An adhesive label for a multi-part container having a threaded member and a container body includes a first, sheet-like label portion adapted to be attached to the threaded member of the container, and a second label portion adjacent the first label portion and adapted to be attached to the container body of the container. The second label portion has a comb-like structure with strip-shaped fixing elements such that the adhesive label couples the threaded member to the container body relative to a condition applied to the container and opposes movement of the threaded member relative to the container body.
The invention relates to an overlapping wrap-around label (10) for a container (40) having a first label portion (11) with first perforations (14) and a second label portion (12) with second perforations (15). The label portions (11, 12) are coupled together and each of their perforations (14, 15) has a plurality of perforation openings (141, 151) and perforation interstices (18) in between. The first and second label portions (11, 12) are each designed to be wrapped at least once around the periphery of a container body (41) and/or a container closure (42) of the container (40), such that, when the overlapping wrap-around label (10) has been applied to the container (40) in the intended way, the first and second label portions (11, 12) wrap overlappingly around the container body (41) and/or the container closure (42) and the perforation openings (141, 151) of the first and second perforations (14, 15) are free of overlap and are offset relative to one another with regard to a wrapping or application direction (R, A).
A label (1) with protection against forgery comprises an unclonable security feature (10) and a hidden code (20). The hidden code (20) contains data describing the security feature (10). The data are coded in the hidden code in the form of characters (21). As a result, the characteristic properties of the security feature (10) are directly stored on the label (1), with the result that it is not necessary to access a database in order to authenticate the security feature (10). The characters (21) may be arranged on a substrate (30) with a covering layer (60) above which is opaque when illuminated with light in the visible spectrum and transparent when illuminated with light in at least one part of the invisible spectrum (for example transparent and readable with an infrared camera in the infrared spectral range), or which becomes transparent when heated above a temperature threshold value (for example made of thermochromic inks).
A labeling arrangement for a syringe includes a label adapted to be attached to the syringe body, and a needle trap adapted to receive and secure the syringe needle after use. A first label flap is coupled to the needle trap, and a second label flap separate from the first label flap has a predetermined severable design and is adapted to be attached to a needle protection cap surrounding the syringe needle and to form an opening detection element on the syringe. The first and second label flaps are connected to each other by the label so that, when the labeling arrangement is attached to the syringe in an operational state, the second label flap is severable when the syringe is opened by removing the needle protection cap and a second label flap section together with the needle protection cap is removable from the label and the syringe body.
A61M 5/32 - NeedlesDetails of needles pertaining to their connection with syringe or hubAccessories for bringing the needle into, or holding the needle on, the bodyDevices for protection of needles
A61M 5/50 - Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular wayAccessories therefor, e.g. filling or cleaning devices, arm rests having means for preventing re-use, or for indicating if defective, used, tampered with or unsterile
G09F 3/00 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps
A label (1) with cut-through indication comprises a sheet (10) with a peripheral portion (11) and a central portion (12) which is peripherally surrounded by the peripheral portion (11). A bottom side (U11) of the peripheral portion (11) of the sheet (10) is adhesive. A bottom side (U12) of the central portion (12) of the sheet (10) is not adhesive. Located at least in the central region (12) of the sheet (10) are punched lines (20) which extend from the top side (O12) of the central portion (12) to the bottom side (U12) of the central portion (12).
A multifunctional label includes a radiation protection layer which is designed to predeterminedly reduce the transmission of electromagnetic radiation in a given wavelength range. The multifunctional label further includes a gas barrier layer, which is designed to reduce the transmission of a gaseous substance in a predetermined manner. The radiation protection layer and the gas barrier layer are directly or indirectly coupled to each other in the common multifunctional label.
An overlapping wrap-around label for a vessel (200) has: - a sheet-like barrier layer (103), which provides a barrier function for preventing a fluid and/or electromagnetic radiation from passing through, - a main label body (110) of a sheet-like extent, which has a first end side (111), which runs along a first direction (104) and has an overlapping region (108) and a coupling region (109), wherein the overlapping region (108) extends along the first direction (104) and is designed to be applied to the coupling region (109) in an applied state, wherein the coupling region (109) is arranged at a distance from the overlapping region (108) along a second direction (105), and wherein the second direction (105) runs transversely to the first direction (104), and – a reducing structure (101) for narrowing and/or closing at least some sections of a channel (102) that is formed on the first end side (111) in the applied state.
A marking label includes an RFID transponder with an RFID chip and an antenna structure which are coupled to one another by signal technology, and a sealing layer which covers the RFID transponder. The sealing layer is bonded to a substrate by welding so that the RFID chip and/or the antenna structure is surrounded by a weld seam and enclosed between the sealing layer and the substrate.
A label with a stand-up mechanism includes a base part which has an adhesive coating on its underside for adhering the label to a substrate, and a stand-up part which is connected in one piece to the base part and is configured in such a way that the stand-up part can be set up at an angle greater than 0° to the base part by folding along a stand-up line. The stand-up part has a stand-up foot for setting up the stand-up part at the angle to the base part.
The invention relates to a labelled container (1) with protection for a content of the container, comprising a body (10) for receiving a substance, and a label (20). The body (10) of the container has a region (11) which is non-transparent at least for a part of the light spectrum between 80 nm and 800 nm and a region (12) which is transparent for the entire visible spectrum. The label (20) is arranged in the transparent region (12) of the body (10). The non-transparent region (11) of the body (10) has a coating (13) for protecting the formulation of the substance. The label (20) comprises a protective film (21) for protecting the formulation of the substance.
The invention relates to a protective label for a container (200), having: - a flat barrier layer (103) which produces a barrier function against the passage of a fluid and/or electromagnetic radiation, - a first label section (101) which is designed to be secured to a first container section (201) of the container (200), and - a second label section (102) which adjoins the first label section (101) along a first direction (104) and which is designed to be secured to a second container section (202) of the container (200), wherein the first container section (201) and the second container section (202) are oriented at an angle to each other, and the second label section (102) has a plurality of label fingers (106, 107, 108) which can be tilted relative to one another. Each of the label fingers (106, 107, 108) has an adhesive region (111) at least at one end (109) which faces away from the first label section (101) along the first direction (104), and the label fingers (106, 107, 108) are designed to cover the second container section (102) when the label fingers are applied.
A label for a stepped container (200), which has a first container portion (201), a second container portion (202), and a container step (205) arranged between the first container portion (201) and the second container portion (202), comprises: - a first adhesive region (101), which is designed to be fastened to the first container portion (201) of the container (200), - a second adhesive region (102), which is designed to be fastened to the second container portion (202) of the container (200), wherein the first container portion (201) and the second container portion (202) have cross sections (203, 204) which differ from one another; - a transition region (103), wherein the transition region (103) is arranged in a first direction (104) between the first adhesive region (101) and the second adhesive region (102) and has a weakened structure (119), wherein the transition region is designed to be arranged on the container step.
An information carrier has a 2D code (101) representing first information (111) and second information (121), wherein: the first information (111) and the second information (121) differ from one another; the 2D code (101) is composed of a first 2D code (110) and a second 2D code (120), and the first 2D code (110) represents the first information (111) and the second 2D code (120) represents the second information (121); the first 2D code (110) is visible along a first viewing direction (102) and the second 2D code (120) is visible along a second viewing direction (103); the first viewing direction (102) and the second viewing direction (103) differ from one another; and the first 2D code (110) and the second 2D code (120) are arranged such that they have a planar overlap. A generation method is also specified.
G06K 7/14 - Methods or arrangements for sensing record carriers by electromagnetic radiation, e.g. optical sensingMethods or arrangements for sensing record carriers by corpuscular radiation using light without selection of wavelength, e.g. sensing reflected white light
G06K 19/06 - 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
The invention relates to a label (1, 10) for forming a multilayer conductor path structure, comprising a first label section (11) with a first conductor path structure (51), which has a plurality of conductor paths (5) that are electrically coupled to a first connection point (61) by means of another conductor path (5, 6). The label (1, 10) additionally comprises a second label section (12) with a second conductor path structure (52), which has a plurality of conductor paths (5) that are electrically coupled to a second connection point (62) by means of another conductor path (5, 6). The two conductor path structures (51, 52) are formed on a common support layer (2) and can be arranged one over the other with respect to a stacking direction (R) by folding along a folding line (F, F1, F2, F3) so that a folded label (1) can be formed.
An RFID tag (1) for use on a metal surface comprises an RFID inlay (10) with an RFID chip (11) and with an antenna (12) connected to the RFID chip, wherein the antenna has a conduction track (100). The RFID tag (1) furthermore comprises an adhesive layer (20) for gluing the tag to the metal surface, and a ferrite-containing paste (30). The ferrite-containing paste (30) is arranged between at least one part of the conduction track (100) of the antenna (12) and the adhesive layer (20). The ferrite-containing paste (30) thus forms a shield between the antenna (12) and a metal substrate to which the tag is glued.
A label (1) for a multi-part container (20) has a front label edge (4) and an opposite rear label edge (5) and also a first label portion (2) and an adjoining second label portion (3). The label portions (2, 3) each extend along the front and rear label edges (4, 5), wherein the first label portion (2) is designed to be fastened to a body (21) of the container (20), and the second label portion (3) is designed to be fastened to a closure (22, 23) of the container (20). The first label portion (2) juts out in relation to the second label portion (3) at the front label edge (4) with respect to an application direction (R), such that, when operationally applying the label (1) to the container (20), the first label portion (2) comes into contact with the container (20) before the second label portion (3) in a predetermined manner, and such that, when opening the container (20) to which the label (1) has been applied, the label (1) is able to be severed and at least part of the second label portion (3), together with the container closure (22, 23), is able to be removed from the first label portion (2) and the container body (21).
A method for producing labels of different label variants includes: performing first and second printing operations to form on a source material web using a digital printing device first and second digital prints associated with first and second label variants, respectively, the two digital prints differing at least with respect to a respective print image; forming on the source material web a machine-readable indicating element detectably different from the first and second label variants and arranged to indicate a change of label variant type; and die cutting to form a material web and processing the web, including controlling and making up the first label variant, detecting the indicating element using a controller, cutting the web in the transition between the label variants and controlling and making up the second label variant so that separate first and second label webs are formed with the first and second label variants, respectively.
A method of manufacturing a functional label includes providing a source material having one or more label layers and performing a first printing process and thereby forming a print on the source material using a first printing device. The method further includes performing a first die cutting process and thereby forming a functional die cut in the source material using a first die cutting device. The method further includes performing a second printing process separate from the first printing process and thereby forming a digital print on the source material using a second printing device. The method further includes performing a second die-cutting operation separate from the first die cutting operation and thereby forming a format die-cut in the source material using a second die cutting device and thereby forming the functional label.
