FI79671C - DOCUMENT, FOERFARANDE FOER FOERHINDRANDE AV LJUSKOPIERING AV DOKUMENT OCH FOER LJUSKOPIERING OTILLAEMPLIGT PAPPER. - Google Patents

Abstract

A document has information appearing thereon, with at least a portion of the information being located on a front face of a portion of the document. The front face portion has a colour with a sufficiently low reflection spectral response to render the document portion substantially incapable of being photocopied in an information-readable manner. The document portion is capable of transmitting visible light from the rear face to the front face to cause sufficient contrast between the relatively non-translucent information and the transmitted light to enable the information to be read by a human eye viewing the front face of the document when visible light is transmitted through the document from the rear face to the front face.

Description

1 79671

Document, a method of preventing photocopying of a document and paper unsuitable for photocopying

The present invention relates to a document, a method for preventing photocopying of a document, and a paper unsuitable for photocopying.

With the proliferation of photocopiers, it has been necessary to consider how to make documents or certain parts of them such that they cannot be photocopied. 10 Nowadays, it is very easy for anyone to take a photocopy of a document containing confidential information, provided that it is not unsuitable for photocopying. Therefore, in order to prevent the taking of unauthorized photocopies, a number of proposals have been made to make documents inaccessible. The information contained in the document is then covered with a translucent film so that it can be read normally, but cannot be read from a photocopy. U.S. Patent Nos. 3,887,742 20 and 4,118,122 disclose such proposals, but for some reason, in both cases, it has not been possible to develop a completely satisfactory solution for rendering such documents unsuitable for photocopying.

It is an object of the present invention to provide an improved method for rendering a document or a portion thereof so that it cannot be photocopied.

The document of the invention is characterized in that at least a portion of the data is located in a portion of the document 30 having a color reflection spectral response of less than about 10% for light having a wavelength not exceeding about 600 nanometers and still providing a sufficiently visible contrast with the data. read with the human eye when the document is viewed under white light.

2 79671

The invention also relates to a method according to claim 13, by means of which the document is made such that it cannot be photocopied.

The invention further relates to a paper unsuitable for photocopying according to claim 25.

The document according to the invention has then been found to be such that it cannot be photocopied for reading by current photocopying machines, even though it can be read normally.

10 The color reflection spectral response is less than about 10% for light with a wavelength not exceeding about 620 nanometers or not exceeding about 650 nanometers.

At the same time, the desired color can be obtained in the document by treating at least a part of it with a corresponding ink 15 or by preparing the document from the same color. This aspect is therefore very important, because it is a paper that is not suitable for photocopying, ie paper on which the necessary text can be printed, for example, and which cannot be photocopied for reading on current photocopiers.

Alternatively, the translucent film of the corresponding color is placed on at least a certain part of the document and preferably attached to it with a suitable adhesive.

The film may comprise a plurality of overlapping layers, wherein the transmission spectral response of the first layer is less than about 10% at a wavelength of about 600 nanometers and increases to about 75% at a wavelength of about 650 nanometers. The transmittance response of the second layer is again about 30 to 50% at a wavelength of about 600 to about 700 nanometers. The first and second layers then form a reflection spectral response of less than about 10% for light with a wavelength not exceeding about 650 nanometers.

Again, the color reflection spectral response is preferably approximately zero for light with a wavelength not exceeding li 3 7967Ί of about 620 nanometers.

The structures of the invention will now be described by way of example with reference to the accompanying drawings, in which Figure 1 shows graphically the reflection spectral response of a non-photocopiable paper according to one structure of the invention, Figure 2 hei-j step spectral response of white paper with a layered translucent film.

Figure 1 relates to a white, coated base paper, which may have either a matte or glossy surface and an ink layer on at least one side thereof. The color and intensity of the ink are then such that a certain reflection spectral response or characteristic crossover is obtained for the perpendicular surface light 20 shown in Figure 1 as a curve F. It should now be noted that the reflection spectral response is approximately zero for light with a wavelength not exceeding about 620 nanometers and less than about 10% for light with a wavelength not exceeding about 650 nanometers.

The normal spectral response (sensitivity) of the eye is shown in Figure 1 as curve E and the typical spectral response of a known photocopier as curve PC. In this context, it should be noted that the spectral response of the photocopier drops to zero at a wavelength of about 610 nanometers. In this case, the term "cut-off" 30 (limit) is generally used to describe the wavelength at which the spectral response has dropped to about 10%. In this case, the cut-off wavelength of the photocopier used is about 600 nanometers, so that the text on the paper (mainly black) cannot be photocopied because the photocopier cannot distinguish the text from the color of the paper. However, the paper reflects enough light with wavelengths of about 620 to 700 nanometers so that the eye can distinguish the text when the paper is held under the light.

