NO762771L - - Google Patents

Abstract

Course for identification cards, procedure for its production and identification cards produced from the course.

Description

The present invention concerns a subject for an identification card which is designed in such a way that it prevents forgeries and changes. To produce such a subject according to the invention, a sheet of paper or other suitable material is first provided with a coating of non-light-sensitive photographic material, e.g. a material for diffusion copying. The coated surface of the blank is then provided with a background of printed lines or dots separated by spaces significantly wider than the lines or dots.

A negative photograph of the person to be identified is then made and transferred to a coated and printed field of the subject by a diffusion process so that a positive impression is reproduced on the card. The identification data is then applied to another such field of the subject in some appropriate way, e.g. by printing, handwriting, typing or photography. The card is then finished.

It is preferred to use intaglio printing for applying the background lines or dots, because intaglio characters are more easily destroyed or flow out when alterations are attempted and are more difficult to forge. But whatever method is chosen for printing the background lines, any disturbance or blurring of the lines will leave a broken part or open area in the photograph, so that an attempt at alteration will be clearly visible.

In a modified embodiment, the subject is provided with a

alternating image field made in intaglio printing, by which is meant a surface with an imprinted image that looks different when viewed at an acute angle to the plane of the paper, and when viewed perpendicular to this. Such an alternate image can only be created by gravure printing

and not by photography, which necessarily reproduces the appearance seen from a certain angle and cannot reproduce deviant appearances from two different angles.

In designs where an alternating image is not used, the background lines can be printed planographically or in letterpress.

The invention will now be described in more detail under reference

to the drawing.

Fig. 1 schematically illustrates the method according to the invention and shows enlarged cross-sections of the materials at certain stages of the process and floor plans of identification cards at other stages in the process. Fig. 2 is a diagram similar to fig. 1, but for a modified procedure. Fig. 3 is a section on a larger scale of a part of fig. 2 and shows an alternating image field. Fig. 4 is a perspective section of a part of fig. 3 on an even larger scale.

The method shown in diagram form in fig. 1, begins with a sheet of paper or other suitable material coated on one side with a non-light-sensitive photographic reproduction material. This material can be of the type of diffusion copying materials described in US-PS 2,352,014. The sheet and coating are shown on an enlarged scale in fig. 1 and denoted by 1 and 2 respectively. On the coated surface of the sheet is printed a pattern of background elements, which are typically lines or dots separated by areas that are relatively wide compared to the width of the lines and dots or dots. The lines are in fig. 1 denoted, with 3 and to a lesser extent with 4.

This sheet 1 with its coating 2 and the pattern of printed background lines 3 constitutes the subject for the production of identification cards in accordance with the invention.

The next step is to enter data on the sheet as shown at 5 in Fig. 1, by any suitable means, eg printing, typing, handwriting or photography. The person whose identification data 5 is printed on the sheet is then photographed, and the negative photograph is transferred to the coating by a diffusion copying process of the kind described in US-PS 2 352 014. Thereby the complete identification card 6 with identification data 5 and the photograph of the person to be identified is obtained.

The photograph is reproduced on the relatively wide spaces between the printed lines, but the lines are made so narrow compared to the width of the spaces that they do not make the photograph indistinct.

Although a monochrome photograph is sufficient, it is readily possible within the scope of the invention to use a color photograph.

The invention is not limited to any particular order of the transfer of the photograph to the card and the application of the typed or printed data. At present, however, it is preferred for practical reasons to enter the data first, so that the person is identified, and then take the person's picture after it has been determined that all identification data is correct.

A useful method for photographically applying the data is to produce a special data card with all identification data

and then photograph this card together with the person to be identified, e.g. by using a split image lens system.

The printed background elements prevent changing of either the image 7 or the identification data 5, as these elements will be blurred, blurred or removed by any attempt to change the image or the data. Any such blurred or removed part leaves a damage or a void in the photograph and thereby makes it clear that an attempt to change has been made.

Fig. 2 shows a modification of the embodiment in fig. 1, where the background elements are printed by an intaglio process on a sheet 11 having a surface covered by a coating 12 of diffusion copying material, so that the paper below the lines or the other elements 13 is raised above the surface plane of the coated surface, the paper being pressed into depressions in a deep printing plate during the printing process. During printing, an alternating image can also be printed on a field 14, as described below in connection with Figures 3 and 4. This also results in an image that either appears or disappears when viewed from different angles. In other words, it can be a latent image that is not only visible when viewed perpendicular to the sheet, but becomes visible when the sheet is held at an angle so that it forms an acute angle in relation to the direction of vision. On the other hand, there may be a transient or alternating image that is visible when viewed vertically on the plane of the paper, but disappears when viewed at an acute angle. Such images can be printed in gravure as shown and described in detail in US patent application no. 569,563. The alternating image field can be printed at the same time as the lines 13 are printed

in gravure. Identification data 15 can be applied by any suitable process, e.g. printing, typing, handwriting or, photography. A negative photograph is taken of the person to be identified, which is transferred to the coating 12 by a diffusion copying process, so that it appears as shown at 16 in fig. 2. Here, too, the order of photographic reproduction and introduction of data is irrelevant.

