DE2514137A1 - Colour print prodn. - with colour-and contrast compensation using electroluminescent plate during image formation - Google Patents

Abstract

Prodn. of colour prints by (a) projecting a colour image onto a photo-sensitive material via a colour separating filter (b) projecting a colour image onto an electroluminescing member through a colour compensating filter and (c) exciting the electroluminescing member so as to project the luminescent image applied thereon onto the photo sensitive material in alignment with the colour picture. Provides a less costly method of producing high quality colour prints in a shorter time and uses a re-usable material.

Description

Method of producing a color separation for color printing.

The invention relates to a method for producing a color separation for color printing using an electroluminescent material in the present invention will.

A conventional color printing process requires preparation of artwork for printing with inks made up of three primary colors, such as cyan, Purple (magenta) and yellow in addition to black. The print templates are under Use of color separations in the form of photographic films for the appropriate Ink colors made. A problem in such a conventional printing process represent the low spectrum reflection properties of printing inks.

For a faithful reproduction of a color image it is necessary to to take care of the color compensation in the preparation of the color separations to the to correct low spectrum reflection characteristics of the printing inks. It is also desirable for good gray scale properties in the printing process, for to provide a contrast compensation, whereby highlights, shadow parts and the like. can optionally be set to the desired shade of gray.

There are various methods of achieving such a contrast and color compensation known. The most common method includes photographic preparation of masks, which between the color image proåektor and the color separation film can be placed during the exposure of the film. An essential one The disadvantage of this method is that the mask has a real part of light absorbed. The transmission through the mask can be used in some applications for sneak lights up to 20%.

Another part is that there is a mask for each of the printing ink colors must be prepared, making the process expensive. Albeit a color film was developed, which can be used for all of the colors, this is more complex than the common film and also leads to a cumbersome process.

Another known method involves an immediate disengagement is used, whereby the color image on the film through a color compensation filter, a Grid and in some cases projected by other elements in addition to the mask will.

The absorption of light by the mask is a major disadvantage this procedure.

In another named process to achieve the required An electronic computer is used for color compensation. Although the color and contrast compensation can be easily performed over a wide range can, the computer breaks down the color original into a pattern of discrete bits, which must exist in large numbers in order to produce a high quality image. Such disassembling necessarily requires a long period of time. Another The disadvantage is that a complicated computer is expensive to manufacture.

Accordingly, the invention provides an inexpensive method for Production of high quality color separations in a short time.

The invention also provides a method for producing a color separation using an electroliminescent panel. The invention is also the electroluminescent panel used itself.

The invention also provides a method of making a Color separation using a reusable material.

According to the invention is essentially a photosensitive material, like a photographic film, exposed with a color image through a color separation filter, Put an electroluminescent plate over the S and first pass the color image through the color separation filter exposed, the plate in one electrical polarity is charged and further exposed through a color and contrast compensation filter, the plate being charged in the reversed polarity.

A high electrical potential is applied to the electroluminescent panel laid out, whereby the plate is excited, a luminescent image on the film in the form of a Blast color and contrast compensation exposure.

The above and other objects, features, and advantages of the invention can be seen from the following description with reference to the drawing. In the drawing Fig. 1 is a perspective view of an electroluminescent panel used in the method according to the invention is used, FIGS. 2 to 5 are diagrammatic explanations of the method steps and FIGS. 6 and 7 are schematic views of an inventive Apparatus for performing the method steps according to the invention.

As can be seen from FIG. 1, an electroluminescent panel 10 used for carrying out the method according to the invention, which one layer 12 made of electroluminescent material. Dielectric layers 14 of, for example Xtteroxid (x2o3) are on opposite sides of the electroluminescent slide.http 12 trained. Nesa electrodes 16 are formed on the dielectric layers 14 and transparent glass plates 1d which cover the Nesa electrodes 16 are provided. A variable voltage source 20 for an electrical direct current potential is provided. Their positive and negative connections can be made by means of a polarity changeover switch 22 can be connected to the NeEa electrodes 16.

As can be seen from Fig. 6, a light source 30 is over a color transparency arranged, which has a color image. A lens 34 i; #t under the template 32 for Projecting or radiating an image of the original onto a photosensitive one Color separation film 36 arranged by a color separation filter 38 and a raster screen 40.

The screen 40 and a flashlight source 42 may optionally be provided be. The first step involves imaging on the film in this manner. The color separation filters for the different printing ink colors are preferable red (rat No. 25) for the cyan ink, green (rat No. 58) for the purple ink, violet (rat No. 47B) for the yellow ink and orange (rat No. 85) for the black ink.

