DE1671566B1 - Method and apparatus for producing enlarged multicolor prints - Google Patents

Description

The invention relates to a method for The method according to the invention is based on

Manufacture of enlarged multicolor prints and a novel technical process that differs from a device for carrying out the method. the known photographic, chemical or

As an apparatus for making enlarged electronic copying processes entirely under multi-color printing a device is designated. In the method according to the invention net, the greatly enlarged multicolor prints in natural information relating to the original image borrowed colors directly from a small original (recovered by scanning and converted into electrical signals standing as "template"), z. B. a color transforms the three physiological basic colors film or a color copy. correspond to what the signals are amplified and in

Processes are already known with which other electrical signals are converted, Help printing forms can be produced by engraving which represent four basic printing colors. The four those that are then used in multi-color printing. electrical signals generated in this way were-bei these known methods are first applied to pushbuttons, on which they the zuelectrooptisch the colored templates with the creation of four basic printing colors at one of color separations scanned and controlled in corresponding 15 printing image carriers, for example Signals converted, which then z. B. an engraving can consist of white paper. In this way control the engraving, the printing plates according to the desired enlarged multicolor printing individual color separations engraved. Known with these.

Th process can indeed be color separations for the production of an important feature of the invention

Use position of individual pressure plates. In the case of the 20, the production of enlarged multicolor prints must then, however, be done one after the other with the aid of a single scan of the individual printing plates, each of which has one layer. Λ

Printing ink is provided, one after the other on the image With the method according to the invention, *

be sluggish to be pressed to a multicolor image enlarged multicolor prints on fast and a produce. This is not only tedious, but also produces 25 times the color hue of the previous one In addition, it is also complex, as the individual positions are reproduced precisely and very faithfully. The er pressure plates one after the other with great register accuracy, the method according to the invention works very economically must be pressed onto the image carrier, because the production of individual printing plates to produce a satisfactory image. completely omitted for the individual printing inks.

The invention is based on the object of creating a method and a device of the type explained at the outset, which is to be used for printing very large areas and is therefore of simple construction and, in particular, also for making posters in operation and Production economically and easily the size of a house wall or large banners can be carried out or handled and the production is suitable. The enlargement ratio can have very good enlarged multicolor prints according to large values. All in all, the inventive templates can be made possible in a short time and large processes according to the present invention are economical and simple, magnification ratios and printing are very manageable,
enable large areas. Further features of the invention, also with regard to

With regard to the method, this object is borrowed from an apparatus for carrying out the invention solved by driving 40, result from the subclaims and

a) a colored template with a single opti- cal description below. In the following System which is suitable for the production of color separations in conjunction with the exemplary embodiments of the invention is scanned, is described with the drawing. It shows ^

b) the color information thus obtained in print. 1 is a schematic, graphical representation signals of the density of each color in the scanning 45 to explain a monochromatic vertene Image element correspond to be converted. enlargement,

c) several spaced apart F i g. 2 shows a schematic representation of what has been explained and print heads each assigned to a color run in a multicolored enlargement,

by the corresponding ink signals in each case F i g. 3 in a simplified schematic diagram separately be controlled, 5 ° position an embodiment of the invention

d) every ink signal with the exception of the device according to the present invention,

F i g. 4 shows the arrangement in a box diagram

th printing ink signal compared to this one of a device according to the invention for manufacturing

is subjected to a delay that extends the running time of the generation of enlarged multicolor prints,
relevant printing ink signal associated printing 55 F i g. 5 a and 5 b in schematic representations

head opposite the image carrier and accordingly a color patch applied to an original and

accordingly the transit time of a picture element on the to a control device, which the the color patch

indicates the image carrier to be printed over the distance of the respective output,

ligen printhead from the furthest leading - Fig. 6 to 11 schematically different optical corresponds to the print head, 60 systems for a scanning device,

e) of the individual print heads as a function of FIGS. 12 and 13, two different schematic diagrams from the control through the ink signals spray devices, the paper transport systems to the ink are arranged on the image carrier to be printed and advantageously carried in one embodiment so that an enlarged color image may be used;

which is essentially the same color at every point.

