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EP0862147B1 - Coin checking device - Google Patents

Coin checking device Download PDF

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Publication number
EP0862147B1
EP0862147B1 EP98100034A EP98100034A EP0862147B1 EP 0862147 B1 EP0862147 B1 EP 0862147B1 EP 98100034 A EP98100034 A EP 98100034A EP 98100034 A EP98100034 A EP 98100034A EP 0862147 B1 EP0862147 B1 EP 0862147B1
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EP
European Patent Office
Prior art keywords
coin
probes
checking device
coin checking
segments
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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EP98100034A
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German (de)
French (fr)
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EP0862147A3 (en
EP0862147A2 (en
Inventor
Wilfried Meyer
Hans-Ulrich Cohrs
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Crane Payment Innovations GmbH
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National Rejectors Inc GmbH
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Publication of EP0862147A2 publication Critical patent/EP0862147A2/en
Publication of EP0862147A3 publication Critical patent/EP0862147A3/en
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    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07DHANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
    • G07D5/00Testing specially adapted to determine the identity or genuineness of coins, e.g. for segregating coins which are unacceptable or alien to a currency
    • GPHYSICS
    • G07CHECKING-DEVICES
    • G07DHANDLING OF COINS OR VALUABLE PAPERS, e.g. TESTING, SORTING BY DENOMINATIONS, COUNTING, DISPENSING, CHANGING OR DEPOSITING
    • G07D5/00Testing specially adapted to determine the identity or genuineness of coins, e.g. for segregating coins which are unacceptable or alien to a currency
    • G07D5/08Testing the magnetic or electric properties