In the second process step, the plate 10 lies on the film 36 and is exposed through the B er 38, as can be seen from FIG. 7 and also FIG. the Arrows in FIG. 2 represent the light falling on the plate 10.

The voltage source 20 is connected to the Nesa electrodes in such a way that that a negative potential on the upper Nesa electrode 16 and a positive potential is applied to the lower Nesa electrode 16. A layer of negative ions will appear the upper surface of the upper Nesa electrode 16, whereas a layer is formed by positive ions on the lower surface of the lower electrode 16, as indicated by the signs + and -eimS wear in the irradiated areas of the plate 10, an internal polarization is generated in the electroluminescent layer 12, see above that positive charge carriers through the interface between the electroluminescent layer 12 and the top dielectric layer 14, and negative charge carriers through the Interface between the B. electroluminescent layer 12 and the lower dielectric Hike layer 14. The charge potential for the internal polarization in the layer 12 is size Q1.

In the next process step, the color separation filter 38 is replaced by a color and contrast compensation filter 44 and the plate 10 is passed through the filter 44 exposed. The filter 44 for the different ink colors is preferred a red filter that lets through a little green (wratten no. 85B) for cyan and Black inks, he filters a red, which lets through a little blue (wratten Kr. 25 and 47B in a ratio of 3: 1) for purple ink and a green filter (wratten No. 58) for yellow ink. The exposure ratio through filters 38 and 44 is approximate 6: 4 during the exposure of the plate 10 through the filter 44, as can be seen from FIG. 3, the polarity of the voltage source 20 is reversed and the size of the applied Potential is reduced to a suitable level. The positive connection of the & ~ # approach source 20 is connected to the upper Nesa electrode 16 for applying a layer of positive ions connected to it. The negative connection of the voltage source 20 is to the lower one Nesa electrode 16 connected for applying a layer of negative ions thereon. In the irradiated areas of the plate 10, negative and positive charge carriers migrate through the interfaces between the electroluminescent layer 12 and the upper one or lower dielectric layer 14 for generating a charge potential Q2 The effects of the charge potential Q1 are not shown in FIG. The resulting Charge potential is indicated by Q3 and is equal to Q1-Q2, as can be seen from FIG. Both Nesa electrodes 16 are grounded to maintain the electrostatic image in the plate 10 to save. The materials of the plate 10 are selected to be highly durable have internal polarization properties, so that the image is required for a Time can be saved, preferably the plate 10 at a dark Place.

In the last process step, which can be seen from Fig. 5, i: t the voltage source 20 for applying a high potential to the plate 10 connected to this, the positive terminal of the voltage source 20 to the upper Nesäelectrode 16 and the lower terminal of the voltage source 20 to the lower Nesa electrode 16 are connected. The applied potential is sufficiently high that the plate 10 is caused to produce an electroluminescent image on the film 36 radiate as shown by the arrows in FIG. In this way the color and contrast compensations rather by an additional exposure of the film 36 the plate 10 then through the D tquelle 30 through the transparency 38 and a Color and contrast compensation filters as done in the prior art. The exposure time is considerably reduced by the process according to the invention and the disk 10 can be unloaded and reused repeatedly.

Although the invention in detail with reference to the preferred Embodiment shown and described, it can be seen that by various changes can be made by those skilled in the art without this deviates from the aim and idea of the invention. For example, the process steps can be carried out according to the invention in various other ways than described. The method according to the invention can be used where there is a color separation Use of a fixed pressure is carried out.

- patent claims -

Claims (6)

Patent claims:> Process for producing a color separation for color printing, characterized by the following process steps: a) Blasting a color image on a photo-sensitive material through a color separation filter, b) The color image shines on an electroluminescent element through a compensation filter and c) exciting the electroluminescent member to radiate the applied thereto luminescent image on the photosensitive material in alignment with the Color image. 2. The method according to claim 1, characterized. that the process step b) also the application of an electrical potential to the electroluminescent element includes. 3. The method according to claim 1, characterized by the step between steps a) and b): d) placing the electroluminescent element in contact with the photosensitive material. 4. The method according to claim 1, characterized by the step between steps a) and b) e) irradiating the color image onto the electroluminescent element through a color separation filter. 5. The method according to claim 4, characterized in that the step b) in addition, the application of an electrical potential of a first polarity the electroluminescent element, and step e) additionally applying an electrical one Contain potential of opposite polarity to the electroluminescent member. 6. The method according to claim 1, characterized in that the step c) the application of an electrical potential to the electroluminescent element for Excitation of the same for emitting the luminescent image includes. Lee rse i te