The invention relates to a labelling assembly comprising a sleeve-like cap element (10), which has a wall (13) having an inner surface which forms a first contact surface (16) and is designed, with respect to a longitudinal axis (L) of the container (30), to be coupled by means of a press-fit to an outer surface (311, 312) of a closure element (31) of the container (30) and to surround the closure element (31).
A61M 5/50 - Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular wayAccessories therefor, e.g. filling or cleaning devices, arm rests having means for preventing re-use, or for indicating if defective, used, tampered with or unsterile
A61M 39/20 - Closure caps or plugs for connectors or open ends of tubes
20.
TRANSPONDER LABEL, SYSTEM AND METHOD FOR PRODUCING A TRANSPONDER LABEL FOR A VESSEL
The invention relates to a transponder label (2) for a vessel (3), comprising a carrier layer (20) and an RFID functional unit having an RFID chip (18) and an antenna structure (10) which is coupled thereto, the RFID chip and the antenna structure being coupled to the carrier layer (20). The antenna structure (10) has a first antenna portion (11), a second antenna portion (12) and an antenna loop (17) which is arranged between the first and second antenna portions (11, 12) and is coupled to them. At least one of the two antenna portions (11, 12) comprises a first meandering antenna arm (13) and a second meandering antenna arm (14), which are arranged at a predetermined distance (D1, D2, D3) from one another and are electromagnetically coupled to one another.
A system includes a container and a security label. The container is divisible into a plurality of parts and has a container body and a removable container closure. The security label has a first label section and a second label section forming respective parts of a common material web and a severing element which is arranged between the first and second label section with respect to a longitudinal axis of the security label. The security label is applied to the container such that the first label section is attached to the container body and the second label section surrounds the container closure. The second label section is formed such that the security label is closed along an edge line above the container closure by gluing and/or welding such that the second label section encloses the removable container closure.
An electronic labelling assembly for a multi-part container includes a sleeve-shaped supplementary element which includes a coupling structure and which is configured to be coupled with respect to a longitudinal axis of the supplementary element by the coupling structure to an outer surface of a primary closure of the container and to surround the primary closure. The labelling assembly further includes an RFID functional unit having an RFID chip and an antenna structure coupled thereto. The supplementary element and the RFID functional unit are formed in coordination with each other and coupled to each other so that the RFID functional unit is attachable to the primary closure of the container by the supplementary element.
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
G06K 7/10 - Methods or arrangements for sensing record carriers by electromagnetic radiation, e.g. optical sensingMethods or arrangements for sensing record carriers by corpuscular radiation
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
23.
MULTIFUNCTIONAL LABEL, SYSTEM AND METHOD FOR MANUFACTURING A MULTIFUNCTIONAL LABEL
A multifunctional label for a multi-part container has a transponder inlay with an electronic unit and a detection loop, which are arranged on a carrier layer of the transponder inlay and are coupled to one another in terms of signalling. The carrier layer has a predetermined local material weakening in the area of the detection loop. The multifunctional label further includes a label with at least one label layer which has a predetermined introduced local material weakening. The transponder inlay and the label layer are directly or indirectly coupled to one another, so that the material weakening of the label layer and the material weakening of the carrier layer overlap at least in sections with respect to a lateral extent of the multifunctional label.
B32B 3/26 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a particular shape of the outline of the cross-section of a continuous layerLayered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a layer with cavities or internal voids
B32B 7/12 - Interconnection of layers using interposed adhesives or interposed materials with bonding properties
B32B 37/12 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
An arrangement has: - a first contact arrangement (110) having a first substrate (111), first primary contacts (112) and two first testing contacts (113, 114), wherein the first primary contacts (112) and the first testing contacts (113, 114) are arranged on the first substrate (111), - a second contact arrangement (120) having a second substrate (121), second primary contacts (122) and two second testing contacts (123, 124), wherein the second primary contacts (122) and the second testing contacts (123, 124) are arranged on the second substrate (121), - an evaluation circuit (150) which can be and/or is coupled electrically to the first testing contacts (113, 114) and/or to the second two testing contacts (123, 124), - wherein the first contact arrangement (110) and the second contact arrangement (120) can be arranged on one another in order to couple the first and the second primary contacts (113, 114, 123, 124) electrically to one another, wherein the evaluation circuit (150) is designed to determine a coupling state of the primary contacts (112, 122) depending on a contacting of the first and second testing contacts (113, 114, 123, 124) to one another.
An adhesive label for a multi-part container having a threaded member and a container body includes a first, sheet-like label portion adapted to be attached to the threaded member of the container, and a second label portion adjacent the first label portion and adapted to be attached to the container body of the container. The second label portion has a comb-like structure with strip-shaped fixing elements such that the adhesive label couples the threaded member to the container body relative to a condition applied to the container and opposes movement of the threaded member relative to the container body.
The invention relates to a device (1) for treating human or animal bodies by means of plasma therapy, comprising a number of layers (10, 20; 10, 20, 30, 40), said number of layers having a lowermost layer (20; 40). The device (1) additionally comprises at least one spacing structure (50) made of a material which can be processed in a liquid state. The at least one spacing structure (50) is arranged on the lower face of the lowermost layer (20; 40) in order to ensure a spacing for generating plasma between the lowermost layer (20, 40) and the body (2) when the device (1) is used as intended.
A multifunctional tag (1) comprises a radiation protection layer (2) designed to lower transmission of electromagnetic radiation in a predetermined wavelength range in a predetermined manner. The multifunctional tag (1) also comprises a gas barrier layer (3) designed to lower transmission of a gaseous substance in a predetermined manner. The radiation protection layer (2) and the gas barrier layer (3) are directly or indirectly coupled to each other in the same multifunctional tag (1).
An identification label (1) comprises: - an RFID transponder (3) which has an RFID chip (5) and an antenna structure (6) which are coupled to each other for signal communication; and - a sealing layer (2, 4) which covers the RFID transponder (3). The sealing layer (2, 4) is integrally joined to a base (4, 8, 13) by means of welding, such that the RFID chip (5) and/or the antenna structure (6) is surrounded by a weld seam (7) and is enclosed between the sealing layer (2, 4) and the base (4, 8, 13).
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
B65D 75/30 - Articles or materials enclosed between two opposed sheets or blanks having their margins united, e.g. by pressure-sensitive adhesive, crimping, heat-sealing, or welding
G08B 13/24 - Electrical actuation by interference with electromagnetic field distribution
B29C 65/00 - Joining of preformed partsApparatus therefor
A label (1, 2) with a stand-up mechanism comprises a main part (100), which has an adhesive coating (110) on its underside (U100) for the purpose of adhesively bonding the label (1, 2) to an underlying surface, and also comprises a stand-up part (200), which is connected in one piece to the main part (100) and is designed such that, by folding taking place along a stand-up line (30), the stand-up part can be made to stand up at an angle of greater than 0° in relation to the main part. The stand-up part (200) has a stand-up foot (210, 260) for making the stand-up part (200) stand up at an angle in relation to the main part (100).
A label with RFID function comprises a support layer and an RFID inlay with an RFID chip and an antenna connected to the RFID chip. The RFID inlay is arranged on the support layer. The antenna comprises at least one capacitive element on which the resonant frequency of the antenna depends. By adding the at least one capacitive element to the antenna, the read/write range of the RFID inlay can be increased.
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
31.
LABELLING ARRANGEMENT FOR A MULTI-PART CONTAINER, SYSTEM AND METHOD FOR APPLYING A LABELLING ARRANGEMENT TO A MULTI-PART CONTAINER
A labeling arrangement for a multi-part container includes a sleeve-shaped cap element adapted to be coupled to and surround a closure of the container, the cap element having, relative to a longitudinal axis, first and second cap portions and a severing region. The labeling arrangement further includes a fixing label having adjacent first and second label portions. The first label portion is adapted to be attached to the second cap portion, and the second label portion is adapted to be attached to a container body of the container such that the fixation label couples the cap element to the container body, such that when the container with the labeling arrangement is opened, the cap element is separable in the severing region and at least a part of the first cap portion together with a part of the closure is removable from the second cap portion and the container body.
A label web (10) comprises a carrier element (14) in the form of a material web with a top face (15) and, opposite the latter, a bottom face (16), and a plurality of labels (13) which are coupled to the carrier element (14) and are arranged on the top face (15) of the carrier element (14). The labels (13) each have a thickness (D) in relation to a stacking direction (R) of the label web (10) from the bottom face (16) to the top face (15) of the carrier element (14). The label web (10) further comprises a support structure (11, 12) which is coupled to the carrier element (14) and is arranged on the bottom face (16) and/or on the top face (15) of the carrier element (14), wherein the support structure (11, 12) has, in relation to the stacking direction (R) of the label web (10), a height (H) which is greater than the thickness (D) of the labels (13).
An adhesive label for a multi-part container having a threaded member and a container body includes a first, sheet-like label portion adapted to be attached to the threaded member of the container, and a second label portion adjacent the first label portion and adapted to be attached to the container body of the container. The second label portion has a comb-like structure with strip-shaped fixing elements such that the adhesive label couples the threaded member to the container body relative to a condition applied to the container and opposes movement of the threaded member relative to the container body.
An adhesive label for a multi-part container having a threaded member and a container body includes a first, sheet-like label portion adapted to be attached to the threaded member of the container, and a second label portion adjacent the first label portion and adapted to be attached to the container body of the container. The second label portion has a comb-like structure with strip-shaped fixing elements such that the adhesive label couples the threaded member to the container body relative to a condition applied to the container and opposes movement of the threaded member relative to the container body.
An evaluation device for monitoring the removal of medication from an electronically readable blister pack includes at least the following: an evaluation circuit able to be used to establish interruptions, destructions and/or other damages to electrical conductor tracks of a blister pack, wherein the evaluation circuit for this purpose tests or measures the electrical resistance, the capacitance or another parameter or state of the electrical conductor tracks of a blister pack, and a contact arrangement having a plurality of electrical contacts for contacting and/or otherwise evaluating the electrical conductor tracks of a blister pack, wherein the electrical contacts are connected to the evaluation circuit by electrical lines, wherein the evaluation device is an evaluation device which can be mounted on a wrapping-free and/or unwrapped blister pack.
