DE102019111318A1 - Method for inspecting a substrate and a printing machine with at least one applicator to which at least one pressure fluid is applied - Google Patents

Abstract

The invention relates to a method for inspecting a substrate to which at least one printing fluid is applied in a printing machine, with at least one applicator of the printing machine applying the at least one printing fluid to the at least one substrate, with the printing machine at least one sensor for detecting at least part of one of the substrate comprises remitted radiation, the at least one sensor comprising at least two sensor elements, each with a measurement signal of the intensity of the remitted radiation, the at least one sensor being coupled to an evaluation unit, the respective measurement signals of a plurality of sensor elements having an expected range of setpoint values of essentially the same Have the level of the intensity of the reflected radiation, the evaluation unit detecting the respective measurement signals of the sensor elements of the sensor and a comparison of the respective measurement signal of the respective sensor element to the respective E The evaluation unit detects at least one fault in the substrate when a relevant measurement signal from a relevant sensor element deviates from the expected range. The invention also relates to a corresponding printing machine.

Description

The invention relates to a method for inspecting a substrate to which at least one pressure fluid is applied, according to the preamble of claim 1, and a printing machine with at least one applicator according to the preamble of claim 14.

The DE 10 2007 061 899 A1 a printing machine with a light source, a sensor system that detects the radiation from the light source and an evaluation unit coupled to the sensor system in terms of circuit technology or data technology can be taken.

The invention is based on the object of creating a method for inspecting a substrate to which at least one pressure fluid is applied and a printing machine with at least one applicator.

The object is achieved according to the invention by the features of claim 1 and claim 14. The dependent claims show advantageous developments and / or embodiments of the solution found.

The advantages that can be achieved with the invention are in particular that an inspection of a substrate exposed to at least one pressure fluid, in particular paint, can be carried out, in particular with regard to at least one malfunction. Advantageously, a disruption which is pronounced as at least one fold and / or bulge and / or bulge of the respective substrate can be detected via the reflectance behavior of the surface of the respective substrate. Advantageously, it is thus possible to eject a substrate afflicted with the disorder from the printing press separately from substrates not afflicted with a disorder and / or in the transport direction of the substrate to the disrupted substrate and / or subsequent areas of the substrate before the occurrence of the To protect the disturbance by an adapted regulation and / or control and / or to prevent the occurrence of the disturbance.

In an advantageous embodiment, respective measurement signals from a plurality of sensor elements of a sensor have an expected range of setpoint values of essentially the same level of intensity of reflected radiation. This expected range is preferably determined by the respective setpoint values. The respective setpoint value is advantageously established at at least one position on the substrate to which the at least one pressure fluid is applied. Thus, a comparison of a position of the substrate not acted upon by pressurized fluid with a position acted upon by pressurized fluid is preferably not necessary.

In an advantageous embodiment, the at least one inspection device is arranged in the transport direction from the substrate to at least one application unit, preferably a coating unit or priming unit. This advantageously enables an inspection of the substrate within the printing press to which printing fluid, in particular paint, is applied by the applicator. The at least one inspection device is advantageously arranged, for example, additionally or alternatively in the transport direction from the substrate to at least one printing unit. An inspection of the respective substrate to which pressure fluid is applied by the printing unit is advantageously possible in a simple manner following the respective printing unit within the printing press. In an advantageous embodiment, at least two inspection devices are arranged within the printing machine, whereby the application of the substrate can be inspected preferably after at least two and / or every application unit and / or printing unit.

The inspection of the substrate in the transport direction is advantageously carried out in front of at least one dryer. This ensures that the at least one pressure fluid at least partially has a moist state and / or is not completely dried at the time of the inspection. This advantageously increases a gloss effect on the surface of the substrate to which the pressure fluid is applied, whereby the inspection is facilitated. In particular, a substrate exposed to transparent printing fluid, preferably transparent lacquer, can be inspected in a simple manner within the printing machine, preferably without interrupting a production process of the printing machine. Advantageously, areas of the substrate that are exposed to pressure fluid over a large area can be inspected in a simple manner.

Embodiments of the invention are shown in the drawings and are described in more detail below.

• 1 eine beispielhafte Druckmaschine mit mindestens einer Inspektionseinrichtung zur Verarbeitung von rollenförmigem Substrat;
• 2 eine weitere beispielhafte Druckmaschine mit mindestens einer Inspektionseinrichtung zur Verarbeitung von bogenförmigem Substrat;
• 3 einen schematischen Messaufbau umfassend zumindest eine Lichtquelle, zumindest einen Sensor und ein zu inspizierendes Substrat;
• 4 einen schematischen Messaufbau an Substrat ohne Störung;
• 5 einen schematischen Messaufbau an Substrat mit Störung.

Show it:

• 1 an exemplary printing machine with at least one inspection device for processing roll-shaped substrate;
• 2 a further exemplary printing press with at least one inspection device for processing sheet-shaped substrate;
• 3 a schematic measurement setup comprising at least one light source, at least one sensor and a substrate to be inspected;
• 4th a schematic measurement setup on the substrate without interference;
• 5 a schematic measurement setup on substrate with interference.

