Device for testing and identifying electroconducting coins

专利摘要:
A method and an apparatus for testing and identifying electrically conductive discs, such as coins or equivalent. According to the method the effect of each coin on a magnetic field generated by means of coils is measured, the measurement result obtained in this way is compared with the reference value, and the coin is accepted if the measured value is close enough to the reference value. The reference value is determined on the basis of the effect produced by a preselected reference coin upon a magnetic field preferably of the same magnitude as the magnetic field to be measured. The magnitude of the magnetic field is measured in two directions at least substantially perpendicular to each other and the effect of the coin upon the symmetry of the magnetic field to be measured is taken into account by means of an additional coil placed at least substantially in the symmetry plane of the magnetic field to be measured.
公开号:SU1287758A3
申请号:SU802977028
申请日:1980-09-02
公开日:1987-01-30
发明作者:Юхани Экман Тимо
申请人:Койнтест Ой (Фирма)；
IPC主号:

专利说明:

1128
This invention relates to magnetic
Measuring and intended for testing the identification of conductive electric current coins and similar items.
The purpose of the invention is to increase the accuracy of the selection of coins by measuring the magnetic field in two perpendicular directions when the amplitude of the signal coming from
an additional coil and an extreme value due to the influence of the coin under study for its various positions.
Figure 1 shows the structure of a coil installation unit; figure 2 is a functional diagram of the device; 3 and 4 are time diagrams of the device.
The coil mounting unit (Fig. 1) contains a first coil 1 for creating a magnetic measuring field, a second coil 2 for generating a reference magnetic field, and an additional measuring coil 3 located symmetrically with respect to the a-a and b-b planes. The coin to be investigated is installed by the coils 1 and 2.
In the device (FIG. 2), measuring coil 2 is placed between the coils to create a magnetic field measuring 1-1 and 1-2, the test and reference coins are placed between the coils, the additional measuring coil 3 is orthogonal to the coils 1-1, 1-2 and 2 and symmetrically with respect to the a-a plane. Coil 1-1 is connected to an electric signal generating unit 4. Coil 2 through a magnetic measurement field comparison unit and a reference magnetic field including amplifier 5, indicator 6, integrator 7, level indicator 8 and multivibrator 9 are connected to recorder 10.
An additional measuring coil 3 through the unit for detecting the direction of movement of the checked coins, including an amplifier 11, an indicator 12, an integrator 13, a level indicator 14, is connected to the second input of the level indicator 8.
The device works as follows.
When passing through the measuring channel, the investigated coin 15 creates a magnetic flux passing through the coil 3, as a result of which
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the symmetry of the magnetic field in the coil device (figure 1). The phase of the signal induced in coil 3 carries information about which side of the investigated coin 15 with respect to the a-a plane at any time. When the coin 15 is set exactly symmetrical with respect to the a-a plane, the amplitude of the signal generated in the coil 3 becomes zero. Information on the fulfillment of this condition may be provided by means of a level 8 indicator.
Thus, the sorting of the coin under study is not performed until 5 until the measurement results are obtained when the examined coin is placed with the required accuracy symmetrically with respect to the a-a plane.
If coil 3 is set so that there is a small angle between it and plane a-a, then level indicator 8 will give information in two cases: 5 when coin 15 will be placed almost symmetrically relative to plane of symmetry a-a and when coin 15 will be on appropriate removal from the other side. coil device. At the same time, no information will be issued if there is no coin under investigation near the coil device (Fig. 1). In the process of installing the studied coin the signal received from the coil
3 is amplified by amplifier 11, induced by indicator 12, the signal from indicator 12 is integrated in integrator 13, from the output of which the signal goes to level indicator 14. After processing, in the 14 level indicator, an installation signal is generated, which is fed to the second input of the level indicator 8, while the monostable multivibrator 9 of the signal under study can reach only if the installation signal is present.
With a small shift of the reference coin 16 in the direction relative to the plane of symmetry (at an angle of 1-15), the minimum values of the identifying and setting signals turn out to be appropriately biased, and both indicated signals take minimum values if the coin 15 under study is located relative to the plane a -a exactly as the reference coin 16. By means of
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Considered asymmetry of the coil device design makes it possible to get rid of the setting signal in the case when the examined coin is absent in the immediate vicinity of the coil device. In both cases, to generate a signal at the required measurement points (Fig. 3 shows the type of signals in the appropriate equipment for the case when the coin under study is inserted into the coin placement channel). In FIG. 3, the horizontal axis represents the distance between the center point of the coin under investigation and the plane aa. The maximum diameter of the coils in the measuring elements is 40 mm. The curve c (FIG. 3) corresponds to the amplitude of the signal generated at the output of the amplifier 5. On the basis of this signal, in the level driver 8, a signal d is formed (FIG. 3). The values of e and f (Fig. 3) represent the reference levels of the indicator of level 8, and the difference of these levels characterizes the hysteresis of the indicators of level 8.
Curve g (Fig. 3.4) corresponds to the dependence of the amplitude of the signal, which is formed in coil 3, on the location of the coin under study. The setting signal h (Fig. 3) is obtained from the signal g (Fig. 3) using a setting circuit consisting of an amplifier 11, an indicator 12, an integrator 13 and an indicator 14.
The values of j and k (Figs. 3 and 4) are the reference levels of the level indicator 14, while it is preferable that the difference between these levels be greater than the difference
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50
f5
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between levels e and f (fig.Z). This is due to the fact that the time constant of the integrator 13 has a smaller value compared to the time constant of the integrator 7 due to the high rate of change of the signal amplitude g (Figs. 3 and 4). Based on the signals d and h (fig. 3) in the level indicator 8, the signal m is formed (fig. 3), which is input to the single-stable multivibrator 9. In the case when the signal is needed only when the examined coin is installed in the middle of the measurement section it can be restored with the help of multivibrator 9 driven by the rising edge of the starting signal (FIG. IU at times, the repeated triggering of which is eliminated up to the time t (t, t,)).
Figure 4 shows the operation of the installation chain for the case when the installation coil 3 is offset relative to the plane a-a by an angle of 3.5. With the introduction of the investigated coin 15 into the channel for placing coins, the level indicator 14 forms two different setting pulses (signal n). One of these pulses is formed at the TOT moment when the coin 15 under study is placed almost symmetrically with respect to the a-a plane, and the other impulse is formed at. the moment when the coin under study passes approximately half the way inside the measuring element. The second pulse is formed only on one side of the measuring element, as a result of which it can be used to determine the direction of movement of the coin under study.
phi.1
Fig.Z
-20mm
20mm
Editor A.Lezhnina
Compiled by L. Ustinova
Tehred I.Popovich Proofreader V. But ha
Order 7733/61 Edition 730 Subscription
VNIIPI USSR State Committee
for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
Production and printing company, Uzhgorod, Projecto st., 4
Fy

