EP1040916A1 - Method and apparatus for producing a printing plate - Google Patents

Abstract

A mask is applied to the surface of a plate for sectionalized chemical passivation. The plate is subjected to a chemical sur treatment process. The mask is made of wax and is applied to the plate by spraying from multiple nozzles (7) under computer (8) control. The chemical surface treatment involves etching. The printing plate may be used as an intaglio or block printing form. An Independent claim is included for an apparatus for manufacturing a printing plate.

Description

The invention relates to a method and a Device for producing a printing tool in the process a mask for sections chemical passivation to the surface of a machining workpiece is applied and that with the Masked workpiece of a chemical Undergoes surface treatment.

Such methods and corresponding devices are from the prior art for production various printing tools known. To be mentioned here, for example, etched gravure forms or Embossing printing forms and electroplated Screen printing forms. In the known methods for Manufacturing a printing tool becomes the workpiece which, for example, in the case of a gravure form of an untreated gravure cylinder is formed, a chemical surface treatment, at a Gravure form subjected to surface etching. At this process of surface finishing, so For example, the surface etching, the known method for producing a printing tool the areas of the printing form that this Surface treatment should not be subjected to covered by a mask. This mask passivates the surface sections of the Workpieces chemically, i.e. the covered areas of the Are made by chemical Surface processing not achieved.

In the known methods for producing a Printing tool become the chemical for sections Passivation of the workpieces to be machined Masks made, for example, that a photosensitive layer on the surface of the Workpiece is applied that this photosensitive Layer with a negative or positive of the ones to be covered or exposed sections of the mask is exposed and then developing the photosensitive layer becomes. After this development, either exposed or unexposed areas of the photosensitive layer by washing the workpiece rinsed out so that the result is the desired mask the surface of the workpiece to be machined remains.

This is a method known from the prior art problematic from two main points of view. On the one hand, the process of applying, exposing, Developing and rinsing out the photosensitive layer time-consuming and labor-intensive and on the other hand it is Reproducibility of the manufactured in this way Masks not sufficient for different purposes. In the Reproducibility is particularly problematic in that the negative or positive to expose the photosensitive layer always exactly in the same Position relative to the photosensitive layer must be attached. This is for example in the Case where the negative or positive for exposing the photosensitive layer placed directly on this is no longer given if the negative or not positive at every point of the photosensitive Layer has the same distance to this.

The reproducibility of the mask application is especially with embossing, which is high Imaging accuracy required, of particular importance. In the case of embossing, three-dimensional processing is used of the paper surface structures with relatively large and different height differences on the printing form manufactured. For this purpose, the printing form is etched several times and also covered several times by a mask. With the known method for producing a printing form the masks applied one after the other can be relative do not position each other with sufficient accuracy to the to ensure the desired imaging accuracy.

In addition, the known methods problematic that flexibility in manufacture the masks are small. For every new mask, a new one Negative or positive to expose the photosensitive layer, what a not inconsiderable effort.

Based on this state of the art present invention the task of a Method or device for producing a To provide printing tools, which or which makes it fast, reproducible and variable a mask for chemical passivation on the Surface of a workpiece to be machined to apply.

According to the previously derived and The stated problem is solved in that the mask is at least essentially made of wax and the wax is computer-supported in sections on the workpiece is sprayed on in a punctiform manner from several nozzles. According to the invention is therefore on the surface of the A mask made of wax at points, according to Art known inkjet printer applied. With the Methods according to the invention can be printing tools, in particular printing forms of any shape, in particular Edit printing plates and printing cylinders.

Because waxes are resistant to most acids and also low electrical conductivity have and are at the same time water-repellent they are used for the chemical passivation of surfaces both for surface etching and galvanic Surface coating. The computer-aided spraying of the Wax on the surface of the workpiece enables the drive technology available today for this required printheads a very high reproducibility in making the mask and the highest possible Flexibility, because of the computer-assisted spraying any form of the mask stored in the computer system can be chosen and sprayed on. Especially It is also advantageous that with the invention Apply the mask to the skin in a single operation Surface of the workpiece to be machined applied can be.

This is experienced in a first advantageous embodiment Process according to the invention in that for chemical An etching technique is used for surface processing. As mentioned earlier, waxes are against most the surface processing used by etching Resistant to acids. As a result, only the Machined sections of the surface of the workpiece are not covered by the wax.

The fact that as a workpiece a printing form for the Gravure or embossing is processed, and an etching technique is used at the same time quickly with the method according to the invention, reproducible and variable printing forms for gravure printing or make the embossing. Especially with the Manufacture of printing forms for the embossing is with the method according to the invention ensures that also complicated height profiles in several etching steps made using different masks with the desired imaging accuracy can be produced.

Is used as a workpiece with the inventive method a die for a galvanic coating for Generation of a printing tool processed, so can with the method according to the invention, for example Manufacture screen printing forms.

