Method for Automated Error Management in a Printing Machine

Abstract

The invention relates to a method for automated error management in a printing machine, wherein a recurring print image is imprinted on a moving material web. To improve automated error management for existing inspection systems, the invention provides a method wherein the print image is acquired by a line scan camera and forwarded to a control unit, in which a print error is recognized in the acquired print image, using an error recognition algorithm, and is saved by the control unit together with a position information and a status information. The position includes at least the margin position of the print error on the material web, and a plurality of recognized print errors are entered by the control unit in a cluster image depending on the position information and the status information, wherein the control unit recognizes an error cluster and error cluster information is output via the error cluster.

Claims

1. Method for automated error management in a printing machine, the method comprising: imprinting a recurring print image on a moving material web, acquiring, by a line scan camera, the print image and forwarding the print image to a control unit, recognizing, by the control unit, a print error in the acquired print image using an error recognition algorithm and saving, by the control unit, the print error together with a position information and a status information, wherein the position information at least includes a position from a margin of the error on the material web, entering, by the control unit, a plurality of recognized print errors in a cluster image depending on the position information and the status information, and recognizing, by the control unit, an error cluster and outputting error cluster information via the error cluster.

2. The method of claim 1, wherein the cluster image is a two-dimensional coordinate system, wherein the horizontal axis corresponds to the position from the margin and the vertical axis corresponds to a status information.

3. The method of claim 2, wherein the status information corresponds to a longitudinal distance from a previous error of a same type.

Description

[0013] The attached drawings describe further details and advantages of the invention.

[0014] FIG. 1 shows an overall view of the printing machine according to the invention, using the example of a flexographic printing machine,

[0015] FIG. 2 shows a detail view of FIG. 1 including a line scan camera and a moving material web, and

[0016] FIG. 3 shows a cluster image by way of example.

[0017] FIG. 1 shows an overall view of the printing machine according to the invention, using the example of a flexographic printing machine 101 having a line scan camera 102, a prepress phase 103, a control unit 104, and a control station 106. The control unit is installed at position 105 of the flexographic printing machine 101 and is shown separately for reasons of clarity.

[0018] The flexographic printing machine 101 is a so-called color impression machine and thus has a color impression drum 107 around which the eight color decks are installed in a satellite arrangement. Each of these color decks has a plate cylinder, an anilox mandrel and a doctor blade chamber, each of which are mounted on machine-side anchorages. Color deck 108 is labeled with the described components as an example of these eight color decks.

[0019] To imprint the material web 109, it is pulled off the material roll 111 in the unwinding station 110 and guided over several deflection rollers to the nip roller 112. The nip roller 112 places the material web 109 on the color impression drum 107 for further transport so that the material web 109 is moved with register accuracy past the color decks and the between-color dryers not shown in detail.

[0020] Once the material web 109 has left the color impression drum 107, it is moved through a bridge dryer 113 for drying the ink and is then wound onto the material roll 115 in the rewinding station 114.

[0021] The flexographic printing machine also features an inspection system for error recognition. For this purpose, an initial print image 118 (composite file) is saved together with the color separations from prepress 103 in the control unit 104, the prepress being connected to the control unit 104 via the cable. 117. The initial print image 118 is then compared to the actual print image acquired by the line scan camera 102 in the control unit 104, the line scan camera being connect to the control unit 104 via the cable 116.

[0022] FIG. 2 shows a detail view of FIG. 1 with a line scan camera and a moving material web. Since the corresponding reference signs were transferred from FIG. 1, reference should be made to the description of FIG. 1.

[0023] The method according to the invention is described by way of example in FIGS. 2 and 3:

[0024] The material web moving out of bridge dryer 113 was imprinted by the color decks 108 and thus features a recurring print image. The print image is not shown in FIG. 2 for reasons of simplicity. The line scan camera 102 acquires the print image and forwards it to the control unit 104 via cable 116. An error recognition algorithm is implemented in the control unit 104 to recognize printing errors.