权利要求:
Claims (1)
[1]
DEVICE FOR TESTING AND IDENTIFYING ELECTRICALLY CONDUCTING COINS, comprising a first coil for generating a magnetic field of measurement connected to a unit for generating an electric signal, a second coil for generating a reference magnetic field connected to a unit for comparing the magnetic field of the measurement and the reference magnetic field, the output of which is connected to the recorder, characterized in that, in order to increase the accuracy of coin selection, it contains an additional measuring coil, the geometric axis of which is perpendicular to single axis of symmetry of the coils with the possibility of deviation within
1-15 °, and a detection unit for detecting the moving direction inspected coins, connected to an additional measuring katush- _of ke, the output of which is connected to the secondary ^{54 * 56} rum Valid comparisons of the block of magnetic field measurements and the reference magnetic field.
SU „1287758>
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1 1287758

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引用文献:

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US3152677A|1961-10-02|1964-10-13|Stoner Invest Inc|Electronic coin detecting device|

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FR1472142A|1965-12-31|1967-03-10|Crouzet Sa|New coin selector for vending machines|

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DE1774754A1|1968-08-28|1972-04-13|Adolf Hinterstocker|Electronic coin validator|

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DE2014023A1|1970-03-24|1971-10-07|Nat Rejectors Gmbh|Device for testing the own shafts of metal disks|

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DE2029751C3|1970-06-16|1974-11-07|Adolf 8150 Roggersdorf Hinterstocker|Electronic coin validator with a single checking device|

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DE2146184A1|1971-09-15|1973-03-22|Standard Elektrik Lorenz Ag|COIN VALIDATOR|JP2767278B2|1989-04-10|1998-06-18|株式会社日本コンラックス|Coin sorting equipment|

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US5148905A|1989-04-18|1992-09-22|Binoptic International Systems, Inc.|Binocular vending apparatus and method|

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ES2048657B1|1992-07-09|1996-11-01|Taselburg Sl|PROCEDURE FOR THE DETECTION AND ANALYSIS OF ELEMENTS OF A METALLIC NATURE.|

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US5579887A|1995-06-15|1996-12-03|Coin Acceptors, Inc.|Coin detection apparatus|

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CN100414567C|2006-02-07|2008-08-27|上海造币厂|Nondestructive total constant value testing method for coin type objects and special testing device|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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FI792729A|FI67968C|1979-09-03|1979-09-03|REQUIREMENTS FOR THE IDENTIFICATION OF AV MYNT ELLER LIKNANDE|

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