DE10214369B4 - Value or security document with Seebeck or Peltier element - Google Patents

Abstract

The invention relates to a valuable document or security document (1) that comprises one or more LED elements (2) as a security feature. The LED element (2) is supplied with power by an energy source (3) via lines (4) and (5). Energy source (3) is preferably a passive energy source, that is a solar cell or an antenna. The invention allows for the provision of public features or biometric data for the purpose of identification and/or authentication by personalization of the LED element (2).

Description

The The invention relates to a value or security document and a Method for producing such a value or security document.

Out In the prior art it is known to value or security documents, such as banknotes, identity cards, driving licenses, stamps, tickets, Tokens, credit cards, check cards, stocks, packaging and like to provide with security features that the fake or complicate unauthorized modification of such documents or impossible do. As a "document" is in this term further refers to a product which with a corresponding security feature is provided.

To the known security features include watermarks. Such watermarks will be visible in the backlight and then show a particular motif or a value, such as the face value of the banknote concerned.

One Another security feature is the security thread. The security check finds here so that in the backlight a darker line becomes visible got to.

Of Furthermore, it is known, special film strips with security features, such as applying holograms. The holograms enable for example, when tilting a banknote, depending on the viewing angle, different symbols or numbers appear.

Further For the realization of security features, the use of Pearlescent strips known. When tilting the banknote is this For example, a gold-colored strip visible in which a symbol and the respective value number can be recognized. Such a pearlescent strip is for example on the 20 euro note available.

From the US 5,403,039 is a printed document, such as For example, a lottery ticket, known, which has a thermochromic layer. The thermochromic layer is applied over data printed on the document. For authentication, the thermochromic layer is heated by, for example, touching it with a finger. If the document is genuine, then a reversible color change occurs.

From the US 5,826,915 a security document with printed thermochromic material is known. By rubbing the thermochromic material is heated and then shows a corresponding security feature.

The Document "Polytronic: Chips from the roll ", Fraunhofer magazine 4.2001, pages 8 to 12 deals in general with Plastics that can be used in electronics. In The article will cover a number of applications of these materials explained and the current state of research.

The document DE 69 00 274 U discloses a small power thermogenerator that can be used as an energy supply system in medicine, for example, for cardiac pacemakers and in regulating and measuring technology (used in medicine).

The publication US 5,372,387 deals with security devices to protect information such as photographs, documents, books or the like, from being viewed or copied. For this purpose, a sheet has a substrate, which may be the side of a book, and a coating. The coating is opaque at normal room temperatures and transparent at certain, predetermined higher temperatures. For this purpose, the coating is formed for example in the form of liquid crystals or specific mixtures thereof. The increased temperature, for example, generated by a heating circuit causes an envelope of the coating from opaque to transparent state. The change in the transparency of the coating is a thermally activated ordering process in which the liquid crystal elements change into a different order state.

The publication US 5,826,915 shows a document of value, which has a printed thermochromic material. The thermochromic ink area is capable of undergoing a reversible color change at elevated temperature.

Further are also value or security documents from the prior art known, which have a circuit.

Out DE 695 09 783 T2 For example, there is known a prepaid card having a thin housing in which sound generating means are provided for generating a preselected sound pattern. There is also a power source in the housing to provide the sound generating means with electrical power.

From the DE 198 18 710 A1 a greeting card is known which has a microphone for receiving a voice message. The greeting card also has a speaker for the reproduction of the recorded voice message. The necessary for the realization of the corresponding circuit electrical components are interconnected by wires.

From the DE 422 07 62 A1 is a birthday card with image display function known. On the card, a liquid crystal display and further discrete components are arranged for this purpose, which are interconnected via wires.

From the US 4,763,927 a security document is known in which there is a security inlay with piezoelectric properties. The presence of this inlay can be tested by external contact.

In the publication WO 89/07836 A1 a thermogenerator and its production is described, which is inexpensive and mass-produced with simple means. The thermal generator converts thermal energy into electrical energy and consists of a juxtaposition of n-elements and p-elements.

In the US 3,554,815 a thin, flexible thermoelectric element is described. The element comprises a support made of a flexible film of organic or thermoplastic polymer material. On the support bands are arranged, which consist of electrically conductive material with unequal thermoelectric force. The bands are arranged on different sides of the carrier and connected to each other by means of through-connection. As an application for such a thermoelectric element, the realization of a thermopile is described.