The following are three examples of an ink that can be used to generate the reflection spectral response shown as curve F in Fig. 1.

Example 1 4.6% process blue 1% reflex blue 10 46.4% off-white 11.3% opaque white 20.4% warm red 12.3% ruby red 4.1% black 15 Example 2 7.5% process blue 1.5% reflex blue 38, 9% warm red 45.3% ruby red 6.8% process black

Example 3

Different mixtures of the following: rhodominium-red ruby red 25 black.

Another structure of the invention comprises a paper on which a corresponding reflection spectral response shown as curve F in Fig. 1 is formed already at the manufacturing stage, e.g. by absorbing the printing ink mentioned in Example 1 into the paper pulp.

30 Thus, a document containing a piece of information written or drawn in black on white paper (other color combinations may be used) may be photocopied on one of the two papers described above. The text in the photocopy can then be read in the normal way, but it is not possible to take a copy of it 5 79671 because the data is "locked" to this secret photocopy.

Thus, according to the two structures described above, a completely new and inexpensive paper has been developed which cannot be photocopied and in which the confidential information can be typed or photocopied from ordinary white paper to which it has been transferred by conventional methods. The paper according to the invention, which cannot be photocopied, thus replaces the paper normally used in the photocopier-10 machine.

According to other structures of the invention, paper containing confidential information may be rendered unsuitable for light reproduction by affixing a translucent color film to it, which gives the paper or a part thereof a reflection spectral response corresponding to curve F of Fig. 1. If desired, the film can be permanently attached to the paper, e.g. with glue.

In this case, it is possible to use, for example, a translucent film whose light transmission spectrum characteristic corresponds to that shown in Figure 2 as a curve Ro. The film may be an acetate film, e.g. Pantone ruby red. (Pan-tone is a trademark of Letraset.) Preferably, two overlapping films are used, with the light transmission characteristics of two such layers corresponding to the RR-25 of Figure 2, i.e., the cut-off is sharper at a higher wavelength than the single-layer film Ro. The reflection spectrometer response of the two-si layer film is shown in Figure 3 as a curve (RR) 2. The same figure also shows the spectral response of the eye (curve E) and the spectral response of a known photocopier-30 machine (curve PC). The cut-off of the spectral response of the bilayer film is at about 625 nanometers. The eye is then able to distinguish the text on the paper quite easily.

In order to enhance the prevention of photocopying, yet another translucent film having a transmittance spectral characteristic of about 50% in the range of 600 to 700 nanometers can be used. A suitable film for this is the blue Pantone 297-A, the transmission spectrum characteristic of which is shown in Figure 2 as a curve Bo. The blue film Bo is attached to the paper and the ruby red film Ro is then placed on it to obtain a combined permeation characteristic (curve RB in Fig. 2). The reflection spectral response of such a composite film is shown as curve (RB) 2 in Fig. 3. The cut-off of this film can be found to be at a higher wavelength, i.e. 655 millimicrons, whereas the RR-cut-off of the two-layer film is 625 nanometers.

The invention also encompasses a non-photocopying ink having a reflection spectral response of less than about 10% for light having a wavelength not exceeding about 600 nanometers. In this case, however, light with a wavelength not exceeding about 620 nanometers, or preferably about 650 nanometers, is recommended.

The invention can, of course, be applied to various securities, including lotteries, tickets for theaters and sports competitions, stamps and tax stamps, shares and bonds, credit cards, various checks and banknotes.

It will be appreciated by those skilled in the art that other variations of the invention may be made. The scope of the invention is defined in the appended claims.

Claims (33)