Definitions

  • the invention relates to a coin testing device according to the preamble of claim 1.
  • Soil probes are particularly advantageous for so-called Bicolour coins made from a core with a core around it put around ring. Ring and cores have a different one Color, hence the name mentioned. Also the chosen material of ring and core is different.
  • the invention is therefore based on the object of a coin checking device to create which is also able to create bicolour coins better discriminate and the overall the Test security also increased for other coins.
  • test probes vertically on a common axis so arranged that, for example, the damping curves which generate the measurement signals of both test probes, occur simultaneously.
  • the test probes which are, for example, inductive probes, can be on a Side of a coin channel arranged and the rolling past Be assigned to the area of the coins.
  • one of the Test probes punctiform and the other flat his.
  • one of the test probes is also conceivable as an edge test probe by placing it in the bottom of the Coin runway is sunk. Such a soil test probe is known per se.
  • the spools are so arranged that mutual overcoupling is avoided becomes.
  • the parallel processing of the sensor signals is made possible by the coin run past the probes takes significantly longer than the analog-digital conversion a measurement signal.
  • the coin run on the Probes past 50 ms while the analog to digital conversion of a Measurement signal in the order of 10 microseconds takes place. by virtue of this time ratio results when the evaluation is ongoing at least of two signal curves occurring at the same time a variety of evaluation criteria, for example Differential and partial areas, intersections and combinations from these events. Because also the acceleration of probes arranged exactly one above the other can also the slopes at certain points on the signal curves be used for evaluation.
  • the coin validation device has a number of benefits. So due to the arrangement of the probes Intersection points are generated automatically and for example the distance of the intersection points from the symmetrical Timeline can be determined, which is a statement of authenticity of the tested coin. Furthermore, difference areas or individual partial areas are examined, also in Connection with programmable offsets. Especially at As already mentioned, bicolour coins arise above all with surface probes, small differences in damping between Ring and core material. Accordingly, you only have minor dips in the The coin curve is expected to rise and fall. Let these slope changes usually difficult to evaluate. When using a second on the test probe arranged on the same axis, which for example only considers the ring, the first curve results in a large number of combinations of Evaluation criteria.
  • a coin track 10 is indicated, which is usually is attached to a raceway support plate 12 (Fig. 2). Between the raceway support plate 12 and a main plate 14, a coin channel 16 is formed, with on the Coin track 10 Roll coins along in coin channel 16. In 1 and 2, a coin is identified with 18.
  • inductive test probes 20, 22, 24 In the main plate 14 there are three inductive test probes 20, 22, 24 arranged one above the other. Your measuring axes lie on one Axis 26, which is perpendicular to the plane of the coin track 10 stands. Another test probe 28 is in the coin track 10 arranged. Your measuring axis coincides with axis 26.
  • the test probes 20 to 24 are so-called area probes "view” a portion of the area of the coins 18, with the Example the probes 20, 24 the ring 30 of the bicolour coin 28 and probe 22 "looks" at core 32. Probes 20 to 28 are inductive probes. The test probe 28 is used for examination the edge of the coin 18th
  • the signal curve 40 is, for example, the sensor 28 shown for example for a coin with a value of 1 euro.
  • a curve 42 shows the signal curve of a test probe, as represented by one of the probes 20 to 24. It can be seen that the curves 40, 42 are largely symmetrical are to the time axis 44. The overlap of the curves 40, 42 results thus, for example, two partial areas 46, 48, their difference for example for authenticity checks can. Furthermore, there are s1, s2 above intersection points an area 50, which is also used for the authenticity check can be. The position of the intersection points s1, s2 can also for the authenticity check can be used, for example by measuring the distance to the axis of symmetry 44.
  • a further curve 42 ' is indicated by dash-dotted lines, to show that there can be curve shapes, in which due to the high slope of the measurement curve 40 Intersection s1 and s1 'of curve 40 with curves 42 and 42 'may have relevant amplitude differences U1, U2, while the measured values S1, S1 'are close in time, i.e. form a ⁇ T that cannot be evaluated.
  • the curve 5 is that of a floor sensor, corresponding to the sensor 28, generated signal curve designated 52 and that for one Area sensor with 54.
  • the curve 52 corresponds approximately to that Course of curve 40 according to FIG. 1 and is characteristic for the formation of the edge of a bicoloured mune.
  • the curve 54 is obtained, for example, from a sensor such as it is designated 22 in Figs. 1 and 2, i.e., when brushing of coin surface sections both in the core 32 and also in the margin 30 of the coin 18th
  • an area 56 can be used for the evaluation become.
  • Intersection points s3 and s4 can also be used for the coin check can be used.
  • a third curve 52 ′ is indicated in FIG curve 54 intersects at s3 '.
  • the reverse Fall as in curve 42 ' i.e. the amplitude values U1 and U2 have a negligible difference, while the timing, expressed by T1 and T2 clearly is different.
  • 58 again designates one Curve by a soil sensor, corresponding to soil sensor 28, is generated.
  • curve 60 stems from one Sensor forth, as it is designated in Fig. 1 with 20 or 24, i.e. only one material is also measured. in this connection there are no intersections as in FIGS. 4 and 5. Nevertheless, the overlapped areas can be used for evaluation or alternatively the slopes, approximately on both sides of the symmetry time axis 44 ′′ have to be the same.
  • FIG 3 is a first sensor by a probe 70 in the main plate 14a and a second Sensor formed by probes 72, 72 'in the track carrier plate 12a are arranged.
  • the probes 70, 72 are coaxial, but have a different diameter.
  • Such a pair of sensors also generates signal curves at the same time when passing coins, that described in the above Be used to form authenticity criteria can.

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  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Testing Of Coins (AREA)

Description

Die Erfindung bezieht sich auf eine Münzprüfvorrichtung nach dem Oberbegriff des Patentanspruchs 1.The invention relates to a coin testing device according to the preamble of claim 1.