[0025] If a print error is recognized by the error recognition algorithm, said error is saved by the control unit together with a position information and a status information, the position information including at least the position from the margin of the error on the material web.

[0026] Reference sign 201 designates a first print error and reference sign 202 designates a second print error on the moving material web 107, print errors 201 and 202 being of the same type. If the print error is recognized by the error recognition algorithm, the method according to the invention is not limited to merely displaying this error to the operator. Rather, the print error 201 is entered into a cluster image to thus provide an error diagnosis to the operator.

[0027] A cluster image as defined by the present invention generally is a multidimensional space, in which the control unit enters the recognized print errors depending on a position information and a status information of the respective print error. FIG. 3 shows a two-dimensional cluster by way of example, in which the margin information of the recognized print error is entered on the horizontal axis 301 and the relative distance to the previous error of the same type is entered on the vertical axis 302. For the print error 202 shown in FIG. 2, the margin distance x.sub.s is thus entered on the horizontal axis, and distance ?a is entered on the vertical axis. For specific errors, errors of the same type now form a point cloud, which is referred to as error cluster 303 in the definition of the present invention. Such an error cluster 303 is of major relevance for the operator because it is known that print errors within a cluster are generally caused by defective rollers.

[0028] Print errors within a cluster 303 thus are print errors that occur periodically at the same position crosswise to the web. Such errors are generally caused by defective rollers because the periodicity (i.e. the relative spacing of print errors in the movement direction of the web) matches the circumference of the corresponding damaged roller.

[0029] Rollers having a direct influence on the print image in a flexographic printing machine include, for example, the plate cylinders, the anilox mandrels, or the impression cylinder. Contamination, mechanical damage, or other irregularities are passed on to the print image during printing and generate the corresponding errors.

[0030] If the plate cylinder is the cause of the print error, the print error always appears in the same position in the print image. In that case, every rotation of the plate cylinder generates an error in the print image. The spacing between the errors thus corresponds exactly to the plate length (i.e. the circumference of the plate cylinder).

[0031] The situation is different for an anilox mandrel or the impression cylinder. In that case, the print error is only visible in the print image if there is a printable area in the position of the print error. However, the error does not necessarily appear in the print image with every turn of the cylinder. Rather, the relative spacing of the errors corresponds to the circumference of the impression cylinder and thus differs from the print length of the plate cylinder. That means the print error occurs at a different position of the print image.

[0032] If the circumferences of the corresponding cylinders are known, the spacing between the errors may be compared to these circumferences. This allows for assigning a cause to the error: If the print has the same periodicity as the longitudinal distance ?a and a specific cylinder also has the circumference ?a, the print error may be assigned to this cylinder.

[0033] In the case of the impression cylinder, the cause can thus be clearly identified. Furthermore, it may be feasible to specify the causal location on the impression cylinder based on suitable tracing of the web into the printing machine. If the operator therefore wants to stop the print order, it is further feasible for the control unit to stop the impression cylinder in such a way that the cause of the error on the impression cylinder is easily accessible to the operator.

[0034] In general, it is understood that the cluster image according to the invention as shown in FIG. 3 is not limited to the information entered therein. For example, alternative or additional entries on the vertical axis may include the temperature of the impression cylinder, the temperature of the printing ink, the viscosity of the printing ink or other status information. As in the case above, error clusters may also be formed for this status information to serve as the basis of identifying the causes of specific errors.

TABLE-US-00001 List of reference signs 101 Flexographic printing machine 102 Line scan camera 103 Pre-press phase 104 Control unit 105 Position of the flexographic printing machine 106 Control station 107 Color impression drum 108 Color deck 109 Material web 110 Unwinding station 111 Material roll 112 Nip roller 113 Bridge dryer 114 Rewinding station 115 Material roll 116 Cable 117 Cable 201 First print error 202 Second print error 301 Horizontal axis 302 Vertical axis 303 Error cluster