In this document, a printing machine is a machine which applies at least one printing fluid to at least one substrate 01 applies and / or is capable of applying. Within this document, a printing machine is preferably also to be understood as a coating machine and / or impregnation machine, in particular a coating machine and / or impregnation machine for coating and / or impregnating substrate 01 for example for a decorative print. The printing press comprises at least one application unit 201 ; 401 , preferably at least one coating unit 401 and / or at least a primer 201 . It preferably includes a painting unit 400 trained unit 400 at least one coating unit 401 and at least one dryer 402 . Preferably includes a primer unit 200 trained unit 200 at least one primer 201 and at least one dryer 202 .

The printing press also preferably includes at least one substrate supply 100 and / or preferably at least one as a printing unit 300 trained unit 300 and / or at least one substrate release 500 . At least one printing unit 300 preferably has at least one printing unit 301 ; 302 ; 303 ; 304 on. The printing unit preferably has 300 in addition to the at least one printing unit 301 ; 302 ; 303 ; 304 at least a dryer 305 , preferably one dryer each 305 per printing unit 301 ; 302 ; 303 ; 304 , on. The printing unit is preferred 301 ; 302 ; 303 ; 304 each designed as a non-impact printing unit, in particular as an inkjet printing unit, preferably an inkjet printing unit. Additionally or alternatively there is at least one printing unit 301 ; 302 ; 303 ; 304 for example designed as an offset printing unit or flexographic printing unit.

The substrate 01 is in the preceding and in the following by the at least one unit 200 ; 300 ; 400 the printing machine with a lacquer and / or printing fluid, can be and / or acted upon. Preferably the substrate is 01 designed as paper and / or cardboard and / or film, for example a plastic film, and / or textile and / or metal. The substrate 01 is designed in particular as a web or sheet. Preferably designates a maximum width of the substrate 01 the maximum expansion of the respective substrate 01 orthogonal to a transport direction T of substrate 01 , preferably in the direction of a maximum working width of the printing machine. Preferably the substrate is 01 to a product of the printing machine, in particular an intermediate product for the production of an end product, such as preferably a decorative paper or a decorative film, can be processed by at least one processing in the printing machine.

The direction of transport T of substrate 01 is a direction provided in the printing machine in which the substrate 01 is transported in the event of its presence at any point on a transport route. The one for the transport of a substrate 01 designated space area the substrate 01 in the case of his presence at least partially occupies, is the transport route. The transport route is determined by at least one transport means, in particular by at least one substrate guide element. The at least one substrate guiding element is preferably in each case as at least one roller and / or at least one cylinder and / or at least one support and / or at least one other device for guiding the substrate 01 educated. The at least one substrate guide element is preferably used for guiding the substrate 01 at least in one the respective substrate 01 , preferably in the direction of transport T , moving operating state of the printing machine.

In the preceding and in the following, the working width is the maximum width orthogonal to the transport direction T who have favourited a substrate 01 may have to still use the at least one unit 200 ; 300 ; 400 the printing machine can be processed. This therefore corresponds to the maximum with the at least one unit 200 ; 300 ; 400 the printing machine processable width orthogonal to the transport direction T of the respective substrate 01 .

The primer is preferred 201 at least one printing fluid, in particular a primer, preferably as a primer, on the at least one substrate 01 trained acting. The primer is preferred as an adhesion promoter for one in the transport direction T of substrate 01 after the priming unit 200 applied printing fluid, in particular lacquer, and additionally or alternatively the adjustment of the surface tension of the respective substrate 01 educated.

This is preferably at least one printing unit 301 ; 302 ; 303 ; 304 of the printing unit 300 at least one printing fluid, in particular at least one ink or printing ink, preferably in a finely structured form and / or not only over a large area on the at least one substrate 01 trained acting. Preferably has a substrate 01 with at least one through the printing unit 301 ; 302 ; 303 ; 304 applied printing fluid, in particular printing ink or ink, at least one preferably finely structured print image containing image information.

The coating unit is preferred 401 of the painting unit 400 at least one printing fluid, in particular at least one lacquer, preferably an oil printing lacquer or dispersion lacquer or solvent lacquer or UV lacquer or functional lacquer, more preferably a transparent lacquer, on the at least one substrate 01 preferably designed to act at least for finishing.

This is preferably at least one application work 201 ; 401 the printing press, preferably the primer 201 and / or the coating unit 401 for applying the at least one printing fluid, in particular the at least one lacquer, to the at least one substrate 01 educated.

The at least one substrate is preferred 01 acted upon by at least one pressure fluid in the printing machine. The at least one substrate is preferred 01 uniformly acted upon with the at least one pressure fluid. A uniform application of pressure fluid, in particular paint, designates preferably across the width orthogonal to the transport direction T and / or over the length parallel to the transport direction T of the pressurized fluid substrate 01 a uniform application rate of the printing fluid on the respective substrate 01 . A uniform application rate of the printing fluid preferably denotes a global application rate, the respective local application rate spreading over the width and / or length of the substrate 01 differs by a maximum of 10% of the global order rate from a target value of the global order rate. Additionally or alternatively, a uniform application of pressure fluid preferably denotes a thickness of the layer of pressure fluid on the respective substrate 01 , whereby the respective local layer thickness of the printing fluid extends over the width and / or length of the substrate 01 or width and / or length of the area of the substrate acted upon by pressurized fluid 01 differs by a maximum of 10% from a target value for the layer thickness. The application work is preferred 201 ; 401 , especially the primer 201 and / or the coating unit 401 , the printing fluid, preferably the at least one lacquer, over a large area, that is, not only in a limited area of the respective substrate 01 , on the respective substrate 01 trained acting. The application work is preferred 201 ; 401 the at least one pressure fluid on the at least one substrate 01 over at least 60%, preferably at least 80%, more preferably at least 90%, of the maximum width of the respective substrate 01 designed to act evenly. The order work is preferably 201 ; 401 , especially the primer 201 and / or the coating unit 401 , the at least one printing fluid, in particular the at least one lacquer, onto the at least one substrate 01 over at least 60%, preferably at least 80%, more preferably at least 90%, of the maximum width of the respective substrate 01 orthogonal to the transport direction T , and additionally or alternatively in the transport direction T over at least 40%, preferably at least 60%, more preferably at least 80%, more preferably at least 90%, of the length of the respective substrate 01 in transport direction T preferably designed to act uniformly.