Of the Invention is based on the object, an improved value or Security document and an improved method of manufacture of a value or security document.

The The object underlying the invention is with the features the independent one claims each solved. Preferred embodiments of the invention are in the dependent claims specified.

The present invention makes use of the so-called Seebeck or Peltier effect in particular:
The functional principle of the Seebeck effect is based on the fact that between two different metals, which are brought into contact with each other, a potential difference arises, which is called contact potential. This contact potential is temperature dependent.

A Seebeck element can be realized in that at least two contact points between different metals are produced, and these contact points are connected to one another by a line. Bringing the contact points to different temperatures T _c and T _h , it can be tapped between the contact points a voltage U, which is given by U = (Q X - Q Y ) (T c - T H ) where Q _X and Q _{Y are} the so-called Seebeck coefficients of the various metals X and Y which contact each other at the two contact points.

through of the Seebeck effect So generate a voltage according to the invention for the power supply a circuit of the value or security document can serve.

The Peltier effect is based on a reversal of the Seebeck effect and is also known as thermoelectric cooling. For this purpose, an electrical voltage is applied to the contact points of two different conductors A and B. The voltage causes a temperature difference to set between the contact points. The temperature difference T ₀ -T ₁ between the two contact points is as follows: (T 0 - T 1 ) Max = 1 8th (π A - π B ) 2 · σ λ

Where σ is the specific electrical conductivity, λ the thermal conductivity and π _A and π _{B are} the Peltier coefficients of the metals A and B.

According to the invention is a Such Peltier element for the conversion of electrical energy in Thermal energy used to realize such a security feature or to address.

To a preferred embodiment of Invention, this is done so that by means of the Peltier element the Temperature of a bimetallic strip is changed, which on the Value or security document is printed, for example. By the change the temperature is due to the different thermal expansion coefficients the metals of the bimetallic strip to a bending of the bimetallic strip and thus to a deformation of the value or security document.

For example Such a bimetallic strip can be printed longitudinally on a banknote become. Once the voltage source of the value or security document is turned on, thereby creating a temperature difference, which then due to the different thermal expansion coefficients of the Causes metals, that the banknote curls up.

According to another preferred embodiment of the invention, the temperature difference generated due to the Peltier effect is used for a color change. For this purpose, an area of the value or security document with a thermo color or a film is applied with a thermochromic dye. If the temperature changes due to the Peltier effect in the area of the thermochromic color, this leads to a color change of the thermochromic color pigments. This effect is visible to the naked eye; it is therefore a so-called "public feature".

in the Further preferred embodiments explained in more detail with reference to the drawings. Show it:

1 3 is a block diagram of an embodiment of a security document having a Seebeck element,

2 a first embodiment of the value or security document of 1 .

3 a second embodiment of the value or security document of 1 .

4 a third embodiment of the value or security document of 1 .

5 an embodiment of a value and security document with a Peltier element,

6 a partial view of an embodiment of the value or security document of 5 with a thermochromic color,

7 an embodiment of the value or security document of 5 with a bimetallic strip.

The 1 shows a document 1 , At the document 1 it is a valuable or security document, such as a banknote, a stamp, an identity card, passport, driver's license, label or the like. On the document 1 There is a printed circuit with an output or transmitting unit 2 and an energy source 3 ,

At the energy source 3 This is a passive energy source used to convert thermal energy into electrical energy. Preferably, the energy source is based 3 on the so-called Seebeck effect.

This includes the energy source 3 two contacts, each formed between two different metals. As soon as a temperature difference between the two contacts is generated by the application of thermal energy, the energy source converts 3 this thermal energy due to the Seebeck effect in an electrical voltage. This electrical voltage is through the wires 4 and 5 to the output or transmission unit 2 created.

The output or transmission unit may be any security feature that requires electrical power. The output or transmission unit 2 can be used as a converter to convert the energy source 3 supplied electrical energy in a different form of energy, such as light, sound or an electric or magnetic field.

For example, the output or transmitting unit has a light emitting diode that emits visible light as soon as the power source 3 provides an electrical voltage. Particularly suitable for this purpose is an organic light-emitting diode. The production of suitable organic light-emitting diodes (OLEDs) is known per se from "OLED Matrix Displays: Technology and Fundamentals", Polytronic 2001, Conference Procedures, October 21-24, 2001.

It is particularly advantageous that OLEDs also printing technology by means of various printing on the document 1 can be printed, for example by means of inkjet printing, screen printing, high pressure, gravure printing or planographic printing.

