The invention relates to a bending tool (1) comprising a tool body (2) having an upper (3) and an opposite lower end region (4), wherein an attachment extension (5) is configured in the upper end region (3), and a working tip (6) is configured in the lower end region (4). A tool identification marker (11) is disposed in the tool body (2), and a communication interface (9) is disposed in the attachment extension (5) on at least one side surface (8) and not projecting beyond it, which interface is connected with the tool identification marker (11) by way of a connection line (10). An electronics unit (12) is disposed in the tool body (2). A voltage supply contact (14) that is electrically insulated relative to the tool body (2) is is disposed on the attachment extension (5), which contact is connected with a voltage supply module (15) of the electronics unit (12). Furthermore, a change-over switch (16) is disposed in the connection line (10), wherein in a first switching position, the tool identification marker (11) is connected with the communication interface (9), and in a second switching position of the change-over switch (16), the electronics unit (12) is connected with the communication interface (9).

A tooling system may comprise a device configured to communicate with an identifier of a machine tool and a tool database having tool information including a predefined proximity associated with the identifier. The device may be configured to automatically activate, without a user-initiated scan, communication with at least one of the machine tool and the tool database in response to the identifier being within the predefined proximity. The device may also be configured to transfer tool information of the machine tool with respect to the tool database.

A tracking computing system detects tracking indicia provided on or embedded within cutting implements to be deployed at a processing facility. Periodic implement scans can be performed by one or more mobile computing devices to detect tracking indicia and to determine state data associated with the cutting implements. The state data can be determined at different stages within a processing cycle. The absence of state data for a tracking indicium at one or more stages of the processing cycle may be detected and used to initiate a control action with respect to a potentially missing cutting implement.

A removable assembly (38) comprising an information holding unit (36). The removable assembly is positionable in a material object (2), such as a tool, tool component or part, machine, machine component or part, device, etc., and can be removed therefrom by fluid pressure whereby the material object can be subjected to processing that would otherwise cause damage to, or destroy, the information holding unit (36).

Example implementations relate to classifying parts. A computing device may comprise a processing resource; and a memory resource storing non-transitory machine-readable instructions to cause the processing resource to: receive a part description of a part; classify the part by determining a commodity of the part based on the part description using machine learning; and update attributes of the part based on the determined commodity of the classified part.

Provided is a disclosure for using indicia to handle information for use in material preparation and analysis equipment.

A food processing machine includes a plurality of tool parts which are exchangeable and which each comprise at least one electronic data storage in which a tool identification is stored for identifying the respective tool parts, and a controlling system for reading the tool identifications. The controlling system is configured to determine, based on the tool identification read by it from the at least one data storage of an exchangeable tool part installed at the food processing machine, processes basically implementable with this tool part which are possible for an operation of the tool part, and to determine an intersection of detailed processes by a comparison of these processes with processes basically performable by the food processing machine based on machine equipment employed for the tool part and firmly installed in the food processing machine, by which the tool part can be controlled by the machine equipment provided for it.

Industrial production facilities (such as can making factories) may tag with radio frequency near proximity devices their tooling (knockouts, dies, punches, etc) so that the tooling may be instantly located on any particular machine or location in the facility, by known critical characteristics of the tooling, particularly diameter. This is possible because each machine will also have a reader for the tags, and other areas such as inventory shelves, inspection stations, doors, loading docks, shipping departments and even vendors may also have the reading devices. Passive RFID tags and readers may be used for this purpose. The invention may be open to other businesses so inventory may be located across manufacturing systems and/or businesses.

A tooling system may comprise a device configured to communicate with an identifier of a machine tool and a tool database having tool information including a predefined proximity associated with the identifier. The device may be configured to automatically activate, without a user-initiated scan, communication with at least one of the machine tool and the tool database in response to the identifier being within the predefined proximity. The device may also be configured to transfer tool information of the machine tool with respect to the tool database.

The invention relates to a system for a method for controlling a machine tool with at least one replaceable tool and a workpiece, especially a mill blank, and for a method for machining the workpiece, which machine tool comprises a robot arm movable along at least 2, especially at least 3 space axes in an area of motion, which carries and moves at least one workpiece, eventually via a workpiece holder, with a control unit for controlling the machine tool. The machine tool (52) includes a sensor (46), especially a space-fixed optical sensor located thereon or associated thereto, and the detection range (42) of which overlaps the area of motion at least partially for detection of a code on the machine tool.