A carrier tape has at least two conductive rails affixed at opposite edges of the carrier tape. The purpose of the conductive rails is to provide power to smart labels mounted to the carrier tape for charging the batteries of each of the smart labels or transferring data to or from the smart labels. Holes are pierced into the conductive rails and the carrier tape to make a jagged edge at the backside of each hole in the carrier tape. The jagged edge of each of the holes of the conductive rail and the carrier tape on one layer connects with the conductive rail of the layer immediately adjacent. The smart labels are mounted to the carrier tape with an adhesive. A transport package holds a carrier tape which retains the smart labels and the conductive rails and is configured to transfer charging current or data to the smart labels.

A method and a system records machining information associated with insulating panels manufactured in a continuous machining line. Machining units carry out machining operations on a panel body moved along the line, between an inlet and an outlet, from a start-production unit at the line inlet. The insulating panels are manufactured by making predetermined cuts in the panel body, at the line outlet. Each machining unit is controlled by a respective electronic control unit. The method generates and prints unique graphic representation identification codes, or Data Matrix codes. A panel body portion to be machined is identified. The Data Matrix codes printed on the panel body to be machined are identified when the panel body portions pass through the machining unit. Machining information is acquired and associated with the detected Data Matrix code. The acquired machining information and associated code are sent to a main processing unit connected.

A method and a system records machining information associated with insulating panels manufactured in a continuous machining line. Machining units carry out machining operations on a panel body moved along the line, between an inlet and an outlet, from a start-production unit at the line inlet. The insulating panels are manufactured by making predetermined cuts in the panel body, at the line outlet. Each machining unit is controlled by a respective electronic control unit. The method generates and prints unique graphic representation identification codes, or Data Matrix codes. A panel body portion to be machined is identified. The Data Matrix codes printed on the panel body to be machined are identified when the panel body portions pass through the machining unit. Machining information is acquired and associated with the detected Data Matrix code. The acquired machining information and associated code are sent to a main processing unit connected.

A carrier tape has at least two conductive rails affixed at opposite edges of the carrier tape. The purpose of the conductive rails is to provide power to smart labels mounted to the carrier tape for charging the batteries of each of the smart labels or transferring data to or from the smart labels. Holes are pierced into the conductive rails and the carrier tape to make a jagged edge at the backside of each hole in the carrier tape. The jagged edge of each of the holes of the conductive rail and the carrier tape on one layer connects with the conductive rail of the layer immediately adjacent. The smart labels are mounted to the carrier tape with an adhesive. A transport package holds a carrier tape that retains the smart labels and the conductive rails and is configured to transfer charging current or data to the smart labels.

A method and a system records machining information associated with insulating panels manufactured in a continuous machining line. Machining units carry out machining operations on a panel body moved along the line, between an inlet and an outlet, from a start-production unit at the line inlet. The insulating panels are manufactured by making predetermined cuts in the panel body, at the line outlet. Each machining unit is controlled by a respective electronic control unit. The method generates and prints unique graphic representation identification codes, or Data Matrix codes. A panel body portion to be machined is identified. The Data Matrix codes printed on the panel body to be machined are identified when the panel body portions pass through the machining unit. Machining information is acquired and associated with the detected Data Matrix code. The acquired machining information and associated code are sent to a main processing unit connected.

A method and a system records machining information associated with insulating panels manufactured in a continuous machining line. Machining units carry out machining operations on a panel body moved along the line, between an inlet and an outlet, from a start-production unit at the line inlet. The insulating panels are manufactured by making predetermined cuts in the panel body, at the line outlet. Each machining unit is controlled by a respective electronic control unit. The method generates and prints unique graphic representation identification codes, or Data Matrix codes. A panel body portion to be machined is identified. The Data Matrix codes printed on the panel body to be machined are identified when the panel body portions pass through the machining unit. Machining information is acquired and associated with the detected Data Matrix code. The acquired machining information and associated code are sent to a main processing unit connected.