In the foregoing and in the following, the printing fluid denotes inks, printing inks and / or lacquers, as well as other materials that are produced by the printing machine or at least one unit 200 ; 300 ; 400 the printing machine are transferred to a substrate and / or can be transferred. The pressure fluid, preferably in a finely structured form and / or not only over a large area, creates a texture on the substrate that is preferably visible and / or perceptible through sensory impressions and / or that can be detected by machine. Inks and printing inks are preferably solutions or dispersions of at least one colorant in at least one solvent. Examples of suitable solvents are water and / or organic solvents. Alternatively or additionally, the printing fluid can be designed as a printing fluid that cross-links under UV light. Inks are relatively low viscosity printing fluids and printing inks are relatively high viscosity printing fluids. Inks have no binder or relatively little binder, while printing inks preferably contain a relatively large amount of binder and, more preferably, further auxiliaries. Colorants can be pigments and / or dyes, pigments being insoluble in the application medium, while dyes are soluble in the application medium. Inks which identify dyes as colorants, in particular, preferably have no binder.

Lacquers are preferably the respective substrate 01 ennobling and / or protective. Varnishes preferably refer to oil print varnishes or dispersion varnishes or solvent varnishes or UV varnishes or functional varnishes; they preferably have at least one additional task in addition to refining the substrate 01 on. The one in the at least one priming unit is preferred 201 and / or coating unit 401 processed lacquer at least partially, preferably completely, transparent or translucent. This is preferred through the at least one application unit 201 ; 401 , preferably by the at least one primer 201 and / or coating unit 401 , acted upon and / or actable pressure fluid designed as a transparent lacquer and / or UV lacquer. The primer, preferably through the at least one primer 201 on the respective substrate 01 can be acted upon and / or acted upon, is preferably a lacquer, in particular a dispersion lacquer, which preferably promotes adhesion between the surface of the substrate 01 and at least one after the at least one primer 201 applied pressure fluid, for example by the coating unit 401 applied paint is formed.

In particular, a lacquer, preferably a transparent lacquer, is designed to be at least partially remitting incident radiation. A region of the at least one substrate exposed to pressure fluid, preferably lacquer, preferably has 01 an increased remission compared to an area of the substrate 01 without pressurized fluid. In the case of a remission of radiation, one on the substrate is preferred 01 incident electromagnetic radiation at least partially absorbed and at least partially transmitted and / or reflected. A substrate to which a pressure fluid, in particular paint, is applied 01 perceived as shiny. This gloss effect is preferably increased as long as the printing fluid is in an at least partially moist state on the substrate 01 is present, i.e. not yet completely dried.

The printing press preferably comprises at least one inspection device 02 . The printing press preferably comprises at least one sensor 04 for sensing at least a portion of one of the substrate 01 remitted radiation. The printing press preferably comprises at least one light source 03 for emitting the radiation, preferably electromagnetic radiation. The at least one inspection facility 02 the printing press preferably comprises the at least one light source 03 and the at least one sensor 04 .

The at least one inspection device is preferred 02 , in particular the at least one light source 03 and the at least one sensor 04 , in the transport direction T of substrate 01 in the printing press after the at least one job unit 201 ; 401 , preferably after at least one primer 201 and / or coating unit 401 , arranged.

Alternatively or additionally, the at least one inspection device is preferred 02 in transport direction T of substrate 01 in the printing press after the at least one printing unit 301 ; 302 ; 303 ; 304 arranged to generate the at least one print image.

Additionally or alternatively, the at least one inspection device is preferred 02 in transport direction T of substrate 01 in front of at least one dryer 202 ; 305 ; 402 the printing machine arranged. The at least one inspection device is preferred 02 after at least one commissioned work 201 ; 401 or printing unit 301 ; 302 ; 303 ; 304 and in front of the respective commissioned work 201 ; 401 or printing unit 301 ; 302 ; 303 ; 304 associated dryer 202 ; 305 ; 402 arranged. The at least one inspection device is preferred 02 in transport direction T of substrate 01 after the coating unit 401 and in front of at least one dryer 402 of the respective coating unit 401 and / or after the printing unit 301 ; 302 ; 303 ; 304 and in front of at least one dryer 305 of the respective printing unit 301 ; 302 ; 303 ; 304 and / or after the primer 201 and in front of at least one dryer 202 of the respective primer 201 arranged.