A labelling arrangement (10) for a syringe (1) comprises a label (11) which is designed to be fastened to a syringe body (3) of the syringe (1), and a needle trap (12) which is designed to receive and secure a syringe needle (4) of the syringe (1) after it has been used. The labelling arrangement (10) further comprises a first label flap (13), which is coupled to the needle trap (12), and a second label flap (14) which is separate from the first label flap (13) and which is configured to be severable in a predetermined manner and which is designed to be fastened to a needle protective cap (6) surrounding the syringe needle (4) and to form an opening detection element on the syringe (1). The first and the second label flap (13, 14) are connected to one another by means of the label (11) such that, with respect to an applied state in which the labelling arrangement (10) is operationally mounted on the syringe (1), when opening the syringe (1) by means of removing the needle protective cap (6), the second label flap (14) can be severed and a portion of the second label flap (14), together with the needle protective cap (6), can be removed from the label (11) and the syringe body (3).
A61M 5/32 - NeedlesDetails of needles pertaining to their connection with syringe or hubAccessories for bringing the needle into, or holding the needle on, the bodyDevices for protection of needles
A61M 5/50 - Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular wayAccessories therefor, e.g. filling or cleaning devices, arm rests having means for preventing re-use, or for indicating if defective, used, tampered with or unsterile
G09F 3/00 - Labels, tag tickets, or similar identification or indication meansSealsPostage or like stamps
A film composite with protection against tampering includes a base film, which is arranged as the lowermost layer in the film composite, and a cover layer, which is arranged as the uppermost layer in the film composite. The film composite further includes an intermediate film, which is arranged between the base film and the cover layer, and a laser-inscribable layer, which is arranged in the film composite between the base film and the intermediate film. Lines of weakening are provided in the film composite, which run within the base film and within the intermediate film.
A film composite (1) with protection against tampering comprises a base film (10), which is arranged as the lowermost layer in the film composite, and a cover layer (40), which is arranged as the uppermost layer in the film composite. The film composite (1) further comprises an intermediate film (20), which is arranged between the base film (10) and the cover layer (40), and a laser-inscribable layer (30), which is arranged in the film composite between the base film (10) and the intermediate film (20). Lines of weakening (50) are provided in the film composite (1), which run within the base film (10) and within the intermediate film (20).
B32B 3/24 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a discontinuous layer, i.e. apertured or formed of separate pieces of material characterised by an apertured layer, e.g. of expanded metal
B41J 2/435 - Typewriters or selective printing mechanisms characterised by the printing or marking process for which they are designed characterised by selective application of radiation to a printing material or impression-transfer material
B42D 25/00 - Information-bearing cards or sheet-like structures characterised by identification or security featuresManufacture thereof
G09F 3/03 - Forms or constructions of security seals
G09F 3/10 - Fastening or securing by means not forming part of the material of the label itself by an adhesive layer
39.
Electronic labeling arrangement, method for manufacturing an electronic labeling arrangement, and medication package
An electronic labeling arrangement for attachment to a medication package includes a protective member, having a covering portion and cavities, and a predetermined formed protrusion; a conductor track film having conductor tracks and cavities, at least one conductor track being associated with each respective track film cavity so that the conductor track crosses the respective track film cavity at least in sections; and an electronic unit coupled to the conductor tracks and arranged to detect a change in resistance of a respective conductor track. The protective member and the conductor track film are coupled such that the covering portion covers a track film top side, and the protective member cavities and the track film cavities are arranged one above the other and overlap at least in sections. The protrusion covers an underside of the conductor track film, so that the covering portion and the protrusion surround the electronic unit.
The invention relates to a method for producing a functional label (1), which method comprises: providing a starting material (108) having one or more label layers (10, 20), and carrying out a first printing process and thereby forming a print on the starting material (108) by means of a first printing device (101). The method also comprises carrying out a first punching process and thereby forming a functional punch (13, 16, 23, 26) in the starting material (108) by means of a first punching device (102). The method also comprises carrying out a second printing process which is separate from the first printing process and thereby forming a digital print (14) on the starting material (108) by means of a second printing device (103). The method further comprises carrying out a second punching process which is separate from the first punching process and thereby forming a format punch in the starting material (108) by means of a second punching device (104) and thereby forming the functional label (1).
The invention relates to a method for producing labels of different variants (1, 2), having the step of carrying out a first and a second printing process, thereby forming a first and a second digital image on a starting material web (15) using a digital printing device (102). The first digital printing is assigned a first label variant (1), and the second digital printing is assigned a second label variant (2). The two digital printings differ at least with respect to the printed image. The method additionally has a step of forming a machine-readable display element (3, 5, 6) on the starting material web (15), said display element being designed to be detectable in a different manner compared to the first and second label variants (1, 2) and to display a change in the label variant (1, 2) type. The method also has a step of carrying out a punching process, thereby forming a material web (10) and processing the material web (10). The processing includes the process of monitoring and assembling the first label variant (1), detecting the display element (3, 5, 6) using a monitoring device (104, 106), separating the material web (10) in a transition region (13) between the label variants (1, 2), and monitoring and assembling the second label variant (2) such that a first label web (11) with the first label variant (1) and a separate second label web (12) with the second label variant (2) are formed.
A device for performing or enabling an electrical measurement on a measurement layer includes: at least one measurement layer having a layer thickness, and electrical connections connected to and/or adjacent to and serving to determine the electrical resistance of the at least one measuring layer. At least some electrical connections are connected to or adjacent to different length portions of the at least one measuring layer, whereby a measurement for determining the electrical resistance of the at least one measuring layer in the direction of its layer thickness is carried out or made possible. At least some of the electrical connections are connected to or adjacent to different, preferably mutually opposite, surfaces of the at least one measuring layer, whereby a measurement for determining the electrical resistance of the at least one measuring layer is carried out or made possible in the direction transverse to its layer thickness.
G01K 13/10 - Thermometers specially adapted for specific purposes for measuring temperature within piled or stacked materials
G01K 7/18 - Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat using resistive elements the element being a linear resistance, e.g. platinum resistance thermometer
43.
PROTECTIVE CAP FOR ATTACHMENT TO A NEEDLE STICK PROTECTION DEVICE FOR A SYRINGE, SYRINGE SAFETY SYSTEM AND SYRINGE SYSTEM
A protective cap for attachment to a needle stick protection device (20) for a syringe includes a sleeve-shaped cap body configured to enclose a needle guard of the syringe. The protective cap further includes at least one coupling member coupled to the cap body and configured to couple the cap body to an outer housing of the needle stick protection device and to secure the protective cap to the needle stick protection device.
A61M 5/32 - NeedlesDetails of needles pertaining to their connection with syringe or hubAccessories for bringing the needle into, or holding the needle on, the bodyDevices for protection of needles
A61M 5/50 - Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular wayAccessories therefor, e.g. filling or cleaning devices, arm rests having means for preventing re-use, or for indicating if defective, used, tampered with or unsterile
44.
ELECTRONIC LABELING ASSEMBLY FOR A MULTIPART CONTAINER, AND SYSTEM AND METHOD FOR ATTACHING AN ELECTRONIC LABELING ASSEMBLY TO A MULTIPART CONTAINER
The invention relates to an electronic labeling assembly (1) for a multipart container (30), comprising a sleeve-shaped additional element (10) which comprises a coupling structure (15) and which is designed to be coupled to the outer surface (311, 321, 331) of a primary closure (31, 32, 33) of the container (30) with respect to a longitudinal axis (L) of the additional element (10) by means of the coupling structure (15), said sleeve-shaped additional element surrounding the primary closure (31, 32, 33). The labeling assembly (1) additionally comprises an RFID functional unit (20) with an RFID chip (21) and an antenna structure (27) coupled thereto. The additional element (10) and the RFID functional unit (20) are designed to match each other and are coupled together such that the RFID functional unit (20) can be secured to the primary closure (31, 32, 33) of the container (30) by means of the additional element (10).
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
45.
Labeling set for marking a pharmaceutical vessel and pharmaceutical packaging unit
A labeling set for marking a pharmaceutical vessel including a body having a peripheral surface and a removable closure includes: a three-dimensional molded attachment, a label for sticking on the outer vessel circumference to be marked, and an RFID transponder for electronic identification of the vessel and/or contents. The attachment is mountable and/or positionable on the vessel in a predefined relative position and has a circumferential wall with an outer circumferential surface which is intended as an additional labelable and/or electronically identifiable outer wall and/or outer surface and whose radius, outer circumference and/or wall course is selected in accordance with the radius, outer circumference and/or wall course of the vessel circumferential surface. The label and/or the RFID transponder sticks over and/or covers both a circumferential surface, formed in accordance with the vessel body outer circumference, and the attachment circumferential surface at least in regions and/or to secure the vessel attachment to the vessel.
A transponder label has a dielectric spacer body with a first side and a second side and a transponder inlay with a chip and an antenna, wherein the transponder inlay is applied to the spacer body such that a first part of the antenna is arranged on the first side of the spacer body and a second part of the antenna is arranged on the second side of the spacer body. The transponder label further includes a sensor unit electrically coupled to the chip of the transponder inlay and configured to detect a measurement signal representative of a physical and/or chemical environmental parameter.
BAUSCH+STROEBEL MASCHINENFABRIK ILSHOFEN GMBH + CO. KG (Germany)
Inventor
Hofenauer, Andreas
Krauss, Stefan
Messmer, Tanja
Unglert, Robert
Reber, Harald
Abstract
A labelling arrangement for a multi-part container includes a sleeve-shaped cap element having an interlocking structure adapted to be applied to a first part of the container and coupled to the first part by the interlocking structure. The labelling arrangement further includes a sealing label adapted to be attached to a second part of the container by a second label portion and to surround the applied cap element by a first label portion. The labelling arrangement further includes at least one severing region so that, when the container applied with the labelling arrangement is opened, the labelling arrangement is severable in the severing region and at least a part of the cap element is removable together with the first part of the container from the second part of the container.
B65D 55/08 - Annular elements encircling container necks
A61J 1/05 - Containers specially adapted for medical or pharmaceutical purposes for collecting, storing or administering blood, plasma or medical fluids
B65C 3/24 - Affixing labels indicating original state of bottle snap or screw closure
A labeling arrangement (1) for frozen applications comprises a top label (10) having an adhesive layer (12) having a predetermined freezing temperature below 0° C. The labeling arrangement (1) further comprises a base component (20) having a base layer (21) and an interlocking structure (22) comprising a plurality of hook-shaped coupling elements (23). The hook-shaped coupling elements (23) each comprise a first and a second portion (231, 232) which are geometrically different such that the first portion (231) extends laterally beyond the second portion (232) with respect to a main lateral extension plane of the base layer (21), the second portion (232) being arranged between the first portion (231) and the base layer (21) and coupling the first portion (231) to the base layer (21). The adhesive layer (12) is adapted to be coupled to the interlocking structure (22) above the freezing temperature of the adhesive layer (12) such that they form a positive coupling at freezer temperatures below the freezing temperature of the adhesive layer (12) and a substantial coupling at temperatures above the freezing temperature of the adhesive layer (12).
