- FIGS. 36 to 45 show exemplary embodiments of the labeling arrangement 1 without an additional element.
- the RFID functional unit 20 and the primary closures 31, 32 and 33 to be coupled to it can also be designed to be coordinated with one another and coupled to one another without an additional element.
- the RFID tag or the RFID label 20 can also be referred to as an RFID function carrier and can be arranged directly on the end structures 31 , 32 or 33 of the syringes 30 . For example, it can only be placed on the cap element 31 or only on the Luer adapter 32 of the Luer lock syringe 30 (see FIGS. 36 and 37).
- the RFID label 20 can be placed on the cap element 31 and at the same time on the Luer adapter 32 (see FIG. 39). It is also possible to place the RFID function carrier 20 on the primary closure 31, 32 or 33 and at the same time on the syringe body 34 of the respective syringe 30. This can be particularly useful with needle-secured syringes 30 that do not have a luer adapter (see Figures 44 and 45).
- the opening of the syringe 30 can be indicated by the RFID function carrier 20 being torn.
- the perforation 24 in the severing area 23 of the RFID function carrier 20 can tear and facilitate opening of the syringe 30. If there is an electrical conductor track 22 in the separation area of the RFID function carrier 20, this is destroyed when it is opened and conductor track sections 26 remain on the syringe body 34 or the Luer adapter 32 or on the needle protective cap 33 or the cap element 31 (see Figures 42 -45).
- Such a severing of the conductor track 22 can be read out by sensors using the RFID chip 21, for example as a detuning of the antenna structure 27 or due to a significant change in the reading range.
- the surfaces 311, 321 and/or 331 of the end structures 31, 32, 33 of the syringes 30 for the application of the RFID functional unit 20 are predetermined formed.
- the surfaces 311, 321 or 331 can be smooth and designed with as little conicity as possible in the area which is intended for the application of the RFID functional carrier 20. In addition, it is useful to design the area sufficiently large.
- a microstructure and a surface quality of a plastic for forming the primary closures 31, 32 and/or 33 can be selected such that they are optimized or adapted for attachment by means of an adhesive, in particular a pressure-sensitive adhesive.
- Areas of the primary closures 31, 32 and/or 33 which are not intended for the application of the RFID function carrier 20 can be designed in such a way that they are advantageous for handling the syringe 30.
- grip grooves 312 can be formed in such a region of the primary closure 31, 32 and/or 33, which facilitate the opening of the syringe 30 by a user (see FIG. 41).
- the RFID function carrier 20 can either only be placed on the cap element 31 (see FIGS. 36, 38 and 40) or only on the Luer adapter 32 of a Luer lock syringe 30 (see FIG. 37). With the primary closure 31, 32 this is both on the outer surface 311, 321 on a respective side surface as well as on an upper side 35 of the cap element 31 (see FIGS. 36-40).
- the RFID function carrier 20 can be attached both to the cap element 31 and to the Luer adapter 32 (see FIGS. 39 and 41-43). According to such a configuration, it is advantageous that the cap element 31 and the Luer adapter 32 in the area which is intended for the application of the RFID function carrier 20 are designed in such a way that a homogeneous surface is available so that the RFID function carrier 20 can be applied trouble-free, in particular without edge or step formation.
- the RFID label 20, as described above, can have the severing area 23 in which it is weakened in a predetermined manner with the perforation 24 (see FIGS. 41-45).
- the perforation 24 may be placed in an intermediate area between the cap member 31 and the luer adapter 32 or in an adjacent area of the cap member 31 or the luer adapter 32 as a severing member to facilitate separation of the RFID tag 20 .
- the RFID label 20 is preferably non-sticky in the area of the perforation 24 and the separating gap between the cap element 31 and the Luer adapter 32 in order to facilitate the removal of the cap element 31 when opening.
- the perforation 24 can be arranged in an intermediate area between the needle protective cap 33 and the syringe body 34 or in an adjacent area of one of these elements (see FIGS. 44 and 45).
- the RFID function carrier 20, as described above in connection with an additional element 10, can be designed in such a way that an electrical conductor track 22 extends over a separation area between the cap element 31 and the Luer adapter 32.
- the conductor track 22 is formed, for example, by printing a conductive paste or as part of an etched antenna and is connected to the RFID chip 21 (see FIGS. 42-45).
- the conductor track 22 is destroyed, which is read out by sensors using the RFID chip 21 as a detuning of the antenna or as a result of a strong change in the reading range of the RFID functional unit 20 can.
- An electronic first-opening display can thus also be implemented in the case of a labeling arrangement 1 without an additional element.
- the elements 31, 32 and/or 33 of the primary closure can be designed with the same circumference as the syringe body 34.
