JPH02219Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) This invention relates to a device for detecting unauthorized operation of a pachinko machine using a magnet.

(Prior Art) One of the fraudulent operations of a pachinko machine is to try to illegally obtain safe balls by regulating the movement of the pachinko balls using magnets from the glass front of the board.

In order to prevent such fraudulent acts,
Various devices have been developed, and among them, there is one that sounds a buzzer to alert you if it detects magnetism, but in this case, fraudsters may hide the magnet, which can cause various troubles. It's easy to become.

Therefore, the applicant has proposed that when there is a strong magnetic field on the front of the pachinko machine, it will be detected and
It has been proposed to prevent fraudulent acts by stopping the operation of the ball striking machine (Utility Application No. 58-8130, Utility Model Application No. 59-114184, etc.).

To explain this based on Figures 1 to 3,
1 is the glass on the front of the pachinko machine, 2 is a wooden panel board, 3 is a nail that guides the pachinko balls, and 4 is various equipment behind the machine.

A sensor mounting hole 5 is provided in a part of the panel board 2 from the back side, and a reed switch 6 is inserted into the sensor mounting hole 5 as a magnetic detection means, and the contact is turned on when magnetism is detected.

In this case, it is preferable to place the reed switch 6 as close to the front glass 1 as possible as described above, but since the panel board 2 is often replaced within a relatively short period of time, It may also be placed.

In order to increase the sensitivity of the reed switch 6, a coil 13 is disposed around the reed switch 6, and a predetermined alternating current is supplied to the coil 13 from an electric circuit 16 via a variable resistor 15.

That is, magnetic fields of different directions, that is, an alternating magnetic field, are applied in advance around the reed switch 6 in alternating directions, so that if even a small amount of magnetism is applied in addition to this, the reed switch 6 is immediately turned on.

A transistor 8 is provided which becomes conductive when the reed switch 6 is turned on, and the normally closed contact 9b of the relay 9 is opened and closed via the transistor 8.

The contact 9b is inserted into the power circuit 11 of the ball striking machine (drive motor) 10, and when this contact 9b is turned OFF, the operation switch 12 of the ball striking machine 10 is turned ON.
Even if it is in this state, the power supply is cut off. In addition, 17,
18 is a capacitor.

As a result, if a magnet is close to the front glass 1 of a pachinko machine, it will sense the magnetism with high sensitivity regardless of its polarity, and will also prevent fraudulent activities by, for example, stopping the ball launch operation or sounding a buzzer. be.

However, in the case where the coil 13 is arranged around the reed switch 6 to apply an alternating magnetic field, it is difficult to set the level of the alternating magnetic field, and if the magnetic field is too strong, it may cause vibration of the board 2, etc. There was a problem that reed switch 6 would turn on, and if it was too weak, the sensitivity would deteriorate and it would not work. Furthermore, if the current flowing through the coil 13 rises abruptly, the rise of the magnetic field also rises rapidly, which causes the problem that even if the set magnetic field is not very strong, the reed switch 6 is likely to react due to inertia and malfunction. It was hot.

(Purpose of the invention) The purpose of this invention is to solve these problems, ensure good operability of the reed switch, and improve the reliability of the device.

(Structure and operation of the invention) This invention provides a tampering detection device for a pachinko machine in which a magnetically activated reed switch is disposed inside the panel of the pachinko machine, and as the reed switch is activated, tampering with the magnet is detected. , a coil is disposed around the reed switch, a rectangular wave generating circuit outputting a rectangular wave current of a predetermined frequency, and a smoothing circuit smoothing the rising edge of this rectangular wave are provided, and this smoothed current causes the coil to I am trying to excite it.

Therefore, the bias magnetic field can be easily set by the coil, and the rise of the magnetic field is smooth, so that a stable and accurate alternating magnetic field can be obtained.
This maintains the detection sensitivity of the reed switch at an appropriate level and ensures good operational response.

(Example) Figure 4 is a circuit configuration diagram showing an example of the present invention.
13 is reed switch 6 (see Figures 1 and 2)
It is a coil placed around the .

This coil 13 has an electric wire wound around a cylindrical bobbin 19 as shown in FIG. 3, and is arranged so that the reed switch 6 is located at its magnetic core (bobbin center line).

This coil 13 is connected to a drive circuit 20 that supplies a predetermined excitation current to the coil 13.