density with respect to each individual color like the correction form of the invention, in which a magnetic

Sponding picture element of the colored original is used on the recording tape;

knows is reproduced. 15 and 16 show schematic sectional views

3 4

Positions of solenoid valves, which in the invention spot have a diameter of several millimeters

can be used according to the device; has According to the invention, this knowledge becomes one

FIGS. 17 to 23 are schematic illustrations of an enlarged view of an original. If the

of spray nozzles that can be used in the inventive front diameter of each small element of the original direction. 5 V ₁₀₀ to V ₁₀ mm, an enlargement

The method for producing an enlarged magnification factor of a multiple of 10 or a print according to a monochromatic original is a multiple of 100, because each such is worked out below with reference to FIGS. 1, the smallest element on a printed spot of mehwhich increases the understanding of the function of the millimeter diameter according to the invention,
according to the device facilitated. The device io F i g. 2 shows a device in which the previously owned a small cylinder 1 and a large standing method explained with several basic cylinders 2, which have a similar shape to the color, and thus an enlarged small cylinder 1. Around the circumference of the small cylinder Multicolor printing is obtained. A template 3 is placed around a small cylinder 1. On the linder 1, on which a template is attached, are large cylinders 2, white paper is attached. 15 several measuring devices 15, 16, 17 and 18, which are assigned essentially parallel to one another and to the axes of the cylinders 1 and 2, are arranged on rails 5 and 6 at suitable distances from one another. Each measuring device is assigned a color. Slide filters 15 ', 16', 17 'or 18' are provided on rails 5 and 6 so that only 7 and 8 can be moved. The movement of the slide measures the color assigned to the measuring device, at least 8 is proportional to that of the other slide 7. 20 A large cylinder 2 on which a white paper

A photoelectric measuring device is attached to the slide 7, there are several spray devices 19, arranged device, which is assigned from a light source 9, 20, 21 and 22, similar to that of the voreiner Lens optics 10, a filter 11 and a standing specified measuring devices the small Photocell 12 exists and the saturation of a loading cylinder are assigned. The spray guards The correct color at a certain point of the projection 25 each have a solenoid valve 19 ', 20', 21 'or 22'. the location measures. On the slide 8 is a Spritzvorrich- measuring device 15 is electrically connected to the magnet 13 arranged, which coupled against the lateral surface of the valve 19 'of the spray device 19 and Cylinder 2 directed and at a distance of serves to control this valve, so that the injection multiple Centimeters from her. The device 19 the white paper in a certain Spray device is via a solenoid valve 14 30 color depending on the compressed air with the measuring device fed, which causes the measured in a device 15 saturation of this color on the Ink tank 13 'can print ink located on a template. The spray device 20 Image carrier sprayed in the form of white paper 4 prints the white paper with a different color will. The solenoid valve should readily produce a function of the measurement device 16 Change in the degree of opening of the valve with high saturation of this color measured on the original. Allow frequency. The remaining spray devices print on the white