A labeling assembly (1) for a multi-part container (30) comprises a sleeve-shaped cap element (10) which is designed to be coupled to a closure (31) of the container (30) and surround same, wherein the cap element (10) has, with respect to a longitudinal axis (L), a first cap part (11), a second cap part (12), and a detaching region (14). The labeling assembly (1) additionally has a fixing label (20) with a first label section (21) and a second label section (22) which adjoins the first label section (21). The first label section (21) is designed to be secured to the second cap part (12), and the second label section (22) is designed to be secured to a container body (32) of the container (30) such that the fixing label (20) couples the cap element (10) to the container body (32) so that when the container (30), comprising the applied label assembly (1), is opened, the cap element (10) can be detached in the detaching region (14), and at least one section of the first cap part (11) together with a part (33) of the closure (31) can be removed from the second cap part (12) and the container body (32).
An adhesive label (10) for a multi-part container (30) having a threaded element (31) and a container body (32) comprises a first, flat label portion (11), which is configured to be fastened to the threaded element (31) of the container (30), and a second label portion (12), which adjoins the first label portion (11) and is configured to be fastened to the container body (32) of the container (30). The second label portion (12) has a comb-like structure (13) with a plurality of strip-like fixing elements (131, 132) such that the adhesive label (10), with regard to a state applied to the container (30), couples the threaded element (31) to the container body (32) and counteracts any movement of the threaded element (31) relative to the container body (32).
A method for checking a surface of an object, imprinted and/or structured in raster form, includes: a) using a digital image, which reproduces a replica of the surface, b) checking and/or determining a property of the surface or the replica using the digital image and/or the replica, and c) outputting a result with reference to the property. Step b) includes constructing and/or reconstructing a raster made from raster elements, using the digital image and/or the replica in which at least one raster element parameter can assume two or more, differently large size, brightness, and/or color parameter values, depending on the position of the corresponding raster element. The surface property is checked and/or determined as a function of the differently large parameter values and/or of the distribution of these differently large parameter values on the raster elements, and the result is output in Step c).
What is proposed is an evaluation device (10) for monitoring the removal of medication from an electronically readable blister pack, wherein the evaluation device (10) has at least the following: - an evaluation circuit (1) able to be used to establish interruption of, destruction of and/or other damage to electrical conductor tracks of a blister pack, wherein the evaluation circuit (1) for this purpose tests or measures the electrical resistance, the capacitance or another parameter or state of the electrical conductor tracks of a blister pack, and - a contact arrangement (25) having a plurality of electrical contacts (5) for making contact with the electrical conductor tracks of a blister pack and/or evaluating them in some other way, wherein the electrical contacts (5) are connected to the evaluation circuit (1) by electrical lines (15), wherein the evaluation device (10) is an evaluation device (10) that is able to be mounted on a wrapping-free and/or unwrapped blister pack.
An electronic labelling arrangement (1) for attachment to medicament packaging comprises a protective element (10), having a covering section (18) and a plurality of cavities (13), and a projection (11) which is designed in a predefined manner. The labelling arrangement (1) further has a conductor track foil (20) having a plurality of conductor tracks (24) and a plurality of cavities (23), wherein at least one conductor track (24) is respectively associated with a respective cavity (23) of the conductor track foil (20), so that the conductor track (24) crosses the respective cavity (23) of the conductor track foil (20) at least in sections. In addition, the labelling arrangement (1) has an electronics unit (22) which is coupled to the conductor tracks (24) and is designed to detect a change in resistance of a respective conductor track (24). The protective element (10) and the conductor track foil (20) are coupled to one another in such a way that the covering section (18) covers a top side (27) of the conductor track foil (20), and the cavities (13) of the protective element (10) and the cavities (23) of the conductor track foil (20) are arranged one above the other and overlap at least in sections. The projection (11) covers a bottom side (28) of the conductor track foil (20), so that the electronics unit (22) is surrounded by the covering section (18) and the projection (11) of the protective element (10).
A61J 1/03 - Containers specially adapted for medical or pharmaceutical purposes for pills or tablets
G16H 40/00 - ICT specially adapted for the management or administration of healthcare resources or facilitiesICT specially adapted for the management or operation of medical equipment or devices
54.
OBJECT FOR PERFORMING AN ELECTRICAL MEASUREMENT ON A MEASUREMENT LAYER
The invention relates to an object (50) for performing or at least for enabling an electrical measurement on a measurement layer, the object (50) comprising at least the following: - at least one measurement layer (10; 11, 12), which has a layer thickness (d), and - a plurality of electrical connectors (1, 2, 3, 4; 51, 52, 53, 54), which are connected to the at least one measurement layer (10; 11, 12) and/or are adjacent to the at least one measurement layer (10; 11, 12) and are used to determine the electrical resistance of the at least one measurement layer (10; 11, 12), wherein at least some of the electrical connectors (1, 2, 3, 4; 51, 52, 53, 54) are connected to different length portions of the at least one measurement layer (10; 11, 12) or are adjacent thereto, whereby a measurement for determining the electrical resistance of the at least one measurement layer (10; 11, 12) is performed or at least made possible in the direction of the layer thickness (d) of the measurement layer, and - wherein at least some of the electrical connectors (1, 2, 3, 4; 51, 52, 53, 54) are connected to different, preferably mutually opposing, surfaces of the at least one measurement layer (10; 11, 12) or are adjacent thereto, whereby a measurement for determining the electrical resistance of the at least one measurement layer (10; 11, 12) is performed or at least made possible in the direction transverse to the layer thickness (d) of the measurement layer.
G01K 7/18 - Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat using resistive elements the element being a linear resistance, e.g. platinum resistance thermometer
G01K 7/21 - Measuring temperature based on the use of electric or magnetic elements directly sensitive to heat using resistive elements the element being a linear resistance, e.g. platinum resistance thermometer in a specially-adapted circuit, e.g. bridge circuit for modifying the output characteristic, e.g. linearising
G01K 15/00 - Testing or calibrating of thermometers
55.
SECURING CAP FOR SECURING A LID, TOP OR CLOSURE ON A PHARMACEUTICAL VESSEL
The invention relates to a securing cap (10) for securing a lid, top or other closure on a pharmaceutical vessel or object against unauthorised opening, removal or other tampering, the securing cap (10) having at least the following: - an end-side cap section (11), in particular in the form of an end face (19), for covering, at least in some regions, a lid, top or closure mounted on a pharmaceutical vessel or object in an axial direction (z), - a side wall (12) running in the circumferential direction around the axial direction (z), and - an end section (13) of the side wall (12), having an introduction opening (14) through which the vessel or the object can be introduced with the lid, top or closure first into the securing cap (10) when the securing cap (10) is pushed on, wherein the side wall (12) has a first wall section (15), which - comprises the end section (13) of the side wall (12), - completely encircles the introduction opening (14), and - is intended for attachment to a cylindrical section of a pharmaceutical vessel or object, the securing cap (10) being designed to be attachable to pharmaceutical vessels or objects having different outer diameters resulting from tolerances by way of a design of the first wall section (15) of the side wall (12) such that said first wall section is widened in the radial direction.
An identification label (1), for forming an identification for an object (110, 120), comprises: a transponder layer (3) having an RFID chip (5) and an antenna structure (6) that is signal-connected to the RFID chip (5); and a retroreflective layer (2) that has no metal layers and is coupled to the transponder layer (3).
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
B60R 13/10 - Registration, licensing, or like devices
G06K 19/14 - 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 using markings of different kinds in the same record carrier, e.g. one marking being sensed by optical and the other by magnetic means at least one kind of marking being used for authentication, e.g. of credit or identity cards the marking being sensed by radiation
A protective cap (10) for attachment to a needle stick protection device (20) for a syringe (100) has a sheath-type cap main part (13) designed to encompass a needle protection element (110) of the syringe (100). The protective cap (10) also has at least one coupling element (11, 12, 18, 19, 30) that is coupled to the cap main part (13) and that is designed to couple the cap main part (13) to an outer casing (25) of the needle stick protection device (20) and to fasten the protective cap (10) to the needle stick protection device (20).
A61M 5/32 - NeedlesDetails of needles pertaining to their connection with syringe or hubAccessories for bringing the needle into, or holding the needle on, the bodyDevices for protection of needles
58.
IDENTIFICATION KIT FOR IDENTIFYING A PHARMACEUTICAL VESSEL, AND PHARMACEUTICAL PACKAGING UNIT
An identification kit (1) for identifying a pharmaceutical vessel comprising a vessel body with a circumferential surface and a removable vessel closure is proposed, wherein the identification kit (1) comprises at least the following: - a vessel cap (10) in the form of a three-dimensional moulded part (100), - a label for sticking to the outer circumference of a pharmaceutical vessel needing to be identified, and - an RFID transponder for electronically identifying a pharmaceutical vessel and/or the content thereof, - wherein the vessel cap (10) is installable and/or positionable in a predefined relative position on the vessel and has a circumferential wall (12) with an exterior circumferential surface (10a), which is intended as an additional labellable and/or electronically identifiable outer wall and/or outer surface and the radius, outer circumference and/or wall profile of which is chosen in accordance with the radius, outer circumference and/or wall profile of the circumferential surface of a vessel needing to be identified, and - wherein the label and/or the RFID transponder is/are intended and configured to be stuck over and/or to cover at least regions of both a circumferential surface (30a), formed in accordance with the outer circumference, of the vessel body (30) and the circumferential surface (10a) of the vessel cap (10) and/or to secure the vessel cap (10) on the pharmaceutical vessel (30).
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
G06K 19/073 - Special arrangements for circuits, e.g. for protecting identification code in memory
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
A transponder label (1) has a dielectric spacer body (20) with a first face (21) and a second face (22), and a transponder inlay (10) with a chip (12) and an antenna (11), the transponder inlay (10) being applied to the spacer body (20) such that a first part (13) of the antenna (11) lies on the first face (21) of the spacer body (20) and a second part (14) of the antenna (11) lies on the second face (22) of the spacer body (20). The transponder label (1) also comprises a sensor unit (30) which is electrically coupled to the chip (12) of the transponder inlay (10) and which is designed to sense a measurement signal that represents a physical and/or chemical environmental parameter.
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
60.