This drive circuit 20 includes rectangular wave generation circuits 21 and 2.
2, smoothing circuits 23, 24, and excitation circuit 25, and the rectangular wave generating circuits 21, 22 have the same predetermined frequency but a 180° phase difference, as shown in a and b of FIG. 5, respectively. Outputs square wave currents S ₁ and S ₂ .

The smoothing circuits 23 and 24 are integral circuits consisting of a resistor 26 and a capacitor 27, and their rectangular wave currents S ₁ ,
Delay and smooth the rise of S ₂ (the time constant may be relatively small).

Then, the excitation circuit 25 receives the smoothed currents S ₃ and S ₄
transistors 28, 2 which alternately switch in response to
9, resistors 30 and 31, and a DC power supply (constant voltage power supply) 32, which inverts and supplies a predetermined excitation voltage to the coil 13 at a predetermined frequency by the switching function and amplification action of transistors 28 and 29. .

Next, the effect will be explained.

The rising edges of the rectangular wave currents S ₁ and S ₂ outputted from the rectangular wave generation circuits 21 and 22 are smoothed by a predetermined time constant by smoothing circuits 23 and 24, respectively, and these smoothed currents S ₃ and S ₄ are used in the excitation circuit. 25 are input to the base sides of corresponding transistors 28 and 29, respectively.

These smoothed currents S ₃ and S ₄ have the same predetermined frequency.
They are out of phase by 180°, and when current S ₃ is approximately zero, transistor 28 is cut off, while transistor 29 conducts in response to current S ₄ . Further, when the current S ₄ is approximately 0, the transistor 29 is cut off, while the transistor 28 is turned on in accordance with the current S ₃ .

When the transistor 28 is cut off, an excitation current flows from the DC power supply 32 to the coil 13 via the resistor 30 in accordance with the conduction state of the transistor 29, and when the transistor 29 is cut off, it passes through the resistor 31 to the opposite side. An excitation current flows through the coil 13 according to the conduction state of the transistor 28,
These steps are repeated at a predetermined frequency.

Therefore, the coil 13 is supplied with an alternating excitation current _S5 as shown in C in FIG. 6 is prevented from malfunctioning.

After this rise, the excitation current _S5 becomes almost flat, so that the level of the magnetic field can be set accurately and a stable and appropriate alternating magnetic field can be maintained.

As a result, the detection sensitivity of the reed switch 6 is maintained optimally, and good operational responsiveness is always ensured.

As a result, when a magnet is brought close to the front glass 1 of a pachinko machine, the reed switch 6 is reliably activated, stopping the ball launch operation and sounding the buzzer, significantly improving the reliability of the machine. .

Note that, due to the alternating magnetic field, the operation of the reed switch 6 is not affected by the polarity of the magnet or the hysteresis phenomenon.

By the way, in this embodiment, the rectangular wave generation circuit 21,
22 and smoothing circuits 23 and 24 are provided, but 1
An alternating current is output from two rectangular wave generating circuits, and the current is smoothed with a predetermined time constant to generate a coil.
It goes without saying that a similar alternating magnetic field can be obtained even if the magnet 3 is excited.

In addition, the frequency of the alternating magnetic field is in the range of 100 to 0.1 Hz, especially when the alternating magnetic field is set to several Hz.
It has been confirmed that the reed switch 6 has the best operational response.

(Effects of the invention) The effect of being able to apply a stable and appropriate bias alternating magnetic field to the reed switch, maintain its detection sensitivity and operability at its best, and ensure high reliability as a tampering detection device. There is.

[Brief explanation of drawings]

Figures 1 to 3 are sectional views of main parts, control circuit diagrams, and coil excitation circuit diagrams of the conventional example, Figure 4 is a circuit configuration diagram showing an embodiment of the present invention, and Figures a to c in Figures 5. are each current waveform diagram. 1... Glass, 2... Panel board, 6... Reed switch, 9... Relay, 10... Ball striking machine, 13
... Coil, 20 ... Drive circuit, 21, 22 ...
Square wave generation circuit, 23, 24...Smoothing circuit, 25
...excitation circuit.

Claims (1)

[Scope of utility model registration request] In a tampering detection device for a pachinko machine, a reed switch operated by magnetism is arranged inside the panel of a pachinko machine, and as the reed switch is activated, tampering with the magnet is detected.A coil is arranged around the reed switch. A pachinko machine comprising: a rectangular wave generation circuit that outputs a rectangular wave current of a predetermined frequency; and a smoothing circuit that smoothes the rise of the rectangular wave; and the coil is excited by the smoothed current. Tampering detection device.