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.

The adjustment head is intended for use in the working space of a CNC machine which has a base station set up and intended for the exchange of information with a measuring probe or bore measuring mandrel, which base station is connected to a control of the CNC machine, and comprises a first function module and a second function module, wherein the first function module is divided into a power supply module and a data transmission module, wherein the second function module comprises a machining module for receiving at least one tool, wherein the machining module comprises a tool adjustment device for adjustment the tool in a radial and/or an axial direction and/or in an angular orientation of the tool based on specifications of the control, and wherein the power supply module supplies components of the adjustment head, including the data transmission module and the tool adjustment device, with electrical power, and wherein the data transmission module is arranged and intended for exchanging information concerning at least the adjustment of tool accommodated in the adjustment head with the base station of the measuring probe or bore gauge in the working space of the CNC machine.

Systems and methods are provided for proximity detection in a fabrication environment. One embodiment is a method for reporting proximity in an assembly environment. The method includes inserting an arm of a bracket into an interior of a part that is held by a cradle, and that is worked upon by a robot, placing indexing features at the bracket into contact with indexing features of the cradle, operating sensors at the bracket to directly detect a location of a first proximity detector worn by a technician and a location of the second proximity detector at the robot, and directing the first proximity detector to provide a warning to the technician if a distance between the first proximity detector and the second proximity detector is less than a threshold.

Systems and methods are provided for proximity detection in a fabrication environment. One embodiment is a method for reporting proximity in an assembly environment. The method includes equipping a technician with a first proximity detector, disposing a second proximity detector at a machine that moves within a cell of the assembly environment, operating sensors at the cell to indirectly detect a location of the first proximity detector and a location of the second proximity detector via mirrors when an obscuring object is present, and providing a warning to the technician if a distance between the first proximity detector and the second proximity detector is less than a threshold.

Systems and methods are provided for proximity detection in a fabrication environment. One embodiment is a method for reporting proximity in an assembly environment. The method includes inserting an arm of a bracket into an interior of a part that is held by a cradle, and that is worked upon by a robot, placing indexing features at the bracket into contact with indexing features of the cradle, operating sensors at the bracket to directly detect a location of a first proximity detector worn by a technician and a location of the second proximity detector at the robot, and directing the first proximity detector to provide a warning to the technician if a distance between the first proximity detector and the second proximity detector is less than a threshold.

Systems and methods are provided for proximity detection in a fabrication environment. One embodiment is a method for reporting proximity in an assembly environment. The method includes equipping a technician with a first proximity detector, disposing a second proximity detector at a machine that moves within a cell of the assembly environment, operating sensors at the cell to indirectly detect a location of the first proximity detector and a location of the second proximity detector via mirrors when an obscuring object is present, and providing a warning to the technician if a distance between the first proximity detector and the second proximity detector is less than a threshold.

Systems and methods are provided for reporting proximity in an assembly environment. One method includes equipping a technician with a first proximity detector that is wearable, disposing a second proximity detector at a robot that moves within a cell of the assembly environment, and directing the first proximity detector to provide a warning to the technician if a distance between the first proximity detector and the second proximity detector is less than a threshold.

Systems and methods are provided for reporting proximity in an assembly environment. One method includes equipping a technician with a first proximity detector that is wearable, disposing a second proximity detector at a robot that moves within a cell of the assembly environment, and directing the first proximity detector to provide a warning to the technician if a distance between the first proximity detector and the second proximity detector is less than a threshold.

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.