DE2344233A1 - PRINT PLATE AND METHOD OF MANUFACTURING IT - Google Patents

Description

"Printing Staff and Procedure for Production The invention relates relate to a printing plate and a method for making it.

With "printing plate" the one with the surface to be printed is in contact coming, the printing information bearing part of a printing block referred to.

The pressure plate can be flat, cylindrical or semi-cylindrical and is different depending on the type of printing machine or printing device with carriers Connected to training.

In the method of the invention for making a printing plate for relief or text printing, a carrier plate with one layer of another is used Covered material, which is then provided in areas with pressure relief.

A printing plate for Itaglio printing is made according to the method of the invention made in such a way that a lamellar alternating from opposite energy rays permeable and impermeable materials, raw panel built up in areas is exposed to energy radiation, with the radiation intensity being modulated at the same time will.

The drawing shows preferred exemplary embodiments schematically and in section of printing plates according to the invention or according to the method of the invention manufactured printing plates.

In this drawing: F i g. 1 to 4 broken cross-sections through Printing plates for relief or text printing in four stages of a manufacturing process according to the invention.

F i g. 5 to 8 broken cross-sections through such pressure plates in four stages of a second manufacturing process according to the invention F. i g. 9 is a schematic view of an apparatus for making the printing plates and y i g. 10 is a broken cross-section through a printing plate for an Itaglio printing process.

The process stages for the production of a printing plate for relief or text printing according to Fig. 1 to 4 of this drawing are as follows: According to Fig. 1, a carrier plate 10 is coated with a layer 11 of black oil paint, which left to dry. The coated surface of the carrier plate 10 forms the Printing area. It must be extremely finely polished and free from inclusions, defects and voids be. The layer is about 0.008 cm thick.

According to FIG. 2, recesses 12 are made in areas in this layer. The recesses 12 as a whole form a pattern that is based on an original Muister template Matches which one should be reproduced. The recesses can be in known Form a series of dots of different sizes on the BhalStone zoreen "concept can be made by hand be, but also by energy beams (laser), as indicated at 13 in FIG.

As will be described in more detail later, the original pattern to be dmleked is used scanned photoelectrically. With the information thus obtained, the laser beam 13 modulates which corresponding recesses 12 in the layer 11 by material evaporation manufactures. The energy and wavelength of the laser beam 13 is selected so that the Carrier plate 10 remains unaffected. In Fig. 3 is the simulated printing plate denoted by 14. This is from the plate of Fig. 2 by a plating process the formed surface of the layer 11 is obtained. The layer is used for plating 11 sprayed in a known manner with silver nitrates and formaldehyde.

Depending on the material selected for the carrier plate 10 and the layer 11 however, spraying can also be omitted. During plating, the Recesses 12 relief elements 15 up to the level of the layer 11. With continued Plating forms a continuous layer 16 on layer 11.

The printing plate 14 then consists of the layer 16 and the relief elements 15. Before this pressure plate can be used, the carrier plate 10 with the Layer 11 are peeled off (Fig. 4). Before that, the layer 16 is not on one shown Carrier attached. The plating is done by electroplating in any known manner or chemically.

Plating is done with metals such as copper, zinc or nickel.

The layer 11 is as thick as the relief elements 15 should be high.

In the process of which four stages are shown in Figs. 5 to 8, the plating is carried out in such a way that in the first stage on a carrier plate 17 Mylar (R) a photosensitive tin salt layer 18 is applied.

Layer 18 is of molecular strength. She becomes in a famous way deposited in vacuum. Their surface must also be extremely fine and free of defects. In the second stage (Fig. 6) the layer 18 is through treatment of selective areas 19 prepared for plating. The treatment of the selective areas consists in the transformation of tin into tin oxide by irradiation with laser beams in the ultraviolet Area (helium-cadmium laser).

The laser beam is indicated by the reference numeral 20 in FIG. 6. Again, as in FIGS. 1 to 4, the selective areas 19 form a predetermined one Pattern made with an original Template matches that should be printed. Here, too, the laser beam 20 is modulated, as described later.

In FIG. 7, the pressure plate is designated by 21. She will receive by cladding the plate according to FIG. 6 on the profiled layer 18. At the When cladding, the relief elements 22 are formed first and then the contiguous one Layer 23.

The printing plate is then formed by the layer 23 from which the Relief elements 22 emerge. For use, the pressure plate must be removed from the carrier plate 17 can be replaced with a layer.

Fig. 8 shows the ready-to-use printing plate. Before taking off of the plate 17, the layer 23 can be attached to a carrier (not shown) will. For plating, proceed as in the previously described process will.

The procedures described can also be varied as follows: The carrier plate 10 or v can be made of rigid or flexible metallic or non-metallic Material.

It is only important that the surface of the layers 11 or 18 is extremely fine and is free of defects and that the plates are mechanically stable, i.e. in particular that they are capable of temporary Compensate for deformations automatically.

In the method, the stages of which are shown in FIGS. 7 to 4, the layer 16 can be omitted by breaking off the plating as soon as the Relief elements 15 have reached the level of layer 11. The relief elements 15 are then connected to the carrier plate 10. The remnants of layer 11 must be removed. This modification is only possible if the plating process is carefully controlled can, because the height of the relief elements must - for the printing process - exactly everywhere be equal.

The recesses 12 in the layer 11 can instead of by laser beams spark discharges or the like can also be produced by, for example, ion beams. In in this case an electrode is located directly above the layer 11 and discharges High voltage modulated over the recess areas 12.