ARRANGEMENT FOR CONNECTION TO AN ELECTRONIC COMPONENT, METHOD FOR PRODUCING AN ARRANGEMENT FOR CONNECTION TO AN ELECTRONIC COMPONENT AND ELECTRONIC LABEL
extext), which electromagnetic wave can be coupled into the conductor track (13), an impedance jump is provided by means of the at least one geometric structural change.
What is proposed is a method for examining authentication patterns (A), wherein the method comprises at least: - creating at least one digital image (B) of at least one authentication pattern (A) that is embodied as a hard copy (P) in printed or other physical form, using a digital image-recording device (50), in particular using a smartphone (60), - examining the authenticity of the authentication pattern (A), including - determining the actual size (G) of the authentication pattern (A) embodied in printed or in physical form, wherein it is checked whether the determined size (G) of the authentication pattern (A) matches an expected size of real authentication patterns and/or an expected range for the size of real authentication patterns, characterized in that determining the actual size (G) of the authentication pattern (A) comprises retrieving calibration data that were obtained and stored - by this image-recording device (50), - by an image-recording device (50) structurally identical thereto or - by an image-recording device (50) provided at least with a structurally identical camera (70).
G07D 7/00 - Testing specially adapted to determine the identity or genuineness of valuable papers or for segregating those which are unacceptable, e.g. banknotes that are alien to a currency
BAUSCH+STRÖBEL MASCHINENFABRIK ILSHOFEN GMBH + CO. KG (Germany)
Inventor
Hofenauer, Andreas
Krauss, Stefan
Rau, Tanja
Unglert, Robert
Reber, Harald
Abstract
A labelling arrangement (1) for a multi-part container (30) comprises a sleeve-like cap element with a toothing structure (13), which is designed to be fitted onto a first part (31) of the container (30) and to be coupled to the first part (31) by means of the toothing structure (13). The labelling arrangement (1) also has a sealing label (20), which is designed to be fastened on a second part (32) of the container (30) by way of a second label portion (22) and to enclose the fitted-on cap element (10) by way of a first label portion (21). The labelling arrangement (1) further has at least one severing region (14, 24), and therefore, when the container (30) with the labelling arrangement (1) applied is being opened, the labelling arrangement (1) can be severed in the severing region (14, 24) and at least one part (17) of the cap element (10) can be removed, together with the first part (31) of the container (30), from the second part (32) of the container (30).
A labelling arrangement (1) for deep-freeze applications has an upper label (10) with an adhesive layer (12) which has a predetermined freezing temperature below 0° C. The labelling arrangement (1) also has a base component (20) with a base layer (21) and an interlocking structure (22), which comprises a plurality of hook-form coupling elements (23). The hook-form coupling elements (23) each have a first and a second portion (231, 232), which are of geometrically different designs, and therefore the first portion (231) extends laterally beyond the second portion (232), as seen in relation to a lateral main-extent plane of the base layer (21), wherein the second portion (232) is arranged between the first portion (231) and the base layer (21) and couples the first portion (231) to the base layer (21). The adhesive layer (12) is designed to be coupled to the interlocking structure (22) above the freezing temperature of the adhesive layer (12), and therefore a form-fitting coupling is formed at freezing temperatures below the freezing temperature of the adhesive layer (12) and a cohesive coupling is formed at temperatures above the freezing temperature of the adhesive layer (12).
A method for ascertaining a degree of similarity between a digital image created from a printed copy and a digital template is proposed, wherein the method comprises at least the following: a) creating a digital image (B) from a printed copy (P) or at least using a digital image (B) created therefrom, wherein the printed copy (P) is produced permanently as a print or in other physical form on an article and/or on the surface thereof and the digital image (B) is created and/or has been created from the printed copy (P) by means of a digital image recording device, b) calculating a degree of similarity (Q) between the digital image (B) and a digital template (DO) and c) displaying or otherwise outputting the calculated degree of similarity (Q) and/or a rating result (R) based thereon, wherein steps b) and/or c) further comprise the following: i) prescribing, buffer-storing and/or ascertaining at least one recording parameter (a; s; c; r; ...) associated with the digital image (B) and/or at least temporarily set for the creation thereof and ii) calculating the degree of similarity (Q) by using a correction dependent on the at least one recording parameter (a; s; c; r; ...), as a result of which the influence of the at least one recording parameter (a; s; c; r; ...) on the degree of similarity (Q) is compensated for during the calculation of the degree of similarity (Q).
The invention relates to a security label (1) for a multi-part vessel (40) comprising a first label section (10), which is designed to be fastened to a first part (41) of the vessel (40), and a second label section (20), which is designed to encircle a second part (42) of the vessel (40) when the security label (1) has been applied to the vessel (40), such that the security label (1), at a free end (26) of the second label section (20) facing away from the first label section (10), is sealed in itself along an edge line (27). The two label sections (10, 20) each form a respective adjacent part of a common material web. The security label (1) further comprises a separating element (32), which is arranged between the first and the second label sections (10, 20) relative to a longitudinal axis (L) of the security label (1), such that when the vessel (40) to which the security label (1) has been applied is opened, the security label (1) can be separated in a predetermined manner by the separating element (32) and the second label section (20) together with the second part (42) of the vessel (40) can be removed from the first label section (10) and the first part (41) of the vessel (40).
A device (1) for applying an adhesive frame (40, 50) comprises a foldable frame mount (10) for receiving the adhesive frame (40, 50) with a plurality of frame elements (11, 12, 13, 14), which are designed and coupled to one another in such a way that, by means of folding open and folding up about a folding axis (KA), the frame mount (10) can be converted between a folded-up, first state and a folded-open, second state with a specified frame geometry. The device (1) also comprises an object mount (20) for receiving an object (60), which is pivotably coupled to the frame mount (10), and so, by means of pivoting about a pivot axis (SA) relative to the frame mount (10), the object mount (20) can be converted between an open, first state and a closed, second state. The adhesive frame (40, 50) can be unfolded by means of forming the second state of the frame mount (10) and can be applied at a specified position on a surface of the object (60) by means of forming the second state of the object mount (20).
G09F 9/30 - Indicating arrangements for variable information in which the information is built-up on a support by selection or combination of individual elements in which the desired character or characters are formed by combining individual elements
The invention relates to a method for producing and/or completing a plurality of sign sets (50; 50a, 50b,...) comprising: a) producing, providing and/or keeping at hand at least one material web (30), comprising a carrier web (5) and at least one label layer (22) and/or one label layer stack (21), which label layer and/or label layer stack is used to produce signs, labels (2) and/or other planar objects and is formed on at least one surface region of the carrier web (5), b) printing on the label layer (22), the label layer stack (21) and/or the material web (30), whereby prints (23) for signs, labels (2) and/or other planar objects of a plurality of signs sets (50; 50a, 50b,...) or at least some of the sign sets are produced, and c) dividing, in particular cutting, the at least one label layer (22) and/or the label layer stack (21), whereby lateral contours (24) of signs, labels (2) and/or other planar objects are formed, wherein: the printing in step b) is carried out by means of a digital printing technique; the dividing in step c) is carried out by means of a digital dividing technique; and for a single sign set or for some or all signs sets of the plurality of signs sets (50; 50a, 50b,...), the digital printing in step b) and/or the digital dividing in step c) is controlled in such a way that variable, in particular different and/or sign-set-specific arrangements, numbers and/or selections of signs, labels (2) and/or other planar objects are produced and/or completed.
The invention relates to a method for producing a plurality of sign sets (50) having signs, labels (2) and/or other planar objects comprising: a) producing, providing and/or keeping at hand at least one carrier sheet (5), which has an adhesion-reducing material (6) at least on one side, the adhesion-reducing material (6) being exposed and/or accessible on said side of the carrier sheet (5) over the whole area or at least in one subregion of the surface of the carrier sheet (5), b) producing, providing and/or keeping at hand a plurality of signs, labels (2) and/or other planar objects, which are intended for marking, labeling and/or mounting on products, product components, or other items, and c) applying, in particular by pressing on and/or releasably adhesively attaching, a number of signs, labels (2) and/or other planar objects to the adhesion-reducing material (6) of the carrier sheet (5) in a predefined position and/or arrangement within the area of the exposed adhesion-reducing material (6), whereby at least one sign set (50) of a plurality of sign sets having a predefined arrangement of signs, labels (2) and/or objects is formed on the surface of the carrier sheet (5).
The invention relates to a method for printing a printing (25), which is designed as a color-tilting surface (30), onto the surface (50) of at least one object (60), comprising: a) printing a relief structure (21) having a plurality of strip-shaped webs (5) onto a surface (50) of at least one object (60), wherein the strip-shaped webs (5) are raised relative to the surface (50) and are spaced apart from one another and each have a first side flank (1) and a second side flank (2), and b) conformal printing of a pattern (22) with a plurality of first color strips (10) parallel to the webs (5), but with lateral offset (d) relative to the webs (5), as a result of which the first color strips (10) more strongly determine the color, brightness and/or another visual, optical or wavelength-related property in the case of an oblique view from the direction of the first side flanks (1) than in the case of an oblique view from the direction of the second side flanks (2), wherein at least in step b) the printing is carried out by means of a digital printing technique, as a result of which the dimensions, positions and/or contours of at least the first color strips (10) can be variably predetermined, and wherein a colored isotropic printing ink and/or printing compound (5a; 10a) is used in each case as the printing ink and/or printing compound.
B42D 25/21 - Information-bearing cards or sheet-like structures characterised by identification or security featuresManufacture thereof characterised by a particular use or purpose for multiple purposes
The invention provides a method for producing labels with a surface profile, the method comprising at least the following steps: a) a coating (6), which can be printed in a liquid state and/or applied in a liquid state, is applied to a surface (10a) of an interim carrier web (10), wherein the surface (10a) of the interim carrier web (10) has a surface profile (14) which is a negative pattern (16) of a label-surface profile (5) which is to be formed; b) a material web (20) which is intended for forming a number of labels is laminated onto, or brought into contact in some other way with, the surface (10a) of the interim carrier web (10), said surface being provided with the coating (6); and c) a cured coating layer (15), which has the label-surface profile (5) and is accumulated on the surface (20a) of the material web (20), is formed, or at least finished off, by as yet uncured coating (6) between the surface (10a) of the interim carrier web (10) and the facing surface (20a) of the material web (20), or at least in as yet uncured coating regions on the surface (20a) of the material web (20), being cured.
A flexible electrical circuit having connection between electrically conductive structure elements includes at least one lacquer layer, at least one electrical conductor track, which is disposed above the at least one lacquer layer, and at least one electrically conductive contact layer for contacting at least one electrical component. Furthermore, the flexible electrical circuit includes a conductive cement layer and a layer of a primer. The layer of the primer is disposed on the at least one lacquer layer. The conductive cement layer is disposed underneath the at least one electrically conductive contact layer and above the layer of the primer.