In a preferred embodiment, the printing press comprises at least two inspection devices 02 . One inspection device is preferred in each case 02 in transport direction T of substrate 01 after the coating unit 401 and in front of at least one dryer 402 of the respective coating unit 401 , or after the printing unit 301 ; 302 ; 303 ; 304 and in front of at least one dryer 305 of the respective printing unit 301 ; 302 ; 303 ; 304 , or after the primer 201 and in front of at least one dryer 202 of the respective primer 201 arranged. Thus, there is preferably an inspection device in at least two of the positions mentioned here within the printing press 02 arranged. The application of substrate is preferred, preferably after at least two, preferably after each, of the respective application units 201 ; 401 and / or printing units 301 ; 302 ; 303 ; 304 inspected.

The at least one light source 03 is preferably electromagnetic radiation, in particular as at least one incident beam 07 , designed to be emitting. The at least one light source is preferred 03 , especially the at least one incident beam 07 the light source 03 , on the substrate 01 in an area of the respective substrate previously exposed to pressure fluid 01 directed. At least two mutually parallel incident rays are preferred 07 the at least one light source 03 on the at least one substrate 01 directed. The at least one light source is preferred 03 , especially the at least one incident beam 07 the at least one light source 03 , at an acute angle to the respective substrate 01 directed. For example, the light source is an alternative 03 not directly on the respective substrate 01 arranged directed, but emits at least one incident beam 07 , which via at least one lens and / or at least one mirror and / or at least one reflective surface and / or at least one prism onto the substrate 01 in an area of the respective substrate previously exposed to pressure fluid 01 is directed. This results in between the transport direction T of the substrate 01 in that area on which the light source 03 and / or the incident beam 07 is directed, and the respective incident ray 07 an angle of incidence a. The angle of incidence is preferred α less than 90 ° (ninety degrees), preferably at least 20 ° (twenty degrees) and a maximum of 80 ° (eighty degrees), more preferably 45 ° (forty-five degrees), and thus preferably at an acute angle.

The at least one light source is preferred 03 designed as a light emitting diode, LED for short, at least one color and / or laser diode. The light source is preferred 03 designed to emit directional radiation. Alternatively or additionally, there is preferably between the light source 03 and the respective substrate 01 at least one optic, preferably at least one polarization filter and / or at least one lens, arranged, whereby preferably the at least an incident ray 07 as directed radiation onto the respective substrate 01 meets and / or is appropriately trained. The at least one light source is preferred 03 Emitting electromagnetic radiation in the visible range. The electromagnetic radiation preferably has at least one wavelength, preferably a plurality of wavelengths, of at least 380 nm (three hundred and eighty nanometers) and a maximum of 780 nm (seven hundred and eighty nanometers) in the visible range. Alternatively, the at least one light source is preferably 03 designed to emit electromagnetic radiation outside the visible range. The electromagnetic radiation outside the visible range is preferred as UV radiation with at least one wavelength of at least 100 nm (one hundred nanometers) and a maximum of 400 nm (four hundred nanometers) or as infrared radiation with at least one wavelength of at least 780 nm (seven hundred and eighty nanometers) and 3000 nm (three thousand nanometers) maximum.

The at least one light source is preferred 03 designed as line lighting. The at least one light source preferably extends 03 orthogonal to the transport direction T over the entire working width of the printing machine, more preferably over the entire working width.

It is preferably from the at least one light source 03 emitted radiation, in particular the at least one incident beam 07 , on the respective substrate 01 in the area of the substrate previously exposed to pressure fluid 01 directed. The substrate is preferred 01 , in particular in the area of the substrate previously exposed to pressure fluid 01 at least partially remitting the radiation, preferably at least partially at the angle of reflection β remitting, trained. Those of the respective substrate 01 remitted radiation is preferred as at least one exit beam 08 formed, which is preferred to the transport direction T of the substrate 01 in that area on which the light source 03 and / or the incident beam 07 is directed to the angle of failure β having. The angle of emergence is preferred β less than 90 ° (ninety degrees), preferably at least 20 ° (twenty degrees) and a maximum of 80 ° (eighty degrees), more preferably 45 ° (forty-five degrees), and thus preferably at an acute angle. Incidence angles are preferred α and failure angle β same size. Alternatively, the angle of failure is β preferably 90 ° (ninety degrees) to the direction of transport T of the substrate 01 in that area on which the light source 03 and / or the incident beam 07 is directed.

The at least one sensor is preferred 04 the at least one outgoing beam 08 at least partially designed to capture. The at least one sensor is preferred 04 for detecting at least a portion of the from the substrate 01 formed remitted radiation, in particular for detecting at least a portion of the light source 03 emitted radiation. The at least one sensor is preferred 04 only those outgoing rays 08 designed to detect their failure angle β corresponds to the angle at which the relevant sensor 04 to the transport direction T in that area on which the light source 03 and / or the incident beam 07 is directed, is arranged. The at least one sensor is preferred 04 on the substrate 01 directed in that area on which the light source 03 and / or the incident beam 07 is directed. The at least one sensor is preferred 04 to the transport direction T in that area on which the light source 03 and / or the incident beam 07 is directed at an angle which is the angle of failure β of the at least one outgoing ray 08 corresponds, arranged. The sensor is preferred 04 thus at an acute angle, preferably at one of the angles of incidence α corresponding failure angle β , or orthogonal, preferably if the angle of reflection β 90 ° (ninety degrees) to the transport direction T arranged and on that area of the substrate 01 directed to which the light source 03 and / or the incident beam 07 is directed.

