FI72397B - CAPACITIVE MYNTHETECTOR - Google Patents

Description

1 72397

The present invention relates to a capacitive money detector for controlling coins in a coin-operated device, the money detector comprising a money channel with a rearwardly sloping wall provided with on a rolling path along which money can roll in contact with a wall.

In such a money detector, known from Danish patent 108,335, the ejected money passes down through a substantially vertical money channel past two superimposed capacitor electrodes, whereby an impulse is generated in the electric circuit connected to the electrodes as the money passes the electrodes. With this known structure, it is only possible to express the flow of money through the device but not to detect the dimensions of money.

It is known to perform the control of the diameter of money in a money trough by means of electromagnetic or photoelectric sensors which are placed at certain distances from the rolling path. It is also known to perform the diameter control electrically so that as the money passes along the chute, it forms an electrical connection between the electrically conductive chute base and the conductive strips, which strips are located on the surface of the rearwardly sloping chute wall. The strips have a width and are set at such a distance from the bottom of the chute that contact is made when the diameter of the money is between predetermined acceptable maximum and minimum values. Since the operation of such a detector is based on the formation of electrical contact, a certain length is required of the conductive strips to ensure contact formation.

It is also known from U.S. Pat. No. 2,729,376 of 2,729,676 to use a capacitive monitoring device with which, for example, planar metal plates can be separated from embossed coins. However, the diameter or thickness of the coin cannot be measured with this device.

The object of the present invention is to provide a capacitive money detector of the type mentioned at the beginning, by means of which one or more money diameters can be controlled.

To achieve this, the invention is characterized in that at least one electrode has a substantially rolling edge which limits the electrode in the direction of the money in the trough and is located approximately at the height of the edge of the coin, and the additional electrode is closer to the center of the coin and has a much larger surface area than the former. electrode.

As the money rolls along the trough in contact with its wall, an effective capacitive coupling is formed between the money and said additional electrode, the total surface area being remarkably large. If the money has a diameter such that it covers a part of the first electrode past said limiting edge, a capacitive coupling between the money and the first electrode depending on this coverage is obtained which is small compared to the above capacitive coupling and which will mainly determine its signal from the electrodes connected to the electrodes. the amplitude that registers money. In this context, it should be noted that the detection current circuit may be arranged so that only signal amplitudes above a certain level become registered.

If the money does not cover the first electrode at all, the teaspoon 3 72397 does not, of course, obtain any capacitive coupling at this point, nor the registration of the money. Due to the capacitive operation of the construction, secure registration can be achieved even when the electrode extends only slightly in the longitudinal direction of the money chute.

In one embodiment of the money detector according to the invention, the first and second electrodes have a lower edge parallel to the rolling path, which lower edges are located at heights above the rolling path which are approximately the same as the smallest acceptable money diameter and the smallest rejectable diameter oversize, respectively. When a money detector is built in this way, it can immediately determine to which diameter range a particular money belongs. Unless a capacitive coupling occurs between the money and the first electrode, or if a coupling occurs between the money and the second electrode, the diameter of the money is correspondingly below the allowable lower limit and exceeds the allowable upper limit. If a connection is made between the money and only the first electrode, the diameter of the money is within the allowable limits.

In another embodiment of the money detector according to the invention, the rolling path with the wall of the money chute forms an angle of less than 90 °, and both the first and second electrodes have an upper edge parallel to the rolling path, the upper edges being located in the money chute at heights approximately equal to the bottom of such money. , having the maximum acceptable thickness and the maximum acceptable under-thickness, respectively. Thus, since the money rolls on a track that is at a lower bottom in the gutter, the thinner the money, the registration of the money depending on its thickness can thus be achieved. Unless a capacitive coupling is formed between the money and said first electrode, or if a coupling is formed between the money and said second electrode, the thickness of the money is above the maximum allowable thickness 72397 4 and below the minimum allowable thickness, respectively. If the connection is formed between the money and only the first electrode, the thickness of the money is within the allowable limits.

In a further embodiment of the money detector according to the invention, a plurality of groups of first and second electrodes are arranged in succession along a money trough, said boundary edges being arranged according to the diameter and / or thickness of the different sized coins. Because a relatively small length is sufficient for each private group of electrodes, the money detector can be constructed to be quite small in size to control multiple money diameters and thicknesses.

To simplify the electrical circuit, the additional electrode is preferably common to several groups of first and second electrodes. Using sequential control, an output signal is conducted from a common auxiliary electrode to a common amplifier and signal level detector circuit.

The invention will be explained in more detail below with reference to the accompanying drawing, in which Fig. 1 schematically shows an embodiment of a money detector according to the invention, Fig. 2 is a front view of a money gutter for detecting Fig. 5 is a sectional view taken along line 5-5 of Fig. 4 and Fig. 6 is a wall-mounted wall for use in indicating the diameter and thickness of three different coin sizes, the wall being viewed from the front.