H01R 12/61 - Fixed connections for flexible printed circuits, flat or ribbon cables or like structures connecting to flexible printed circuits, flat or ribbon cables or like structures
H05K 1/09 - Use of materials for the metallic pattern
A film structure with protection against manipulation includes a top film, a laser-inscribable layer which is arranged on the bottom side of the top film, and also a bottom film and a connecting layer for connecting the bottom film to the top film and the laser-inscribable layer. The connecting layer is arranged between the laser-inscribable layer and the bottom film. The film structure has an inscribed region and an uninscribed region. The top film is fused with the bottom film in the inscribed region of the film structure. As a result, it is virtually impossible to separate the top film with the inscribed layer from the bottom film without destruction in the event of a manipulation attempt.
The invention relates to a security label (20) for detecting improper manipulation attempts, said security label comprising the following: a chip (8), in particular an RFID chip (9), and a destructible, printed layer stack (10), which has at least one first coating layer (1) consisting of a printed coating and has at least one structured, printed conducting track layer (2), by means of which at least one conducting track (2a), which electrically contacts the chip (8) and/or can be capacitively and/or inductively coupled to the chip (8), is formed, wherein the security label (20) is formed as a substrateless, filmless and paperless label or partial label (21) at least in most of the areal extent of the security label and wherein the destructible layer stack (10), in the event of at least partial removal from an underlying surface or object labeled therewith, causes irreversible, electrically detectable interruption of, damage to and/or destruction of the at least one conducting track (2a).
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
G09F 3/03 - Forms or constructions of security seals
74.
AUTHENTICATION PATTERN WITH CONTRAST ELEMENTS AND COMPLEMENTARY AREAS, ITEM AND METHOD
An authentication pattern (la) is proposed, by means of which the authenticity or another property of an item or an authorization is checkable and/or other authentication is performable, wherein the authentication pattern (la) comprises a noise pattern (lb) or another contrast pattern (1) capturable by copying, scanning, photographing, filming or other image recording, but is visually unresolvable with the naked eye, wherein the contrast pattern (1) comprises at least the following: – a pattern area (10), – a multiplicity of contrast elements (5) that are in a distributed arrangement within the pattern area (10), separated from one another, at least in places, by complementary areas (9) and capturable as brightness contrast or other contrast in comparison with the complementary areas (9), – a matrix-shaped split of the pattern area (10) into square, tiled or otherwise pixel-shaped elementary areas (3) of a uniform, smallest possible edge length (a), area size (f) or other minimum dimension that is characteristic of the contrast pattern (1), wherein the contrast elements (5) are each coherent clusters (15) comprising a respective plurality of mutually adjacent elementary areas (3) and wherein within the pattern area (10) the cluster-shaped contrast elements (5; 15) have a non-uniform, pseudo-randomly varied size and/or shape.
G06K 9/00 - Methods or arrangements for reading or recognising printed or written characters or for recognising patterns, e.g. fingerprints
G06K 19/06 - 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
G06K 7/14 - Methods or arrangements for sensing record carriers by electromagnetic radiation, e.g. optical sensingMethods or arrangements for sensing record carriers by corpuscular radiation using light without selection of wavelength, e.g. sensing reflected white light
An RFID label with protection of the RFID function includes an RFID transponder chip and a carrier substrate, on which the RFID transponder chip is disposed. Furthermore, at least one structure element in vertical projection is disposed laterally offset from the RFID transponder chip. The at least one structure element acts as a spacer and, in case of an external mechanical stress, prevents a direct force action on the transponder chip and a junction to an attached antenna structure.
G06K 19/06 - 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
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
76.
PROTECTIVE CAP FOR A CANNULA FOR A HYPODERMIC SYRINGE
The invention relates to a protective apparatus (1) for securing a needle (2), which apparatus comprises a receiving element (10) having a receiving region (100) for receiving the needle (2). The receiving element (10) comprises at least one cover device (130) forming a cover for the receiving region (100). The at least one cover device (130) comprises an entrance opening (101) for the needle (2) in order for the needle to enter the receiving region (100). The at least one cover device (130) is movably fastened to an end part (120) of the receiving element (10) such that, when the needle (2) is pressed against the at least one cover device (130), the size of the inlet opening (101) increases such that the needle (2) enters the receiving region (100), and the inlet opening (101) decreases in size again once the needle (2) has reached the receiving region (100) and pressure is no longer being exerted on the at least one cover device (130).
A61M 5/32 - NeedlesDetails of needles pertaining to their connection with syringe or hubAccessories for bringing the needle into, or holding the needle on, the bodyDevices for protection of needles
77.
Film structure for a battery for dispensing on a round body
A film structure for a battery for dispensing on a round body includes a carrier film having a first section and a subsequent second section and a first electrode layer for forming an anode or a cathode, and a second electrode layer for forming an anode, if the first electrode layer is formed as a cathode, or a cathode, if the first electrode layer is formed as an anode. The first and second electrode layers are arranged on a top side of the first section and the second section of the carrier film. While the underside of the second section of the carrier film is coated with an adhesive layer, the underside of the first section of the carrier film is free of adhesive. As a result, the first section of the carrier film can be folded over onto the second section of the carrier film during labeling and the battery can be thereby activated.
A film structure for a battery for providing on a round body includes a carrier film, having a first section and a second section following the first section and a third section following the second section. The film structure has a first layer sequence of several layers, having a first electrode layer for forming an anode or a cathode, and a second layer sequence of several layers, having a second electrode layer for forming an anode or cathode different from the first electrode layer. The first and the second layer sequences are arranged on different sections of the carrier film in such a way that the first and the second layer sequences come in contact with each other and the film battery is thereby activated only once a body is labeled.
Impact or acceleration sensor, which contains a liquid droplet and is designed such that the position and/or distribution of the liquid indicates whether an impact or any other acceleration of a predetermined minimum magnitude has occurred, includes: first and second foils, a cavity disposed between the foil faces of the foils and at least one retaining structure disposed on the foil face of the first and/or second foil and functions to maintain the liquid in a predetermined first sub-volume of the cavity. The retaining structure is a region of the first and/or second foil formed as a local elevation, depression or irregularity of the foil face, which forms a passable barrier for the wetting and/or contacting of the first and/or second foil by the liquid and defines an area piece of the foil face of the first and/or second foil corresponding to the first sub-volume.
G01P 15/00 - Measuring accelerationMeasuring decelerationMeasuring shock, i.e. sudden change of acceleration
G01P 15/03 - Measuring accelerationMeasuring decelerationMeasuring shock, i.e. sudden change of acceleration by making use of inertia forces by using non-electrical means
G01P 15/04 - Measuring accelerationMeasuring decelerationMeasuring shock, i.e. sudden change of acceleration by making use of inertia forces for indicating maximum value
80.
Foil structure with generation of visible light by means of LED technology
A foil structure with generation of visible light via LED technology has a carrier foil and an LED chip for generation of UV light. The LED chip is disposed on a first portion of the carrier foil and is provided with a light output face for emission of the UV light. The foil structure further has a color reaction layer for conversion of the UV light into the visible light, wherein the color reaction layer is disposed on a second portion of the carrier foil. The carrier foil is folded over in such a way that the second portion of the carrier foil is disposed above the first portion of the carrier foil and the color reaction layer is disposed above the LED chip or in a manner laterally offset relative to the LED chip.
H01L 25/16 - Assemblies consisting of a plurality of individual semiconductor or other solid-state devices the devices being of types provided for in two or more different subclasses of , , , , or , e.g. forming hybrid circuits
G06K 19/07 - Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards with integrated circuit chips
F21K 9/64 - Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction using wavelength conversion means distinct or spaced from the light-generating element, e.g. a remote phosphor layer
H05K 1/18 - Printed circuits structurally associated with non-printed electric components
A foil structure with generation of visible light using LED technology includes a carrier foil and an LED chip for generation of UV light. The LED chip is disposed on the carrier foil and is provided with a light output face for emission of the UV light. Furthermore, the foil structure includes a color reaction layer for conversion of the UV light into the visible light. The color reaction layer is disposed above the LED chip or in a manner laterally offset relative to the LED chip. The color reaction layer is provided with a structuring, so that the UV light emitted from the light output face of the LED chip is not emitted into the surroundings of the foil structure.
F21V 9/32 - Elements containing photoluminescent material distinct from or spaced from the light source characterised by the arrangement of the photoluminescent material
F21K 9/64 - Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction using wavelength conversion means distinct or spaced from the light-generating element, e.g. a remote phosphor layer
H05K 1/18 - Printed circuits structurally associated with non-printed electric components
F21Y 107/70 - Light sources with three-dimensionally disposed light-generating elements on flexible or deformable supports or substrates, e.g. for changing the light source into a desired form
F21V 8/00 - Use of light guides, e.g. fibre optic devices, in lighting devices or systems
82.
Arrangement, article having a security feature and method for the manufacture of an arrangement for a security feature
An arrangement includes a component and a temperature-dependent, first fluorescent dye, which in a first state has a predetermined first color location and in a second state has a predetermined second color location different from the first color location, and which is disposed on the component or integrated in the component in such a way that the luminescent dye, in dependence on a temperature change acting on it, creates an optically recognizable color change from the first color location to the second color location.
The invention relates to label arrangement (1) for labeling a tube, which label arrangement comprises a first label element (10), which has a first carrier and a receiving element (13), which is formed on an edge of the first carrier and which has a receiving opening (14) for receiving a tube head (41) of the tube. The label arrangement (1) comprises a second label element (20), which has a second carrier (21) and a first penetrating cutout, which is partly delimited by an edge (22) of the second carrier (21). At least one of the two label elements (10, 20) has a fixing means in the area of the respective edge of the label element, by means of which the respective edges can be fixed to one another, such that, when applied to the tube, the label arrangement (1) encloses the tube radially in relation to a longitudinal axis (L) of the label arrangement (1).
G09F 3/10 - Fastening or securing by means not forming part of the material of the label itself by an adhesive layer
B65D 35/00 - Pliable tubular containers adapted to be permanently deformed to expel contents, e.g. collapsible tubes for toothpaste or other plastic or semi-liquid materialHolders therefor
B31D 1/02 - Multiple-step processes for making flat articles the articles being labels or tags
An object has a first conductor structure, an electronic unit, a second conductor structure galvanically isolated from the first conductor structure and/or from the electronic unit but coupleable electrically thereto, and a carrier structure with a first pliable carrier layer having a first carrier layer region and with a second carrier layer region. The carrier structure is a layer stack in a base surface region including at least part of the carrier structure base surface and includes at least the first and second carrier layer regions. At least part of the conductor structures is in the base surface region. The first conductor structure and/or the electronic unit is joined with the first carrier layer region. The second conductor structure is joined with the second carrier layer region and coupleable electrically to the first conductor structure and/or the electronic unit by a layer stack surface region outside the electronic unit.