The ink used to print lines on the coating of diffusion copying material must be compatible with this material. In other words, the printing ink must not spread through the coating, nor must it in any other way affect the quality of the photographic reproduction on the surfaces between lines 3 and 13. As most gravure inks are heavy and viscous and do not spread easily, this represents no particular problem when using such printing inks. When, on the other hand, planographic printing or letterpress is used, as in fig. 1, one must be careful, especially with regard to the choice of carrier for the printing ink. Regardless of which printing process is used, all ink components used must be compatible with the diffusion copying process.

The material in the diffusion copying coating can be one of

those described in US-PS 2,352,014, as mentioned above. A suitable gravure ink can be made according to the following recipe:

Sheet oil can be defined as linseed oil which has been partially polymerized by burning or boiling to increase its viscosity.

Instructions for many other suitable ink compositions for gravure printing and other printing processes can be found in the literature. Cf. for example, "Printing and Litho Inks" by H. J. Wolfe, MacNair-Dorland Company, New York, 5th Edition, 1957.

The possibilities for detecting changes in a document that

is made in accordance with the invention, can be increased by using a moiré pattern which is produced by combining: 1) a set of linear background elements printed on the paper and 2) a set of linear elements photographically transferred to the paper after the printing operation and oriented so that

they form a small angle with the printed linear elements, thus giving the desired moiré effect.

The photographically reproduced elements can be applied simultaneously with the image or, other photographically reproduced material, or the set of linear elements can be applied before the transfer of the image. E.g. the photographically reproduced elements can be applied simultaneously with the image by placing the person during the photograph in front of a background on which the elements are drawn. If this method is used, the camera must have sufficient depth of field to clearly delineate both the person's face and the background. In this case, the person's photograph will appear on the finished document framed by a moiré pattern. Another method for introducing the photographically reproduced linear elements at the same time as the image would be to take the image through a suitable paste in the camera's optical system, so that both the image and the linear elements appear on the negative. Although it may be thought possible to apply these photographic elements after the image has been transferred, such a process would be cumbersome and is not presently preferred. The moiré pattern can be applied in the field 6 where the data also occurs, or in another place.

Any attempt to alter a document with such a moiré pattern will necessarily destroy the moire pattern and thus reveal the alteration attempt.

It is of fundamental importance that the coating is of non-light-sensitive material if the identification data is to be applied to the card before the photograph is reproduced, as the coating can and in practice must be exposed to light when the identification data is to be entered.

Figures 3 and 4 illustrate examples of a method for producing an alternating image field by intaglio printing, as shown at 14 in fig. 2. To simplify the drawing, this design example is shown to have image-forming lines 33 that are perpendicular to background-forming lines 37.

In fig. 3 shows an intaglio applied image or pattern on a sheet of paper 31. The printed image comprises a letter "A" 32 mainly formed by parallel, separated, raised and ink-coated intaglio lines 33 which run in a direction mainly perpendicular to the paper's longitudinal edge 34. The printed image likewise comprises a background 36 which surrounds the image 32 and is formed by mainly parallel, separated, raised and ink-coated intaglio lines 37 which run in a direction mainly parallel to the longitudinal edge 34, i.e. largely perpendicular to the image-forming lines 33. The width of and the distance between the background-forming lines 37 corresponds to the width of and the distance between the image-forming lines 33, so that both the image and background parts of the printed pattern display the same color tone when viewed in a direction perpendicular to the image surface. From this angle, the image will therefore visually blend with the background and not appear in sharp contrast to it. All background lines 37 run in the same direction, and all image lines 33 run" in a direction perpendicular to the background lines. Because of this relative orientation of the image and background lines, the image 32 appears in increasingly clear contrast to the background 36 the more acute the angle printed image is considered below, becomes The relationship between contrast and viewing angle in the embodiment shown in Fig. 3,

will be explained in more detail with reference to fig. 4.

As stated above, there is no visible contrast between the image 32 and the background 36" when viewed in a direction normal to the printed surface of the paper 31, because the line thickness and line spacing of the image and the background are substantially the same, i.e. there is essentially the same ratio between color printed area and visible non-printed area between the lines in both the background portion and the image portion. If the paper is viewed at an acute angle and in a direction perpendicular to the background lines 37, the background 36 will become darker as the angle decreases. The highlighted and color-printed background lines 37 will increasingly cover the light or unprinted spaces between the lines as the angle becomes more and more acute, and if it is small enough, the lines will completely cover the space 37 between them, so that these spaces are no longer Since the direction of vision established here is perpendicular to the background lines 37 and consequently in horizontal projection corresponds to the longitudinal direction of the image inje 33, the aforementioned change of viewing angle in relation to the image plane will not cause increasing coverage of the bright fields between the lines 33 in the image, but instead allow these bright fields to remain fully visible even if the viewing angle becomes very sharp. This results in the image at a sufficiently sharp viewing angle appearing markedly brighter than the background and in clear contrast to it, since the image remains relatively light in tone, while the background darkens more and more as the viewing angle decreases.

