USRE27010E - Process for three color printing and resultant prints - Google Patents

Description

United States Patent 27,010 PROCESS FOR THREE COLOR PRINTING AND RESULTANT PRINTS Edward Daniel Flynn, 52 Haven Terrace, Parlin, NJ. 08859 No Drawing. Original No. 3,253,917, dated May 31, [966, Ser. No. 203,466, June 19, 1962. Application for reissue May 28, 1968, Ser. No. 741,811

Int. Cl. G03f 1/00, 5/00 U.S. CI. 9630 4 Claims Matter enclosed in heavy brackets appears in the original patent but forms no part of this reissue specification; matter printed in italics indicates the additions made by reissue.

This invention relates to a novel process for three color printing and more particularly to a novel process for three color printing utilizing four screened halftone positives, the novel halftone negatives employed therein and the four color prints resulting from such process.

It is known in the art that halftone color separation, H

also known as process work, is both relatively difficult and expensive. it a copy is to be reproduced in full color, it is generally necessary to make four separate negatives and four separate press plates for it.

Since colors normally photograph as black or as shades must be made on the paper one over the other to restore t.

the full color to the finished print, the angle of the hall?- tone screen is changed for each shot so that the resulting pattern of colored dots will not directly overlap, but will print side by side when the plates are run on the press. When screening the continuous tone negative any one of a series of four color screen angles are usually employed. Such angles are as follows:

FOUR COLOR SCREEN ANGLES Red Blue Yellow (Magenta) (Cyan) Black Ell) 75 105 45 .lll T5 45 lit) 15 45 tlll 15 ll 3t] till 75 till 90 .lll T5 120 45 0 15 75 45 till 75 15 45 (til 15 75 in order to reduce the amount of work in the four color printing process, as well as the cost thereof, three negatives and three plates may be employed in a process referred to as three color printing and in which all the colors printed are obtained by combination of the colors: yellow. red and blue. For example, overprinting red with yellow produces orange, red with blue produces purple, blue with yellow produces green and overprinting all three gives the efi'ect of black.

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Re. 27,010 Reissuecl Dec. 22, 1970 ICC As with the four color processing a specific series of angles is usually employed. However, when compared with the usual four color angles it is apparent that there is no relation between the four color and the three color angles. Examples of such angles are as follows:

THREE COLOR SCREEN AN t i LES Yellow Red Blue While three color printing has apparent advantages there are certain disadvantages concomitant therewith. For example, inasmuch as such process employs but three angles there can only be an effect of black given, as the process is capable of reproducing but three patterns of dots, each at the above angles. Since there is no fourth, or black angles used, there cannot be a true black dot, but merely an overlapping of a portion of each of the three dillerent patterns of colored dots printed in the process.

Another disadvantage of three color printing is that the process inks employed with four color printing cannot be employed with the three color process. Instead, special three color balanced inks must be employed which do not give the fidelity desired and which is achieved by the four color process.

It is an object of the present invention. therefore, to provide a process utilizing three colors but obtaining the results comparable to the four color process.

It is another object to provide a process employing the three colors of the three color process but which will provide a separate pattern of a fourth colored dot, that is, a distinct black dot pattern.

It is still another object of the present invention to provide a process which employs three colors but which employs the process inks of four color printing and with the resulting fidelity of four color printing.

The present invention provides for these and other apparent objects by the production of a halt'tone negative having two patterns of halftorle dots each at different angles from each other, that is. a halftone negative which combines two angles selected from one of the series of four color angles on one piece of film. This is accomplished by positioning a first halftone positive having one of the above-mentioned angles in direct contact with a second halftone positive having a different angle therefrom and registering both positives in combination on the film. For example, if the halftone negative is to be employed to make a four color print by the three color printing process, a black halftone positive having a specific angle from the four color series is positioned with a second halftone positive having an angle corresponding to the desired color and angle selected from the four color series. Thus, a halftone negative results having a combined black angle and another desired color angle on one piece of film.