Elektronische Münzprüfvorrichtungen, die fast ausschließlich im Einsatz sind, weisen zumeist mehrere Prüfsonden auf, welche die Echtheitsmerkmale von Münzen identifizieren sollen. Mit am häufigsten werden induktive Sonden verwendet, deren elektromagnetisches Feld durch den Durchlauf von Münzen beeinflußt wird. Auf diese Weise läßt sich die Amplitude, die Frequenz und/oder die Phasenlage der an der Sonde anliegenden Spannung beeinflussen. Verursacht durch die elektrischen bzw. magnetischen Eigenschaften einer Münze erfolgt eine sogenannte Bedämpfung, wobei die entsprechende Kurve zumeist symmetrisch zu einer Zeitachse verläuft, wenn unterstellt wird, daß die Geschwindigkeit, mit der die Münze an der Sonde vorbeirollt, annähernd konstant ist. Neben induktiven Sonden werden auch optische, akustische, kapazitive und andere Sonden eingesetzt. Neben punktförmigen Sonden, die nur einen kleinen Bereich der vorbeirollenden Münze bestreichen, werden auch größerflächige Sonden verwendet, die integrierend wirken. Daneben ist auch bekannt, eine Bodensonde zu verwenden, die in der Münzlaufbahn angeordnet ist und die die Beschaffenheit des Randes einer Münze überprüft. Derartige Bodensonden sind vor allen Dingen vorteilhaft bei sogenannten Bicolour-Münzen, die aus einem Kern mit einem darum herumgelegten Ring bestehen. Ring und Kerne haben eine unterschiedliche Farbe, daher die erwähnte Bezeichnung. Auch das gewählte Material von Ring und Kern ist unterschiedlich.Electronic coin validators that are almost exclusively are usually in use, several test probes, which identify the authenticity of coins. Most often, inductive probes are used, whose electromagnetic field affected by the passage of coins becomes. In this way, the amplitude that Frequency and / or the phase position of the applied to the probe Affect tension. Caused by the electrical or magnetic properties of a coin so-called damping, the corresponding curve mostly runs symmetrically to a time axis if assumed is that the speed at which the coin on the Probe rolls past, is almost constant. In addition to inductive Probes are also optical, acoustic, capacitive and others Probes used. In addition to punctiform probes that only spread a small area of the rolling coin, larger area probes are also used, which are integrating Act. In addition, it is also known to use a soil probe use which is arranged in the coin path and which checked the texture of the edge of a coin. such Soil probes are particularly advantageous for so-called Bicolour coins made from a core with a core around it put around ring. Ring and cores have a different one Color, hence the name mentioned. Also the chosen material of ring and core is different.

Trotz des unterschiedlichen Materials ist die Beschaffenheit von Ring und Kern von Bicolour-Münzen nicht so gänzlich verschieden, daß mit Hilfe von Prüfsonden immer einwandfreie Prüfergebnisse erzielt werden. Dies ist auch dann der Fall, wenn, wie an sich bekannt, mehrere einzelne Prüfsonden verwendet werden, die auf unterschiedliche Eigenschaften der Münzen reagieren. Schließlich ist auch bekannt, die Meßsignale von räumlich hintereinander angeordneten Meßsonden zu verknüpfen, um weitere Meßkriterien zu bilden. Eine Aufnahme und Speicherung von Kurvenverläufen von hintereinander angeordneten Sonden mit anschließender Auswertung geht jedoch zumeist über den Rahmen von Speicher und Verarbeitungsgeschwindigkeit üblicher Mikroprozessoren für Münzprüfer hinaus.Despite the different material, the nature is not so completely different from the ring and core of bicolour coins, that with the help of test probes always flawless Test results can be achieved. This is also the case if, as is known per se, several individual test probes are used that are based on different properties of the Coins react. Finally, the measurement signals are also known of measuring probes arranged one behind the other link to form further measurement criteria. A recording and storing curve profiles of one behind the other However, probes with subsequent evaluation are possible mostly beyond the limits of memory and processing speed usual microprocessors for coin validators.

Der Erfindung liegt daher die Aufgabe zugrunde, eine Münzprüfvorrichtung zu schaffen, die auch in der Lage ist, Bicolour-Münzen besser zu diskriminieren und die insgesamt die Prüfsicherheit auch bei anderen Münzen erhöht.The invention is therefore based on the object of a coin checking device to create which is also able to create bicolour coins better discriminate and the overall the Test security also increased for other coins.

Diese Aufgabe wird durch die Merkmale des Patentanspruchs 1 gelöst.This object is achieved by the features of patent claim 1 solved.

Bei der erfindungsgemäßen Münzprüfvorrichtung sind mindestens zwei Prüfsonden vertikal auf einer gemeinsamen Achse so angeordnet, daß zum Beispiel die Dämpfungskurven, welche die Meßsignale beider Prüfsonden erzeugen, gleichzeitig auftreten. Dies ist der Fall dann, wenn die gemeinsame Achse bzw. Ebene der Maßachsen auf der Ebene, welche von der Münzlaufbahn aufgespannt ist, senkrecht steht. Die Prüfsonden, die zum Beispiel induktive Meßsonden sind, können auf einer Seite eines Münzkanals angeordnet und der vorbeirollenden Fläche der Münzen zugeordnet sein. Sie können jedoch auch auf gegenüberliegenden Seiten eines Münzkanals angeordnet sein und auf einer gemeinsamen Achse liegen und unterschiedlichen Durchmesser haben. Ferner kann zum Beispiel eine der Prüfsonden punktförmig und die andere flächenförmig ausgestaltet sein. Schließlich ist auch denkbar, eine der Prüfsonden als Randprüfsonde einzusetzen, indem sie im Boden der Münzlaufbahn versenkt angeordnet ist. Eine derartige Bodenprüfsonde ist an sich bekannt.In the coin validation device according to the invention, at least two test probes vertically on a common axis so arranged that, for example, the damping curves which generate the measurement signals of both test probes, occur simultaneously. This is the case when the common axis or level of the dimension axes on the level that of the coin career is stretched, is vertical. The test probes, which are, for example, inductive probes, can be on a Side of a coin channel arranged and the rolling past Be assigned to the area of the coins. However, you can too arranged on opposite sides of a coin channel be and lie on a common axis and different Diameter. Furthermore, for example, one of the Test probes punctiform and the other flat his. Finally, one of the test probes is also conceivable as an edge test probe by placing it in the bottom of the Coin runway is sunk. Such a soil test probe is known per se.