Figure 1 shows a money trough comprising a rearwardly sloping wall 1 and a base 2. Wall 1 is an electrically insulating material and is equipped with two metal

II

5 72397 with strips 3 and 4 coated with an insulating layer missing from the figure. The wall 1 may be, for example, a printed plate, and the strips 3 and 4 may be copper-plated on the surface of the printed plate. The insulating layer can be a protective varnish or, for example, an insulating tape made of polytetrafluoroethylene. Figure 1 shows a metal disc 5, e.g. money resting on the bottom of the trough 2, partially covering the strips 3 and 4 of the wall 1. Thus there will be a capacitive coupling between the strips 3 and 4, the strip 3 and the money 5 forming a capacitor C1 in conductive connection to a capacitor C2 formed by the strip 4 and the part 5 of money covering it.

An alternating voltage, e.g. 200 kHz, is applied from the generator 6 to the strip 4, and said two capacitors C2 and C1 transfer it to an amplifier 7 connected to the strip 3, the output signal of which is applied to a signal level detector 8 which provides an output signal to the terminal 9. The capacitor a capacitor C2 formed by money and a strip 4, so that the magnitude of the capacitor C2 essentially determines the amplitude of the output signal of the amplifier 7. The size of the capacitor C2, as will be seen immediately, depends on how much of the surface 5 of the strip 4 is covered by the money 5. When the money 5 exits, no signal is transferred from the generator 6 to the amplifier 7 and the level detector 8 does not give an output signal to the terminal 9.

The embodiment of the money detector for indicating the diameter of money shown in Figs. 2 and 3 comprises similar parts as in Fig. 1, the parts being denoted by the same reference numerals. Thus, the plate 1 is provided with coatings, i.e. electrodes 3 and 4, covered by a dielectric layer 10, as shown in Fig. 3. In addition to electrodes 3 and 4, the wall has an electrode 11 to which an AC voltage is periodically applied from the generator 6 (Fig. 1). The electrodes 4 and 11 have a lower edge parallel to the bottom of the trough / 6 72397 2, which is positioned with respect to a certain size of the money 5 so that when the money passes through the trough there is either no capacitive coupling or a connection between the electrode 3 and the electrode 4 or and 11 depending on the size of the money. If no capacitive coupling occurs between electrodes 3 and 4, the diameter of the money is below an acceptable limit. If a connection is made between the electrode 3 and both electrodes 4 and 11, the diameter of the money is above the permissible limit. If a capacitive coupling occurs only between electrodes 3 and 4, the diameter of the money is within acceptable limits.

The embodiment of the money detector for indicating the thickness of money shown in Figs. 4 and 5 comprises similar parts as in the previous figures, and the same reference numerals with a comma are used. In this embodiment, the trough bottom 2 'forms an angle with the rear wall of less than 90 °. Thus, the money 5 'rolling along the money trough sinks it lower into the trough Kuta thinner it is. The electrodes 4 'and 11' are therefore placed close to the bottom of the trough so that they can indicate the location of the lower edge of the coin. In accordance with the previous embodiment, the upper edges of the electrodes 4 'and 11' are arranged so that the thickness of the money determines whether there is a capacitive coupling between the electrode 3 'and the electrodes 4' and 11 '. Thus, if a capacitive coupling occurs between the electrode 3 'and the electrode 11', the thickness of the money is below the acceptance limit. Unless there is a connection between the electrodes 3 'and 4', the thickness of the money is above the acceptance limit. If a connection is made between the electrodes 3 'and 4', but not between the electrodes 3 'and 11', the thickness of the money is within acceptable limits.

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Figure 6 shows a money chute wall for use in indicating the diameter and thickness of money of three different sizes. The wall is a printed plate comprising common electrodes 3 and 3 'for indicating the diameter and thickness of said three coin sizes, respectively. The electrodes 4 and 11 and the electrodes 4 'and 11' for each of the three coin sizes, respectively, are thus positioned relative to each other and to the gutter base when the gutter base is mounted in connection with the gutter wall so that a signal can be successively transmitted to the electrodes 3 and 3 '. the diameter and thickness of the imported money, which is one of the three sizes for which the detector is intended, inside or outside the permitted limits. It is clear that the alternating voltage is applied from the generator 6 (Fig. 1) successively to the electrodes 4, 11 and 4 ', 11'. Due to the capacitive effect of the successive control, the electrodes 4, 11 and 4 ', 11' can be made short in the longitudinal direction of the chute and placed close to each other so that the entire chute is made short.

Claims (5)

A capacitive coin detector for checking coins in a coin-operated apparatus, comprising a coin channel with a baked inclined wall (1, 1 ') provided with dielectric material (10, 10') covered by capacitor electrodes (3, 4, 11 , 4 ', 11') which are connected to an electrical circuit (6-9) for detecting capacitance variation as a result of the presence of a coin (5, 5 '), the coin channel being in the form of an inclined chute provided with a roller path (2, 2 ') along which the coins (5, 5') can roll in contact with the wall (1, 1 '), characterized in that at least one electrode (4, 11, 4', 11 ') has one with the roller web (2, 2 ') substantially parallel edge limiting the electrode in a direction toward the path of a coin located in the groove, which is intended to be approximately at the height of the coin's edge, and an additional electrode (3, 3') is closer to the center of the coin path and has a significantly larger area than the first electrode (4, 11, 4 ', 11'). Capacitive coin detector according to claim 1, characterized in that a first and a second electrode (4, 11) have a substantially parallel lower with the roller web (2).