摘要:
Presently disclosed subject matter is directed to an identification article, methods of its manufacture and a sheet material forming part thereof. The article in accordance with the disclosed subject matter has a first end and a second end configured for attachment to each other through a contact section configured at either the first end or the second end. The article comprising a first, top layer including a bottom side, a second, bottom layer including a top side, and an identification component, wherein the bottom side of the first layer and the top side of the second layer bonded to at least encapsulate therebetween the identification component. In addition, the contact section comprises a release section constituting an end portion of the second layer, coated with a release agent on the top side thereof.
摘要:
A container for fluid products, in particular perfumes, deodorants, creams and the like, comprising: a holding body (2) for containing a fluid (6), preferably a perfume, deodorant or the like; a dispensing member (3) associated with said holding body (2) and having a duct (4) for drawing said fluid (6) and a dispensing head (5) to deliver the fluid drawn by said duct (4), said dispensing head (5) being at least partly inserted in said holding body (2). The container (1) further comprises a transponder device (8) mounted on said dispensing head (5) internally of said holding body (2).
摘要:
A method of forming an electrically-conductive pattern includes selectively electroplating the top portions of a substrate that corresponds to the pattern, and separating the conductive pattern from the substrate. The electroplating may also include electrically connecting the conductive pattern to an electrical component. Conductive ink, such as ink including carbon particles, may be selectively placed on the conductive substrate to facilitate plating of the desired pattern and/or to facilitate separation of the pattern from the substrate. An example of a conductive pattern is an antenna for a radio-frequency identification (RFID) device such as a label or a tag. One example of an electrical component that may be electrically connected to the antenna, is an RFID strap or chip.
摘要:
A process is disclosed for attaching an RFID tag such as an AK module or QFP package to a flexible surface such as textile or fabric. The process comprises providing a heat fusible label including at least a first layer having a first adhesive layer, a substrate layer including a secondary antenna structure, a heat activated second adhesive layer and a pressure sensitive adhesive (PSA) layer for holding the RFID tag. The process further includes positioning the RFID tag on the PSA layer, pressing the tag against the PSA layer such that the PSA layer holds the tag against the heat fusible label at least temporarily, positioning the heat fusible label with the RFID tag on the flexible surface and applying heat and pressure to the heat fusible label to melt the heat activated layer and to fuse the label to the flexible surface.
摘要:
An artificial nail for placing onto a finger or a toe is connected to an integrated transponder chip (2), which is preferably placed on the underside of the artificial nail. The integrated transponder chip measures only a few millimeters in diameter and is ultra-thin. The artificial nail is placed onto the natural nail using a nail treatment system. The integrated transponder chip is designed for a near-field application and is intended to be active in a range of a few centimeters. Electromagnetic radiation activates the chip and the detected signals identify the latter. The person wearing such an artificial nail need only hold the artificial nail in the vicinity of a detector of the integrated transponder chip and the person is able to be identified for any desired application.
摘要:
The present invention relates to methods of assembly, labeling and programming decoupled EM tags used in the tagging and tracking of items wherein the tags including a printable label portion and a decoupler portion which are combined after printing on the surface of and programming a programmable device associated with the label portion.
摘要:
An antenna circuit which includes a substrate and a planar circuit with a circuit line of a conductive material formed on a surface of the substrate, and at least one conductive pad (notch-forming part) electrically connected with the circuit line of the planar circuit. Cutting lines, such as perforations, are provided in the substrate around an outer periphery of the notch-forming part and extend into the notch-forming part on either side of connection points where the circuit line connects with the notch-forming part, The cutting lines approach each other in the notch-forming part to form a section (notch port). The antenna circuit can be destroyed even if an IC tag provided with the antenna circuit is peeled off from various directions, and the destruction rate of the circuit can be increased stably.
摘要:
A label has a part that is to stand out at a defined angle from a curved surface to which the label is applied. There is a reinforcement area that has an edge curvature at the transition part of the label, between the part that is to be raised up and the part that is attached to the curved surface. The edge curvature is implemented such that it fixes the part to be raised up at a defined angle during or after placement of the label on a specific object.
摘要:
A Non-transferable Radio Frequency Identification (RFID) assembly for attachment to an article comprises a RFID module; and a antenna module coupled with the RFID module, the antenna module comprising a conductive layer, a substrate, and an adhesive modification layer between the conductive layer and the substrate, the adhesive modification layer configured such that when the assembly is attached to the article and attempt to remove the assembly will cause the substrate to release and leave the conductive layer intact.
摘要:
A radio frequency identification (RFID) tag includes a power supply, a RFID microchip, an enable unit, an adhesive unit, and a conducting unit. The adhesive unit is positioned on a bottom surface of the RFID tag. The conducting unit is secured to the bottom surface of the RFID tag through the adhesive unit. An end of the conducting unit is electronically connected to the power supply or the enable unit. Another end of the conducting unit is connected to the RFID microchip. The power supply or the enable unit switches on/off the RFID microchip through the conducting unit.