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 technology is for writing different information depending on an object into an electronic tag. The above problem is solved by an electronic tag writing system including a writing device that writes write information into an electronic tag, and an information acquisition section that acquires write information related to an object associated with the electronic tag, in which the write information acquired by the information acquisition section is written into the electronic tag using the writing device.

Device for labelling syringes for pharmaceutical products, comprising: means for feeding syringes to the device, a syringe manipulator configured to carry a syringe from the syringe-feeding means to the labelling station, a labelling station for labelling the syringes brought from the syringe-feeding means by means of the syringe manipulator, a control device for coordinating the aforementioned components, wherein the syringe-feeding means comprise a support for receiving a tray for holding one or more syringes, said support having a first position in which the syringe(s) on the tray is/are in a substantially vertical position.

In some embodiments, an RFID label rejecting system includes an imager for scanning an RFID label, and a label removal component for discarding an inoperable RFID label. The label removal component may include a paddle configured to receive the inoperable label as part of the removal process. The label removal component may include a retraction system configured to position the paddle in an ejection path of the label rejection system to receive a rejected label. The label removal component may include a removable liner on the paddle configured to receive the rejected label and to be discarded with the rejected label. The label removal component may include a pressurized gas system configured for ejecting a rejected label.

A system of manufacturing a corrugated cardboard box to which an electronic tag is attached. The system includes: a corrugated cardboard sheet forming part that forms a corrugated cardboard sheet 14p; a blank forming part that forms a box blank 24p from the corrugated cardboard sheet; a folder gluer that assembles the box blank 24p into a flat plate-shaped corrugated cardboard box; a product stacker that stacks the flat plate-shaped corrugated cardboard box assembled in the folder gluer; and a tag sticking device that sticks the electronic tag having an adhesive portion to a surface that becomes an outer surface of a box as a workpiece by using the adhesive portion between the corrugated cardboard sheet forming part and the product stacker.

An electronic tag sticking apparatus provided with: a tag feeding device that feeds an electronic tag having an adhesive part to a predetermined tag feeding position P1, a tag holding part that holds the electronic tag, a movement device that moves the tag holding part, and a sticking detection device for detecting that the tag has been stuck onto a target object at a predetermined contact position P3. A preparatory operation is performed such that, after the tag holding part is positioned at the tag feeding position P1 by the movement device and the electronic tag fed from the tag feeding device is held by the tag holding part, the tag holding part holding the electronic tag is moved to a standby position P2 and is caused to stand by so as to be oriented in a direction in which the adhesive part is pressed against the target object.

A radio frequency identification (RFID) tag applicator including a spool system for holding and guiding a tape including a plurality of RFID tags from a first spool to a second spool, an RFID programmer coupled to spool system to send a programming signal to each of the tags passing from the first spool to the second spool, an RFID reader coupled to the spool system for reading a return signal from a programmed RFID tag in order to reject or accept the programmed tag, and an applicator member operatively coupled to the RFID reader to cause an RFID tag to peel away from the tape onto a passing substrate if the RFID tag is accepted by the RFID reader or pass to the second spool if rejected.

A printer assembly is described that includes a media hub configured to receive a media roll and supply a media from the media roll along a media path, wherein the media includes a plurality of labels each comprising a Radio Frequency Identification (RFID) inlay. The printer assembly also includes a media guide positioned adjacent to the media path. The media guide includes an RFID antenna, with the RFID antenna communicatively coupled to an RFID control system and configured to transmit signals to encode the RFID inlay on a first label. The media guide also includes at least one shield, wherein the at least one shield is positioned adjacent to the RFID antenna to prevent, during an encoding of the RFID inlay on the first label of the plurality of labels, an encoding of the RFID inlay on a second label of the plurality of labels.

The disclosure features a method of creating a communications network. In this method, a first tape node includes a first type of wireless communication interface and a second type of wireless communication interface having a longer range than the first type of wireless communication interface. A second tape node includes the first type of wireless communication interface that is operable to communicate with the first tape node over a wireless communication connection established between the first type of wireless communication interfaces of the first and second tape nodes. Over a wireless communication connection, the first tape node sends programmatic code executable by the first tape node to function as a master tape node with respect to the second tape node.

Disclosed by the present invention is a device for embedding electronic tag, which comprises: a tag separating unit configured to separate an electronic tag from a base film; a tag conveying unit configured to transmit the electronic tag to a setting position; and a tag grasping placing unit configured to grasp and attach an electronic tag. As an electronic tag being implanted on a product, firstly separating the electronic tag to be placed from the base film thereon by the tag separating unit, then grasping the separated electronic tag by the tag grasping placing unit, then transmitting the tag grasping placing unit to a setting position by the conveying unit, then attaching the electronic tag on the device by the tag grasping placing unit, that means the completion of the entire process of placement. During which, the actions of separating, grabbing, transmitting and placing are all realized automatically. In comparison with manual work, the present invention could not only improve production efficiency, but also reduce the risks of omission and misplacement, thereby improving the product quality.