In the in F i g. The device shown in Figure 1 is in a similar fashion between paper, but with a different view of the tip of the spray device and the man-color. In this way, with the help of a single surface of the cylinder 2, only a very small sample of the entire original can be scanned.
The color given off is not scattered, but the invention also has the object of creating a color spot of several millimeters on the white paper creating an easy-to-use and economical millimeter diameter. If the multicolor printing device that can be produced previously,
the measuring device indicated above the saturation In the above with reference to FIG. 1 and 2 of a certain color at a certain point 45 written device for the production of verder original 3 measures, the obtained color saturation is greater multicolor printing is each photoelekgungsinformation via an electrical circuit α tric measuring device for scanning the original is supplied to the solenoid valve 14, where the information a print head for scanning the white paper to the degree of opening of the solenoid valve and thus the orderly. If a pressure in four printing inks is desired to flow rate to the spray device, four measuring devices are thus required to control compressed air. This also becomes the derlich. In the above-described device amount of the device dispensed from the spray device for the production of enlarged multicolor printing ink changed, so that a print on the white, therefore, the following difficulties arise: Paper located point, which is in its position The device is under construction Complicated point corresponds to the template mentioned in the 55 and requires high precision. The operation of the device to be colored with that saturation is also complicated. If z. B. can, which this color has at the specified point a small template cylinder through another of the template. Therefore, when the large and small cylinders with a different diameter of the small cylinder rotate synchronously and the slide has been replaced, the optical systems of the th must move along one cylinder each, every 60 photoelectric measuring devices is refocused point on the outer surface of each Cylinder of the be. Very small originals can only be enlarged with difficulty in the injection device or the measuring device because it is difficult to scan several. In this way you get on the white z. B. four measuring devices on the circumference of a klei-paper, which is attached to the large cylinder, to assemble NEN template and scan on the template and an enlarged reproduction of the four points on the small 65 of the white paper, the template attached to the cylinder. Measuring devices vertically and horizontally accurate

In the context of the invention it was found that correspond to

an applied with the help of a spray device In an improved embodiment of the invention

5 6

according to the device are with the help of a If a certain point of the template color only System of a certain point of the components has all four printing colors Information relating to several colors is indicated by a signal for yellow over one Obtained in one operation and a yellow print head 36 actuated in signals to output circuit 35 transformed that represent the primary colors. Each on 5 and become signals for magenta, cyan and color signal generated in this way is correspondingly black for temporary storage the position of printheads relative to the white writing head 29. If that way Paper delayed. In this way, the same printed, yellow stain can be underneath the white paper Effect as with the four according to FIG. 2 along which the magenta print head 37 arrives, the small template cylinder mounted optical sy- io magnetically stored in the magnetic drum stemen with a single optical system achieves magenta signal from the magenta reading head will. 30 removed so that an amplifier 34

The particular advantages of the invention and the output circuit 35 of the magenta printing

Device are listed below: head 37 is actuated. Be in a similar fashion

The device has a simple construction 15 the cyan blue and black signal from one another. and can be made in compact form, taken and the corresponding printheads at home it only has a single optical system. makes. The erase head 33 is used to erase the

Small originals with different diameters magnetic drum 23 after each drum can can be easily exchanged because each time the color signals are reproduced, see above Change only one refocusing is required. ao that the magnetic drum for the next deceleration

The setting of printheads opposite the approximation process is ready. With the help of a control

a white paper on a large cylinder is circuit 40, the pulse shape of each color signal

simplified because the print heads are only shown in the cross section of a cathode ray tube, so that

direction of the paper need to be moved. the visual control of the operation is facilitated.

In the optical system of the measuring device, there are 25 F i g. 4 shows in a box scheme an output

a small number of photoelectric guide example of an electrical circuit arrangement

Converters. tion that is used in the device according to the invention

In the device according to the invention one can be turned. A light source 9 com-

Magnetic recording device is present, light beams are transmitted at a frequency of

thus a desired delay of electrical 30 is chopped about 3000 Hz by a chopper 41 and

Signals is achieved, the various inks are then reflected by a mirror 42, which is from a

correspond. Mirror drive 43 is driven. In this way

In the one shown in FIG. 3, an original film 3 is loaded through a slit diaphragm 44

the invention rotates a small template cylinder 1 lights. A lens 45 creates a real image of the

synchronously with a magnetic drum 23 and a 35 template on a pinhole 46, so that only those

large cylinder 2. For this purpose, the cylinder- light rays passing through a certain point of the

The 1 for example stepped directly with the drum 23 and template 3, with the help of dichroic

coupled to the cylinder 2, as indicated by the streaked mirrors 24 and 24 'in three basic colors blue, green

dotted line is indicated. To be decomposed by a light and a red. The in this way

The light rays coming from the source pass through the 40 light rays that are presented.