The following will serve to illustrate the process of the present invention more fully. it should be understood that while angles of:

Yellow at 90 angle Red at 15 angle Blue at 75 angle Black at 45 angle are employed hereinafter, any series of the angles set forth above in the four color series as well as any other effective series of angles may be employed.

The process of the present invention employs a continuous tone four color separation negative obtained by any one of the photographic methods known to the art. If desired, the continuous tone negative may be initially corrected by hand work, masking, dot etching, opaquing or a combination of these. From such continuous tone negatives is made a screened halftone positive corresponding to each of the four angles set forth above.

The black halftone positive of 45 angle is then positioned in direct contact and registered with the yellow halftone positive of 90 angle on a single piece of film so as to produce a halftone negative combining the black 45 angle and the yellow 90 angle. In a similar manner, the black halftone positive of 45 angle is positioned in direct contact, and registered with the red halftone positive of 15 angle on a single piece of film so as to produce a halftone negative combining the black 45 angle and the red 15 angle. Similarly, the black halftone positive of 45 angle is positioned in direct contact, and registered with the blue halftone positive of 75 angle on a single piece of film so as to produce a halftone negative combining the black 45 angle and the blue 75 angle. The result may be set forth as (a) a combined yellow-black halftone negative of 90 and 45 angles (1)) a combined red-black halftone negative of 15 and 45 angles and (c) a combined blue-black halftone negative of 75 and 45 angles.

Each of the three combined halftone negatives are then processed into printing plates by stripping and plating by known methods. In the printing step only three plates and inks are employed, i.e., yellow, red and blue to produce dot patterns of the respective colors. The elimination of the black plate and ink does not affect the quality of reproduction, however, as a pattern of individual black dots will be formed by the printing of the 45 angle in the yellow, the printing of the 45 angle in the red and the printing of the 45 angle in the blue. When the three colors are printed at the same angle, one directly over the other, the combination of such colors will produce a pattern of black dots at a 45 angle and comparable to that produced in the four color printing process.

While the foregoing example describes a three color process, it is within the scope of the present invention to provide for two color processes as well. For example, if a print is desired in yellow, green and blue a green dot may be produced by providing a separate angle therefor as set forth above on each of the yellow and blue halftone negatives. Thus three angles are employed and three patterns of yellow, green and blue dots respectively are printed.

The process of the instant invention can be employed in either negative or positive printing by reversing the final negatives referred to above so as to be positives and should not be construed to be limited to negative printing by the above illustrative example.

The film employed in the process can be regular base film or thin base film.

By the term direct contact as used herein is meant either the positioning of the first or black positive over the second positive or the second positive over the first or black positive.

As employed in the instant invention the term screen refers to any screen employed in the art, for example, magenta screen, gray screen, glass screen, etc. and having any line variation, for example, from line to 400 line.

What is claimed is:

l. A process for the production of three color printing using four different screen angles to produce a screened yellow halftone positive, red halftone positive, blue halftone positive and a black halftone ositive in a manner known per se which comprises positioning the black halftone positive in direct contact with the yellow halftone positive and producing a combined halftone negative therefrom, positioning the black halftone positive in direct contact with the red halftone positive and producing a combined halftone negative therefrom, positioning the black halftone positive in direct contact with the blue halftone positive and producing a combined halftone negative therefrom, processing the resulting three combined halftone negatives into plates and running said plates on a press in yellow, red and blue ink respectively.