In a further embodiment, the output or transmission unit 2 designed as an acoustic transducer. One possibility is the use of a so-called folding loudspeaker. The production of a folding loudspeaker in film thickness is known per se from the prior art (http://www.heise.de, message of April 27, 2001 "folding loudspeaker for the trouser pocket").

Alternatively, the output or transmission unit 2 designed as an electroluminescent component. For this purpose, electroluminescent dyes or pigments on the document 1 applied. Such dyes can be excited in the electric field and return to their ground state upon light emission. Such an electroluminescent element can be realized according to the invention by printing an electroluminescent dye. Alternatively or additionally, electrochromic dyes are used, which are also printed or applied by means of thin films.

Further can also polarization effects on the basis of magnetic pigments for Realization of a security feature can be used. It will the polarization of paramagnetic pigments in an electric Field used. Alternatively, Liquid Christal Polymers (LCP) are used for this purpose.

Alternatively, the output or transmit Ness 2 Also include a coil for generating a magnetic field or a printed antenna to produce an externally detectable field.

For the output or transmission unit 2 Thus, a wide variety of physical and / or chemical conversion effects can be used to at least a part of the energy source 3 converted electrical energy into another form of energy, the realization of the security feature of the output or transmission unit 2 is emitted. Due to the output or send unit 2 radiated energy allows the authenticity of the document 1 to verify.

It is particularly advantageous to one or more elements of the document 1 printed circuit to apply by means of ink in a single pass. For example, an electrically conductive printing ink is used for the realization of printed conductors or other electrically conductive structures of the circuit.

When electrically conductive Printing ink is suitable, for example, an electrically conductive polymer. Such electrically conductive Polymers are known per se from the prior art (see Hans Hofstraat "Will Polymer Electronics Change the Electronics Industry? ", Polytronic 2001, Conference Proceedings).

Also the energy source 3 can be typographically realized by printing pastes of different metals, such as copper and silver conductive paste, printing technology.

The printing of at least parts of the circuit on the document 1 has the advantage that the circuit is then an integral part of the document 1 forms and is particularly safe from manipulation. Furthermore, this also facilitates the handling of the document 1 because this can be kinked, bent or folded. This is particularly advantageous for banknotes and similar applications.

As carrier material for the document 1 to which the circuit is at least partially applied by printing technology, is particularly suitable paper or a plastic film.

The 2 shows in detail an embodiment of the document 1 of the 1 , The document 1 has in the embodiment of 2 a trained as Seebeck element energy source 3 , For this is on the document 1 in a strip-shaped area 6 applied a first metal.

At the area 6 borders a likewise strip-shaped area 7 on, one of the metal of the area 6 different metal is applied. To the area 7 borders a strip-shaped area 8th on the same metal as the metal of the area 6 is applied. A suitable choice of the different metals is, for example, copper and silver.

In one embodiment, located on the areas 6 and 8th of the document 1 Copper conductive paste while on the field 7 Silver conductive paste is located. However, the invention is not limited to a particular choice of metals; Basically, the Seebeck effect works when two different metals are chosen.

The metal paste of the area 6 So it forms with the metal paste of the area 7 a contact surface 9 and the metal paste of the area 7 makes with the metal paste of the area 8th a contact surface 10 , At the contact surface 9 the temperature T ₁ and at the contact surface prevails 10 the temperature T ₂ prevails. If there is no influence from outside, these temperatures T ₁ and T ₂ are substantially equal to the ambient temperature. In this case, the energy source 3 no voltage generated.

By placing a finger 11 a user of the document 1 on the contact surface 9 Thermal energy is supplied there when the temperature of the finger (about 36 °) is higher than the ambient temperature.

It then adjusts a temperature T ₁ of about 36 ° while the temperature T ₂ carries, for example, 20 ° room temperature. Due to this temperature difference generates the energy source 3 because of the then effecting lake Beck effect a voltage across the lines 4 and 5 to the output or transmission unit 2 is created.

In the embodiment considered here, the output or transmission unit 2 an electroluminescent or electrochromic color 12 on that when applying the from the energy source 3 supplied voltage or by flowing the corresponding thermo-current changes their color.

Depending on the color used 12 This color change can be permanent or self-reversible. In the former case, the color change is retained even if the finger 11 from the contact surface 9 is removed and the energy source 3 can no longer deliver thermoelectric voltage. In the second case takes place after removing the finger 1 from the contact surface 9 a new color change of color 12 back to the starting color.

