JPH0513318B2 - - 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

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to rendering an information carrier non-optically copyable, and in particular to a very novel and useful non-optically copyable paper.

Since optical copying is now so easy, a problem has arisen which makes it impossible to optically copy an information carrier or a part thereof. If the information carrier is not made optically copyable, it is very easy for an individual to illegally optically copy the information carrier of confidential information. Various attempts have been made to render an information carrier resistant to optical copying by covering the information on the information carrier with a transparent film that is visible to the human eye but prevents optical copying. US Patent No.
Proposals of this kind are presented in Nos. 3,887,742 and 4,118,122, but for various reasons, none of these proposals provides a satisfactory solution to the problem of rendering an information carrier non-optically copyable. It's not a thing.

Applicant's U.S. patent application filed November 23, 1982
No. 443,819 shows a non-optically copyable paper which has significant advantages over the prior art.
Although the paper that is the subject of this patent application has a reflection spectral response of less than about 10% to light of wavelengths less than about 600 millimicrons, when information is typed or otherwise written on the paper, The color has enough contrast with the information that the human eye can read the information when viewed under white light.

The invention is based on the discovery of an improved method for rendering an information carrier non-optically copyable.

According to the invention, the information carrier has at least a part of the information on a surface of a part of the information carrier, the surface part being sufficiently large that the information carrier part cannot be readably optically copied. It has a color with a low reflection spectral response, in other words it has a color with an information of a similarly low reflection spectral response, and the said information part has a color that has a low reflection spectral response, and the said information part has a color that has a low reflection spectral response. When exposed, visible light can be transmitted from the back side to the front side so that there is enough contrast between the relatively non-semi-transparent information and the transmitted light to allow the human eye to read the information from the front side. This is what I did.

Advantageously, the reflection spectral response is virtually 0% for light with a wavelength of about 625 millimicrons or less, but is virtually 0% for light with a wavelength of about 650 millimicrons or less. Preferred is virtually 0% for light of about 700 millimicrons.
It is more preferable that

Preferably, the information carrier with information that cannot be optically reproduced has an average transmission of 3% in the visible light range. Advantageously, the transmission ranges from virtually 0% for light at a wavelength of about 450 millimicrons to about 5% for light at a wavelength of about 700 millimicrons. The information is typically black in nature and relatively non-transparent in color.

According to the invention, the information carrier is therefore particularly incompatible with optical copying. This is because optical reproduction requires that the information carrier have a suitable reflection spectral response to light at the wavelengths at which the optical copier operates. Most optical copiers do not respond to light with wavelengths greater than about 625 millimicrons, and most do not respond at all to light with wavelengths greater than about 650 millimicrons. Therefore, the information carrier of the invention prevents optical copying very effectively.

On the other hand, the information carrier of the invention can be read very easily by visible light transmitted through the information carrier from the back side. This visible light may simply be sunlight or other ambient light, or it may also be light specifically intended for reading the information carrier of the invention. A low reflectance spectral response can also be obtained by applying a suitable ink to a suitable paper or by providing a suitable paper with a pre-prepared colored film.

Embodiments of the present invention will be described below with reference to the drawings.

Referring first to FIG. 1, the information carrier consists of a colored sheet of paper having a transmittance indicated by line T and a reflection spectral response indicated by line R. This FIG. 1 further shows the typical spectral response of the human eye at line E and the possible spectral response of an optical copier at line P.

From line P, it can be seen that the reflection spectral response of the optical copier is 0% at a wavelength of about 650 millimicrons, and the cutoff is about 625 millimicrons. This cut-off refers to the wavelength at which the reflection spectral response is approximately 10% or less.

The transmittance T of paper increases approximately linearly from 0% at a wavelength of about 450 millimicrons to about 5% at a wavelength of about 700 millimicrons, and averages about 3% within the visible light range spanned by line E. It is. Above the visible light range, the transmission increases approximately linearly to about 10% for wavelengths of about 1000 millimicrons.

The reflection spectral response R is extremely low at less than 1% (virtually 0%) below about 700 millimicrons, and is of this order even for wavelengths above 700 millimicrons and 1000 millimicrons.

To give the necessary transmittance, this paper may be coated with "black" ink (Cal/Ink Limited or Sinclair & Valentine) with a matte finish, for example.
(such as those made by Limited)
Kimberley under the trade name UVULTRA
It may also be one sold by Clark Corporation.

The information is typed, printed or otherwise written on the surface of the paper in black or a similar dark color and is therefore relatively non-transparent. It goes without saying that all kinds of information can be written on it, such as prints, handwritten text, graphs or diagrams. Information is often copied onto paper by optical copying from an original information carrier for which optical copying is not possible. In such a case, if the optically non-copyable paper of the present invention is used as a copy paper for optical copying, the information will appear on the paper in the form of burnt graphite deposits.

Even if an attempt is made to make an optical copy of an information carrier containing information, the information on the copy cannot be distinguished from the background, making the optical copy impossible to read. In other words, the reflection spectral response of paper is approximately
Since it is virtually 0% below 700 millimicrons, the optical copy will show the same background color as the information.

On the other hand, if the information carrier is to be viewed from the back side, such as by placing the information carrier in such a way that ambient light or artificial light or special artificial light is passed through from the back side, the information carrier may be black or virtually black. Some information has sufficient contrast with the ground illuminated by the transmitted light to be easily read by the human eye when viewed from the front.

FIG. 2 shows the relative eye response when viewing an information carrier. Line 1 shows the response of the eye when viewing the paper with transmitted light, and line 2 shows the response of the eye when viewing the paper with reflected light. When viewed in transmitted light, the transmitted light contrasts easily with the information, especially at wavelengths that are most sensitive to the human eye, as shown in FIG. 1E. In the case of reflected light, the human eye can only perceive paper as virtually black or as virtually indistinguishable from the information.

