An online data validator is a digital imaging system integrated onto the front side of a printing unit wherein an exit of the printing unit is set on the same side close to the online data validator for a media exiting therefrom. The online data validator comprises a controller facilitating communication with a printing unit controller and controlling overall operation of the online data validator functions; a camera module including a sensor PCB and an optical lens, wherein the sensor PCB contains a camera sensor for capturing 2D digital images of moving labels; and a light source module including a lightbar, a lightbar PCB, a Fresnel lens and a window for providing uniform and flattened illumination on the media.

According to an embodiment, management device includes an image formation data management unit and an inspection unit. The image formation data management unit is configured to create a formation order indicating an order of forming an image corresponding to image formation data on a medium to be applied to an application target object. The inspection unit is configured to inspect whether the image formation data in accordance with the formation order matches with a read image obtained by reading the image formed on the medium in accordance with the formation order. The image formation data management unit transmits state information in which the formation order is associated with an image formation state based on at least one of an image formation result of the image formation data and an inspection result obtained by the inspection unit.

Disclosed are a pole piece labeling control method and device, electronic equipment, and a storage medium. The method includes: acquiring a pole piece image, including a pole piece mark hole image, of a target pole piece; determining a defect detection result according to the pole piece image; determining a first distance according to the pole piece mark hole image; determining a second distance according to the first distance; determining a labeling delay of the target pole piece according to the second distance; and controlling the labeling of the target pole piece according to the labeling delay and the defect detection result. The real-time position of the pole piece transferred on a compression roller is identified through the pole piece mark hole image, so that the accuracy of the labeling delay is improved, and the labeling position based on the labeling delay is more accurate.

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.

An in-line label applicator includes a label printer to print variable data on each label and a label application station that moves the printed labels into a container conveyance path for application to containers moving along the path. One scanner scans the label code of each printed label before the label reaches the conveyance path, and another scanner scans the helper code of each container as the label is being applied during movement of the container along the conveyance path.

An online data validator is a digital imaging system integrated onto the front side of a printing unit wherein an exit of the printing unit is set on the same side close to the online data validator for a media exiting therefrom. The online data validator comprises a controller facilitating communication with a printing unit controller and controlling overall operation of the online data validator functions; a camera module including a sensor PCB and an optical lens, wherein the sensor PCB contains a camera sensor for capturing 2D digital images of moving labels; and a light source module including a lightbar, a lightbar PCB, a Fresnel lens and a window for providing uniform and flattened illumination on the media.

A labelling machine comprises a supply spool support for supporting a supply spool comprising label stock comprising a web and a plurality of labels attached to the web and which are separable from the web; a take-up spool support adapted to take up a portion of web; a motive means configured to propel the web along a web path from the supply spool support towards the take up spool support. A sensor has a transmitter portion and a receiver portion, the receiver portion comprising a plurality of receivers, the transmitter portion and receiver portion are configured to receive a portion of the label stock therebetween, and the plurality of receivers are each configured to produce a respective sensor signal which is a function of a property of a portion of label stock at a plurality of positions spaced from one another in a direction non-parallel to the web path. In addition, a controller is configured to monitor each of the sensor signals produced by the receivers and to select one of the sensor signals produced by the receivers based on said monitoring of each of the sensor signals produced by the receivers.

Fixtures for use with medical device label printing systems are disclosed. An example fixture may include a housing designed to be coupled to a printing device. The housing may have an input region for receiving a media (e.g., that may include a backing portion and a label portion) and a return region. A separating member may be disposed within the housing. The separating member may be designed for separating the label portion from the backing portion. The separating member may be designed to shift between a first configuration where the separating member engages the media in order to separate the label portion from the backing portion and a second configuration where the separating member is positioned away from engagement with the media. The fixture may also include an actuator for shifting the separating member between the first configuration and the second configuration.

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 labelling machine comprises a supply spool support for supporting a supply spool comprising label stock comprising a web and a plurality of labels attached to the web and which are separable from the web; a take-up spool support adapted to take up a portion of web; a first motive means configured to propel the web along a web path from the supply spool support towards the take up spool support, the first motive means comprising a first motor including a first stator and a first rotor; a labelling peel beak located along the web path and configured to peel the labels from label web as the label stock passes the labelling peel beak; and a printer for printing on the labels. The printer includes a ribbon supply spool support for supporting a ribbon supply spool comprising printer ribbon for the printer; a ribbon take-up spool support adapted to take up a portion of the printer ribbon; and a second motive means configured to propel the printer ribbon from the supply spool support towards the take up spool support, the second motive means comprising a second motor including a second stator and a second rotor. The labelling machine further comprises a base plate. The following components are mounted to the base plate such that the majority of each component is located on one side of a first surface of the base plate: supply spool support, take-up spool support, first stator, labelling peel beak, ribbon supply spool support, ribbon take-up spool support and second stator.