The at least one sensor 04 for detecting at least a portion of the from the substrate 01 remitted radiation is preferably designed as a camera, more preferably as a color camera, more preferably as a contact image sensor, preferably as at least one semiconductor sensor having at least one CCD sensor or CMOS sensor. The at least one sensor is preferred 04 designed as a line camera or area camera. The at least one sensor preferably extends 04 orthogonal to the transport direction T over the entire working width of the at least one unit 200 ; 300 ; 400 the printing press. The sensor preferably comprises 04 at least one lens, preferably at least one graded index fiber. In the case of the gradient index fiber, the refractive index preferably decreases continuously towards the edge of the lens, whereby, for example, a total reflection of electromagnetic rays at the edge of the lens is avoided.

The at least one sensor preferably comprises 04 at least two sensor elements, preferably at least 64 sensor elements, preferably at least 600 sensor elements, each with a measurement signal of the intensity of the reflected radiation. The sensor preferably has 04 a resolution of at least 200 dpi (two hundred dots per inch), preferably of at least 1000 dpi (one thousand dots per inch), more preferably of at least 1200 dpi (one thousand two hundred dots per inch). The one sensor element preferably points in each case orthogonally to the transport direction T , preferably parallel to the working width of the printing machine, a width of at least 5 mm (five millimeters), more preferably of at least 14 mm (fourteen millimeters), and / or a width orthogonal to the transport direction T of a maximum of 25 mm (twenty-five millimeters), more preferably of a maximum of 20 mm (twenty millimeters). The one sensor element in each case preferably points in the direction of transport T a length of at least 0.2 mm (zero point two millimeters), more preferably of at least 0.25 mm (zero point two five millimeters), and / or a maximum length of 0.6 mm (zero point six millimeters), further preferably of a maximum of 0.55 mm (zero point five five millimeters). Two adjacent sensor elements, preferably two orthogonal to the transport direction T adjacent sensor elements within the sensor 04 preferably have a distance from one another of at least 0.005 mm (zero point zero one five millimeters), preferably of at least 0.015 mm (zero point zero one five millimeters). Two adjacent sensor elements, preferably two orthogonal to the transport direction T adjacent sensor elements within the sensor 04 preferably have a distance from one another of a maximum of 0.05 mm (zero point zero five millimeters), preferably of a maximum of 0.03 mm (zero point zero three millimeters).

The one sensor element in each case is preferably designed as a photodiode and / or preferably defines a respective image point, in particular a pixel. The pixel is preferably formed at right angles, in particular square. A photodiode is preferably a semiconductor diode which, for example, converts visible radiation into an electrical voltage through an internal photo effect. In each case, the one sensor element is preferably used to acquire at least one piece of brightness information, in particular the intensity of the respective substrate 01 remitted radiation and preferably additionally converting the respective brightness information, in particular the intensity, into electrical voltage, preferably into the respective measurement signal.

The sensor is preferred 04 additionally designed so that a on the substrate 01 generated print image is at least partially detected and / or can be detected. The printing machine preferably comprises at least one on the respective substrate 01 at least one printing unit generating a print image 301 ; 302 ; 303 ; 304 , for example at least one printing unit designed as an inkjet printing unit and / or an inkjet printing unit 301 ; 302 ; 303 ; 304 , and the at least one sensor is preferred 04 to inspect the at least one print image of the respective substrate 01 educated. For example, the sensor is also 04 Designed to capture information with respect to a uniformity of the control of nozzles of at least one print head of the at least one printing unit 301 ; 302 ; 303 ; 304 (banding compensation) and / or the arrangement of print heads of the at least one printing unit 301 ; 302 ; 303 ; 304 to each other (stitching) and / or the function of nozzles of at least one print head of the at least one printing unit 301 ; 302 ; 303 ; 304 (missing lines). This is preferred through at least one printing unit 301 ; 302 ; 303 ; 304 generated print image information relating to the arrangement of print heads of the respective at least one printing unit 301 ; 302 ; 303 ; 304 trained to deliver.

The at least one light source is preferred 03 and / or the at least one sensor 04 each designed to be stationary. The light sources are preferred 03 , especially the at least one incident beam 07 , and / or the sensor 04 in each case in a fixed angular position, preferably in each case at an acute angle, to the respective substrate 01 , preferably to the transport route of the respective substrate 01 in transport direction T , arranged. The at least one light source is preferred 03 and / or the sensor 04 each designed to extend at least over the entire working width of the printing machine.

The sensor is preferred 04 for acquiring at least one measured value of the intensity of the remitted radiation in the form of the at least one exit beam 08 , in particular the radiation remitted in that area on which the light source 03 and / or the incident beam 07 is directed, trained. The sensor is preferred 04 during the transport of substrate 01 in transport direction T within the printing press at least temporarily, for example after at least a fixed period of time, designed to detect the remitted radiation. The sensor is also preferred 04 during the transport of substrate 01 in transport direction T within the printing press designed to detect the remitted radiation permanently and / or continuously.