Bei der erfindungsgemäßen Münzprüfvorrichtung sind die Spu-len so angeordnet, daß eine gegenseitige Überkopplung vermieden wird. Die parallele Verarbeitung der Sensorsignale wird dadurch möglich, daß der Münzlauf an den Sonden vorbei signifikant länger dauert als die Analogdigitalwandlung eines Meßsignals. Beispielsweise beträgt der Münzlauf an den Sonden vorbei 50 ms, während die Analogdigitalwandlung eines Meßsignals in der Größenordnung von 10 µs erfolgt. Aufgrund dieses Zeitverhältnisses ergibt sich bei mitlaufender Auswertung zumindest von zwei gleichzeitig auftretenden Signalkurven eine Vielzahl von Auswertekriterien aus zum Beispiel Differenz- und Teilflächen, Schnittpunkten und Kombinationen aus diesen Ereignissen. Da auch die Durchlaufbeschleunigung von exakt übereinander angeordneten Sonden gleich ist, können auch die Steigungen an bestimmten Stellen der Signalkurven zur Auswertung herangezogen werden. Dies ist insbesondere bei der Betrachtung von Bicolour-Münzen wichtig, bei denen der Ring und der Kern nur unwesentlich in der Dämpfung unterschiedlich sind. Einbrüche in der auf- und absteigenden Flanke können zum Beispiel durch Flächenbetrachtungen mit der zweiten Sonde, die sich auf der gemeinsamen Achse befindet und als Randmessung nur den Außenring als homogenes Material sieht, ausgewertet werden. Insgesamt ist es beim Einsatz für Bicolour-Münzen zweckmäßig, wenn die Prüfsonden so angeordnet sind, daß zum Beispiel eine Sonde nur den Ring "betrachtet", während die andere Sonde mit ihrer Meßachse annähernd auf der halben Höhe des Mittelpunkts einer Münze oberhalb der Münzlaufbahn angeordnet ist und dadurch sowohl den Rand als auch den Kern erfaßt.In the coin testing device according to the invention, the spools are so arranged that mutual overcoupling is avoided becomes. The parallel processing of the sensor signals is made possible by the coin run past the probes takes significantly longer than the analog-digital conversion a measurement signal. For example, the coin run on the Probes past 50 ms while the analog to digital conversion of a Measurement signal in the order of 10 microseconds takes place. by virtue of this time ratio results when the evaluation is ongoing at least of two signal curves occurring at the same time a variety of evaluation criteria, for example Differential and partial areas, intersections and combinations from these events. Because also the acceleration of probes arranged exactly one above the other can also the slopes at certain points on the signal curves be used for evaluation. This is particularly so important when considering bicolour coins which the ring and the core are only insignificant in the damping are different. Slumps in the ascending and descending Flanks can be viewed, for example, by area considerations the second probe, which is located on the common axis and as an edge measurement only the outer ring as a homogeneous material sees be evaluated. Overall, it is in use useful for bicolour coins, if the test probes like this are arranged that, for example, a probe only the ring "viewed" while the other probe with its measuring axis approximately halfway up the center of a coin is located above the coin path and thereby both the edge as well as the core.