The invention applies to lotteries, tickets to public and sports games, stamps and revenue stamps, stock certificates and bonds, credit cards, personal and bank checks,
It goes without saying that the present invention can be applied to all information carriers that require security, such as traveler's checks and banknotes.

It is clear that the present invention can be implemented in various ways other than those described above without departing from the scope thereof.

[Brief explanation of the drawing]

FIG. 1 is a graph showing the reflection spectral response and transmittance of paper according to an embodiment of the present invention, the average spectral response of the human eye, and the typical spectral response of an optical copying machine. It is a graph showing the readability of information on paper when viewed with reflected light and transmitted light. E...Typical spectral response of the human eye, P...Possible spectral response of an optical copier, T...Transmittance, R...Reflection spectral response, 1...When viewed with transmitted light Eye response, 2...Eye response when viewing with reflected light.

Claims (1)

[Scope of Claims] 1. A color having a reflection spectral response sufficiently low that the information carrier portion cannot be readably optically copied, and visible light is transmitted through the information carrier from the back side to the front side. information that can transmit visible light from the back side to the front side so that there is sufficient contrast between the relatively non-semi-transparent information and the transmitted light for the human eye to read the information from the front side. A method for making an information carrier impossible to optically copy, characterized in that information is provided on the surface of the carrier. 2. The method of claim 1, wherein the reflection spectral response is virtually 0% for light of wavelengths less than or equal to about 625 millimicrons. 3. The method of claim 1, wherein the reflection spectral response is virtually 0% for light of wavelengths less than about 700 millimicrons. 4 The information carrier portion is approximately 3% on average within the visible light range.
The method of claim 1 having a transmittance of . 5. The method of claim 1, wherein the information carrier portion has a transmittance ranging from substantially 0% for light at a wavelength of about 450 millimicrons to about 5% for light at a wavelength of about 700 millimicrons. 6 The information is a relatively non-transparent color that is virtually black;
2. The method of claim 1, wherein the reflection spectral response is virtually 0% for light of wavelengths less than about 625 millimicrons. 7 The information carrier portion is approximately 3% on average within the visible light range.
The method of claim 1 having a transmittance of . 8. The method of claim 6, wherein the reflection spectral response is virtually 0% for light of wavelengths less than about 700 millimicrons. 9. The method of claim 8, wherein the transmittance is within the range of substantially 0% for light at a wavelength of about 450 millimicrons to about 5% for light at a wavelength of about 700 millimicrons. 10 having at least a part of the information on a surface of a part of the information carrier, this surface part having a color with a reflection spectral response sufficiently low that the information carrier part cannot be readably optically copied; Furthermore, when visible light is transmitted through the information carrier from the back side to the front side of the information carrier part, the information can be read by the human eye from the front side between the relatively non-semi-transparent information and the transmitted light. An information carrier having information characterized in that it is capable of transmitting visible light from the back side to the front side so as to produce sufficient contrast to allow the information to be transmitted. 11. The information carrier of claim 1, wherein the reflection spectral response is virtually 0% for light of wavelengths below about 625 millimicrons. 12. The information carrier of claim 1, wherein the reflection spectral response is virtually 0% for light of wavelengths below about 700 millimicrons. 13 The information carrier portion has an average of about 3 in the visible light range.
The information carrier of claim 1 having a transmittance of %. 14. The information carrier of claim 1, wherein the information carrier portion has a transmittance ranging from virtually 0% for light at a wavelength of about 450 millimicrons to about 5% for light at a wavelength of about 700 millimicrons. 15. The information carrier of claim 1, wherein the information is substantially black, a relatively non-transparent color, and has a reflection spectral response of substantially 0% to light of wavelengths less than or equal to about 625 millimicrons. 16 The information carrier portion has an average density of about 3 in the visible light range.
16. Information carrier according to claim 15, having a transmittance of %. 17. The information carrier of claim 15, wherein the reflection spectral response is virtually 0% for light of wavelengths below about 700 millimicrons. 18. The information carrier of claim 17, wherein the transmittance is within the range of substantially 0% for light of a wavelength of about 450 millimicrons to about 5% for light of a wavelength of about 700 millimicrons. 19 consisting of paper having a surface with a reflectance spectral response sufficiently low that the information-carrying portion cannot be readably optically copied after the information has been typed or otherwise written on the surface; When visible light is transmitted through an information carrier from the back side to the front side, there is sufficient contrast between the relatively non-semi-transparent information and the transmitted light to allow the human eye to read the information from the front side. A paper that cannot be optically copied and is characterized by being able to transmit visible light from the back side to the front side. 20. The paper of claim 19, wherein the reflection spectral response is virtually 0% for light of wavelengths less than or equal to about 625 millimicrons. 21. The paper of claim 19, wherein the reflection spectral response is virtually 0% for light of wavelengths less than about 700 millimicrons. 22 The information carrier portion has an average density of about 3 in the visible light range.
The paper of claim 19 having a transmittance of %. 23. The paper of claim 19, wherein the information carrier portion has a transmittance ranging from virtually 0% for light at a wavelength of about 450 millimicrons to about 5% for light at a wavelength of about 700 millimicrons. 24. The paper of claim 19 wherein the information is a relatively non-translucent color of substantially black and the reflection spectral response is substantially 0% for light of wavelengths less than or equal to about 625 millimicrons. 25 The information carrier portion is approximately 3% on average within the visible range.
The paper according to claim 24, having a transmittance of .