H05K 1/14 - Structural association of two or more printed circuits
A61F 13/42 - Absorbent pads, e.g. sanitary towels, swabs or tampons for external or internal application to the bodySupporting or fastening means thereforTampon applicators with wetness indicator or alarm
A61J 1/03 - Containers specially adapted for medical or pharmaceutical purposes for pills or tablets
B65D 75/36 - Articles or materials enclosed between two opposed sheets or blanks having their margins united, e.g. by pressure-sensitive adhesive, crimping, heat-sealing, or welding one or both sheets or blanks being recessed to accommodate contents one sheet or blank being recessed and the other formed of relatively stiff flat sheet material, e.g. blister packages
G01N 27/22 - Investigating or analysing materials by the use of electric, electrochemical, or magnetic means by investigating impedance by investigating capacitance
H05K 1/18 - Printed circuits structurally associated with non-printed electric components
H05K 1/16 - Printed circuits incorporating printed electric components, e.g. printed resistor, capacitor, inductor
The invention relates to an RFID tag (1) for marking a laundry item, comprising an RFID transponder chip (100) and an antenna structure (200) which is connected to the RFID transponder chip (100). The RFID tag (1) further comprises a carrier substrate (300), on which the RFID transponder chip (100) and the antenna structure (200) are arranged. A protective layer (400) is provided for the protection of the RFID transponder chip (100) and the antenna structure (200), which is arranged on the carrier substrate (300) in the form of a passepartout around the RFID transponder chip (100).
A label to identify an object has an inscribable layer composite for receiving a first, visible inscription to identify an object, an adhesive film for adhering the label to an object, and an active substance, which, when contacting the object surface, penetrates into and/or acts on the object surface. The active substance is disposed on the label rear side in a structured active surface layer, on, in, or underneath the adhesive film. The structured active substance layer includes a partial surface region or multiple partial surface regions of the label base surface. When the label is adhesively affixed to the object surface, the active substance on the label rear side selectively contacts the object surface in the structured active substance surface region. Within the base label surface, the structured active substance layer has the shape and/or contour of a further, initially-invisible inscription, identification or item of information.
A method produces labels having multiple sheets glued together in a first surface region of the basic label and lying loosely on top of each other in a second surface region. After printing an anti-adhesion layer in first surface regions and a frame region, webs are applied and printed to produce lowermost label sheets. An anti-adhesion layer is printed onto the last web in third surface regions lying between the first and/or second surface regions and the frame region. After punching the material web between the third surface regions and the first and/or second surface regions, an outermost web is applied and printed. By punching a frame through all webs, a lattice take-off is severed, simultaneously forming an outermost sheet section in each third surface region projecting laterally beyond the lowermost label sheets.
B32B 38/00 - Ancillary operations in connection with laminating processes
B32B 3/30 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a particular shape of the outline of the cross-section of a continuous layerLayered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a layer with cavities or internal voids characterised by a layer formed with recesses or projections, e.g. grooved, ribbed
B32B 7/12 - Interconnection of layers using interposed adhesives or interposed materials with bonding properties
B31D 1/02 - Multiple-step processes for making flat articles the articles being labels or tags
B32B 37/12 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by using adhesives
B32B 37/00 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding
88.
FILM STRUCTURE WITH PROTECTION AGAINST MANIPULATION
A film structure (100) with protection against manipulation comprises a top film (10), a laser-inscribable layer (20) which is arranged on the bottom side (U10) of the top film (10), and also a bottom film (40) and a connecting layer (30) for connecting the bottom film (40) to the top film (10) and the laser-inscribable layer (20). The connecting layer (30) is arranged between the laser-inscribable layer (20) and the bottom film (40). The film structure (100) has an inscribed region (101) and an uninscribed region (102). The top film (10) is fused with the bottom film (40) in the inscribed region (101) of the film structure. As a result, it is virtually impossible to separate the top film (10) with the inscribed layer (20) from the bottom film (40) without destruction in the event of a manipulation attempt.
09 - Scientific and electric apparatus and instruments
16 - Paper, cardboard and goods made from these materials
20 - Furniture and decorative products
35 - Advertising and business services
37 - Construction and mining; installation and repair services
40 - Treatment of materials; recycling, air and water treatment,
41 - Education, entertainment, sporting and cultural services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Electronic tags; labels with acoustically, optically,
magnetically, chemically or electronically recorded or
encoded information; security tags; inventory tags and
inspection tags; electronically or magnetically encoded id
cards; electronically or magnetically encoded chip cards;
luminous tags; self-adhesive labels [encoded];
radio-frequency identification (RFID) tags; labels with
electric circuits, included in class 9; printed circuits;
pressure compensation membranes for housings for electronic
and scientific apparatus, in particular self-adhesive
pressure compensation membranes. Printed matter; labels (not of textile); seals; vignettes,
namely, labels for vehicles indicating payment of road
tolls; security labels (printed matter, unencoded); printed
and unprinted labels, included in class 16; shields (paper
seals); coupons; valuable documents (printed matter,
unencoded). Unencoded identity cards (printed matter) of plastic;
unencoded cheque cards (printed matter) of plastic;
unencoded insurance cards (printed matter) of plastic. Professional business consultancy, in particular selection
of labelling and/or label printing systems; drawing up of
invoices in accordance with pay per use. Development, installation and commissioning of technical
installations, production installations and manufacturing
installations; maintenance of technical installations,
production installations and manufacturing installations;
consultancy in relation to installation of labelling and/or
label printing systems; installation, maintenance and repair
of labelling and/or label printing systems; manufacture of
production installations. Customised production and manufacturing services, namely of
print jobs and/or labelling processes and/or foil
processing; printing; printing services; temporary
production takeover, namely of print jobs and/or labelling
processes and/or foil processing. Training in relation to installation, operation, maintenance
and repair of labelling and/or label printing systems;
conducting of workshops in the field of installation
manufacture and development, in particular of labelling and
label printing systems. Development of industrial processes; research and
development services; scientific laboratory services;
laboratory testing; engineering design and consultancy;
engineering consultancy relating to manufacture; technical
consultancy relating to product development; conducting of
technical feasibility studies; development, installation,
maintenance, repair, updating and upgrading of computer
software and computer programs; computer software design;
development of computer software of logistics, supply chain
management and e-business portals, in particular for
production installations, identification and analysis of
faults in labelling installations and manufacturing
installations; material testing for fault detection;
customised adaptation of labels (late stage customisation);
process monitoring for quality assurance; software
customisation services; laboratory testing of materials.
90.
FILM STRUCTURE FOR A BATTERY FOR DISPENSING ON A ROUND BODY
The invention relates to a film structure for a battery for dispensing on a round body, comprising a carrier film (10) having a first section (11) and a subsequent second section (12) and a first electrode layer (20) for forming an anode or a cathode, and a second electrode layer (30) for forming an anode, if the first electrode layer (20) is formed as a cathode, or a cathode, if the first electrode layer (20) is formed as an anode. The first and second electrode layers (20, 30) are arranged on a top side (O11 and O12) of the first section (11) and the second section (12) of the carrier film. While the underside (U12) of the second section (12) of the carrier film (10) is coated with an adhesive layer (40), the underside (U11) of the first section (11) of the carrier film (10) is free of adhesive. As a result, the first section (11) of the carrier film can be folded over onto the second section (12) of the carrier film during labeling and the battery can be thereby activated.
The invention relates to a film structure (1000) for a battery for providing on a round body comprising a carrier film (10), having a first section (11) and a second section (12) following the first section and a third section (13) following the second section. The film structure has a first layer sequence (1) of a plurality of layers, having a first electrode layer (20) for forming an anode or a cathode, and a second layer sequence (2) of a plurality of layers, having a second electrode layer (30) for forming an anode or cathode different from the first electrode layer. The first and the second layer sequences (1, 2) are arranged on different sections of the carrier film (10) in such a way that the first and the second layer sequences (1, 2) come in contact with each other and the film battery is thereby activated only once a body is labelled.
Impact or acceleration sensor which contains a liquid in the form of a droplet and is constructed such that the position and/or distribution of the liquid indicates whether an impact or an acceleration of a predetermined minimum intensity has occurred, comprising: • a first film, • a second film, • a cavity which is arranged between the surfaces of the films, and • at least one retaining structure which is arranged on the surface of the first and/or second film and serves to keep the liquid in a predetermined first partial volume of the cavity, • wherein the retaining structure is a region of the first and/or second film which is in the form of a local raised portion, recess or unevenness of the film surface which • forms an barrier, which can be crossed, for the liquid to wet and/or make contact with the first and/or second film, and • delimits a piece of the surface of the first and/or second film which corresponds to the first partial volume.
G01P 15/00 - Measuring accelerationMeasuring decelerationMeasuring shock, i.e. sudden change of acceleration
G01P 15/04 - Measuring accelerationMeasuring decelerationMeasuring shock, i.e. sudden change of acceleration by making use of inertia forces for indicating maximum value
G01P 15/03 - Measuring accelerationMeasuring decelerationMeasuring shock, i.e. sudden change of acceleration by making use of inertia forces by using non-electrical means
93.
Label for a container which is in a number of parts or can be divided into a number of parts
A label for a medication container that is in multiple parts or can be divided into multiple parts has a first label section, to be attached to a first container part, and a second label section, to be attached to a second container part. The first label part serves for being wrapped completely around the first container part, more than once, and is disposed within a first basic surface area region of the basic surface area of the label, intended to be wrapped around the first container part. The second label section includes a spare label having a first sub-section and a second sub-section. The first sub-section is disposed in the first basic surface area region, and the second sub-section is disposed in a second basic surface area region, which is intended for being attached to a second container part. The label is configured in such a manner that when the first and the second label section are pulled apart to open a container around which the label is adhesively applied, the first and the second label section tear apart from one another, and the first sub-section of the spare label forms a grip tab for pulling the spare label off a remainder of the second label section and/or off the second container part.