Die erfindungsgemäße Münzprüfvorrichtung weist eine Reihe von Vorteilen auf. So können aufgrund der Anordnung der Sonden Schnittpunkte automatisch erzeugt werden und zum Beispiel der Abstand der Schnittpunkte von der symmetrischen Zeitachse bestimmt werden, was eine Aussage über die Echtheit der geprüften Münze zuläßt. Ferner können Differenzflächen oder einzelne Teilflächen untersucht werden, auch in Verbindung mit programmierbaren Offsets. Insbesondere bei Bicolour-Münzen ergeben sich, wie bereits erwähnt, vor allem bei Flächensonden geringe Dämpfungsunterschiede zwischen Ring- und Kernmaterial. Entsprechend hat man auch nur kleinere Einbrüche im Anstieg und Abfall der Münzkurve zu erwarten. Diese Steigungsänderungen lassen sich normalerweise schwer auswerten. Bei Verwendung einer zweiten auf der gleichen Achse angeordneten Prüfsonde, die zum Beispiel nur den Ring betrachtet, ergibt sich mit der ersten Kurve eine Vielzahl von Kombinationen von Auswertekriterien.The coin validation device according to the invention has a number of benefits. So due to the arrangement of the probes Intersection points are generated automatically and for example the distance of the intersection points from the symmetrical Timeline can be determined, which is a statement of authenticity of the tested coin. Furthermore, difference areas or individual partial areas are examined, also in Connection with programmable offsets. Especially at As already mentioned, bicolour coins arise above all with surface probes, small differences in damping between Ring and core material. Accordingly, you only have minor dips in the The coin curve is expected to rise and fall. Let these slope changes usually difficult to evaluate. When using a second on the test probe arranged on the same axis, which for example only considers the ring, the first curve results in a large number of combinations of Evaluation criteria.

Bei konventionellen Münzprüfern wie sie beispielsweise in GB 2 266 400 A beschrieben werden, werden im wesentlichen nur die Amplitudenwerte verwendet ohne Bezug auf die Zeitachse, und es wurde ein Annahmebereich von z.B. Umax und Umin geschaffen, bei dem dann außerhalb gemessene Werte in einem Falsch-Signal resultieren.In conventional coin validators such as are described in GB 2 266 400 A, for example, essentially only the amplitude values are used without reference to the time axis, and an acceptance range of, for example, U max and U min was created, in which values measured outside were then combined in one Incorrect signal result.

Da ein unruhiger Münzlauf sich auf beiden Prüfsonden gleichzeitig auswirkt, ergeben sich keine Abweichungen, wenn eine sogenannte Differenzauswertung, d.h. Differenz von Punkten oder Flächen der Kurven, vorgenommen wird. Auch die Abhängigkeit der Meßsignale von einer Beschleunigung oder einer Verzögerung, wie sie bei hintereinander angeordneten Prüfsonden unvermeidlich ist, kommt in Fortfall.Since a troubled coin run affects both test probes at the same time, there are no deviations if a so-called difference evaluation, i.e. Difference of points or areas of the curves. Also the Dependence of the measurement signals on acceleration or deceleration, how it is unavoidable with test probes arranged one behind the other comes in Discontinuance.

Die Erfindung wird nachfolgend anhand von Zeichnungen näher erläutert.

Fig. 1
zeigt schematisch eine Münzprüfvorrichtung nach der Erfindung.
Fig. 2
zeigt einen Schnitt durch die Münzprüfvorrichtung nach der Erfindung.
Fig. 3
zeigt eine andere Ausführungsform einer Münzprüfvorrichtung nach der Erfindung im Schnitt.
Fign. 4 bis 6
zeigen die Meßsignalkurven von zwei Prüfsonden einer Münzprüfvorrichtung nach der Erfindung.
The invention is explained in more detail below with reference to drawings.
Fig. 1
shows schematically a coin testing device according to the invention.
Fig. 2
shows a section through the coin testing device according to the invention.
Fig. 3
shows another embodiment of a coin testing device according to the invention in section.
FIGS. 4 to 6
show the measurement signal curves of two test probes of a coin testing device according to the invention.

In Fig. 1 ist eine Münzlaufbahn 10 angedeutet, die üblicherweise an einer Laufbahnträgerplatte 12 angebracht ist (Fig. 2). Zwischen der Laufbahnträgerplatte 12 und einer Hauptplatte 14 wird ein Münzkanal 16 gebildet, wobei auf der Münzlaufbahn 10 Münzen im Münzkanal 16 entlangrollen. In Fig. 1 und 2 ist eine Münze mit 18 gekennzeichnet.In Fig. 1, a coin track 10 is indicated, which is usually is attached to a raceway support plate 12 (Fig. 2). Between the raceway support plate 12 and a main plate 14, a coin channel 16 is formed, with on the Coin track 10 Roll coins along in coin channel 16. In 1 and 2, a coin is identified with 18.

In der Hauptplatte 14 sind drei induktive Prüfsonden 20, 22, 24 übereinander angeordnet. Ihre Meßachsen liegen auf einer Achse 26, die senkrecht auf der Ebene der Münzlaufbahn 10 steht. Eine weitere Prüfsonde 28 ist in der Münzlaufbahn 10 angeordnet. Ihre Meßachse fällt mit der Achse 26 zusammen. Die Prüfsonden 20 bis 24 sind sogenannte Flächensonden, die einen Teil der Fläche der Münzen 18 "betrachten", wobei zum Beispiel die Sonden 20, 24 den Ring 30 der Bicolour-Münze 28 und die Sonde 22 den Kern 32 "betrachtet". Die Sonden 20 bis 28 sind induktive Sonden. Die Prüfsonde 28 dient zur Untersuchung des Randes der Münze 18.In the main plate 14 there are three inductive test probes 20, 22, 24 arranged one above the other. Your measuring axes lie on one Axis 26, which is perpendicular to the plane of the coin track 10 stands. Another test probe 28 is in the coin track 10 arranged. Your measuring axis coincides with axis 26. The test probes 20 to 24 are so-called area probes "view" a portion of the area of the coins 18, with the Example the probes 20, 24 the ring 30 of the bicolour coin 28 and probe 22 "looks" at core 32. Probes 20 to 28 are inductive probes. The test probe 28 is used for examination the edge of the coin 18th

Wesentlich für alle vier Prüfsonden ist, daß sie auf einer gemeinsamen Achse liegen, d.h. Signalkurve erzeugen, die symmetrisch zu einer Zeitachse sind. Dies geht zum Beispiel aus den Signalkurven gemäß den Figuren 4 bis 6 hervor.It is essential for all four test probes that they are on one common axis, i.e. Generate signal curve that are symmetrical to a time axis. For example, this is possible from the signal curves according to FIGS. 4 to 6.

In Fig. 4 ist die Signalkurve 40 zum Beispiel des Sensors 28 dargestellt zum Beispiel für eine Münze mit dem Wert 1 Euro. Eine Kurve 42 gibt den Signalverlauf einer Prüfsonde wieder, wie sie durch eine der Sonden 20 bis 24 repräsentiert ist. Man erkennt, daß die Kurven 40, 42 weitgehend symmetrisch sind zur Zeitachse 44. Die Überlappung der Kurven 40, 42 ergeben somit zum Beispiel zwei Teilflächen 46, 48, deren Differenz zum Beispiel zur Echtheitsprüfung ausgewertet werden kann. Ferner ergibt sich oberhalb von Schnittpunkten s1, s2 eine Fläche 50, die ebenfalls zur Echtheitsprüfung verwertet werden kann. Auch die Lage der Schnittpunkte s1, s2 kann für die Echtheitsprüfung herangezogen werden, beispielsweise durch Messung des Abstandes zur Symmetrieachse 44. 4, the signal curve 40 is, for example, the sensor 28 shown for example for a coin with a value of 1 euro. A curve 42 shows the signal curve of a test probe, as represented by one of the probes 20 to 24. It can be seen that the curves 40, 42 are largely symmetrical are to the time axis 44. The overlap of the curves 40, 42 results thus, for example, two partial areas 46, 48, their difference for example for authenticity checks can. Furthermore, there are s1, s2 above intersection points an area 50, which is also used for the authenticity check can be. The position of the intersection points s1, s2 can also for the authenticity check can be used, for example by measuring the distance to the axis of symmetry 44.

In Fig. 4 ist eine weitere Kurve 42' strichpunktiert angedeutet, um zu zeigen, daß es auch Kurvenformen geben kann, in denen aufgrund der hohen Steigung der Meßkurve 40 die Schnittpunkte s1 und s1' der Kurve 40 mit den Kurven 42 und 42' relevante Amplitudenunterschiede U1, U2 aufweisen können, während die Meßwerte S1, S1' zeitlich nahe zusammenliegen, d.h. ein ΔT bilden, das nicht auswertbar ist.4, a further curve 42 'is indicated by dash-dotted lines, to show that there can be curve shapes, in which due to the high slope of the measurement curve 40 Intersection s1 and s1 'of curve 40 with curves 42 and 42 'may have relevant amplitude differences U1, U2, while the measured values S1, S1 'are close in time, i.e. form a ΔT that cannot be evaluated.

In Fig. 5 ist die von einem Bodensensor, entsprechend Sensor 28, erzeugte Signalkurve mit 52 bezeichnet und die für einen Flächensensor mit 54. Die Kurve 52 entspricht annähernd dem Verlauf der Kurve 40 nach Fig. 1 und ist charakteristisch für die Ausbildung des Randes einer Bicolour-Müne. Die Kurve 54 hingegen wird zum Beispiel von einem Sensor erhalten, wie er in Fig. 1 und 2 mit 22 bezeichnet ist, d.h., beim Bestreichen von Münzflächenabschnitten sowohl im Kern 32 als auch im Rand 30 der Münze 18.5 is that of a floor sensor, corresponding to the sensor 28, generated signal curve designated 52 and that for one Area sensor with 54. The curve 52 corresponds approximately to that Course of curve 40 according to FIG. 1 and is characteristic for the formation of the edge of a bicoloured mune. The curve 54, on the other hand, is obtained, for example, from a sensor such as it is designated 22 in Figs. 1 and 2, i.e., when brushing of coin surface sections both in the core 32 and also in the margin 30 of the coin 18th

Hier kann wiederum eine Fläche 56 für die Auswertung herangezogen werden. Ferner können Schnittpunkte s3 und s4 für die Münzprüfung verwertet werden.Here, in turn, an area 56 can be used for the evaluation become. Intersection points s3 and s4 can also be used for the coin check can be used.

In Fig. 5 ist eine dritte Kurve 52' angedeutet, die sich mit der Kurve 54 bei s3' schneidet. Hier liegt der umgekehrte Fall vor wie bei der Kurve 42', d.h. die Amplitudenwerte U1 und U2 haben einen vernachlässigbaren Unterschied, während die zeitliche Lage, ausgedrückt durch T1 und T2 deutlich verschieden ist. Bei der Auswertung von Kurven, wie sie in Fig. 4 und 5 als Beispiele für Sensorenanordnungen gezeigt sind, kann es daher auch darauf ankommen, nicht nur den Abstand zur Symmetrieachse einzubeziehen, sondern auch die Amplitude und/oder die Steigung.A third curve 52 ′ is indicated in FIG curve 54 intersects at s3 '. Here is the reverse Fall as in curve 42 ', i.e. the amplitude values U1 and U2 have a negligible difference, while the timing, expressed by T1 and T2 clearly is different. When evaluating curves as in 4 and 5 are shown as examples of sensor arrangements , it can therefore be a matter of importance, not just the distance to include the axis of symmetry, but also the Amplitude and / or slope.

Bei der Signalkurve nach Fig. 6 bezeichnet 58 wiederum eine Kurve, die von einem Bodensensor, entsprechend Bodensensor 28, erzeugt wird. Die Kurve 60 rührt zum Beispiel von einem Sensor her, wie er in Fig. 1 mit 20 bzw. 24 bezeichnet ist, d.h. es wird ebenfalls nur ein Material gemessen. Hierbei ergeben sich keine Schnittpunkte wie in den Figuren 4 und 5. Gleichwohl können die überlappten Flächenbereiche zur Auswertung herangezogen werden oder alternativ auch die Steigungen, die beidseitig der Symmetrie-Zeitachse 44'' annähernd gleich sein müssen.In the signal curve according to FIG. 6, 58 again designates one Curve by a soil sensor, corresponding to soil sensor 28, is generated. For example, curve 60 stems from one Sensor forth, as it is designated in Fig. 1 with 20 or 24, i.e. only one material is also measured. in this connection there are no intersections as in FIGS. 4 and 5. Nevertheless, the overlapped areas can be used for evaluation or alternatively the slopes, approximately on both sides of the symmetry time axis 44 ″ have to be the same.

Bei der Ausführungsform nach Fig. 3 ist ein erster Sensor durch eine Sonde 70 in der Hauptplatte 14a und ein zweiter Sensor durch Sonden 72, 72' gebildet, die in der Laufbahnträgerplatte 12a angeordnet sind. Die Sonden 70, 72 sind koaxial, haben jedoch einen unterschiedlichen Durchmesser. 3 is a first sensor by a probe 70 in the main plate 14a and a second Sensor formed by probes 72, 72 'in the track carrier plate 12a are arranged. The probes 70, 72 are coaxial, but have a different diameter.

Auch ein derartiges Sensorenpaar erzeugt gleichzeitig Signalkurven beim Münzdurchlauf, die in der oben beschriebenen Weise zur Bildung von Echtheitskriterien herangezogen werden können.Such a pair of sensors also generates signal curves at the same time when passing coins, that described in the above Be used to form authenticity criteria can.

Claims (9)

  1. Coin checking device comprising two or more probes (20, 22, 24, 28) assigned to a coin track on which the coins roll along, wherein the measurement axes of the probes are arranged in a plane (26) perpendicular to the plane of the coin track, and an evaluation device fed by the signals of the probes, in the evaluation device the characterizing segments of the signals are compared with stored reference values for generating a genuineness signal, characterized in that the evaluation device utilizes segments of the measurement signals of the probes for evaluation, wherein the segments of each probe comprise the same distance to a temporary symmetry axis (44, 44', 44"), and in that the evaluation device evaluates the segments simultaneously.
  2. Coin checking device according to claim 1, characterized in that the cross points (s1 to s4) of the measuring signals are compared.
  3. Coin checking device according to claim 1, characterized in that area segments (46, 48, 50, 56) between the overlapping signal curves are compared.
  4. Coin checking device according to claim 1, characterized in that the slopes of the curves of measuring signals are compared.
  5. Coin checking device according to one of the claims 1 to 4, characterized in that a probe (28) is provided in the coin track (10) with a measurement axis provided perpendicular to the edge of the coin (18).
  6. Coin checking device according to one of the claims 1 to 4, characterized in that the probes (20, 22, 24) are arranged such that they are faced to the surface of the coins (18).
  7. Coin checking device according to one of the claims 1 to 4, characterized in that the probes are arranged in a wall (12, 14) defining a coin canal (16).
  8. Coin checking device according to one of the claims 1 to 4, characterized in that the probes (70, 72) are provided on both sides in the walls (12a, 14a) defining a coin channel (16a).
  9. Coin checking device according to claim 8, characterized in that the probes (70, 72) on both sides provide a common axis but have different diameters.
EP98100034A 1997-01-28 1998-01-03 Coin checking device Expired - Lifetime EP0862147B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19702986A DE19702986C2 (en) 1997-01-28 1997-01-28 Coin validator
DE19702986 1997-01-28

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EP0862147A2 EP0862147A2 (en) 1998-09-02
EP0862147A3 EP0862147A3 (en) 1999-04-28
EP0862147B1 true EP0862147B1 (en) 2003-05-28

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EP98100034A Expired - Lifetime EP0862147B1 (en) 1997-01-28 1998-01-03 Coin checking device

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EP (1) EP0862147B1 (en)
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ES (1) ES2196398T3 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB9723223D0 (en) * 1997-11-03 1998-01-07 Coin Controls Coin validator
DE10106704A1 (en) * 2001-02-14 2002-08-29 Nat Rejectors Gmbh Method for detecting the operation of a coin return mechanism in coin validators
DE10140225C2 (en) * 2001-08-16 2003-08-07 Nat Rejectors Gmbh Method and device for measuring the diameter of coins

Family Cites Families (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
GB2118344A (en) * 1982-02-12 1983-10-26 Mars Inc Coin testing apparatus
JP2767278B2 (en) * 1989-04-10 1998-06-18 株式会社日本コンラックス Coin sorting equipment
GB2266400B (en) * 1991-09-28 1995-11-22 Anritsu Corp Coin discriminating apparatus
GB2266804B (en) * 1992-05-06 1996-03-27 Mars Inc Coin validator
DE4339543C2 (en) * 1993-11-19 1998-07-23 Nat Rejectors Gmbh Procedure for checking coins
JPH09147170A (en) * 1995-09-20 1997-06-06 Fuji Electric Co Ltd Coin identification device
DE19548233C2 (en) * 1995-12-21 1998-03-12 Nat Rejectors Gmbh Electronic coin validator

Also Published As

Publication number Publication date
EP0862147A3 (en) 1999-04-28
DE19702986C2 (en) 1999-06-02
DE59808501D1 (en) 2003-07-03
DE19702986A1 (en) 1998-07-30
EP0862147A2 (en) 1998-09-02
ES2196398T3 (en) 2003-12-16

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