position 3 in a measuring head PH, in which the light beam cells 25, 26 and 27 for the individual color separations

len through dichroic mirrors 24, 24 'in three physio- emitted. Just in front of the aperture 46 are a

logical basic colors broken down and then with the help of partially transparent mirror 47 and another hole

photoelectric converters 25, 26 and 27 in elek- diaphragm 48 so arranged that an amount of light that

Irish signals with various currents around that 45 which passed through the scanned presentation point

to be converted. Which is proportional to the three physiological amounts of light, to one the brightness

Electrical signals representing primary colors are emitted from the measuring multiplier photocell 49

fed to a converter 28, in which it is in.

Signals are converted that have four inks having different color saturation values

correspond. 50 image elements of the template are displayed with the help of the

Each electrical standing multiplier photocell in signal representing the four printing colors relates to a certain point of the original electrical signals of 3 kHz and an electrical one and must therefore be delayed by an amount converted to a brightness signal. This electrical which corresponds to the transit time of the image carrier over the Ab signals are via band filters 51, 52, 53 and 54 stand d between the print heads 36, 37, 38 and 55 from 1.5 to 4.5 kHz to low frequency amplifiers 61, 39 . To achieve this delay 62, 63 and 64 are applied and then from demo opposite the circumference of the magnetic drum 23 a converter 71, 72, 73 and 74 in direct current signals to write head 29, a read head 30 for magenta, converted. The read head 31 for cyan blue, a read head 32 for an amplified brightness signal from a DC amplifier 65 is arranged to supply the black and an erase head 33. The mirror drive 43 is used so that the amount of light emerging due to the order of the read heads on the magnetic drum 44 can be influenced by the angle of the arrangement of the print heads 36, 37, 38, and 39 relative to the outer surface of the large Zy- By this with the help of the mirror 42 caused Hellinders 2. If, for example, the angle between ligkeitssteuerung you can achieve a contrast compensation of the reading heads 31 and 32 with respect to the axis 65, by the light source at the bright points of the magnetic drum the value 0 is automatically darkened between the original and the same angle is present at the print heads 38 and 39 with respect to the axis of the dark areas of the original, automatically lightened large cylinder 2. will.

7 8

In this way, for each primary color, the time deflection circuit of the tube with the rotation of the Ben generated direct current signals contain a small cylinder 1 synchronized, one obtains on Know the amount of components required for the multiple of the cathode ray tube 134 to have an afterglow color printing are superfluous and by means of a suitable curve 136, which the brightness values of the gray conversion the signals are eliminated. For this purpose, the 5 scale and the color spot are displayed, the direct current signals for the three basic colors For a better understanding of the subject matter of the invention

in covering circles 81, 82 and 83 in a modified version will be explained below with reference to FIGS. 15 to Converted to basic color signals, which in Summato- 23 described the construction of the print head, ren 84, 85 and 86 the corresponding, non-modified with the help of which on the white paper in annexed DC signals can be added. validity of the information content of the printing ink man In this way, three printing color signals are obtained, signal color spots with different color saturation for yellow, magenta and cyan blue. Since to be printed. In the description below If there is a fourth color, namely black, it is assumed that the print heads with spraying front is, is provided with the help of the black signal generation devices that are included in the scope of the invention 87 from the three other printing ink 15 ßen device for making enlarged Signals a black signal is generated. Multi-color printing can be used to advantage

The four inks produced in this way can.

