A cutting device includes a ribbon conveying table configured to convey a textile ribbon having a metallized thread or filament quasi-endlessly woven/non-woven in the fabric of the ribbon; at least two cutting assemblies spaced apart from one another along the conveying direction of the textile ribbon, the at least two cutting assemblies being configured to simultaneously perform a cutting action for severing a non-woven-in section of the metallized thread or filament from the fabric of the ribbon and at least two sliding spacers spaced apart from one another along the conveying direction of the textile ribbon, the at least two sliding spacers each being connected to a respective one of the at least two cutting assemblies, contacting the surface of the ribbon and being configured to slidingly move between the metallized thread or filament and the fabric of the ribbon at the edges of the non-woven-in sections to facilitate the cutting action of the at least two cutting assemblies.
D06H 7/14 - Cutting fabrics by cutting the weft or warp threads while making special provision to avoid cutting warp or weft threads, respectively, adjacent to the cut
D06H 7/02 - Apparatus or processes for cutting, or otherwise severing, specially adapted for the cutting, or otherwise severing, of textile materials transversely
2.
CUTTING DEVICE AND METHOD FOR SEVERING NON-WOVEN-IN SECTIONS OF THREADS OR FILAMENTS WOVEN IN TEXTILE RIBBONS
A cutting device includes a ribbon conveying table configured to convey a textile ribbon having a metallized thread or filament quasi-endlessly woven/non -woven in the fabric of the ribbon; at least two cutting assemblies spaced apart from one another along the conveying direction of the textile ribbon, the at least two cutting assemblies being configured to simultaneously perform a cutting action for severing a non-woven-in section of the metallized thread or filament from the fabric of the ribbon and at least two sliding spacers spaced apart from one another along the conveying direction of the textile ribbon, the at least two sliding spacers each being connected to a respective one of the at least two cutting assemblies, contacting the surface of the ribbon and being configured to slidingly move between the metallized thread or filament and the fabric of the ribbon at the edges of the non-woven-in sections to facilitate the cutting action of the at least two cutting assemblies.
D06H 7/02 - Apparatus or processes for cutting, or otherwise severing, specially adapted for the cutting, or otherwise severing, of textile materials transversely
D06H 7/14 - Cutting fabrics by cutting the weft or warp threads while making special provision to avoid cutting warp or weft threads, respectively, adjacent to the cut
3.
TEXTILE RFID TRANSPONDER AND METHOD FOR APPLYING A TEXTILE RFID TRANSPONDER TO TEXTILES
A textile RFID transponder (20) has a textile carrier substrate (19) with a flat thread structure (16). At least one electrically conductive antenna thread (17) is introduced into the flat thread structure (16) of the textile carrier substrate (19). An RFID chip module (15) with a chip-bound module antenna (11) is applied to a first side of the textile carrier substrate (19) so that the module antenna (11) is coupled inductively into a transponder antenna (18) formed by the at least one conductive antenna thread (17). At least one hot-melt adhesive yarn (12; 16a; 16b; 16c) is introduced into the flat thread structure (16) of the textile carrier substrate (19).
A dual band transponder comprises a carrier substrate having at least one planar substrate layer. An ultra-high frequency loop antenna is mounted on a first surface of one of the planar substrate layers of the carrier substrate. A high frequency loop antenna is mounted on two opposite surfaces of one of the planar substrate layers of the carrier substrate. The ultra-high frequency loop antenna encloses the high frequency loop antenna in a plane parallel to the at least one planar substrate layer entirely. A textile label includes a textile label substrate and a corresponding dual band transponder mounted onto the textile label substrate.
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
G06K 19/02 - Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the selection of materials, e.g. to avoid wear during transport through the machine
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 chip module comprises a carrier, having a first main surface and a second main surface opposite to the first main surface. A first recess structure is arranged in the carrier in the first main surface, and a chip is arranged in the first recess structure of the carrier. A patterned metallization layer is deposited on the second main surface of the carrier, the metallization layer having a first metallization structure and a second metallization structure, the first metallization structure being electrically isolated from the second metallization structure. The chip is electrically connected to the first metallization structure and the second metallization structure. The chip module comprises in particular an RFID chip and is suited to be connected to a textile substrate by way of laser reflow soldering.
