SYSTEM AND METHOD FOR TRACING A PRODUCT ITEM

Abstract

The present application concerns a system for tracing a product item (102, 104) on a production line (100) comprising a control unit (10) and a timestamp counter (11), wherein the control unit (10) is configured to receive a product signal related to the product item (102, 104) from at least one peripheral device (12, 14, 16, 18, 20, 22, 24, 26). According to the invention, the control unit (10) is further configured to carry out the method steps of receiving a plurality of product signals each relating to a product item (102, 104) and a peripheral device (12, 14, 16, 18, 20, 22, 24, 26), generating a plurality of event signals, wherein each event signal is based on one of the product signals, arranging the event signals in a sequence corresponding to an order in which the product signals were received, and associating a timestamp generated by the timestamp counter (11) with the sequence.

Claims

1-11. (canceled)

12. A system for tracing a product item on a production line comprising a control unit and a timestamp counter, wherein the control unit is configured to receive a real-time product signal related to the product item from peripheral devices, wherein the control unit is further configured to carry out the following method steps: receiving a plurality of real-time product signals each relating to a product item and a peripheral device, generating a plurality of event signals, wherein each event signal is based on one of the real-time product signals, arranging the event signals in a sequence corresponding to an order in which the real-time product signals were received, and associating a timestamp generated by the timestamp counter with the sequence, wherein the peripheral devices comprise at least one sensor to recognize a product item for the timestamp counter to generate the timestamp for the sequence of the product item, and a print head configured to print a digital stamp on the product item, the digital stamp reflecting the product item and the timestamp associated with the sequence of the product item.

13. The system of claim 12, wherein at least one of the peripheral devices is at least one of the group of a camera, a printer, a proximity sensor, a movement sensor, a laser sensor, a weight sensor, a fluid level sensor, a production item recognition device, a filler counter, a brand identification system, a labelling static counter or a labelling mobile counter.

14. The system of claim 12, wherein the control unit is a programmable logic device which is programmed to carry out the method steps of receiving the plurality of product signals, generating the plurality of event signals, arranging the event signals in the sequence, and associating the timestamp with the sequence.

15. The system of claim 12, wherein the event signals are stored in sequence in a FIFO data structure.

16. A method of tracing a product item on a production line, comprising the steps of receiving a plurality of real-time product signals each relating to one of a plurality of product items and one of peripheral devices comprising at least one sensor and a print head, generating a timestamp, generating a plurality of event signals, wherein each event signal is based on one of the real-time product signals, arranging the event signals in a sequence corresponding to an order in which the real-time product signals were received, associating the timestamp with the sequence, and printing by the print head a digital stamp on the product item, the digital stamp reflecting the product item and the timestamp associated with the sequence of the product item, wherein generating the timestamp for the sequence of the product item is triggered by the at least one sensor recognizing the product item.

17. The method of claim 16 which uses a system for tracing a product item on a production line comprising a control unit and a timestamp counter, wherein the control unit is configured to receive a real-time product signal related to the product item from peripheral devices, wherein the control unit is further configured to carry out the following method steps: receiving a plurality of real-time product signals each relating to a product item and a peripheral device, generating a plurality of event signals, wherein each event signal is based on one of the real-time product signals, arranging the event signals in a sequence corresponding to an order in which the real-time product signals were received, and associating a timestamp generated by the timestamp counter with the sequence, wherein the peripheral devices comprise at least one sensor to recognize a product item for the timestamp counter to generate the timestamp for the sequence of the product item, and a print head configured to print a digital stamp on the product item, the digital stamp reflecting the product item and the timestamp associated with the sequence of the product item.

18. The method of claim 16, wherein at least one of the peripheral devices is at least one of the group of a camera, a printer, a proximity sensor, movement sensor, a laser sensor, a weight sensor, a fluid level sensor, a production item recognition device, a filler counter, a brand identification system, a labelling static counter or a mobile counter.

19. The method of claim 16, wherein the event signals are stored in sequence in a FIFO data structure.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0020] FIG. 1 is a schematic diagram showing an embodiment of a system for tracing a product item on a production line comprising peripheral devices.

[0021] FIG. 2 is an illustration of a trace of a particular product item along with a first-in-first-out state.

