NL1013145C2 - Coin handling device with coin detector in transport channel, for gaming machines, has light source and receiver cooperating with modulator and filter devices - Google Patents

Abstract

The light source (2) in the detector cooperates with a modulating device in order to generate a modulated beam of light. The light-sensitive receiver (3) cooperates with a filter device regulated by the modulating device. A signal is generated each time a passing coin breaks a beam of light between the light source and receiver.

Description

Short designation: Device for processing coins, provided with a coin transport channel with coin detector.

The invention relates to a device for processing coins, provided with a coin transport channel with a coin detector of the type, wherein a light beam emitted by a light source in the direction of a light receiver is interrupted by a passing coin and at each light beam interruption a representative signal is produced therefor.

More particularly, the invention relates to coin-processing devices in gaming machines and the like.

When operating such devices, it is important that the number of coins collected in a coin collecting reservoir (the so-called hopper) or discharged therefrom is accurately determined. In normal operation 15, the detectors and / or detectors used in these devices can be used.

sensors, usually in the form of a light-emitting diode (LED) and a photodiode arranged in its light path, are in principle met with this requirement. In practice, however, one has to do with the circumstance that the detection result can be influenced by (variations of) light from the environment, and in particular with fraudulent actions, which are aimed at not detecting a passing coin flow. An example of such a fraudulent action is that in which interference light is brought into the (direct) environment of the light receiver (photodiode) with the aid of a fiber optic, whereby interruptions of the light source (LED), despite the effects of a passing coin flow, emitted light beam nevertheless, a sustained exposure of the photo-30 diode takes place and therefore coin detection is omitted. This means, for example, that a payment of coins actually taking place is not detected by the device itself.

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The chance of such fraudulent actions is of course smaller the less accessible the light receiver is. Therefore, in practice, use is also made of an indirect coin detection, in which a coin passing the detection point activates a mechanism which in turn interrupts the light beam of a light source / light receiver assembly mounted in a safer location. However, the additional mechanism in this method of detection means a complication of the detection device and an additional risk of malfunctions.

In the international patent application WO 96/10809, a coin detection device is disclosed, wherein several light beam receivers (photodiodes), each acting in the path of an associated light beam, are arranged next to each other in the coin movement path of a coin transport channel. The light beam receivers are included in an optical circuit with an OR gate in such a way that the passage of a coin is detected each time the light reception is interrupted at at least one of the light beam receivers.

While this prior art multi-beam arrangement and associated light beam receivers is primarily intended to detect coins of different diameters as well as hole-plated coins with greater certainty, such a multiple arrangement also seems to provide a solution in the case of fraudulent actions as mentioned above. After all, it is less easy to continuously (equally) illuminate a number of light beam receivers from the outside. However, it will nevertheless not be possible to obtain a sufficiently reliable agent against undesired influences, such as the fraudulent operations described above.

The object of the invention is therefore to provide a device of the type described in the preamble, which offers more security against undesired influence of the detection result by external light and, in particular, 1013145 3 light which is introduced by fraudulent operations.

According to the invention, this object is achieved in that the light source cooperates with modulation means to obtain a modulated light beam and in that the light receiver interacts with filter means adapted to the modulation.

In fact, in the detector proposed by the invention, the light beam is associated with unique information and the receiver unit is adapted to recognize that information, so that light that does not carry this information does not affect the receiver unit.

A practical embodiment consists in that the modulation means is a supply current modulator for the light source. The modulation can thereby be a continuous sine wave. Preferably, however, the modulation means comprise a pulse generator supplying the light source. This version with pulse modulation offers a good detection sensitivity, while the working / resting ratio of the supply current can be easily changed or adjusted.

The light source can be an LED, while a photodiode can be used as the receiver, as is known per se in photoelectric cells. Preferably, the LED and photodiode are of the infrared type.

The invention is explained in more detail below with reference to the drawing with an exemplary embodiment.

Fig. 1 is a schematic perspective view of a coin detection channel with coin detection according to the invention; Figure 2 is a schematic cross section of the coin transport channel of Figure 1; Figure 3 shows a schematic of the detector, and Figure 3A is a simple example of a power supply pulse that can be used to effect a modulated light beam.

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The coin transport channel 1 shown in Fig. 1 is, for example, part of a coin collecting reservoir (the so-called "hopper") in a gaming machine and, for example, leads from the outlet of such a reservoir to a coin dispensing location.

A coin detector is provided near a longitudinal edge of the coin transport channel 1, comprising the light source indicated by 2, preferably in the form of an infrared LED and a receiver 3 in the form of an infrared photo-10 diode.

In the schematic exemplary embodiment, the detection location is marked by an opening 4 in the bottom 1a of the coin transport channel 1, through which opening 4 the light beam produced by the LED 2 is cast onto the photodiode 3. Instead of the aperture 4 for transmitting the light beam, the bottom 1a can also be made transparent, at least at the location of the detection, while the LED 2 and the photodiode 3 can optionally be integrated in the transport channel 1.

In the diagram according to Fig. 3, the light source 2 or

LED fed by or via the modulator 5, for example in the form of a pulse generator supplying the light source 2, which produces the pulse shown in Fig. 3A with a frequency f = 1 / t and a work / rest ratio x / y. In the absence of a coin, for example when the light source (LED) is aimed at the space between two successive coins M, the light beam falling on the photodiode 3 leads to a signal which is applied to an amplifier 6, which adds amplified signals to a 30 detection circuit proposed as filter 7, which passes only the modulated signal. The output signal of the detection circuit or filter 7 is applied to the demodulator indicated by 8, the output signal of which is digitized into a signal S, which is representative of whether or not a coin is passed (= for interrupting or not of the light beam emitted by the light source 1).

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Instead of the pulse modulation described above, other modulation forms, such as frequency modulation and / or amplitude modulation, could also be used.

More particularly, the modulated light beam obtainable by pulse modulation described above can be modulated even further by making each pulse block x in the pulse-shaped signal according to Fig. 3A consisting of a sine wave, possibly with a varying amplitude. In fact, this is a periodically interrupted sine wave. The filter 7 in the diagram of Fig. 3 will of course have to be adjusted accordingly.

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Claims (5)

1. Coin-processing device, comprising a coin transport channel with a coin detector of the type disposed therein, wherein a light beam emitted by a light source 5 in the direction of a light receiver is interrupted by a passing coin and becomes a corresponding signal at each light beam interruption generated, characterized in that the light source cooperates with modulation means to obtain a modulated light beam and in that the receiver interacts with filter means adapted to the modulation. 2. Device as claimed in claim 1, characterized in that the modulation means comprise a supply current modulator for the light source. Device according to claim 1 or 2, characterized in that the modulation means comprise a pulse generator supplying the light source. Device as claimed in claim 3, characterized in that the pulse blocks of the pulsating supply current supplied by the pulse generator are formed into a high-frequency sine wave by additional modulation means. 5. Device as claimed in claims 1-4, characterized in that the light source is an LED and that a photodiode is used as receiver. 25 1013145