If the color change is not self-reversed bel, such a color change back to the starting color can be provoked by the fact that the finger 11 from the contact surface 9 is removed and instead on the contact surface 10 is applied so that the energy source provides a thermoelectric voltage of the same height but opposite polarity. This opposite polarity then causes the color 12 returns to its original color by a color change.

An alternative use of the document 1 of the 2 show the 3 , In this use of the document 1 Two different thermal energy sources are used, namely the finger 11 as well as another external energy source 13 that supplies thermal energy. At the external energy source 13 For example, it may be a laser that uses a laser beam 14 for applying a temperature.

The two thermal energy sources, that is the finger 11 and the external energy source 13 , serve to provide a temperature difference between the contact surfaces 9 and 10 produce, which is largely independent of the ambient temperature. This is the finger 11 on the contact surface 9 placed so that there sets the temperature T ₁ of about 36 ° C.

On the other side is the contact surface 10 from the laser beam 14 irradiated with a defined energy, so that there sets a certain temperature T ₂ . Because of this, the source of energy supplies 3 a thermal voltage which is substantially independent of the ambient temperature, so that by the output or transmitting unit 2 realized security feature is verifiable under all circumstances.

In a further embodiment, the basis of 3 described structure of the value or security element can also be used in two stages. In a first step, only the finger on the contact surface 9 applied, so that there sets the temperature T ₁ . At the second contact surface is analogous to that of 2 described embodiment ambient temperature before. This temperature difference causes a first thermal voltage at the output and transmission unit 2 is applied and, for example, generates a first color change. In a second stage is now, as described above, the energy source 13 on the contact surface 10 directed, so that there sets a temperature T ₂ . At the other contact surface is ambient Tempeatur. This results in a second temperature difference, which generates a second thermoelectric voltage, which at this stage also at the output and transmission unit 2 is applied. This second thermal voltage could, for example, a second color change in the output and transmission unit 2 effect, which can then be detected by machine, for example.

The 4 shows another use of the document 1 of the 2 , In this case, a defined temperature difference between the temperature T _{1 of} the contact surface 9 and the temperature T _{2 of} the contact surface 10 only by the external energy source 13 produced. This is the external source of energy 13 again preferably designed as a laser.

The laser beam 14 then sweeps alternately the contact surfaces 9 and 10 in rapid succession, taking the average residence time of the laser beam 14 on the contact surface 9 shorter, for example, than on the contact surface 10 , so that the temperature T _{1 is} smaller than the temperature T ₂ . About the difference between the average residence times of the laser beam 14 on the contact surface 9 or the contact surface 10 Thus, the temperature difference can be adjusted so as to achieve a defined thermal voltage of the energy source 3 to arrive, which is independent of the ambient temperature.

The 5 shows a block diagram of a document 16 , which in turn is designed as a value or security document. The document 16 has an energy source 17 , which is an active or a passive energy source.

to Realization of an active energy source is for example one printed battery suitable. The production of such a printed Battery is preferably carried out by means of multi-layer printing of electrical active substances, such as lithium polymers.

To a further preferred embodiment if the energy source is a passive energy source, such as a solar cell or an antenna.

solar cells can on the one hand over very thin Films on the carrier layer be applied or the other by the use itself known printing process (see Plastic Solar Cells '', Adv. Funct Mater., 2001, 11, No. 1, February, pages 15 to 26).

The energy source 17 is over the wires 18 and 19 with the output or transmission unit 20 connected. In the embodiment shown, the line 19 interrupted to realize a switch.

The output or transmission unit 20 includes a Peltier element 21 to supply a security feature 22 with thermal energy. The security feature 22 includes a transducer that that of the Peltier element 21 supplied thermal energy due to a physical and / or chemical effect in another externally perceptible form of energy converts.

To check the security feature 22 becomes the interruption of the line 19 closed, for example, by a user holding a coin over the break to close the circuit. The Peltier element 21 is then from the energy source 17 supplied with voltage, so that sets a temperature difference between the contact surfaces of the Peltier element. This temperature difference serves to supply the security feature 22 with thermal energy, so that it is activated. Because of this, the authenticity of the document 16 be checked.

