JP2518172B2 - Paper processing equipment - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a paper sheet processing apparatus, and more particularly to a transaction processing apparatus such as an automatic teller machine (ATM) and an automatic teller machine (CD), The present invention relates to a sensor circuit that detects bills.

2. Description of the Related Art A transaction processing apparatus is provided with a mechanical part such as a banknote transport mechanism, and is provided with an optical sensor for detecting passage of a banknote and for determining authenticity of a banknote. The optical sensor includes a light emitting element and a light receiving element, and the light receiving element of the light from the light emitting element receives the light, and the output of the light receiving element and the level of the reference signal are compared by a comparator.
Then, when the bill intercepts the light from the light emitting element, it is determined that the output level of the light receiving element is lower than the level of the reference signal, and the bill detection signal is output.

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention By the way, in the above-described sensor circuit, dust or the like adheres to the light emitting element and the light receiving element after many years of use. For this reason, the detection capability is lowered, and there is a risk that the passage of a bill may be erroneously detected or the bill may be erroneously discriminated.

Therefore, the main object of the present invention is to prevent the detection capability from deteriorating even if dust or dirt adheres during the operation of the transaction processing device, and to keep in mind that the dust or dirt adheres when the operation is not in progress. An object of the present invention is to provide a paper sheet processing apparatus that can be easily known.

Means for Solving the Problems A paper sheet processing apparatus according to the present invention is provided with a light emitting element provided in the vicinity of a paper sheet conveying path and whether or not a detected object blocks light from the light emitting element. , Compare the light receiving element for detecting the detected object with the output of the light receiving element and the reference signal, and output an abnormality detection signal when the output of the light receiving element exceeds the level of the reference signal Means and level switching means for increasing the level of the reference signal based on the operation of the staff key.

Effect The paper sheet processing apparatus according to the present invention can output the detection signal when dust or dirt adheres by increasing the level of the reference signal when the staff key is operated, so that the staff can handle the dust and dirt. It is possible to easily know that is attached to the light emitting element or the light receiving element.

Embodiment of the Invention FIG. 2 is an external perspective view showing an example of a transaction processing apparatus to which an embodiment of the present invention is applied, and FIG. 3 is a schematic view showing a mechanical portion of a sensor circuit of the embodiment of the present invention. Is a figure,
FIG. 4 is a schematic block diagram of an embodiment of the present invention,
FIG. 5 is a detailed electric circuit diagram of the sensor circuit.

First, the configuration of an embodiment of the present invention will be described with reference to FIGS. Second for transaction processing equipment
As shown in the figure, an attendant key 1 for an attendant to operate,
A CRT display 2 for displaying operation guidance to the customer and a saucer 3 for depositing cash for depositing or for depositing cash are provided.

As shown in FIG. 3, the cash thrown into the tray 3 is carried on a belt 6 driven by a roller 5 rotated by a belt drive motor 10 and conveyed to a hopper 4. The hopper 4 is opened and closed by the hopper drive clutch 11 to discharge coins.

As shown in FIG. 4, the transaction processing device includes a CPU 12 and
Program ROM13 and RAM1 connected to this CPU12
4, a controller 15, and a CRT controller 18.
Further, the controller 15 includes a drive circuit 16 for driving the belt drive motor 10 and the hopper drive clutch 11.
And the sensor circuit 17 to which the sensor 9 including the light emitting element 7 and the light receiving element 8 is connected. Further, the CRT display 2 is connected to the CRT controller 18.

As shown in FIG. 5, the sensor circuit 17 switches the threshold level between the comparator COMP that receives the output of the light receiving element 8 among the sensors 9 including the light emitting element 7 and the light receiving element 8 and the inverters INV1 to INV3. Transistor TR1,
It is composed of TR2, resistors R1 to R13, and a capacitor C1.

The resistor R1 is for passing a predetermined current through the light emitting element 7, and the resistors R2 and R3 and the capacitor C1 form a delay circuit. Further, the resistor R4 is for pull-up, and the resistors R5 and R6 are for giving the comparator COMP a hysteresis characteristic.
Threshold level switching signals are applied to the inverters INV1 and INV3 from the controller 15 shown in FIG. The threshold level switching signal has a high level when the transaction processing device is in operation, and has a low level when the transaction processing device is not in operation. When the threshold level switching signal goes high, the signal is
It is inverted by V3 and makes transistor TR2 conductive.
Depending on the conduction of the transistor TR2, the power supply voltage + V changes to the resistance R
The voltage is divided by 8 and R9, and the reference voltage Vref2 obtained by the voltage division is applied to the reference level input terminal of the comparator COMP via the resistor R6.

When the threshold level switching signal becomes low level, the transistor TR1 passes through the inverters INV1 and INV2.
Is given to the base of, and this transistor TR1 becomes conductive,
Reference voltage Vr determined by power supply voltage + 5V and resistors R7 and R9
ef1 is given to the comparison input terminal of the comparator COMP through the resistor R6.

FIG. 1 is a flow chart for explaining the operation of one embodiment of the present invention, and FIG. 6 is a waveform diagram for explaining the operation of one embodiment of the present invention.

Next, the specific operation of the embodiment of the present invention will be described with reference to FIGS. When the clerk key 1 is not operated, the CPU 12 determines in step (abbreviated as SP in the drawing) SP1 whether the clerk key 1 is closed. When the CPU 12 determines that the clerk key 1 is not closed, it sets the threshold level switching signal to the high level as shown in FIG. 6 (a) in order to switch the threshold level to the low level voltage Vref2 in step SP2. . This high level signal is inverted by the inverter INV3 to make the transistor TR2 conductive. The conduction of the transistor TR2 causes the power supply voltage + 5V to become the resistance R8 as shown in FIG. 6 (b).
The low level reference voltage Vref2 divided by R9 is applied to the comparison input terminal of the comparator COMP.