The method according to the invention is particularly advantageous by a special procedure for spraying the Wax is designed on the workpiece where the nozzles arranged side by side in the direction of an X axis the nozzles and the workpiece are relative move towards each other in the direction of a Y axis, the nozzles functional to groups of at least one nozzle each be summarized, the nozzles and the workpiece after machining the tool in the direction of the Y axis relative to a new position with respect to the X axis move towards each other in the direction of the X axis and the Increment of movement in the direction of the X axis of the Group width minus or plus the distance of neighboring nozzles divided by the number of groups corresponds. After this design of the method according to the invention, the wax layer the workpiece, for example, during the rotation of a cylindrical workpiece applied in that the the print head having nozzles after each revolution of the Workpiece is pushed so far that the to the each previous group adjacent group at the following rotation of the workpiece at maximum Resolution right next to that of the previous group the previous revolution applied wax points, the adjoining wax points. This means that at every revolution of the workpiece is not complete Mask applied to the workpiece in the area of the nozzles will, but only a fraction of the mask, while the next fractions then by the following Groups are applied.

This embodiment of the method according to the invention deviates, for example, from the known method Production of an inkjet printed image. Advantage of described configuration is in particular that the Distances between the nozzles chosen to be significantly larger than the maximum resolution for the Case specified for which when the Printhead on the workpiece with the complete graphics maximum resolution would be transmitted.

This described embodiment of the invention The method is further improved in that the in Direction to move along the X axis last Group from one nozzle less than the remaining Groups is formed. Because the last nozzle of the last group is omitted, it is ensured that no Wax point twice on the surface of the machining workpiece is sprayed on. Hereby the resolution is evened out on the workpiece applied layer of wax.

A device known from the prior art for Production of a printing tool with a holder for a workpiece and a device for applying a Mask for section-wise chemical passivation of the Surface of the workpiece is according to the invention, especially for realizing the previously described further developed method in that the mask consists at least essentially of wax, the device for applying the mask of a computer control has and the device for application a mask has at least one print head with several nozzles for spraying the wax onto the spot Workpiece. This device according to the invention ensures the achievement of the in view of the Advantages described method according to the invention.

Fig. 1a)-c)

einen Schnitt, teilweise vergrößert, durch die Oberfläche eines mit dem erfindungsgemäßen Verfahren zur Herstellung eines Druckwerkzeugs zu bearbeitenden Werkstücks,

Fig. 2

ein Ausführungsbeispiel einer erfindungsgemäßen Vorrichtung zur Herstellung eines Druckwerkzeugs,

Fig. 3

eine Ansicht eines Druckkopfs des Ausführungsbeipiels einer erfindungsgemäßen Vorrichtung zur Herstellung eines Druckwerkzeugs und

Fig. 4

eine Darstellung einer Ausgestaltung des erfindungsgemäßen Verfahrens zur Herstellung eines Druckwerkzeugs.

There are now a multitude of possibilities for designing and developing the method according to the invention and the device according to the invention for producing a printing tool. For this purpose, reference is made, for example, on the one hand to the claims subordinate to claim 1, and on the other hand to the description of preferred exemplary embodiments in conjunction with the drawing. In the drawing shows

1a) -c)

3 shows a section, partially enlarged, through the surface of a workpiece to be processed with the method according to the invention for producing a printing tool,

Fig. 2

an embodiment of a device according to the invention for producing a printing tool,

Fig. 3

a view of a print head of the exemplary embodiment of an inventive device for producing a printing tool and

Fig. 4

a representation of an embodiment of the method according to the invention for producing a printing tool.

1a) shows a section of a workpiece 1 a surface to be machined 2 and one on the Surface 2 arranged mask made of wax 3 in average. As can be easily seen in Fig. 1a) can, the mask 3 covers the surface 2 of the workpiece 1 only in sections. The non - binding sections of the Surface 2 of the workpiece 1 are after application of the Mask 2, for example, as shown in Fig. 1b) galvanically coated. With this galvanic Coating will be on the uncovered sections a metal 4 deposited on the surface 2. Alternatively For this purpose, the surface 2 can also be processed by etching are (see Fig. 1c)). During this etching process the surface 2 in those not covered by the mask 3 Sections lowered.

Since the wax forming the mask 3 both against the most acids is resistant and also the galvanic Deposition of metal on the surface 2 of the Prevents workpiece 1, the invention is suitable Method in which a mask 3 made of wax on the Surface 2 of a workpiece 1 is deposited, both for surface processing by etching as well electroplating.

2 is an embodiment of a device for the production of a printing tool with a holder 5 for a gravure roller 6 and a print head 7 for Apply a mask, not shown here Sectional chemical passivation of the surface the gravure roller 6 shown. According to the invention with the device shown one not here shown mask made of wax on the surface of the Gravure roller 6 applied. To control the Print head 7 has the illustrated embodiment a computer 8, for example a conventional one Personal computer on.