signals are at the points of high and low seed. In a solenoid valve shown in FIG. 15 for

strongly compressed. Therefore, a closure piece 154 is rigid with a modification of the four printing color signals lights 20 plunger coil 152 and mechanically with a membrane reinforcement circuits 91, 92, 93 and 94 used for compressed air. The 153 connected, which in turn is attached to a permanent magnet printing ink signal, with the exception of the yellow signal, th 151 and an upper jacket 155. signals modulated by compressed air supplied to an inlet opening 156 are converted in circles 95, 96 and 97 in order to facilitate their magnetic recording through an outlet opening 157 optionally at table. The pulse duration 25 delivered a spray device. By modulating signals with the help of the strength of the signal current flowing through the plunger coil 152, the locking piece 154 is stored and moved vertically after a certain, suitable, and therefore the delay time of the spray device 15, the magnetic valve shown in FIG 5000 Hz work, th signals are erased by an erase head 33 Fig. 16 shows another in the invention, so that the delay can take place periodically ßen device usable solenoid valve for 35 compressed air with a bellows 163, which at its bottom die on this The pulsed end shown in this way is rigid with a closure piece 162 made of permanent moduli erten signals for magenta, cyan light metal and at its upper end airtight and black are converted by converters 102, 103 and with the lower end of a valve housing 164 into amplitude-modulated signals. is bound. This has an inlet opening 165 for the direct current signal for yellow is converted with the help of a 40 intake of compressed air and an outlet opening further converter 101 into a low frequency 166 for the controlled output of the compressed air to an amplitude-modulated signal. This sprayer. The lower end of the shutter amplitude modulated signals are connected to a spring 161 and a frequency amplifier 111, 112, 113 and 114 reinforced immersion iron 160, which is connected to an exciter winding and then from demodulators 121, 122, 123 and 45 development 159 is demodulated by a permanent magnet-124. The demodulated signals are used th 158 is carried. When there is a change in the signal print heads 36, 37, 38 and 39. current flowing through the exciter winding 159 to control the respective printing ink assigned to it, the closure piece 162 is therefore moved vertically. The four printing ink signals are thus appropriately moved.

Neten delays subjected to the position 50 Fig. 17 shows a spray device with a of the corresponding printheads, so that valve needle 167, which is held by outer shells 168, 169 all four ink signals are surrounded by a common one. Through an inlet opening 170 Point of the template are assigned. Compressed air is supplied, which causes a

To control the output color signals nozzle 173 through channels 171 and 172 printing ink given brightness and other properties that are splashed out. The valve needle 167 consists These signals a control arrangement is provided, made of soft iron and is in an electromagnet the one control amplifier 131, a Wobbeloszil- arranged, which consists of an iron core 174 and a lator 132, an output amplifier 133 and a solenoid 175 consists. Between the iron core photoluminescent cathode ray tube 134 with a 174 and the valve needle 167 is a coil spring Luminescent or phosphorescent screen 60 176 used. The valve needle moves in their owns. Longitudinal direction depending on a change

The control arrangement works as follows: If the current intensity of the through the solenoid 175 a gray scale and a flowing current are placed along the original 3 and the OP color spot 35 is thereby controlled arranged, as shown in Fig. 5a voltage level of the nozzle 173 and the output from it is the amount of color when scanning the gray scale and color.

fleckesl35 received output signals to the circuit. Another spray device, shown in FIG.

The vertical deflection device of the afterglow cathodic shows is in the form of a needle valve which denstrahlröhre 134 applies and the horizontal or rigidly connected to a permanent magnet and in

109516/197

9 10

a bearing 179 is rotatably mounted. Point-scanning cathode ray tube CT

F i g. 19 is the permanent magnet 178 replacing an iron core with a point light source PL , which is from

180 facing, which is moved back and forth by a magnetic coil 181 of a belt or a chain

art is magnetized that with a current flow and light rays through a suitable lens

the valve needle 177 5 optics LS emits onto a template 3 through the magnetic coil 181, as shown in FIG. 11

shown twisted against the elastic force of springs 182.