- the RFID functional carrier 20 can be arranged without the formation of folds, except for the syringe body 34 . This can be advantageous, for example, in the case of needle-secured syringes 30 with a “staked in needle” in order to integrate an electronic first-opening indicator (see FIGS. 44-45).
- the RFID functional unit 20 and the end structures 31, 32 and/or 33 can thus be configured in coordination with one another, so that dimensions and/or surface properties are changed in a predetermined manner in comparison with commercially available embodiments.
- the cap element 31 of the primary closure for the Luer lock syringe 30 can be made particularly long, for example in order to arrange the RFID function carrier 20 as close as possible to a bottom of the syringe well in the case of syringes 30 nested in syringe wells in order to read the RFID functional unit 20 to facilitate (s. Figure 40).
- the described configurations of the electronic labeling arrangement 1 focus on an RFID functionalization in the area of the closure structures of syringes 30, which in particular can only extend in the area of the additional element 10 and/or the primary closures 31, 32 and 33. It is therefore not necessary to combine an RFID functionalization with a labeling of the syringe body 34 at the same time.
- a closure area of the respective syringe 30 can be electronically functionalized without having to change the syringe 30 itself in this regard.
- FIGS. 46 and 47 show exemplary embodiments of the antenna structure 27 of the RFID functional unit 20 in a schematic representation.
- the antenna structure 27 has a specified length LA and a specified width BA, which in particular Coordination with a circumference of the additional element 10 on the outer surface 14 and/or an end wall surface of the additional element 10 on the end wall 192 are formed in a predetermined manner.
- the length LA and the width BA of the antenna structure 27 are configured in accordance with a circumference of the primary closure 31, 32 or 33 on the associated outer surface 311, 321 or 331 and/or an end wall surface, in particular of the cap element 31.
- the antenna structure 27 has a simple, rectangular loop shape, which is wound around the additional element 10 and/or the primary closure 31, 32 or 33.
- the illustrated direction of expansion of the width BA would then preferably be oriented in the direction of the longitudinal axis L, so that the length LA corresponds, for example, approximately to the circumference that the additional element 10 and/or the primary closure 31, 32 or 33 has on a respective outer side.
- the antenna structure 27 therefore has, for example, a length LA of at least 20 mm and a width BA of at least 2 mm.
- FIG. 47 illustrates a further configuration of the antenna structure 27, which is circular and meandering in shape and implements an intertwined or nested loop shape.
- a round antenna shape is configured, for example, in relation to the end wall 192 of the additional element 10 or the upper side 35 of the cap element 31 .
- both illustrated embodiments of the antenna structure 27 according to FIGS. 46 and 47 can be arranged on a side surface and/or an upper side of the additional element 10 and/or the primary closure 31, 32 or 33.
- FIG. 48 shows an Ab beam characteristic that can be set up with the antenna structure 27 according to FIG. Due to the magnetic field distributions, such a configuration leads to advantageous radiation characteristics, which are mainly oriented in the axial direction or in the direction of the longitudinal axis L illustrated are.
- the emission characteristic can be described as donut-shaped, with the donut hole or minima of the emission being oriented transversely to the longitudinal axis L.
- FIG. 48 shows a section through the center of such a vertically erected donut. Radiation properties of the antenna structure 27 of the RFID functional unit 20 directed in this way can be used to achieve very advantageous reading ranges of up to 40 cm with a small overall size.
- a method for applying or attaching an embodiment of the labeling arrangement 1 can be carried out according to the flow chart in Figure 49 as follows:
- a step S1 the required components of the labeling arrangement 1 and the elements of the primary closure 31 and/or 32 or 33 to be coupled thereto are provided with predetermined, coordinated properties.
- the labeling arrangement 1 which includes an embodiment of the additional element 10 , will be discussed below.
- the RFID functional unit 20 is coupled to the additional element 10.
- the additional element 10 is coupled by means of the coupling structure, for example in the form of a toothed structure 15, to the outer surface 311 and/or 321 or 331 of the primary closure 31, 32 or 33, so that the additional element 10 closes the primary closure 31 and/or 32 or 33 surrounds and the RFID functional unit 20 is attached to the primary closure 31 and/or 32 or 33.
- the coupling structure for example in the form of a toothed structure 15
- the additional element 10 closes the primary closure 31 and/or 32 or 33 surrounds and the RFID functional unit 20 is attached to the primary closure 31 and/or 32 or 33.
- step S4 the syringe body 34 of the syringe 30 can also be provided.
- step S5 the primary closure 31, 32 or 33 is then coupled to the syringe body 34.
- the coupling or application of the RIFD tag 20 to the additional element 10 can take place both before the attachment of the additional element 10 or the primary closure 31, 32 or 33 to the syringe 30 and afterwards.
- a simple, direct and reliable sticking of the RFID label 20 to a closure area of the syringe 30 is possible without the need for additional tools.
