Method for predicting the presence of product defects during an intermediate processing step of a thin product wound in a roll, which provides forreceiving a roll of thin product that has been assigned a unique identification code stored in a database system, this latter containing process and/or product parameters detected in the production steps of said thin product wound in said roll upstream of said intermediate processing step, associated with said unique identification code, accessing said database system, entering one or more of the process and/or product parameters associated with the unique identification code of said roll contained in said database system in a predictive model, which uses a correlation, created by means of machine learning logics, from historicized values related to the process and/or product parameters output from said intermediate processing step and historicized values related to process and/or product parameters of the same rolls detected in the production steps of said rolls upstream of said intermediate processing step, in order to predict product parameters output from said intermediate processing step, comparing said aforesaid product parameters with respective predefined limit values, generating predictive diagnosis information of thin product defects based on the result of said comparison.

An image forming device capable of reducing resources related to destruction of a wireless tag is provided. The image forming device according to the present embodiment includes a reader and writer, a fixing unit, a determination unit, and a control unit. The reader and writer reads information from the wireless tag. The fixing unit heats and conveys a sheet having the wireless tag. The determination unit determines a defect of the wireless tag based on a reading result of the reader and writer. If the determination unit determines that the wireless tag is defective, the control unit controls the fixing unit to increase an amount of heat applied to the wireless tag such that information cannot be read from the wireless tag.

In accordance with an embodiment, a label processing apparatus comprises a conveyance mechanism, a radio wave shielding mechanism, an antenna and a reader/writer. The conveyance mechanism conveys a paper on which a a plurality of s are attached with a RFID tag are arranged. The radio wave shielding mechanism includes an opening moving in synchronization with each RFID tag arranged on the paper conveyed by the conveyance mechanism. The antenna receives and transmits a radio wave for communication via the opening while the opening moves in synchronization with the RFID tag. The reader/writer communicates with the RFID tag of the paper conveyed by the conveyance mechanism via the antenna.

A handheld tape dispenser is configured to store a roll of tape within a frame, the roll of tape comprising a plurality of segments of tape each corresponding to a tape node and comprising one or more electronic components. The handheld tape dispenser drives mechanical components of the handheld tape dispenser to draw tape along a tape feed path, resulting in a segment of tape being removed from the roll of tape for deployment. The handheld tape dispenser determines a unique identifier of a tape node corresponding to the removed segment of tape, associates the unique identifier of the tape node with an asset corresponding to the tape node, and stores the association in a local memory. In real-time or at a later time, the handheld tape dispenser transmits the association to a wireless tracking system.

A sheet processing device includes a tape binding processing unit, a paper discharge unit, and a control unit. The tape binding processing unit performs tape binding processing on a sheet bundle. The paper discharge unit discharges the sheet bundle subjected to the tape binding processing onto a paper discharge tray. The control unit is configured to control at least one of the tape binding processing unit and the paper discharge unit, such that a first tape binding of the first bundle of sheets and a second tape binding of the second bundle of sheets are not in contact with each other when the first bundle of sheets and the second bundle of sheets are stacked on the paper discharge tray.

The disclosed supply roll (5) comprises a roll core (6); flat material and/or strip material (8) being carried on the roll core (6) in a multitude of windings; and at least one functional marker (2). The at least one functional marker (2) is placed in a specified relative position at an externally arranged free end section (7) of the flat material and/or strip material (8) such that information about the relative position of the free end section (7) is optically identifiable by way of the at least one functional marker (2).

To provide a marking device that enables to easily find a tag determined as defective (RFID error, etc.) among a plurality of tags that are stacked or the like. The marking device to use with a sheet includes cut and raising part for forming, as a failure process, a cut and raised section to be positioned at an edge of the sheet having been found the defect.

The present invention relates to a system (200) and computer implemented method for monitoring the performance of at least one winding spool (120) in the reel section (100) of a paper machine, by detecting a unique identification code, ID, associated with the winding spool (120) from a marker (130) on the winding spool (120); identifying the winding spool (120) based on the unique identification code, ID; determining at least one winding spool performance parameter for the identified winding spool (120) based on measurements from at least one sensor (160); and determining if there is a failure of the performance of the identified winding spool (120) based on if the determined at least one winding spool performance parameter fulfils a requirement indicative of failure of the performance of the winding spool (120). The invention further includes a computer program comprising software for executing the method, a non-volatile data carrier, and a paper machine comprising the system.

A sheet processing apparatus for processing sheets each with a wireless tag includes a roller, a wireless tag reader/writer, and a controller configured to control the roller to convey a first sheet with a first tag along a path, control the reader/writer to acquire first strengths of radio signals received from the first tag during the conveyance and second strengths of radio signals received from wireless tags of sheets not being conveyed, determine a threshold value of signal strength for distinguishing a wireless tag being conveyed from wireless tags not being conveyed based on the first and second strengths, and control the roller to convey a second sheet with a second tag and control the reader/writer to write to the second tag when a strength of a radio signal from the second tag is greater than or equal to the threshold value.

The present disclosure provides a device designed for the efficient handling and organization of elongated conductors. The device includes a pallet specifically configured for winding an elongated conductor around it, ensuring orderly storage and transport. Connector retaining features are incorporated to secure terminating connectors of the conductor at predetermined locations on the pallet's surface, facilitating easy removal by a robotic device. Additionally, the device is equipped with manipulation features that enable a robotic device to effectively manipulate the pallet, enhancing automation in processes involving the handling of elongated conductors. This configuration allows for streamlined operations in environments where robotic devices are employed for tasks such as assembly, storage, or transportation of conductors.