is until a balance between that on the In the description above is called the carrier Valve needle 177 acting, magnetic force and a white paper for a multicolor enlargement the elastic force of the springs 182 is established. mentioned. One can within the scope of the invention each-Fig. 20, 21a and 21b show details of a but also other carrier for multicolor magnifying paint spray nozzle 183. Then use the valve needle wrestle, z. B. a substance, a non-light-177 Sensitive paper on diagonally opposite parts, for example wallpaper and the like. the needle tip two longitudinal grooves 185, 185. In two such carriers do not necessarily have to be on one diametrically opposite parts of the cylinder can be attached, but one can also On the inner wall of the outer jacket 184, two different printing processes can be used. For example speaking grooves 185 ', 185' formed. One or more print heads 201 can be used between the permanent magnet 178, the springs 182 and the aid of guide rails 202 and 203 in Koaus the iron core 180 and the magnet coil 181 ordinate axis directions over an existing flat Electromagnet is such a bed image carrier 204, as shown in FIG. 12 draw present that shows at a maximum current - 20. A pressure flow provided with the nozzle 206 Through the solenoid 181 the grooves 185, 185 head 205 can be mounted on a turntable of the needle valve the corresponding grooves 185 ', and are used for printing an image carrier 204, 185 'of the outer jacket exactly opposite that unwound from a supply roll 207, lengthways (F i g. 21 a), so that then the greatest degree of opening of an arcuate path moves and after the nozzle is achieved. F i g. 21b shows the spray-paint 25 printing being wound up into a roll 208, as nozzle 183 in the fully closed state. In Ab- it in F i g. 13 is shown. In such a dependency from the strength of the magnetic touch probe, you don't need the template to get one coil 181 flowing current will thus wrap the opening cylinder around, so that an enlargement voltage level of the paint spray nozzle 183 and thus also one on a hard plate, for. B. a metal plate the amount of paint it emits is controlled. 30 or a wooden board, drawn image without any

Another device can be produced in the device according to the invention.

device usable spray device has a Furthermore, the whole of a template 3 can abge valve needle from a metal tube 186, which is guided with a multicolor information in a suitable Tip 187 made of an elastic material, e.g. B. storage device 210, e.g. B. on a magnetic rubber, is provided. Compressed air will be stored through an opening tape, so that the print heads opening 188 and printing ink through a different opening 211 using the information stored in each nungl89 supplied. The desired point in time can be controlled through an opening 190, Oil or compressed air supplied, and if you have a suitable recording and how pressure, which depends on the size of the output signals of the output system 212 used, for example named output circuit 35 depends. As a result, 40 in FIG. 14 is shown. With the help of such a sen is caused the tip 187, pressure-dependent recording and reproducing system can to expand or contract gigantically. F i g. 23 Scanning an original and storing the shows a part of the paint spray nozzle 191 in the open the information obtained scanning in a very short State with the tip contracted 187 of the time. Furthermore, the off valve needle. 45 evaluation of the submission and the production of the

The invention has been carried out separately from one another for the sake of simplicity, color enlargement

be described for the sake of an embodiment, leads. The overall efficiency of the process

the two cylinders for an original and a white rens for making multicolor enlargements

Owns paper. For example, you can use the front of a template with the help of such a

Move position 3 in two coordinate axis directions 50 to improve the recording and playback system

and an optical system PH and one to be assigned to it.

Hold nete scanning camera stationary, as shown in FIG. 6 As described above, inven-

is shown. The scanning can be based on a multicolor enlargement of a different type

Be done, e.g. B. made by rotating a small template with a single scan

Mirror M, the rays of light falling on it will be 55. In the method according to the invention can

a template 3 is reflected as shown in FIG. 7 use a very simple optical system,

is, or by illuminating a template 3 because each color template, z. B. a color film, with the help

and rotating a small mirror M scanned by that of a single point of light, wherein

Submission of incoming light beams to a scanning corresponding electrical signals are generated,

camera PH deflects, as shown in Fig. 8, 60 In this way, different color separations

or by moving one behind the original 3 with high register accuracy,

arranged glass fiber tube GL, which the template With the help of simple modifications it becomes

Supplies light rays, as shown in FIG. 9 is shown, the scanning and / or the printing process is possible

or by using a light spot- also perform if the template and / or the

scanning cathode ray tube CT, 65 image carriers to be printed are spread out flat,

whose light beam through a suitable lens optics The advantages of the invention

LS is directed to a template 3, as summarized in thank you:

Fig. 10 is shown. You can also use light- It can be enlarged multicolor prints of

substantial size can be manufactured at low cost.