On the other hand, the light receiving element 8 detects the light from the light emitting element 7 and conducts it unless it is blocked by the object to be detected. When the light receiving element 8 becomes conductive, the sensor input V _IN becomes a relatively high level as shown in FIG. 6 (d), and the output of the comparator COMP, that is, the sensor output S1 becomes low as shown in FIG. 6 (e). It becomes a level signal. The CPU 12 determines in step SP3 whether the sensor output S1 is at a low level. If the sensor output S1 is at a high level in this state, the detection output is derived even though the light receiving element 8 does not detect the object to be detected, and therefore the light emitting element 7 or the light receiving element receives dust. In step SP4, an abnormal display is displayed on the CRT display 2 assuming that dust or dirt has adhered. Then, the CPU 12 stops the operation of the transaction processing device in step SP5.

When it is determined that the sensor output S1 is low level,
The CPU 12 determines in step SP6 whether or not a money discharge command is given. When the CPU 12 determines that the release command has been given, in step SP7, FIG. 6 (c)
As shown in, the controller 15 turns on the belt drive motor 10 via the drive circuit 16. And step SP8
At, the hopper drive clutch 11 is turned on. Thereby, the money stored in the hopper 4 is conveyed via the belt 6. At this time, the light from the light emitting element 7 is blocked every time the coin is conveyed by the belt 6. When the money shields the light from the light emitting element 7, the light receiving element 8 does not receive the light from the light emitting element 7, so that the sensor input V _IN
Has a low level as shown in FIG. 6 (d).

When the comparator COMP determines that the sensor input V _IN has become lower than the reference voltage Vref2, it sets the sensor output S1 to the high level. This sensor output S1 is sent to CP via controller 15.
Given to U12. In step SP9, the CPU 12 determines whether or not the counting is completed based on the sensor output S1.
If the counting is completed, the hopper drive clutch 11 is turned off in step SP10, and the number of coins to be discharged is counted in step SP11. In step SP12, reset the flag indicating the completion of counting,
At SP13, it is determined whether or not the count value matches the number of discharged sheets. If they do not match, return to step SP8 again,
Emit money from the hopper 4. When this operation is repeated and the number of coins to be discharged is counted, the belt drive motor 10 is turned off in step SP14.

As described above, when the clerk key 1 is not operated, that is, when the transaction processing device is in operation, the level of the reference signal given to the comparator COMP is set to the low voltage Vref2. Further, even if dust or dirt adheres to the light receiving element 8, the currency conveyed by the belt 6 can be detected without lowering the detection capability.

When the clerk key 1 is turned on, that is, when the transaction processing device is not in operation, the CPU 12 determines in step SP1 that the clerk key 1 is operated, and sets the threshold level to a high level in step SP15. To do. That is, the CPU 12 gives a low level threshold level switching signal via the controller 15. This low level threshold level switching signal is applied to transistor TR1 via inverters INV1 and INV2. The transistor TR1 is turned on by its low level signal, and supplies a relatively high reference voltage Vref1 obtained by dividing the power source voltage + 5V by the resistors R7 and R9 to the comparison input terminal of the comparator COMP.

When the clerk key 1 is operated, since the light from the light emitting element 7 is given without being blocked by the light receiving element 8, the light receiving element 8 is conducted and the level of the sensor input V _IN is increased. When the sensor input V _IN is low, the light emitting element 7 or the light receiving element 8 is in a dusty state, and the light from the light emitting element 7 is blocked. Therefore, when the sensor output S1 becomes high level, the CPU 12 displays the sensor abnormality on the CRT display 2 in step SP18, and when the sensor output S1 is low level, the light from the light emitting element 7 is not shielded, It is determined that the light emitting element 7 or the light receiving element 8 is free from dust and dust, and step SP17
At, the CRT display 2 displays that the sensor is normal, and the series of operations ends.

As described above, according to the present invention, the level of the reference signal is set to be high when the clerk key is operated. Therefore, when the clerk is operating the transaction processing device, the light emitting element or the light receiving element is received. If the element is dusty or dusty, a detection signal is output, so that it can be immediately determined.

[Brief description of drawings]

FIG. 1 is a flow chart for explaining the operation of one embodiment of the present invention. FIG. 2 is an external perspective view showing an example of a transaction processing apparatus to which an embodiment of the present invention is applied. Third
The drawing is a schematic view showing a mechanical portion of a sensor circuit according to an embodiment of the present invention. FIG. 4 is a schematic block diagram of an embodiment of the present invention. FIG. 5 is a detailed electric circuit diagram of the sensor circuit. FIG. 6 is a waveform diagram for explaining the operation of the embodiment of the present invention. In the figure, 1 is a staff key, 2 is a CRT display, 4
Is a hopper, 7 is a light emitting element, 8 is a light receiving element, 10 is a belt drive motor, 11 is a hopper drive clutch, 12 is a CPU, 13 is a program ROM, 14 is RAM, 15 is a controller, 16 is a drive circuit, and 17 is a sensor. A circuit, 18 is a CRT controller, COMP is a comparator, TR1 and TR2 are transistors, INV1 to 3 are inverters, and R7, R8, and R9 are resistors for voltage division.

Claims (1)

(57) [Claims] 1. A light emitting element provided in the vicinity of a paper sheet conveying path, a light receiving element for detecting the detected object according to whether or not the light from the light emitting element is blocked by the detected object, Comparing the output of the light receiving element with the reference signal, and outputting the abnormality detection signal when the output of the light receiving element exceeds the level of the reference signal, and the operator key is operated. A paper sheet processing apparatus comprising level switching means for increasing the level of the reference signal based on the above.