The respective sensor element preferably has the sensor 04 the one measurement signal of the intensity of the reflected radiation. The respective measurement signals of a multiplicity of sensor elements preferably have an expected range of setpoint values of essentially the same level of intensity of the remitted radiation. The respective expected range is preferably determined by the respective setpoint values. An essentially equal level preferably describes that the respective setpoint values are preferably designed to differ from one another by a maximum of 20%, preferably a maximum of 10%, more preferably a maximum of 5%, of their level of the intensity of the remitted radiation. The setpoint values of the intensity of the remitted radiation within their tolerance, the deviation by a maximum of 20%, preferably a maximum of 10%, more preferably a maximum of 5%, their level of the intensity of the remitted radiation from one another, preferably have essentially one same height. Additionally or alternatively, for example, the respective expectation range preferably has a tolerance range of a maximum of 10% of the expectation range, preferably a maximum of 5% of the expectation range. Within a preferred embodiment, the respective expected range is designed as an expected value. The expectation range preferably has an upper limit and a lower limit within which the setpoint values of the relevant expectation range are located. The upper limit and / or the lower limit of the respective expectation range is preferably designed to be adjustable and / or predeterminable, for example by the operating personnel of the printing press and / or for example a control device.

The respective setpoint value preferably has a level of intensity of the remitted radiation that does not interfere with the measurement signal of the relevant sensor element 06 afflicted position of the substrate 01 corresponds. The respective target value preferably has a level of the intensity of the remitted radiation that corresponds to the measurement signal of the relevant sensor element preferably as precisely as possible, preferably with a deviation from the respective measurement signal by a maximum of 15%, preferably a maximum of 10%, more preferably a maximum of 5%, not having a glitch 06 afflicted position of the substrate 01 corresponds. The respective target value is preferably at at least one position on the substrate 01 set which is acted upon by the at least one pressure fluid. The respective setpoint value is preferably at a position of the substrate to which pressurized fluid is applied which is assigned to the relevant sensor element 01 set.

Preferably point orthogonally to the transport direction T of substrate 01 Sensor elements arranged directly next to one another, preferably adjacent to one another, in a range of at least 5%, preferably of at least 20%, more preferably of at least 40%, of the working width of the printing machine each have an expected range of setpoint values of essentially the same height.

The at least one is preferably a sensor 04 with an evaluation unit, preferably in terms of circuitry and / or data technology, coupled. The sensor is preferred 04 designed to transmit the respective measurement signals of the intensity of the reflected radiation from a plurality of sensor elements to the evaluation unit, for example as a pulse in the form of electrical voltage. The evaluation unit is preferably the respective measurement signals of the sensor elements of the sensor 04 , for example the pulse sent out by the sensor 04 , trained to capture.

The evaluation unit is preferably designed to carry out a comparison of the respective measurement signal of the respective sensor element with the respective expected range relating to the respective measurement signal. For example, the evaluation unit determines a difference between the respective measurement signal and the respective expected range for the comparison. Alternatively, further means for determining the comparison are also possible, for example the comparison via the formation of a quotient of the respective measurement signal to the respective expectation range. The evaluation unit is preferably that of the at least one sensor 04 detected intensity of the remitted radiation with the at least one expected area of the intensity of the remitted radiation on the expected area evenly acted upon by printing fluid, preferably lacquer, formed comparing. The evaluation unit is preferably used to measure the at least one sensor 04 to compare the detected intensity of the remitted radiation with at least the expected range of the intensity of the remitted radiation at the expected area evenly exposed to printing fluid, preferably paint.

The evaluation unit is preferably at least one disturbance in the event of a deviation of the relevant measurement signal of a relevant sensor element from the expected range 06 of the substrate 01 , preferably of the area of the substrate exposed to pressure fluid, in particular lacquer 01 , noticing trained. In the event of a deviation of the respective measurement signal of the detected intensity of the remitted radiation from the respective expected range, the evaluation unit preferably provides at least one disturbance 06 the area of the respective substrate exposed to pressure fluid 01 firmly.

The evaluation unit is preferably the at least one disturbance when the relevant measurement signal of the relevant sensor element deviates from the expected range 06 of the substrate 01 at a position of the substrate assigned to the relevant sensor element 01 noticeably trained. Preferably, the evaluation unit is at least one interference when the lower limit of the expected range is undershot or the upper limit of the expected range is exceeded by the relevant measurement signal 06 of the substrate 01 noticeably trained.

A deviation of the detected intensity of the remitted radiation from the respective expected range preferably describes one caused by the sensor 04 recorded intensity outside the tolerance range of the respective expected range. A deviation of the detected intensity of the remitted radiation from the respective expected range is preferably established by the respective measurement signal falling below the lower limit of the expected range or exceeding the upper limit of the expected range.

The disorder 06 referred to above and below, preferably at a position of the substrate exposed to pressure fluid 01 preferably at least one unplanned and / or unwanted change of at least one property of the respective substrate 01 and / or the surface of the respective substrate 01 and / or the at least one on the respective substrate 01 applied pressure fluid, in particular paint. The identified disorder is preferred 06 of the substrate in question 01 than at least a fold 06 and / or bulge and / or curvature of the substrate 01 educated. For example, there is also at least one fault 06 in the case of an at least partially incorrectly applied printing fluid, in particular paint, for example in the case of an unevenly distributed two-dimensional application of printing fluid on the respective substrate 01 . Preferably one of one has at least one disorder 06 afflicted position of the substrate 01 remitted outgoing beam 08 a failure angle β on that differs from the angle of failure β of an outgoing ray 08 remitted by a not having a disorder 06 afflicted position of the substrate in question 01 differs. The at least one is preferably a sensor 04 the outgoing beam 08 which of one with a disorder 06 afflicted position of the substrate 01 was remitted, preferably not or only partially designed to detect.

