JP2524405B2 - Sensor-circuit - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sensor circuit, and more particularly to a sensor circuit that detects a mark added to the end of a roll-shaped recording paper.

[Prior Art] Conventionally, as an example of this type of sensor circuit, there is one shown in FIG. 4 and FIG.

There is a black end mark 1-1 near the end of the recording paper 1. The recording paper 1 moves in the direction of arrow 2, and the reflective photosensor 3 detects the magnitude of the reflected light. A resistor 6 is a current adjusting resistor for the light emitting diode 3-1 of the light emitting diode unit 3, a resistor 7 is an additional resistor for the phototransistor unit 3-2, resistors 8 and 9 are resistors for a reference voltage of the comparator 5,
Resistor 10 is the load resistance of the comparator.

A current corresponding to the reflected light from the surface of the recording paper detected by the phototransistor section 3-2 flows through the resistor 7, and a sensor output voltage V ₀₁ proportional to the reflected light is generated at both ends of the resistor 7. This voltage V ₀₁ is applied to the comparator 5, and the comparator 5 compares the sensor output voltage V ₀₁ with the reference voltage V _R, and when the sensor output voltage V ₀₁ is large, that is, when the end mark is not detected, “H” is output. When the sensor output voltage V ₀₁ is small, that is, when the end mark is detected, “L” is output to the terminal 11.

[Problems to be Solved by the Invention]

In the conventional circuit described above, the sensor output voltage changes due to the influence of the distance between the sensor surface and the recording paper surface and the ambient temperature. Further, the density of the surface and the density of the end mark differ depending on the type of recording paper used. As shown in FIG. 6, due to these changes, the fluctuation range of the voltage V _W when the end mark is not detected and the voltage V _E when the end mark is detected is widened, and V _W and V _{E with} respect to the reference voltage V _R are increased. There is a drawback that the sensor circuit malfunctions because it cannot be identified.

[Means for solving the problem]

The sensor circuit of the present invention detects a reflection type first sensor circuit for detecting an end mark added to the end portion of a roll-shaped recording paper and a reflected light of a portion of the recording paper without the end mark. The second sensor circuit and this second
According to the output level of the sensor circuit of the first
And a control circuit for adjusting the current supplied to the light emitting diode of the second sensor circuit and setting the sensitivity of the sensor to a predetermined value.

〔Example〕

Next, the present invention will be described with reference to the drawings. First
FIG. 1 is a perspective view showing an embodiment of the present invention.

The end mark 1-1 of the roll-shaped recording paper 1, the arrow 2 indicating the moving direction of the recording paper, the reflective photosensor 3 are the same as in the conventional example, and the reflective photosensor 4 is the same as the reflective photosensor 3. End mark 1-1
It is implemented in the part without.

FIG. 2 is a circuit diagram showing an embodiment of the present invention. The comparator 5, resistors 6, 7, 10 and output terminal 11 are the same as in the conventional example. The output voltage V ₀₂ of the reflective photosensor 4 is applied to the non-inverting input terminal (+) of the comparator 12. Since the reference voltage V _S divided by the resistors 15 and 16 is applied to the inverting input terminal (−) of the comparator 12, when the output voltage V ₀₂ of the photo sensor 4 is higher than the reference voltage V _S , the comparator 12 Becomes "H", and the voltage V _{C of the} capacitor 18 gradually rises via the resistor 17. The voltage V _C is impedance-converted by the voltage follower circuit of the operational amplifier 13, and the light emitting diode section 3-1 of the photosensors 3 and 4 is used.
And the current of 4-1 is gradually decreased. As a result, when the output voltage V ₀₂ of the photo sensor 4 decreases and becomes equal to or lower than the reference voltage V _S , the output voltage of the comparator 12 becomes “L”,
The voltage V _{C of the} capacitor 18 gradually decreases. This allows
The currents of the light emitting diode sections 3-1 and 4-1 of the photosensors 3 and 4 increase, and the output voltage V ₀₂ of the photosensor 4 increases again. By repeating the above operation, the output voltage V ₀₂ of the photo sensor 4 approaches the reference voltage V _S.
Here, the time constant circuit of the resistor 17 and the capacitor 17 determines the response time of the feedback control.

As described above, by changing the current of the light emitting diode section 4-1 of the photo sensor 4, all the changes in the sensor output voltage V ₀₂ due to the distance between the sensor surface and the recording paper, the ambient temperature, and the density difference on the recording paper surface. To correct. In other words, the current flowing through the light emitting diode 4-1 of the photo sensor 4 includes a correction coefficient for changes in the sensor output voltage V ₀₂ . Light emitting diode section 3 of the photo sensor 3
The current of -1 is the light emitting diode section of the photo sensor 4-
Since the current is the same as 1, the output voltage V of the photo sensor 3
_{In 01} as well, correction for changes in the sensor output voltage V ₀₂ is performed, these changes are removed, and a stable output voltage V ₀₁ of the photosensor 3 can be obtained.

Further, as shown in FIG. 3, the output voltage V _{W of the} portion without the end mark of the photo sensor 3 is stabilized, so that the reference voltage V _R of the conventional comparator 5 is brought closer to the reference voltage V _S , and the reference voltage V _R ′. The end mark can be detected even if the output voltage V _E at the time of detecting the end mark varies as shown in FIG.

〔The invention's effect〕

As described above, the present invention is the first reflection type that detects the end mark added to the end portion of the roll-shaped recording paper.
Sensor circuit, a second sensor circuit for detecting the reflected light of the portion of the recording paper without the end mark, and the first sensor circuit according to the magnitude of the output level of the second sensor circuit. By having a control circuit that adjusts the current supplied to the light emitting diode of the second sensor circuit and sets the sensitivity of the sensor to a predetermined value, the distance between the sensor surface and the recording paper, the change in sensitivity due to the ambient temperature, and the use The end mark can be detected without being affected by changes in the surface density of the recording paper and the end mark density.

[Brief description of drawings]

1 is a perspective view showing an embodiment of the present invention, FIG. 2 is a circuit diagram showing an embodiment of the present invention, FIG. 3 is a waveform diagram for explaining the present embodiment, FIG. 4 and FIG. FIG. 5 is a perspective view and a circuit diagram showing an example of a conventional sensor circuit, and FIG. 6 is a waveform diagram for explaining the conventional example. 1 ... Recording paper 1-1 ... End mark of recording paper 1 2
...... Arrow indicating the moving direction of the recording paper 1, 3 ... Reflective photo sensor, 3-1 ... Light emitting diode section of the reflective photo sensor 3, 3-2 ... Photo transistor section of the reflective photo sensor 3, 4 ... Reflective photo sensor having the same characteristics as the reflective photo sensor 3, 4-1 ... Light emitting diode part of the reflective photo sensor 4, 4-2 ... Photo transistor part of the reflective photo sensor 4, 5, 12 …… Comparator, 6 to 10, 14 to 17 …… Resistance, 11 …… Sensor circuit output terminal, 13 …… Op Amp, 18 …… