DE1774290C3 - Measuring arrangement for the automatic evaluation of a characteristic feature of a bank note in a device for checking the authenticity of bank notes - Google Patents

Description

The invention relates to a measuring arrangement according to the preamble of claim 1.

A known measuring arrangement of this type, as it is used in particular for bank note changers and vending machines, controlled on capacitive Paths the thickness of a steel engraved banknote that is between the two for this purpose Plate electrodes of a capacitor is passed through. The characteristic height is used here of the color profile, which have banknotes produced in steel engraving, relative to the paper thickness as characteristic authenticity feature. Furthermore, it is already known as a characteristic to be tested Characteristic of radioactive inclusions in a banknote

to be provided.

The object of the invention is to provide an in and of itself for the automatic authenticity check present in some types of banknotes, but not yet used for such an authenticity check to use a characteristic feature and a particularly expedient and safe, capacitive one To create measuring arrangement of the type described at the beginning, which in a simple manner and unambiguously

ίο allows to determine whether this characteristic feature is present or not

To solve this problem, the invention is characterized by those features which are set out in the characterizing part Claim 1 are given.

Banknotes with at least one metallic thread embedded in the paper are made in some countries used for special safety reasons, especially because of the presence of metallic material in the Banknote paper can be determined when fluoroscopic with X-rays Application of this characteristic feature to the automatic authentication of banknotes in one Authenticity tester is either the presence or the absence of a metallic thread as Authenticity feature assessed, depending on whether the banknote type or which is to be checked by the authenticity tester must contain a metallic thread or not. In the latter case, the measuring arrangement prevents according to the invention in particular the acceptance of such banknotes of a different value or of a different value Currency that have a metal thread.

The authenticity feature checked with the invention forms a very advantageous addition to the overall control, to ensure a reliable authentication not just on a single one, for example may be based on one of the known thicknesses or light-optical test methods, but the test must include a whole number of independent authenticity features in order to make the percentage possible To reduce wrong decisions of such an authenticity tester to the practically permissible level. In this A metallic thread embedded in the banknote paper constitutes a feature, its presence or absence with the arrangement according to the invention, regardless of the other condition or the degree of wear and tear of the banknote, practical is always clearly identifiable

Further advantageous features of the invention emerge from the subclaims.

The invention is explained in more detail with reference to the drawing using two exemplary embodiments. It shows

IF i g. 1 the schematic top view of a serving as a base for the bank note to be checked Gilter with the electrodes as well as the simplified block diagram of the measuring arrangement,

2 shows a schematic section through a the document according to FIG. 1 lying banknote with a metallic one embedded in the banknote paper Thread, in the measuring position, and

F i g. 3 shows a second embodiment of the electrode and grid arrangement in a measuring arrangement according to FIG Invention.

According to Fig. 1, the base on which the banknote is during the measurement or on which it is moved on during the measurement, formed by a grounded metallic grid 1, the in the exemplary embodiment under consideration has the simple shape of an H, the transverse limb being denoted by la

is At a distance from each other, symmetrically to the transverse leg la of the grid, two wire-shaped electrodes 2 and 3 are arranged, which lie on a common straight line that intersects the leg la perpendicularly. One electrode 2 is connected to a high frequency generator HF, which for example with a voltage of about 3 volts and a frequency in the range of 10 to 5OkHz operates the other electrode 3 is connected via an amplifier V with high input impedance to an electrical Schwellwertstuie Γ with a predeterminable threshold value connected. The output signal of the threshold value stage is sent to a bistable multivibrator FF.

In its measurement position there is one, the metallic thread 5 containing banknote 4 in the FIG. 2 position shown on the grid 1, la, which is in the paper embedded thread 5 at the level of the imaginary connecting line of the two electrodes 2 and 3 and parallel to this is located

The two electrodes 2 and 3 form the coatings of an electrical capacitor, its capacitance by the distance between the two electrodes 2 and 3 as well as by the one in the field between the two electrodes, The use of a dielectric given by the banknote during the measurement is determined An earthed grid also has the advantage that, on the one hand, it reduces the scattering of the electrical field Gert and, on the other hand, a configuration through the grid leg la located between the two electrodes is created, which corresponds electrically to two capacitors connected in series. A capacitor is namely through the electrode 2 and the grid wire la, the other capacitor from the Grid wire la and the electrode 3 is formed. The useful-interference ratio is determined by these capacities connected in series the measuring arrangement improved.

Compared to the case in which a banknote without an embedded metal thread lies in the measuring position on the grid 1, the capacitance of the capacitor system or the capacitive resistance of the high-frequency circuit enclosing the two electrodes 2 and 3 changes significantly if, in the illustration according to FIG . 2, the two electrodes 2 and 3 are largely bridged by a metallic thread 5 contained in the bank note 4. In the presence of such a metallic thread 5 a capacitor configuration is created which is essentially formed from the series connection of a capacitor consisting of the electrode 2 and the thread 5 and of a capacitor consisting of the thread and the electrode 3, but with that for the effective capacitance value The significant distances between the occupancies of both capacitors are greatly reduced compared to the case considered first and are practically only given by half the thickness of the banknote paper. Therefore, the total capacitance of the arrangement is significantly increased in the presence of a metallic thread, which means a corresponding reduction in the capacitive resistance and thus an increase in the current for a given voltage of the high-frequency generator. An emitter follower stage is preferably used as the amplifier V. The threshold value of the threshold value stage 7 is to be selected in such a way that it is only exceeded when a metallic thread is present. In this case, the tilting stage FF delivers a "correct signal" to a display device A under the condition that the bank note to be checked must contain a metal thread, while a "false signal" is triggered if the threshold value is not exceeded, ie in the absence of a thread or the absence of a signal of the threshold level is evaluated as "false signal".

If, on the other hand, the note to be checked must not contain a metal thread, then the signal emitted by stage T when the threshold value is exceeded will of course be evaluated as a "false signal" and failure to exceed the threshold value as a "directional signal"

In automatic authenticity checkers in which the banknote is checked using different independent measuring units according to different criteria, the decision signal from the flip-flop FF passes into a logic circuit known per se for evaluation, which finally becomes the final decision signal as a result of the processing of the signals from all measuring units Generated acceptance or rejection of the banknote

If bank notes are to be checked with the measuring arrangement according to the invention, basically soft contain a metallic thread at a certain point, which is then usually over the entire Transverse or longitudinal dimension of the bank note extends, then the arrangement can be made such that the Measurement only takes place in that adjusted position of the banknote in which the metallic Thread, if it is present, at the level or as an extension of the two electrodes 2 and 3 F i g. 1 is located, as shown in FIG. 2 is shown. On the other hand, the measurement can also be carried out in this way be that the bank note during the measurement period in a for orientation of the metal thread vertical direction (arrow / according to Fig. 1) completely moved past the measuring system or, in the exemplary embodiment under consideration according to FIGS. 1 and 2, between the grid 1 and the electrodes 2 and 3 moved through. In this case, the exact position of the thread plays a role does not matter in banknote paper, since it is then guaranteed with certainty that the thread, if it the two electrodes 2 and 3 or the imaginary connecting line between these two are present Electrodes passed largely by bridging both electrodes. A measurement at the electrode system A bank note that has been moved completely past is always required, in particular, when the authenticity The note to be checked must not contain any metal thread and therefore all those banknote types or imitations to be recognized as wrong, which at any point on the banknote a metal thread contain. Since, in general, a metal thread, if it is present, is always oriented in the transverse direction of the note is, in this case it is generally sufficient to place the banknote across the thread, i.e. H. so in the longitudinal direction, move past the electrode system. The measuring arrangement according to the invention can, however, according to Need to expand so that the bank note once in the direction of its transverse dimension and the other time in In the direction of their longitudinal dimension either the same electrode system or two different ones one after the other Similar electrode systems happens Thread as well as a thread lying in the longitudinal direction of the note recognized.

In the case of banknotes that have been in circulation for a long time and are often bent, the in The thread embedded in the note is broken having thread section in the measuring range of the elec-

trode system lies, there is the risk of a false indication, because then yes the one formed by the thread electrically conductive path within the banknote paper, d. H. i.e. within the capacitor dielectric, is interrupted. To avoid the risk of such incorrect measurements due to a broken thread, is according to the embodiment of Figure 3, the measuring arrangement according to F i g. 1 expanded so that two Electrode pairs 2, 3 and 2a, 3a offset in the direction of the metal thread to be identified are provided are, which are electrically connected in parallel in the embodiment under consideration. The electrodes 2 and 2a are in turn to a high voltage generator and the electrodes 3 and 3a via an amplifier to a Threshold level, as in the example according to FIG. 1, connected. The grounded grid 1 is accordingly of this type extends that is approximately midway between the Each pair of electrodes has a ground conductor. If the in Fig. 3 electrode system shown in plan view of a banknote in the direction of the arrow / is passed and there is a metal thread oriented perpendicular to the direction of movement of the note, the For example, if there is a break in the area of the pair of electrodes 2, 3, then there would be a non-response the measuring arrangement on the presence of the thread within the electrodes 2 and 3 is irrelevant because in any case the other two, outside of the Thread breakage located electrodes 2a and 3a be bridged when passing the thread and the threshold level required to respond Change in capacity is still taking place. The probability that there are just two breaking points of the Fadens located exactly in the areas of the two pairs of electrodes provided is practically extremely small. In principle, however, the Increase security against incorrect measurement as a result of several thread break points arbitrarily in that if one considers it necessary, a larger number of electrode pairs along the length of the thread to be identified distributed.

The geometry and the electrical circuit of the electrode system shown in Figure 3, in which the two pairs of electrodes are also arranged somewhat offset from one another in the direction of the banknote movement and in which the corresponding Electrodes of both pairs are connected in parallel to a common frequency generator or a common amplifier, can of course Modify as required within the scope of the invention. For example, several pairs of electrodes can be used can also be arranged in a row, and separate measuring circuits can also be provided for each pair of electrodes.

1 sheet of drawings

Claims (6)

Patent claims: 1. Measuring arrangement for the automatic evaluation of a characteristic feature of a bank note in a device for checking the authenticity of banknotes, in which the banknote has a high frequency electromagnetic oscillation field is supplied and in the case of changes in the Capacitance between two electrodes arranged parallel to the bank note surface electrical circuit arrangement is provided which includes a threshold level and is dependent on emits a signal on the presence of the characteristic feature, characterized in that that the characteristic feature is a metal thread embedded in the banknote paper (5), which causes a capacitive coupling of the two electrodes (2, 3), and that the two Electrodes on opposite edges of the bank note (4) and parallel to the bottom or Top of the bank note (4) and are arranged parallel to the metal thread (S). 2. Measuring arrangement according to claim 1, characterized in that each of the two electrodes (2, 3) at least one further electrode (2a, 3a) offset parallel in the transverse and longitudinal directions in parallel is switched. 3. Measuring arrangement according to claim 1 or 2, characterized in that as a base for the Banknote (4) a grounded metallic grid (1, la) arranged in the area of the electrodes is provided 4. Measuring arrangement according to one of claims 1 to 3, characterized in that all electrodes (2,3; 2a, 3a) and the grounded metallic grid (1,1a) in a common parallel to the bank note Lie level. 5. Measuring arrangement according to claim 3 or 4, characterized in that the grounded metallic Grid in the middle between the two electrodes of a pair one perpendicular to the Has connecting line between the two electrodes oriented conductor (la). 6. Measuring arrangement according to claim 2, characterized in that one electrode (2, 2a) is connected to a high-frequency generator (HF) and the other electrode (3, 3a) via an amplifier (V) of high input impedance to the threshold stage (T) whose output is connected to a bistable multivibrator (FF) .