Fig. 4 is a in relation to fig. 3 enlarged, schematic perspective drawing of image and background parts, as they become visible under an acute viewing angle in a viewing direction perpendicular to the paper edge 34 and the background lines 37. This figure shows how the light spaces between the lines are covered and darkened by the lines 37, and the constant visibility of the bright spaces between the image lines 33 under this viewing angle.

An opposite effect will appear if the printed image is viewed in a direction perpendicular to the image lines 33, i.e. projected onto the paper plane in the same direction as the background lines 37. In this case, the image will become darker and darker as the viewing angle becomes more and more acute, as they light spaces between the image lines will increasingly be covered by these lines, while the background remains relatively light, with the result that someone viewing the image under a sufficiently sharp angle will see this appear in dark contrast to a light background.

Contrast between image and background can also be produced by lighting the image in a particular direction, either vertically on the image lines or on the background lines. Thereby, parts of the image of the background are selectively obscured by shadows cast by the highlighted "lines."

It will thus be realized that it is easily possible to check the authenticity of an intaglio of the type shown in fig.

3 and 4 by tilting the printed paper to thereby change the viewing angle to a vertical viewing direction on either one or the other side edge of the paper or by changing the lighting angle for the printed surface. In an authentic version of the identification card, an image will appear that gains stronger contrast as the viewing angle or lighting angle decreases. Although a photographic copy of the impression can reproduce the lines that form the image, i.e. as they appear when the image is viewed in a direction perpendicular to the paper surface, the alternate image described will

above, do not appear in contrast with a photocopied or other two-dimensional forgery. In other words, the copy will not show any change in light and shadow effect when changing the viewing angle or lighting angle, since the photocopy cannot reproduce the image's tonal change, which depends on the intaglio's three-dimensionality

character.

To simplify the control, the alternating image is preferably either a letter, a number, a combination of letters and/or numbers, or another symbol that is easy to understand.

Claims (19)

1. Subject for an identification card or similar, characterized in that it consists of a sheet or leaf of a carrier material, a coating of a non-light-sensitive photographic reproduction material.! the smallest on one side of the sheet, and a background of in between from elements printed on top of said coating, the sheet being arranged to receive an overprint of data at least in the spaces between the elements, which serves to prevent change of the data applied to the aforementioned one side of the sheet. 2. Subject as specified in claim 1, characterized in that the overprint is photographically reproduced by diffusion copying to the coating. 3. Subject as specified in claim 1, characterized in that the overprint is handwritten. 4. Subject as specified in claim 1, characterized in that the overprint is printed. 5. Subject as stated in claim 1, characterized in that the elements are thin lines separated by much wider areas. 6. Subject as specified in claim 1, characterized in that the background elements are applied in gravure. 7. Subject as specified in claim 1, characterized in that the elements are printed planographically. 8. Subject as specified in claim 1, characterized in that the elements are applied in steel print. 9. Subject as stated in claim 1, characterized in that it comprises a surface with background elements made in gravure printing and an alternating image surface made in a gravure printing and transfer technique. 10. Subject matter for an identification card or similar, characterized in that it consists of a sheet or sheet of carrier material, a coating of a material for diffusion copying on at least one side of the sheet and a background of spaced elements printed on top of it said covering, the sheet being arranged to receive photographic data in the spaces between the elements in at least one field on said one side and the elements serve to prevent changes to data applied to said one side. 11. Subject as stated in claim 10, characterized in that the elements are applied in gravure. 12. Method for producing a subject for identification cards or the like from a sheet or leaf that is coated on one side with non-light-sensitive photographic reproduction material, characterized in that it includes printing the coated side of the sheet with a background of spaced elements separated by unprinted clean surfaces of greater width than the elements.. 13. Method as stated in claim 12, characterized in that the printing is carried out by an intaglio printing process. 14. Method as stated in claim 13, characterized in that an alternating image is printed on a field of the coated side of the sheet. 15. Method for producing an identification card or the like from a sheet that is coated on one side with a non-light-sensitive photographic reproduction material, characterized in that at least one field on the coated side of the sheet is printed with a background of spaced apart elements with spaces of greater width than the elements, that in a first area of the field a photograph of a person to be identified with the card is developed, and that in another area of the field data for identification of the person in the photograph is entered. 16. Method as stated in claim 15, characterized in that said field covers the entire sheet. 17. Method as stated in claim 15, characterized in that the mentioned background elements are formed as lines, and that at least on an area of the field a set of lines are photographically copied which run at an angle to the background lines and cooperate with these to form a moiré pattern. 18. Method as specified in claim 15, characterized in that said photographic reproduction material is a material for diffusion copying, - that a negative photograph is produced of the person to be identified, and that a positive photograph is transferred from the negative to the sheet by diffusion copying. 19. Identity card, characterized in that it consists of a sheet or sheet of carrier material with a coating of diffusion copying material on one side of the sheet, a gravure printed background field of characters arranged at a distance from each other, which are data introduced between a photographic reproduction process or printing, and an alternate image executed in gravure on the aforementioned one side of the sheet.