The prints produced according to the invention are lightfast because colors have excellent lightfastness can be used.

You don't need to use a special light-sensitive paper, but the enlarged multicolor print can be created on any ordinary paper or fabric.

A darkroom is not required for printing.

Compared to the usual enlargement process, the space required by the print shop can be greatly reduced because it is no longer necessary to project a template.

Various measures can be used in printing that are used in the manufacture of printing plates are known, e.g. B. Tint enhancement, detail contrast enhancement, attenuation or suppression of letters and the like

The multicolor printing process according to the invention therefore has a very wide range of applications, e.g.

large multicolor prints for outdoor advertising; large multicolor prints for use in Salesrooms and at trade fairs; Background images for television set scenes;

Backdrops for plays, variety shows, musicals, etc .; Multi-color prints for messages or notices to be posted in schools and in public Squares;

Pictures for decorating the interior and exterior walls of buildings; Enlarged, etched reliefs made on metal plates using etchants instead of inks;
zinc plates intended for offset printing, in the manufacture of which chemicals are used instead of inks; Production of multi-color enlargements based on a template on different fabrics.

Claims (14)

Claims: 45 1. A method for producing enlarged multicolor prints, characterized in that that a) a colored template with a single optical system that is used to produce color separations is suitable, is scanned, b) the color information thus obtained in printing color signals corresponding to the density of each color in the scanned picture element are converted, c) a plurality of printheads arranged at a distance from one another and each assigned to a color can be controlled separately by the corresponding printing ink signals, d) any ink signal with the exception of the printhead that is furthest ahead associated printing ink signal is subjected to a delay compared to this, which is the Running time of the print head assigned to the relevant ink signal in relation to the image carrier and accordingly the transit time of a picture element on the image carrier to be printed over the distance of the respective printhead from the furthest leading one Printhead corresponds to e) of the individual print heads as a function of the control by the printing ink signals Printing ink is applied to the image carrier to be printed, so that an enlarged colored image which at every point has essentially the same color density with respect to each one Color as the corresponding picture element of the colored original has, is reproduced. 2. The method according to claim 1, characterized in that the print heads and one to be printed Image carriers are moved relative to one another in synchronism with the scanning of the original, wherein the printheads are substantially aligned along a single print scan path. 3. The method according to claim 1 or 2, characterized in that the printing color signals are continuously fed to the respective print heads for continuous control of the pressure by means of all print heads. 4. The method according to at least one of claims 1 to 3, characterized in that the Scanning of the colored original by means of an optical system in two relative directions of movement is carried out by movements between the original and the optical system, which is essentially at right angles to each other, and that the application of ink from the printheads on the image carrier to be printed in the event of relative movements between the image carrier and Print heads that are synchronous with the scanning movements and with a larger print surface scan than the scanning movement over the original with a correspondingly enlarged printed picture element area opposite the pixel area of the scanned original. 5. Device for performing the method according to at least one of claims 1 to 4, characterized by a) an optical system that is used to scan a colored template for the production of color separations suitable is, b) means for converting the primary color light rays coming from the optical system into electrical signals, c) a device for processing the electrical signals to control print heads, d) spaced apart print heads controlled by the ink signals for applying the individual printing inks, e) a drive for moving the print heads synchronously with the scanning of the original and the image carrier to be printed relative to one another and f) delay means for delaying each ink signal with the exception of the dem the ink signal associated with the most advanced printhead compared to this a period of time which corresponds to the running time of the print head assigned to the relevant printing color signal relative to the image carrier over the distance of the printhead from the furthest leading one Printhead corresponds. 