2. A process for the production of three color printing from four continuous tone negatives which comprises making a screened yellow halftone positive with a first angle from a first continuous tone negative, making a screened red halftone positive with a second angle from a second continuous tone negative, making a screened blue halftone positive with a third angle from a third continuous tone negative, making a screened black halftone positive with a fourth angle from a fourth continuous tone negative, positioning the black halftone positive in direct contact with the yellow halftone positive and producing therefrom a halftone negative combining the black angle and the yellow angle, positioning the black halftone positive in direct contact wtih the red halftone positive and producing therefrom a halftone negative combining the black angle and the red angle, positioning the black halftone positive in direct contact with the blue halftone positive and producing therefrom a halftone negative combining the black angle and the blue angle, stripping and plating the respective resulting combined negatives and printing each plate in yellow, red and blue respectively.

3. A process for the production of three color printing using four different screen angles to produce a screened yellow halftone negative, red halftone negative, blue halftone negative and a black halftone negative in a manner known per se and which comprises producing a combined screened halftone positive from said screened black halftone negative and said screened yellow halftone negative, producing a combined screened halftone positive from said screened block halftone negative and said screened red halftone negative, producing a combined screened halftone positive from said screened black halftone negative and said screened blue halftone negative, processing the resulting three combined screened halftone positives into plates and running said plates on a press in yellow, red and blue ink respectively.

4. A process for the production of multicolor printing using a number of screen angles which number is one integer greater than the number of colors employed in said multicolor printing process to produce screened halftone positives or negatives in a number corresponding to the number of screen angles employed in a manner known per se which process comprises producing combined screened halftone negatives or positives in a number corresponding to the number of colors employed in said multicolor printing process from two of said screened halflone positives or negatives respectively and processing the resulting combined screened halftone negatives or positives into plates and running said plates on a press in colored inks corresponding to the colors of said multicolor priming process with the proviso that one of the screen angles used is employed in each of the combined screened halftone ncgativcs or positives produced and that the screened halftone positive or negative correspond- 5 v ing to such screen angle common to each combined half- UNITED STATES PATENTS tone negative or positive is other than one of the colors 2 841,429 7/1953 Gresham 96 30 employed in said multicolor printing process.

NORMAN G. TORCHIN, Primary Examiner References Cited A. T. SURO PICE, Assistant Examiner The following references, cited by the Examiner, are of record in the patented file of this patent or the original 5 1 X'R' patent. 95 45

Claims (1)

1. 4. A PROCESS FOR THE PRODUCTION OF MULTICOLOR PRINTING USING A CHAMBER OF SCREEN ANGLES WHICH NUMBER IS ONE INTEGER GREATER THAN THE NUMBER OF COLORS EMPLOYED IN SAID MULTICOLOR PRINTING PROCESS TO PRODUCE SCREENED HALFTONE POSITIVES OR NEGATIVES IN A NUMBER CORRESPONDING TO THE NUMBER OF SCREEN ANGLES EMPLOYED IN A MANNER KNOWN PER SE WHICH PROCESS COMPRISES PRODUCING COMBINED SCREENED HALFTONE NEGATIVES OR POSITIVES IN A NUMBER CORRESPONDING TO THE NUMBER OF COLORS EMPLOYED IN SAID MULTICOLOR PRINTING PROCESS FROM TWO OF SAID SCREENED HALFTONE POSITIVES OR NEGATIVES RESPECTIVELY AND PROCESSING THE RESULTING COMBINED SCREENED HALFTONE NEGATIVES OR POSITIVES INTO PLATES AND RUNNING SAID PLATES ON A PRESS IN COLORED INKS CORRESPONDING TO THE COLORS OF SAID MULTICOLOR PRINTING PROCESS WITH THE PROVISO THAT ONE OF THE SCREEN ANGLES USED IS EMPLOYED IN EACH OF THE COMBINED SCREENED HALFTONE NEGATIVES OR POSITIVES PRODUCED AND THAT THE SCREENED HALFTONE POSITIVE OR NEGATIVE CORRESPONDING TO SUCH SCREEN ANGLE COMMON TO EACH COMBINED HALFTONE NEGATIVE OR POSITIVE IS OTHER THAN ONE OF THE COLORS EMPLOYED IN SAID MULTICOLOR PRINTING PROCESS.