The gravure roller 6 is on the receptacle 5 via a Shaft 9 mounted. The print head 7 is also on the Recording 5 stored on two guide rails 10. The Computer 8 controls the rotation of the gravure roll 6, the Movement of the print head 7 and the control of the in 2 nozzles of the print head 7, not shown such that one on the gravure roller 6 is not here shown mask made of wax accordingly in the computer 8 available graphical data is plotted.

A view of the print head 7 of the embodiment is from the direction of the gravure roller 6 in FIG. 3 shown. It can be seen that the print head 7 a Row 11, from in the enlarged detail in Fig. 3rd nozzle 12 shown more clearly. About these The print head 7 injects liquid wax onto the nozzles 12 Surface of the gravure roll 6, where this through the Cooling down very quickly due to heat conduction stiffens. The distances d between the individual nozzles 12 are larger than it actually is at the maximum guaranteed resolution would be possible.

The maximum achievable resolution of the Embodiment of a device according to the invention is ensured by the fact that a special procedure to control the nozzles during printing is coming. With this process, the nozzles become functional into groups of, for example, as shown in Fig. 3, four nozzles combined. The control of these nozzles now takes place according to that illustrated in FIG. 4 Method.

At time t = 0 there is an overlap between the first Group of nozzles and the workpiece set, whereupon the workpiece once over its entire length in the Y direction moved relative to the printhead and wax out at the same time is sprayed on the nozzles. Then the Printhead at time t = 1 in the direction of the X axis so far advanced that another group of nozzles come up with overlap the surface of the workpiece, but not by one step that is the entire width of the group corresponds, but only by a step that the Group width minus the distance from neighboring ones Nozzles divided by the number of groups. This ensures that the second No relative movement between the print head and the workpiece Coverage between that of the second group described lines and the previously at time t = 0 of the first group described lines comes about, but that this with the maximum resolution complete. Then the print head is turned around the Group width minus - assuming four groups - a quarter of the distance of the adjacent nozzles in Direction of the X-axis advanced at time t = 2. In turn then finds a relative movement between the printhead and Workpiece over the entire height of the workpiece in Direction of the Y axis instead, which in turn results in maximum Dissolve adjacent lines of wax on the workpiece be printed on.

As soon as the last group after completing the Relative movement between printhead and workpiece at the time t = 3 one step further in the direction of X axis has been moved is the one made of wax Mask on the first group width on the left edge of the Workpiece finished in maximum resolution.

As can be seen from Fig. 4, it is advantageous to deactivate the last nozzle of the last group or even not to be provided first, since this, in Fig. 4 angular edged nozzle otherwise on the same X coordinate again from the first nozzle of the first group line described, resulting in an uneven Layer thickness and thus uneven resolution of the Wax layer would lead. As an alternative to calculating the Increment in the direction of the X axis from the Group width minus the distance from neighboring ones The nozzles divided by the number of groups can Increment also by the group width plus the Distance from neighboring nozzles divided by the Number of groups can be set. In this case also the last group from the full number of nozzles exist without overlapping.

Claims (7)

Method for producing a printing tool in which a mask for section-wise chemical passivation is applied to the surface of a workpiece to be processed and the workpiece provided with the mask is subjected to a chemical surface treatment,
characterized in that the mask is at least essentially made of wax and the wax is computer-aided partially sprayed onto the workpiece from several nozzles. Method according to claim 1,
characterized in that an etching technique is used for chemical surface treatment. Method according to claim 2,
characterized in that a printing form for gravure printing or embossing printing is processed as the workpiece. Method according to claim 1,
characterized in that a die for a galvanic coating for producing a printing tool is processed as the workpiece. Method according to one of claims 1 to 4,
characterized in that the nozzles are arranged side by side in the direction of an X axis, the nozzles and the workpiece move relative to each other in the direction of a Y axis, the nozzles are functionally combined into groups of at least one nozzle each, the nozzles and that After machining the workpiece in the Y-axis direction, move the workpiece to a new position with respect to the X-axis relative to each other in the X-axis direction and the step width of the movement in the X-axis direction of the group width minus or plus the distance from neighboring ones Nozzles divided by the number of groups. Method according to claim 5,
characterized in that the last group in the direction of movement along the X-axis is formed from one nozzle fewer than the remaining groups. Device for producing a printing tool with a receptacle (5) for a workpiece (1,6) and a device (7) for applying a mask (3) for section-wise chemical passivation of the surface (2) of the workpiece (1,6) in particular for Realization of a method according to one of claims 1 to 6,
characterized in that the mask (3) consists at least essentially of wax, the device for applying the mask (3) has an EDP control (8) and the device for applying the mask (3) has at least one print head (7) has a plurality of nozzles (12) for spraying the wax onto the workpiece (1,6) in a punctiform manner.

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