The 6 shows a schematic view of an embodiment of the document 16 on average. The document 16 has a carrier 23 , which consists for example of paper or plastic. On the carrier 23 is a metal paste 24 For example, printed with copper particles, as well as a metal paste 25 with a metal other than copper, such as silver. The metal pastes 24 and 25 form contact surfaces 26 and 27 ,

By this arrangement of metal pastes 24 and 25 is the Peltier element 21 (see. 5 ) realized, which over the lines 18 and 19 is powered as soon as the interruption of the line 19 is closed and the source of energy 17 provides a voltage.

As soon as a voltage is applied, the temperatures at the contact surfaces change 26 and 27 in opposite directions, that is, for example, the temperature at the contact surface decreases 26 by a certain amount while the temperature of the contact surface 27 increased by the same amount.

Above the contact surface 26 is the security feature 22 in the form of thermochromic paint 28 applied. The thermochromic color 28 changes in the temperature change at the contact surface 26 their color. In a further embodiment, in addition, also over the contact surface 27 such a thermochromic paint are applied, which changes to another color due to the lowering of the temperature.

The 7 shows an alternative embodiment of the document 16 of the 6 , In the embodiment of the 7 becomes the security feature 22 (see. 5 ) realized by a bimetallic strip. This consists of a metal strip 29 and a metal strip 30 , The metal strip 29 is located above the contact surface 26 while the metal strip 30 above the contact surface 27 located.

When an electrical voltage across the wires 18 and 19 is applied, for example, increases the temperature at the contact surface 26 while she is at the contact area 27 decreased by the same amount. This pulls the metal strip 30 together, while the metal strip 29 expands. This creates a mechanical tension that is the document 16 deformed. For example, the document rolls 16 together as soon as the electrical voltage is applied.

Alternatively, the metal strips 29 and 30 over each other and over the same contact surface 26 or 27 arranged. Then both metal strips 29 and 30 heated or cooled to the same temperature. The metal strips 29 and 30 have metals of different thermal expansion coefficients. Due to the different coefficients of thermal expansion results in this case, a mechanical stress, the deformation of the document 16 leads.

In a further embodiment of the invention, at least some of the elements located on the security or security document and described above at least partially have an overlying protective layer which protects the elements from environmental influences. Such a protective layer may be partially transparent and / or insulating. The protective layer may for example consist of a plastic. The protective layer may be applied to the security or security document by an additional printing step or by lamininers. In the case of training analogous to the embodiment, based on 5 has been described, the protective layer has openings, so that the interruption and the interruption forming ends of the conduit 19 can be exposed and make contact.

By the above embodiments of the invention both public feature security feature and machine-readable Security features are realized. It's even possible, both Types of security features within a security feature to arrange.

1

document

2

Output- or transmitting unit

3

energy

4

management

5

management

6

Area

7

Area

8th

Area

9

contact area

10

contact area

11

Fingers

12

colour

13

external energy

14

laser beam

16

document

17

energy

18

management

19

management

20

Output- or transmitting unit

21

Peltier element

22

safety feature

23

carrier

24

metal paste

25

metal paste

26

contact area

27

contact area

28

thermochromic colour

29

metal strips

30

metal strips

Claims (9)

Value or security document with a circuit comprising means ( 21 ) for the conversion of electrical energy into thermal energy, wherein the means for conversion as Peltier element ( 21 ) and with a security feature ( 20 . 22 ), which is supplied by the thermal energy. Value or security element according to claim 1, characterized in that the Peltier element ( 21 ) Contact surfaces ( 25 . 26 ), wherein a contact surface is arranged under the security feature such that upon application of a voltage to the security feature, the temperature is lowered. A security document according to claim 1, wherein the Peltier element a first area with a first metal, a second area with a second metal and a third region with the first metal having, between the first and the second area as well there is a contact between the second and third areas. A security document according to claim 3, wherein it is the first metal to copper and the second metal is about silver. A security document according to claim 1, 3 or 4, wherein the means for conversion and / or one or more other elements ( 17 . 18 . 19 ) of the circuit are printed on the value or security document. Security or security document according to one of claims 1 or 3 to 5 with an energy source ( 17 ) for the electrical energy, wherein the energy source is preferably a battery, a solar cell or an antenna. Value or security document according to one of claims 1 or 3 to 6 with a switch for checking the Security feature. Value or security document according to claim 7, wherein the switch is interrupted by an interruption of a conductor track ( 19 ) is realized. A security document according to one of claims 1 or 3 to 8, wherein the security feature is an arrangement ( 29 . 30 ), which is designed to deform the value or security document due to the thermal energy, wherein the arrangement is preferably a bimetallic strip.