G06K 19/077 - Constructional details, e.g. mounting of circuits in the carrier
H01L 23/48 - Arrangements for conducting electric current to or from the solid state body in operation, e.g. leads or terminal arrangements
H01L 23/50 - Arrangements for conducting electric current to or from the solid state body in operation, e.g. leads or terminal arrangements for integrated circuit devices
H01L 23/00 - Details of semiconductor or other solid state devices
09 - Scientific and electric apparatus and instruments
23 - Yarns and threads for textile use
Goods & Services
Machines for installing, positioning, programming and
testing radio frequency identification labels; machines for
manufacturing electronic chip modules and antenna wires;
accessories for the aforesaid goods and for textile machines
such as weaving machines, knitting machines, thread rolling
machines, shedding machines, Jacquard machines, warping
machines, cutting machines, cutting-out machines, folding
machines, process machines, thermo-setting machines, take-up
machines, wind-up machines, machines for presentation,
packaging, bundling and labeling of textiles (included in
this class). Electronic chip modules and antenna wires for radio
frequency identification labels; electronic apparatus for
monitoring, checking and controlling installation machines
and textile machines; apparatus and software for electronic
programming units for creating textile patterns and antennas
(CAD) for weaving and knitting machines, including
photo-optical apparatus, computer workstations, interfaces
and networks for data processing systems, parts and
accessories intended for the aforesaid products, included in
this class; computer software for monitoring, checking and
controlling radio frequency identification installation
machines and software for textile machines. Textile antenna wires.
7.
TEXTILE STRIP COMPRISING AN INTEGRATED ANTENNA THREAD FOR AN RF TRANSPONDER
The invention relates to a textile strip comprising an integrated antenna thread for an RF transponder. The aim of the invention is to produce a textile strip in a simple,
flexible manner and to avoid the risk of short-circuits. To achieve this, the strip is configured from a base textile that is produced on a needle loom. The antenna thread is laid on the base textile in an undulating or zigzag form during the production of said textile, the distance between the limbs of an antenna thread loop and at least one edge of the strip being two weft threads.
A textile RFID transponder (20) has a textile carrier substrate (19) with a flat thread structure (16). At least one electrically conductive antenna thread (17) is introduced into the flat thread structure (16) of the textile carrier substrate (19). An RFID chip module (15) with a chip-bound module antenna (11) is applied to a first side of the textile carrier substrate (19) so that the module antenna (11) is coupled inductively into a transponder antenna (18) formed by the at least one conductive antenna thread (17). At least one hot-melt adhesive yarn (12; 16a; 16b; 16c) is introduced into the flat thread structure (16) of the textile carrier substrate (19).
A cutting device includes a ribbon conveying table configured to convey a textile ribbon having a metallized thread or filament quasi-endlessly woven/non -woven in the fabric of the ribbon; at least two cutting assemblies spaced apart from one another along the conveying direction of the textile ribbon, the at least two cutting assemblies being configured to simultaneously perform a cutting action for severing a non-woven-in section of the metallized thread or filament from the fabric of the ribbon and at least two sliding spacers spaced apart from one another along the conveying direction of the textile ribbon, the at least two sliding spacers each being connected to a respective one of the at least two cutting assemblies, contacting the surface of the ribbon and being configured to slidingly move between the metallized thread or filament and the fabric of the ribbon at the edges of the non-woven-in sections to facilitate the cutting action of the at least two cutting assemblies.
D06H 7/02 - Apparatus or processes for cutting, or otherwise severing, specially adapted for the cutting, or otherwise severing, of textile materials transversely
D06H 7/14 - Cutting fabrics by cutting the weft or warp threads while making special provision to avoid cutting warp or weft threads, respectively, adjacent to the cut