If the layer is sensitive to light, a ray can also be visible Light can be used to treat the selective areas.

The device shown in Fig. 9 of the drawing shows two displaceable Plate carrier in the form of rotating drums 24 and 25. The drum 24 carries the original 26 on its surface, while the drum 25 carries the printing plate 27 wears. The drums 24 and 25 rotate synchronously or with a predetermined speed ratio, if the original is changed on the printing plate, for example enlarged or should be played back down. The dashed line 28 indicates that the drums 24 and 25 rotate independently of each other, be it synchronously or be it in a certain speed ratio. A slide works with the drum 24 29 together, which carries a light source 30 and a button 31. The photoelectric Button 31 reads itself when rotating the drum and moving the carriage axially changing intensity of the light reflected from the drum surface.

A mirror 32 is located on a second carriage (not shown) attached at an angle of 450 to the drum axis, which is axially parallel to drum 25 is movable. The dashed line 33 indicates that the Slide 29 moves synchronously with the slide of the mirror 32.

A laser 34 directs its beam 35 axially parallel to the drum 25 on the mirror 32. The laser 34 is with a nodulator 36 equipped, the electronically the amount of energy that hits the plate 27 via the mirror 32 Influenced by the beam.

The modulator 36 is connected to the output via amplifier and rectifier of the button 31 connected. The modulator (36) is preferably a known "intra-cavity acousto-optic "modulator.

The original 26 is scanned by the button 31 while the drums are 24.25 rotate and the carriage 29 and the carriage with the mirror 32 are axially shifts.

The voltage appearing at the output of the pushbutton 31 modulates over the modulator 36 the beam 35, which profiles the pressure plate 27 on the drum 25.

The profiling of the pressure plate 27 always corresponds in this way of the original artwork 26, whatever the parameters in the rotation of the drums and / or displacement of the carriage can be introduced. The laser beam can be amplitude- and / or frequency modulated. When a print master is scanned, so can the scanned information is electronically stored electronically dbr magnetically.

From a print template in the original or from a saved print template several printing plates can be produced at the same time will.

For the method of FIGS. 1 to 4, a rtibine or laser from Advantage.

With reference to Fig. 10 is now the production of a printing plate for an Itaglio-I) jerk can be described. First the empty printing plate is prepared. For this purpose, the plate 38 is attached to the block 37 made of plastic or metal, which must have an absolutely smooth surface. The pressure plate 38 is made of lamellae built up. The slats 39 are made of plastic and are Q, 0007 cm thick. she are relatively easily penetrated and destroyed by the laser beam.

Polyvinyl chloride and polyethylene are suitable materials for the slats and plastics sold under the trade names "Mylar" (R) and "Kapton" (R) will. Between the lamellas 39 there are further lamellas 40 made of metal, e.g. copper, Tin or aluminum arranged. They are very thin (molecular layer).

They put greater resistance to the laser beam for manufacturing of recesses of different depths in areas where printing ink is held should be, as is characteristic of Itaglio printing, selective areas 41 of the printing plate blank exposed to the action of the laser beam 42. The beam 42 is amplitude modulated.

When using the device according to FIG. 9, the areas 41, the printing plate made from the artwork. Recesses 43 with lesser Depth occurs when the laser beam acts for a shorter period of time.

While it is simply the energy of a laser beam through maplitude modulation to control exactly, it is difficult to find a material for the Rructplatte, which is so homogeneously constructed that the penetration depth of the laser beam is exactly proportional the beam energy is. The penetration depth varied with the known materials a laser beam of constant energy across the surface of the plate. From In contrast, lamellae 40 built up pressure plate of the invention can be penetrated in stages. The recess depth therefore fluctuates - with uniform movement - only with the Energy of the laser beam.

If, on the other hand, the energy (and the duration of action) does not fluctuate, so the recesses all have exactly the same depth, since there is always only one integer Multiples of the lamellar thickness of the plastic lamellas 39 is reduced. Whether the printing plate hard'1 or "soft" in places depends on the number of places in question dismantled lamellas 39. For example, twenty lamellas make one Good quality Itaglio print.

Claims (9)

Patent claims: 19 Process for the production of printing plates for relief and incremental printing, characterized in that one layer of a two-layer material in places is gutted to form a raised relief. 2.) The method according to claim 1, characterized in that the thickness the partially recessed layer is equal to the desired relief height and the Carrier layer is removed after previously having the profiled layer with a plating process was leveled. 3.) The method according to claim 1, characterized in that the excluded Layer which consists of a thin film of photosensitive material and the exempted Places are treated in such a way that the layer is subjected to a plating can, through which the profiles are formed. 4.) The method according to claim 2 or 3, characterized in that the plating continued until a layer bearing the profiled edges was formed will. 5.) The method according to claim 1, characterized in that the layer is profiled by energy irradiation in places. 6.) The method according to claim 5, characterized in that the energy beam is a laser beam. 7.) Method of making a printing plate for Itaglio printing with a method according to a method according to one of the preceding claims, characterized by the use of a laminated plate made of lamellas, which Lamellae are alternately easy and difficult to destroy by the energy beam, whereby the energy beam is modulated. 8.) The method according to claim 7, characterized in that laser energy is used. 9.) pressure plate for performing the method according to claim 7, characterized characterized in that the slats are made of more easily destructible material made of plastic exist and are 0.000 7 cm thick and the lamellas are made of more difficult to destroy material consist of metal of molecular thickness.