DESCRIPTION OF PREFERRED EMBODIMENTS

[0022] FIG. 1 illustrates a production line 100 comprising a control unit 10 and a timestamp counter 11. In this embodiment, the control unit 10 is a programmable logic controller (PLC) which is configured to receive a product signal related to a product item 102, 104 from peripheral devices 12, 14, 16, 18, 20, 22, 24, 26. The peripheral devices in the embodiment illustrated in FIG. 1 are a filler counter 12, a brand identification system 14, a labelling static counter 16 and a beam 18 equipped with a print head 22, a mobile counting sensor 24 and a quality camera 26.

[0023] The control unit 10 at least partially manages or at least partially controls all devices of the production line. It particularly sends trigger signals to printer(s) and camera(s).

[0024] A counting sensor 20 initially recognizes the presence of a particular product item 102 on the production line and sends information on the recognition of the product item 102 to the control unit 10 which stores this information preferably in a FIFO data structure.

[0025] The filler counter 12 comprises three counting sensors and a height detection sensor which is responsible for detecting products and measuring the height for an automatic adjustment of a height of the beam 18 described further below.

[0026] The brand identification system 14 comprises two sensors and two vision color cameras which take a picture of each product and send the picture to the control unit.

[0027] The labelling static counter 16 comprises three counting sensors the results of which also being sent to the control unit 10.

[0028] Finally, the beam 18 is provided with the print head 22, the mobile counting sensor 24 and the quality camera 26. By means of the print head 22 of the beam 18, a digital stamp is printed on each product item reflecting the product and the timestamp generated by the timestamp counter 11 and associated with the sequence of the particular product.

[0029] The control unit 10 may additionally comprise a Java app which organizes the production line data, sends a code to be printed on the product by the print head 22 to the print head 22, receives data from one of the vision systems such as the brand identification system 14, the quality camera 26 or the further parts of the control unit 10, e.g. a programmable logic controller.

[0030] By means of the above described and illustrated system for tracing a product item 102, 104, it is possible to clearly assign a particular timestamp to a particular product item so as to allow for a reliably tracing a particular product item, in particular in case of a malfunction of the production line.

[0031] FIG. 2 illustrates how to trace a product item 102, 104 using the first-in-first-out state (FIFO state). The counting sensor 20 recognizes the presence of a product item 102 at an empty FIFO state. When recognizing the presence of the product item 102, the sensor 20 issues a signal of recognition of the product item 102 which is received by the control unit 10 which then generates, based on the signal issued by the sensor 20, an event signal, namely to_print and stores this event signal in the FIFO data structure.

[0032] This step is repeated for every product item recognized by the counting sensor 20. Accordingly, the FIFO data structure reveals how many product items are on their way from the sensor 20 to the print head 22 so as to be printed. On their way to the print head 22, the brand identification system 14 and labelling static counter 16 illustrated in FIG. 1 recognize additional information with respect the respective product item which information is received by the control unit 10 and stored in the order of recognition in the FIFO structure so that the information can be clearly assigned to a particular product item in the FIFO data structure. This way it is clear which product item 102 is handled by the respective device so that the corresponding information can be clearly assigned to the particular product item.

[0033] When the product item 102 reaches the print head 22, the print head 22 prints a particular mark on the product item 102. The mark can e.g. comprise the information obtained from the other peripheral devices with respect to the particular product item as well as a timestamp generated by a timestamp counter, e.g. when the counting sensor 20 initially recognizes the presence of the product item 102.

[0034] After the print head 22 completed the printing step, it issues a product signal to the control unit 10 which is then transformed into an event signal. The marked product item 104 is thus assigned a different FIFO state, namely, to_read and is transported towards the quality camera 26 where the mark applied by the print head 22 is to be read.

[0035] Depending on the success of the printing step carried out by the print head 22 and the reading step carried out by the quality camera 26, the quality camera 26 issues the signal whether it was able to_read the mark, was unable to_read the mark but recognized ink or was unable to_read the mark and was also unable to recognize ink. Depending on the outcome of the quality camera measurement, the FIFO state assigned to the particular product item is changed by the control unit 10 to read, not_read with ink or not_read without ink so that it is possible for the user of the system to trace a malfunction of the production line.

[0036] Using the above described embodiment of a system of tracing a product item, it is no longer necessary to synchronize the different peripheral devices, but it is possible to reliably trace a particular product item in order to determine and identify a malfunction or irregularity of the production line.