1. A document containing information, characterized in that at least part of the information is Document according to claim 1, characterized in that the color reflection spectral response is less than about 10% for light with a wavelength not exceeding about 620 nanometers. A document according to claim 1, characterized in that the color reflection spectral response is less than about 10% for light with a wavelength not exceeding about 650 nanometers. A document according to claim 1, characterized in that the color reflection spectral response is approximately zero for light having a wavelength not exceeding about 620 nanometers. A document according to claim 1, characterized in that it comprises a base paper, 25 of which has a printing ink having said color. 5 Jan to a part with a color reflection spectral response of less than about 10% for light with a wavelength not exceeding about 600 nanometers, but which nevertheless provides a sufficiently clear contrast with the data to be readable by the human eye when the document is viewed under 10 white lights . Document according to Claim 5, characterized in that the paper is white and the information therein is black. A document according to claim 1, characterized in that the document is colored paper during manufacture to provide said color to said part of the document. 7 79671 Document according to Claim 7, characterized in that the information contained therein is 8 79671 black. A document according to claim 1, characterized in that the document comprises a base paper with the information contained therein, and that a translucent film of said color 5 is attached to said part of the document. Document according to Claim 9, characterized in that the translucent film comprises a plurality of overlapping layers. A document according to claim 10, characterized in that the translucent film comprises a first layer having a transmission spectral response of less than about 10% at a wavelength of about 600 nanometers and increasing to about 75% at a wavelength of about 650 nanometers, and a second layer having the transmission spectral response is about 50% at a wavelength of about 600 to 700 nanometers, and that the first and second layers form a reflection spectral response of less than about 10% for light having a wavelength not exceeding about 600 nanometers. Document according to Claim 9, characterized in that the paper is white and the information is black. 13. A method of making an information document such that it cannot be photocopied, characterized in that a portion of the document containing at least a portion of the information contained therein is treated with a color having a reflection spectral response of less than about 10% for light having a wavelength does not exceed about 600 nanometers, and which, however, provides a sufficient contrast with the information in the document so that the information can be read by the human eye when the document is viewed under white light. A method according to claim 13, characterized in that the color reflection spectral response 35 is less than about 10% for light whose wavelength I: 9 79671 does not exceed about 620 nanometers. The method of claim 13, characterized in that the color reflection spectral response is less than about 10% for light having a wavelength not exceeding about 650 nanometers. The method of claim 13, characterized in that the color reflection spectral response is approximately zero for light having a wavelength not exceeding about 620 nanometers. A method according to claim 13, characterized in that said part of the document is formed into the above-mentioned color by treating it with an ink of said color. A method according to claim 17, characterized in that the paper is white and the information therein is black. A method according to claim 13, characterized in that a part of the document is made of the above-mentioned color already during the production of paper. A method according to claim 19, characterized in that the information contained in the document is black. A method according to claim 13, characterized in that a part of the document is formed in the above-mentioned color by applying a translucent film of the same color. A method according to claim 21, characterized in that a translucent film of the above-mentioned color is placed on said part of the document. A method according to claim 21, characterized in that the translucent film has a plurality of overlapping layers. A method according to claim 23, characterized in that the translucent film comprises a first layer having a transmission spectral response of less than ίο 79671 than 10% π. 600 nanometers and increases to about 75% at about 650 nanometers, and a second layer with a transmission spectral response of about 50% at about 600-700 nanometers, the first and second layers then forming a reflection spectral response that is less than about 10%, for light with a wavelength not exceeding about 650 nanometers. 25. Paper which is unsuitable for photocopying, characterized in that it has a reflection spectral response of less than about 10% for light having a wavelength not exceeding about 600 nanometers and which nevertheless provides a sufficiently visible contrast with data typed or transmitted to it in another way so that they can be read by the human eye, 15 when the paper is viewed under a white light. A paper unsuitable for light reproduction according to claim 25, characterized in that the color reflection spectral response is less than about 10% for light having a wavelength not exceeding about 620 nanometers. A paper unsuitable for light reproduction according to claim 25, characterized in that the color reflection spectral response is less than about 10% for light having a wavelength not exceeding about 650 nanometers. A paper unsuitable for light reproduction according to claim 25, characterized in that the color reflection spectral response is approximately zero for light having a wavelength not exceeding about 620 nanometers. Non-photocopying paper according to claim 25, characterized in that it comprises a base paper in which an ink of the above-mentioned color is incorporated. Paper which is not suitable for light reproduction according to claim 25, characterized in that said color is already incorporated therein during manufacture. li 11 79671 Non-photocopying paper according to claim 25, characterized in that it comprises a white base paper to which said colored translucent film is attached. Paper not suitable for light reproduction according to Claim 25, characterized in that the translucent film has a plurality of overlapping layers. A non-imitation paper according to claim 25, characterized in that the translucent film comprises a first layer having a transmission spectral response of less than about 10% at a wavelength of about 600 nanometers and increasing to about 75% at a wavelength of about 650 nanometers. , and a second layer having a transmission spectral response of about 50% for a wavelength of about 650 nanometers la, and a second layer having a transmission spectral response of about 50% at a wavelength of about 600 to 700 nanometers, the first and second layers having a reflection spectral response less than n 10% for light with a wavelength not exceeding about 650 nanometers. 20 12 79671