- the additional element 10 electronically functionalized with the RFID functional unit 20 to the end structures 31, 32 or 33 of the syringes 30 before these are fixed to the syringe 30 or the syringe body 34. Impairment of a syringe needle 37 or a tightness of the syringe 30 by the application of the RFID functional unit 20 or the additional element 10 can thus be prevented.
- the configurations of the labeling arrangement 1 described include the possibility of changing the dimensions of the syringe 30 in a predetermined manner, for example by attaching an additional element 10 that is specifically designed to be longer, thereby reducing the distance between the RFID chip 21 and a reader and thus simplifying reliable reading can.
- the RFID functional unit 20 is accordingly arranged further away from the syringe body 34 in a predetermined manner.
- the RFID tag 20 can be designed specifically for application to the limited available areas on the end structures 31, 32 or 33 of the syringes 30 in order to provide a sufficient reading range for a particular application despite its relatively small size.
- the labeling arrangement 1 can in particular be designed in such a way that the adapted syringes 30 do not apply too broadly and can still be nested or stored in syringe tubs provided for this purpose.
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Abstract
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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DE102020133546.6A DE102020133546A1 (de) | 2020-12-15 | 2020-12-15 | Elektronische Etikettieranordnung für ein mehrteiliges Gefäß, System und Verfahren zum Anbringen einer elektronischen Etikettieranordnung an einem mehrteiligen Gefäß |
PCT/EP2021/085449 WO2022128893A1 (fr) | 2020-12-15 | 2021-12-13 | Ensemble de marquage électronique pour un récipient en plusieurs parties, et système et procédé pour fixer un ensemble de marquage électronique à un récipient en plusieurs parties |
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EP4264491A1 true EP4264491A1 (fr) | 2023-10-25 |
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EP21836496.6A Pending EP4264491A1 (fr) | 2020-12-15 | 2021-12-13 | Ensemble de marquage électronique pour un récipient en plusieurs parties, et système et procédé pour fixer un ensemble de marquage électronique à un récipient en plusieurs parties |
Country Status (5)
Country | Link |
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US (1) | US20240046059A1 (fr) |
EP (1) | EP4264491A1 (fr) |
CN (1) | CN116710925A (fr) |
DE (1) | DE102020133546A1 (fr) |
WO (1) | WO2022128893A1 (fr) |
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DE102022116021A1 (de) * | 2022-06-28 | 2023-12-28 | Schreiner Group Gmbh & Co. Kg | Multifunktionsetikett, System und Verfahren zum Herstellen eines Multifunktionsetiketts |
DE102022131253A1 (de) * | 2022-10-14 | 2024-04-25 | Schreiner Group Gmbh & Co. Kg | Etikettieranordnung für ein mehrteiliges Gefäß, System und Verfahren zum Anbringen einer Etikettieranordnung an einem mehrteiligen Gefäß |
Family Cites Families (7)
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DE102012112297A1 (de) | 2012-12-14 | 2014-06-18 | Schreiner Group Gmbh & Co. Kg | Verschlusselement für ein Gefäß |
RU2622806C2 (ru) * | 2012-05-09 | 2017-06-20 | Шрайнер Груп Гмбх Унд Ко. Кг | Укупорочный элемент для емкости |
GB201304369D0 (en) * | 2013-03-08 | 2013-04-24 | Cryogatt Systems Ltd | Rfid caps and lids |
US11752275B2 (en) * | 2016-07-11 | 2023-09-12 | Shl Medical Ag | RFID tag enabled shield assembly |
US10821053B2 (en) | 2016-10-07 | 2020-11-03 | Becton, Dickinson And Company | Syringe with connector |
DE102019108253A1 (de) | 2019-03-29 | 2020-10-01 | Schreiner Group Gmbh & Co. Kg | Kennzeichnungssatz zum Kennzeichnen eines pharmazeutischen Gefäßes und pharmazeutische Konfektionierungseinheit |
EP3760254A1 (fr) | 2019-07-01 | 2021-01-06 | Becton Dickinson France | Capuchon d'extrémité pour un dispositif d'injection médicale |
-
2020
- 2020-12-15 DE DE102020133546.6A patent/DE102020133546A1/de active Pending
-
2021
- 2021-12-13 US US18/267,172 patent/US20240046059A1/en active Pending
- 2021-12-13 WO PCT/EP2021/085449 patent/WO2022128893A1/fr active Application Filing
- 2021-12-13 EP EP21836496.6A patent/EP4264491A1/fr active Pending
- 2021-12-13 CN CN202180084697.3A patent/CN116710925A/zh active Pending
Also Published As
Publication number | Publication date |
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CN116710925A (zh) | 2023-09-05 |
US20240046059A1 (en) | 2024-02-08 |
DE102020133546A1 (de) | 2022-06-15 |
WO2022128893A1 (fr) | 2022-06-23 |
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