A pressure compensation label for sticking to a surface, provided with a pressure compensation opening, of a housing or some other article, has a first film for sticking to a surface provided with a pressure compensation opening, and an outer, second film and also an air-permeable membrane film which is arranged between the first film and the second film. The first film has a cutout, intended for positioning over a pressure compensation opening, and a number of ventilation ducts. Each of the ventilation ducts is separated from the cutout by a film region of the first film. The membrane film covers the cutout and each of the film regions between the cutout and the number of ventilation ducts. The outer, second film extends laterally beyond the membrane film, at least regionally covers the number of ventilation ducts of the first film laterally outside the membrane film, and spans a ventilation path which leads from that surface of the membrane film that faces the second film to the number of ventilation ducts in the first film.
B32B 37/22 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by the properties of the layers with all layers existing as coherent layers before laminating involving the assembly of both discrete and continuous layers
B32B 3/30 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a particular shape of the outline of the cross-section of a continuous layerLayered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a layer with cavities or internal voids characterised by a layer formed with recesses or projections, e.g. grooved, ribbed
B32B 3/26 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a particular shape of the outline of the cross-section of a continuous layerLayered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a layer with cavities or internal voids
G09F 3/10 - Fastening or securing by means not forming part of the material of the label itself by an adhesive layer
B32B 5/02 - Layered products characterised by the non-homogeneity or physical structure of a layer characterised by structural features of a layer comprising fibres or filaments
B32B 37/02 - Methods or apparatus for laminating, e.g. by curing or by ultrasonic bonding characterised by a sequence of laminating steps, e.g. by adding new layers at consecutive laminating stations
95.
ASSEMBLY FOR A LABEL, METHOD FOR PRODUCING A LABEL, AND METHOD FOR PROCESSING A LABEL
The invention relates to an assembly (1) for a label, comprising a support (3) with a fold line (5), a first surface (10), and a second surface (20) which is formed opposite the first surface (10). The assembly (1) comprises a labeling element (12) which is arranged on the first surface (10) in a removable manner. The assembly (1) further comprises a protective element (22) which is arranged on the second surface (20) in a removable manner, and the protective element (22) and the labeling element (12) are arranged on two support (3) regions, which lie on different sides of the fold line (5), at a distance from one another with respect to a direction of extension of the first and second surface (10, 20) such that the protective element (22) can be arranged on the labeling element (12) by folding along the fold line (5).
The invention relates to an object (100) which comprises at least a first conductor structure (1), at least one electronic unit (5), at least a second conductor structure (2), which is galvanically isolated from the first conductor structure (1) and/or from the electronic unit (5), but can be electrically coupled thereto, and a carrier structure (15) having at least a first carrier layer (10), a first carrier layer region (11) of the first carrier layer (10) and a second carrier layer region (21). The carrier structure (15) is designed as a layer stack (16) in a base surface region (G) which comprises at least a part of the base surface of the carrier structure (15). The layer stack (16) comprises at least the first carrier layer region (11) of the first carrier layer (10) and the second carrier layer region (21). Furthermore, at least a part of the first (1) and the second conductor structure (2) is arranged in the base surface region (G). The first conductor structure (1) and/or the electronic unit (5) is soldered or bonded to the first carrier layer region (11) or is otherwise connected to the first carrier layer region (11), whereas the second conductor structure (2) is soldered or bonded to the second carrier layer region (12; 21) or otherwise connected to the second carrier layer region (21).
40 - Treatment of materials; recycling, air and water treatment,
09 - Scientific and electric apparatus and instruments
16 - Paper, cardboard and goods made from these materials
35 - Advertising and business services
37 - Construction and mining; installation and repair services
41 - Education, entertainment, sporting and cultural services
42 - Scientific, technological and industrial services, research and design
Goods & Services
Custom production and manufacturing services of film labels, paper labels, bar code labels, adhesive labels, electronic labels, seals, radio-frequency identification (RFID) tags, security tags, electronic tags, and labels carrying [ acoustically, optically, magnetically, chemically or ] electronically recorded or encoded information; printing; printing services Electronic tags for goods; labels carrying [ acoustically, optically, magnetically, chemically or ] electronically recorded or encoded information; Electronic labels transmitting radio frequency signals for goods, namely, electronic security markings, inventory markings, check marking; Electronic security and surveillance devices, namely, electronic security tags with [ acoustically, optically, magnetically, chemically or ] electronically recorded or encoded information for use in tracking inventory and inspection of goods; [ cards electronically or magnetically encoded with security features for identification purposes; electronically or magnetically encoded chip cards containing programming used for identification purposes; luminous signs; ] self-adhesive labels carrying encoded information; radio-frequency identification (RFID) tags; labels with electric circuits carrying [ magnetically, optically, or ] electronically recorded or encoded information; labels with integrated electric circuits carrying [ magnetically, optically, or ] electronically recorded or encoded information [ ; printed circuits ] Printed matter, namely, paper and adhesive film labels, paper labels, bar code labels, and adhesive labels; seals [ ; adhesive labels for vehicles indicating payment of road tolls; printed matter, namely, non-magnetically encoded paper security labels; printed and unprinted paper labels; paper seals for offices ] Professional business consultancy, in particular selection of labelling and/or label printing systems Consultancy in relation to installation of labelling and/or label printing systems; Installation, maintenance and repair of labelling and/or label printing systems Training services in the field of the installation, operation, maintenance and repair of labelling and/or label printing systems; Educational services, namely, conducting workshops in the field of installation, manufacture, and development, in particular of labelling and label printing systems Product development services in the field of labelling and/or label printing systems; scientific laboratory services; laboratory testing; engineering design and consultancy; engineering consultancy relating to manufacture; technical consultancy relating to product development; development, installation, maintenance, repair, updating and upgrading of computer software and computer programs; computer software design; development of computer software of logistics, supply chain management and e-business portals, in particular for production installations, identification and analysis of faults in labelling installations and manufacturing installations; material testing for fault detection; custom design and development of labels in the nature of late stage customization; providing quality assurance services in the field of labelling and/or label printing systems; software customization services; laboratory testing of materials
98.
Film composite having electrical functionality for applying to a substrate
A film composite with electrical functionality for application on a substrate includes at least one conductive structure, a first bonding coat, a film layer and a second bonding coat. The first bonding coat is disposed on an underside of the at least one conductive structure, wherein the first bonding coat has an adhesive effect for application of the at least one conductive structure on the substrate. The second bonding coat is disposed between an upper side of the at least one conductive structure and the film layer. The second bonding coat has an adhesive effect, by which the film layer adheres to the at least one conductive structure.
H05K 3/04 - Apparatus or processes for manufacturing printed circuits in which the conductive material is applied to the surface of the insulating support and is thereafter removed from such areas of the surface which are not intended for current conducting or shielding the conductive material being removed mechanically, e.g. by punching
B32B 7/12 - Interconnection of layers using interposed adhesives or interposed materials with bonding properties
H05K 3/38 - Improvement of the adhesion between the insulating substrate and the metal
B32B 3/10 - Layered products comprising a layer with external or internal discontinuities or unevennesses, or a layer of non-planar shapeLayered products comprising a layer having particular features of form characterised by a discontinuous layer, i.e. apertured or formed of separate pieces of material
H05K 3/40 - Forming printed elements for providing electric connections to or between printed circuits
09 - Scientific and electric apparatus and instruments
12 - Land, air and water vehicles; parts of land vehicles
16 - Paper, cardboard and goods made from these materials
17 - Rubber and plastic; packing and insulating materials
20 - Furniture and decorative products
42 - Scientific, technological and industrial services, research and design
Goods & Services
Transponder identification systems; Transponders; Labels carrying transponders; Electronic labels transmitting radio frequency signals for goods, namely, electronic security markings, inventory markings and identification markings; Electronic security and surveillance devices, namely, electronic security tags and labels; Labels carrying magnetically, optically, or electronically recorded or encoded information; Pressure equalization membranes for housings of electronic apparatus, namely, self-adhesive pressure equalization membranes; Laser document printers; Laser writers; Laser engravable films; Encoded bar code labels Flexible polymer or metal sealing films for protecting electronic vehicle components, namely, seals for air bags, sensors, and electronic modules Paper adhesive labels; Paper self-adhesive labels and tags; Plastic flexible packaging film sold in bulk to industrial and commercial manufacturers; Plastic packaging wrap for commercial or industrial use; Adhesive plastic film for wrapping and packaging; Plastic film for wrapping Adhesive plastic film for use in commercial or industrial manufacturing; Adhesive polymer film for use in commercial or industrial manufacturing; Adhesive-backed plastic films for use in the manufacture of durable labels and nameplates; Tamper-evident secure adhesive seals for containers; Clear plastic adhesive sheets for removal and lamination of labels on containers; Non-metal seals for use in automobile industry, excluding machine or land vehicle engines; Plastic film for use in laminating paper; Polypropylene films for protection covers; Fluoropolymer film for venting; Poly-olefin film for protection covers; Semi-worked synthetic plastic and synthetic resins as semi-finished products in form of pellets, rods, foils, foams, fibers, films and sheets; Synthetic polymer thin film coatings in the nature of print varnish for use in the manufacture of industrial products; Plastic sheets for use in the manufacture of labels; Polyester sheets for use in the manufacture of labels; Polymer sheets for use in the manufacture of labels; Non-metal laminates, non-metal films and flexible vinyl sheets for use in making signs; Plastic sheets for use in the manufacture of displays, signs and packaging bar code labels Plastic adhesive labels; Plastic self-adhesive labels and tags; Plastic surface covering labels, namely, plastic labels that protect underlying surface features; Plastic labels carrying conductors; Films carrying conductors, namely, plastic bar code labels Consulting services for others in the field of design, planning and implementation project management of printing and label dispensing machines; Consulting services for others in the field of design, planning, and implementation project management of transponders
100.
LABEL FOR FORGERY-PROOF IDENTIFICATION OF AN OBJECT, AND METHOD
The invention relates to a label (10) for identification of an object, said label (10) comprising a layer composite (1) which can be inscribed and in which a first visible inscription can be made for identification of an object, an adhesive film (3) by which the label (10) can be adhered to an object, and an active compound (4) which, when brought into contact with a surface of the object, penetrates into the surface of the object and/or acts on the surface of the object. The active substance (4) is arranged on the rear face (10a) of the label (10) on or in the adhesive film (3) or below the adhesive film (3), wherein the label (10) has a structured active substance layer (24) in which the active substance (4) is arranged. The structured active substance layer (24) comprises a part-surface region (8) or a plurality of part-surface regions (8) of the base surface of the label (10), wherein the label (10) is designed such that, when the event label (10) is adhered to the surface of an object, the active substance (4) on the rear face of the label (10) comes selectively into contact with the surface of the object in the region of the structured substance layer (24). Within the base surface of the label the configuration and/or contour of the structured active substance layer (24) is in the form of a further, initially invisible inscription, identification or item of information.