6. Apparatus according to claim 5, characterized in that indicates that the device (PH) for converting the primary color light rays coming from the optical system into electrical signals is designed as a photoelectric device and that a device (27) is provided for converting the electrical primary color light ray signals into corresponding printing color signals. 7. Apparatus according to claim 6, characterized in that the device (87) for combining the primary color signals for generating a printing color signal for the printing ink Black is provided. 8. The device according to at least one of claims 5 to 7, characterized in that a Brightness meter (49) is provided, which measures the light intensity in the area of each scanned picture element measures, and further a brightness regulator (43, 44) for regulating the amount of light in the optical System depending on the output value of the brightness meter. 9. Device according to at least one of claims 5 to 8, characterized in that Amplifiers (91, 92, 93, 94) are provided for amplifying one of the printing ink signals. 10. The device according to at least one of claims 5 to 9, characterized in that the printheads (36, 37, 38, 39) spaced from one another substantially along a scanning path aligned in a direction in which an image carrier to be printed is swept over are. 11. The device according to at least one of claims 5 to 10, characterized in that the synchronous sweeping movement of the print heads (36, 37, 38, 39) along the to be printed Image carrier for producing an enlarged reproduction is larger than the corresponding Scanning movement along the colored template (3). 12. Device according to at least one of the Claims 5 to 11, characterized in that they have a driven roller (1) on which the original (3) can be attached for scanning by the optical system, and furthermore has a drive device for moving the image carrier to be printed with a roller (2) for attachment of the image carrier, which has a larger diameter than the synchronously driven, the Original-carrying roller, which results in a correspondingly larger printing surface sweeping movement compared to the original scanning movement, and that the print heads (36, 37, 38, 39) are aligned at lateral distances from one another essentially in a line that is at right angles runs to the axis of rotation of the roller carrying the image carrier to be printed. 13. The device according to at least one of claims 5 to 12, characterized in that each printhead has a needle valve with a tubular needle (186) made of rigid material, wherein the tip (187) of the tubular needle is made of elastic material that in the valve is provided with an opening (191) for the passage of printing ink and that a device for introducing compressed air or hydraulic fluid into the tubular needle for inflation or contraction of the needle point (187) to control the size of the needle point and thus the size of the printing ink passage opening of the valve is arranged. 14. The device according to at least one of claims 5 to 13, characterized in that each printhead has an ink nozzle with a valve with a valve pin (177), the is provided with a pair of longitudinal grooves (185) at the tip, and with an electro-magnet device (178, 180) for rotating the valve needle to control the position of the grooves and thus to control the delivery of Printing ink. For this purpose 3 sheets of drawings 1 671 Metal foil stands, and that the substance is transferred to the paper when it melts, so to create the visible pattern. 8. The method according to claim 7, characterized in that the electrical signals in In the form of binary wave trains that generate such a current when one amplitude is applied Let flow between the pen and the foil that the locally increased temperature is higher is than the melting point of the heat transferable material, and that on concern the other amplitude of the signal no melting of the material takes place and thus there is no material from the metal foil to the paper. 9. The method according to claim 2, characterized in that the visible trace or the visible pattern is created on a heat-sensitive sheet which is in contact with the underside of the metal foil. 10. The method according to claim 2, characterized in that the meltable material in a composite between paper and film is arranged. 11. Recording material for reproducing a pattern according to one or more of the preceding Claims, characterized by a metal foil less than 0.0025 cm thick and a thermal conductivity of less than 0.85 cal / sec cm ° C with a layer of at Heat transferable material is proven. 12. Recording material according to claim 11, characterized in that the metal foil has a has a resistivity greater than 2 microohm-centimeters. 13. Recording material according to claim 11 or 12, characterized in that the at Heat transferable material consists of colored ethyl cellulose. 1 sheet of drawings