WO1998016395A1

WO1998016395A1 - Antitampering process and device for credit instruments or variable data

Info

Publication number: WO1998016395A1
Application number: PCT/IT1997/000249
Authority: WO
Inventors: Roberto Aosani
Original assignee: E.C.S. European Contract Services S.R.L.
Priority date: 1996-10-16
Filing date: 1997-10-16
Publication date: 1998-04-23
Also published as: IT1298661B1; EP0932505B1; DE69706999T2; ITPC960028A1; DE69706999D1; ITPC960028A0; EP0932505A1; AU4638097A

Abstract

The invention concerns a process for treating instruments of credit or any valuable document with invisible thermosensitive inks. The so processed documents are, for the purpose of antitampering test, then controlled by a checking device, which induces a transition of the inks from invisible to coloured, said transition being irreversible. The checking device (checker) consists of a temperature controlled device embodied with heating rolls 6-6' or infrared lamp. The antitampering process is also applicable to the domain of variable data of pharmaceutical containers.

Description

ANTITAMPERING PROCESS AND DEVICE FOR CREDIT INSTRUMENTS OR VARIABLE DATA.

The present invention concerns an anti-tampering process and related device applicable, preferably, to instruments of credit of the sort like cheques and banker' s draft or any valuable document and when originality of printed data must be checked.

Although principally oriented to solve the problem of forgeries in the domain of credit instruments, the invention is applicable for preventing forgeries of carriers of variable data, like pharmaceutical or medicaments containers .

The anti-tampering device, hereinafter called checker, is suitable to test the instruments of credit so processed.

In particular, the invention has the scope to make sure that the instruments of credit cashed at Banks, either drawee or not, will be definitely and surely cancelled.

The same invention is applicable, also, for revealing hidden variable data, that is data which vary for different items, like i.e. serial numbers, date of printing and so on. Further aim of the invention is to impede that said instruments of credit, for example cheques, might be forged and recycled after they have been cashed.

Analogously, the invention is applicable for impeding that any sort of document on which variable data are printed might be forged and recycled after they have been ratified.

At the actual state of the art, Banks or Credit Institutions pay the instruments of credit, in example cheques, to their holders after verification that the drawee Bank holds on the name of the drawer the amount provided by the cheques and that these ones are not dishonoured.

The cited checks , which are normally executed automatically by means of optical readers connected to modems, which dialogue with databases, the credit instruments are manually cut with scissors by removing a corner of the same : this operation is known in jargon "cheque truncation". The so truncated credit instruments can still have different destinations :

1 . when it is cashed at the drawee Bank, they are addressed to archive ; 2. when the paying Bank is not the drawee one, then the cheque is addressed for being finally cashed to this last one.

Such a procedure is understandably tedious and can induce mistakes in the manual above cited operation of

"cheque truncation" , so that the credit instrument might be fraudulently put again in circulation for a second illegal payment.

The present invention discloses a process of treatment of the credit instruments and a related cancellation device (checker) which, further than eliminating the operation of "cheque truncation" , makes the credit instruments visually unusable for a second fraudulent payment. The above mentioned verifications of the validity of the credit instruments and its cancellation at the time of cashing, are by means of the present invention made totally reliable and simple, being the credit instrument itself a carrier of validity proo s . The invention will be better explained by means of the following figures :

Fig. 1 shows a credit instrument, in example a cheque, after the operation of "cheque truncation", that is the removal of a corner for indicating that the cheque has been paid to the holder (state of the art) ; Fig. 2 shows a schematic embodiment of the cancellation device of the present invention (checker) ; Fig. 3 illustrates how the cheque, appears when processed with specific invisible inks , before going in the checker .

Fig 4 shows how the cheque appears at the exit of the checker . The removal of the corner 1 of the cheque 2 of Fig. 1, in some cases, as said, is not a sufficient anti-forgery measure, because there exists many reports of fraudulent reconstruction of said corner .

The credit instrument 2 of Fig. 3, is for the scope of the present invention treated with invisible thermosensitive inks in some zones of the same for example the zones 3 and 4.