Preferably there is no disturbance 06 in the event of a planned or intentional change in the sensor 04 detected intensity of the remitted radiation. For example, in the event of a transition of a region of the substrate that is planned or intentionally not acted upon by pressure fluid 01 to a region of the substrate exposed to at least one pressure fluid, in particular lacquer 01 or conversely, there is preferably no disturbance 06 in front.

It is preferably that of the at least one sensor 04 recorded intensity of the remitted radiation and thus the relevant measurement signal in the event of a fault 06 lower than the value of the respective expected range. The reason for this is, for example, that of the disorder 06 remitted outgoing beam 08 for example due to the scattering behavior and the resulting changed angle of reflection β not or only partially from the at least one sensor 04 is or is being detected. In particular if this is done by the at least one sensor 04 The recorded measurement signal is outside the expected range, i.e. the recorded measurement signal falls below the lower limit or exceeds the upper limit of the expected range, for example in the case of a lower measured intensity relative to the respective expected range, the evaluation unit is a deviation from the respective expected range, a Disorder 06 , noticing trained.

The evaluation unit is preferably used in the event of an identified fault 06 designed to issue a warning signal. For example, the evaluation unit is in the event of a detected fault 06 a control signal and / or regulating signal to at least one component of the printing press, for example to at least one unit 200 ; 300 ; 400 and / or designed to transmit to at least one substrate guide element. For example, the control and / or regulation of the guidance of the at least one substrate is thus 01 adaptable along the transport path within the printing press by the at least one control signal and / or regulating signal. The control and / or regulation can preferably be adapted to the at least one disturbance 06 of the substrate in question 01 to be fixed and additionally or alternatively others in the direction of transport T on the substrate in question 01 subsequent substrates 01 and / or others not previously affected by the fault in question 06 affected areas of the substrate concerned 01 before the at least one fault occurs 06 to protect.

List of reference symbols

01

Substrate

02

Inspection facility

03

Light source

04

sensor

05

-

06

Disorder, fold

07

Incident ray

08

Outgoing beam

100

Substrate supply

200

Aggregate; Priming unit

201

Application work, primer work

202

dryer

300

Aggregate; Printing unit

301

Printing unit

302

Printing unit

303

Printing unit

304

Printing unit

305

dryer

400

Aggregate; Painting unit

401

Application unit, coating unit

402

dryer

500

Substrate release

T

Transport direction

α

Angle of incidence

β

Failure angle

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• DE 102007061899 A1 [0002]

Claims (26)