By means of the said treatment of invisible printing on the cheque, it will be printed a word or a symbol, or a combination thereof, which will appear to the cashier only after that the cheque is annulled by means of the checker; in example, in Fig. 4 it appears a word 3 (cancellato) , or other conventional symbols chosen by banks for additional recognition against orgery.

The variable data 4 is, also, printed with invisible ink in a zone 4 of the cheque of Fig.3 : it will then appear after the passage through the checker in the zone referenced with 4 in Fig. 4.

The invisible thermosensitive inks used by the invention, suitable for printing characters on instruments of credit, are those of the type known in commerce as Termovario Varnish, which show the following features : the printed characters are invisible (transparent) below a given transition temperature, while they appear in colours above said transition temperature ;

- the transition is irreversible ;

- the transition temperatures ranges between 60° and 70° Celsius ;

- the intensity of the colour increases up to 90° Celsius (saturation temperature) /

- the velocity of colour development depends from the thickness of the applied film of ink and from the nature of the support, but is strictly linked to temperature at 90°C the change from invisible to visible takes about 2-3 seconds, while at 120° C the transition happens within a fraction of a second.

The above mentioned thermosensitive inks are suitable for different printing techniques : i.e. offset, lithography, letterpress, screen-printing or rotogravure .

Furthermore, they are commercially available in different blendable colours. This last feature allows to design a mixture of inks of difference colours in a secret mixing ratio, different for each Bank, so to add another safety element against tampering of credit instruments .

Additionally, in order to give holders antitampering evidence of the said instrument, which may circulate and transferred to different holders before being cashed at the bank, a variable data invisible printing is, also, reported on a zone 4 of said credit instrument : variable data could, i.e., be the serial number and the account number . In its essential principles, the invention is so explained : the invisible ink treated credit instrument 2, as it appears in Fig. 2 is inserted into the slit 5 and dragged by rolls 6-6' , said rolls 6-6' are heated at a temperature above 90 °C and below 120°C.

Temperature control means 9 preside for maintaining constant the pre-set temperature of the rolls 6-6' .

After being processed through the heated rolls 6- 6' , the instrument of credit 2 is by draggers 7-7' and 8-8' brought to the slit 10, wherefrom it exits.

A different embodiment of the checker may foresee infrared lamps instead of the heated rolls 6-6' : it is then sufficient that the credit instrument is invested for a fraction of a second by infrared rays for revealing the hidden symbols or, alternatively, it could pass for some seconds through an-oven whose inside temperature is in the range 90°C-120°C.

The infrared lamp would result to be very practical when items to check are of different sizes .

The invisible ink applied on the credit instrument is, at the time of its editing, covered by a thin layers of UV paint or acrylic paint, whose scope is either to protect said invisible ink, either to impede successive forgeries .

The same process of the present invention is applicable whereas variable data must be reported on documents, like date, place, reference numbers, serial number of which it is necessary to ascertain the authenticity.

A different field of application of the present invention is the antitampering of the variable data printed on the containers of medicaments , which are susceptible of tampering for what concerns expiring date, lot number and others.

Being understandable that the range of application of the inventive action hereabove explained is very wide, it is sought protection for any embodiment which is based on the present invention.

Claims

1. An anti-tampering process and related checking device for impeding forgeries of valuable documents and/or variable data carriers, wherein at least a zone of said valuable document and/or carrier is firstly processed by printing with invisible thermosensitive ink, said invisible printed area is then covered by a ilm of ultraviolet filtering paint and/or acrylic film in order to prevent colour transition of said invisible ink, said so processed document is checked by means of a checking device comprising a heating element, said heating element is temperature controlled between 90°C and 120°C.

2. Process and related device according to claim 1 , wherein the heating elements are rolls which drag the said document or carrier.

3. Process and related device according to claim 1, wherein the heating element is an infrared lamp.

4. Process and related device according to claim 1 , wherein the valuable document is a credit instrument, banker's draft and/o cheque.

5. Process and related device according to claim 1 , wherein the variable data carriers are pharmaceutical or medicaments containers .