Method for inspecting a substrate (01) to which at least one printing fluid is applied in a printing machine, wherein at least one applicator (201; 401) of the printing machine applies the at least one printing fluid to the at least one substrate (01), wherein the printing machine has at least one sensor (04 ) for detecting at least part of a radiation remitted by the substrate (01), the at least one sensor (04) comprising at least two sensor elements each with a measurement signal of the intensity of the remitted radiation, the at least one sensor (04) having an evaluation unit is coupled, characterized in that the respective measurement signals of a plurality of sensor elements have an expected range of setpoint values of essentially the same level of intensity of the reflected radiation, that the evaluation unit detects the respective measurement signals of the sensor elements of the sensor (04) and a comparison of the respective Measuring signal of the respective When the sensor element is in a hurry for the respective expected range, the evaluation unit detects at least one fault (06) in the substrate (01) if a relevant measurement signal from a relevant sensor element deviates from the expected range. Procedure according to Claim 1 , characterized in that the respective expected range is determined by the respective setpoint values and that the respective setpoint values differ from one another by a maximum of 20% of their intensity of the reflected radiation. Procedure according to Claim 1 and / or 2, characterized in that the respective target value has a level of the intensity of the remitted radiation which is the measurement signal of the relevant sensor element with a deviation from the respective measurement signal by a maximum of 15% at a position of the not subject to a disturbance (06) Substrates (01) corresponds. Procedure according to Claim 1 and / or 2 and / or 3, characterized in that the respective setpoint value is established at a position of the substrate (01) to which the pressure fluid is applied, which position is assigned to the relevant sensor element. Procedure according to Claim 1 and / or 2 and / or 3 and / or 4, characterized in that orthogonally to a transport direction (T) of substrate (01) directly adjacent sensor elements in an area of at least 5% of a working width of the printing machine each have an expected range of setpoint values of have essentially the same height. Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5, characterized in that the evaluation unit at least one disturbance (06) of the substrate if the lower limit of the expected range is undershot or an upper limit of the expected range is exceeded by the relevant measurement signal (01) notices. Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5 and / or 6, characterized in that the printing fluid acted upon and / or acted upon by the at least one applicator (201; 401) is a transparent lacquer and / or UV Paint is formed. Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5 and / or 6 and / or 7, characterized in that the applicator (201; 401) applies the at least one pressure fluid to the at least one substrate (01) via at least 60% of a maximum width of the respective substrate (01) is applied uniformly. Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5 and / or 6 and / or 7 and / or 8, characterized in that at least one inspection device (02) of the printing press has at least one light source (03) and the at least a sensor (04), and that the inspection device (02) in the transport direction (T) of the substrate (01) in the printing press after the at least one applicator (201; 401) and / or in the transport direction (T) of the substrate (01) is arranged in front of at least one dryer (202; 305; 402) of the printing press. Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5 and / or 6 and / or 7 and / or 8 and / or 9, characterized in that the at least one sensor (04) is designed as a line camera or area camera . Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5 and / or 6 and / or 7 and / or 8 and / or 9 and / or 10, characterized in that the detected fault (06) of the relevant substrate (01) is designed as at least one fold (06) and / or bulge and / or curvature of the substrate (01). Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5 and / or 6 and / or 7 and / or 8 and / or 9 and / or 10 and / or 11, characterized in that at least one inspection device (02 ) the printing machine comprises at least one light source (03) and the at least one sensor (04) and that the inspection device (02) in the transport direction (T) of the substrate (01) in the printing machine after at least one Printing unit (301; 302; 303; 304) of the printing machine is arranged for generating at least one print image. Procedure according to Claim 1 and / or 2 and / or 3 and / or 4 and / or 5 and / or 6 and / or 7 and / or 8 and / or 9 and / or 10 and / or 11 and / or 12, characterized in that the Printing machine comprises at least one printing unit (301; 302; 303; 304) generating at least one print image on the respective substrate (01) and that the at least one sensor (04) is designed to inspect the at least one print image of the respective substrate (01). Printing machine with at least one applicator (201; 401), the applicator (201; 401) being designed to apply at least one printing fluid to at least one substrate (01), the printing machine having at least one sensor (04) for detecting at least part of a radiation remitted by the substrate (01), the at least one sensor (04) comprising at least two sensor elements, each with a measurement signal of the intensity of the remitted radiation, the at least one sensor (04) being coupled to an evaluation unit, characterized in that the respective measurement signals of a plurality of sensor elements have an expected range of setpoint values of essentially the same level of intensity of the remitted radiation that the evaluation unit detects the respective measurement signals of the sensor elements of the sensor (04) and a comparison of the respective measurement signal of the respective sensor element to the respective Perform expectation area d is designed that the evaluation unit is designed to detect at least one disturbance (06) of the substrate (01) in the event of a deviation of a relevant measurement signal of a relevant sensor element from the expected range. Printing press after Claim 14 , characterized in that the respective expected range is determined by the respective setpoint values and that the respective setpoint values differ from one another by a maximum of 20% of their level of intensity of the reflected radiation. Printing press after Claim 14 and / or 15, characterized in that the respective target value is designed to have a level of intensity of the remitted radiation that deviates from the respective measurement signal by a maximum of 15% in the measurement signal of the relevant sensor element to a non-disturbance (06) Position of the substrate (01) corresponds. Printing press after Claim 14 and / or 15 and / or 16, characterized in that the respective setpoint value is fixed at a position of the substrate (01) to which pressure fluid is applied, which position is assigned to the relevant sensor element. Printing press after Claim 14 and / or 15 and / or 16 and / or 17, characterized in that orthogonally to a transport direction (T) of substrate (01) directly adjacent sensor elements in an area of at least 5% of a working width of the printing machine each have an expected range of setpoint values of are designed to have substantially the same height. Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18, characterized in that the evaluation unit at least one disturbance (06) of the substrate if the lower limit of the expected range is undershot or an upper limit of the expected range is exceeded by the relevant measurement signal (01) is designed to be locking. Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18 and / or 19, characterized in that the pressure fluid acted upon and / or acted upon by the at least one applicator (201; 401) is a transparent lacquer and / or UV Paint is formed. Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18 and / or 19 and / or 20, characterized in that the applicator (201; 401) transfers the at least one pressure fluid to the at least one substrate (01) via at least 60% of a maximum width of the respective substrate (01) is designed to act uniformly. Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18 and / or 19 and / or 20 and / or 21, characterized in that at least one inspection device (02) of the printing press has at least one light source (03) and the at least a sensor (04), and that the inspection device (02) in the transport direction (T) of the substrate (01) in the printing press after the at least one applicator (201; 401) and / or in the transport direction (T) of the substrate (01) is arranged in front of at least one dryer (202; 305; 402) of the printing press. Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18 and / or 19 and / or 20 and / or 21 and / or 22, characterized in that the at least one sensor (04) is designed as a line camera or area camera. Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18 and / or 19 and / or 20 and / or 21 and / or 22 and / or 23, characterized in that the detected fault (06) of the respective substrate (01) is designed as at least one fold (06) and / or bulge and / or curvature of the substrate (01). Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18 and / or 19 and / or 20 and / or 21 and / or 22 and / or 23 and / or 24, characterized in that at least one inspection device (02 ) the printing machine comprises at least one light source (03) and the at least one sensor (04) and that the inspection device (02) in the transport direction (T) of substrate (01) in the printing machine to at least one printing unit (301; 302; 303; 304 ) the printing machine is arranged to generate at least one print image. Printing press after Claim 14 and / or 15 and / or 16 and / or 17 and / or 18 and / or 19 and / or 20 and / or 21 and / or 22 and / or 23 and / or 24 and / or 25, characterized in that the Printing machine comprises at least one printing unit (301; 302; 303; 304) generating at least one print image on the respective substrate (01) and that the at least one sensor (04) is designed to inspect the at least one print image of the respective substrate (01).

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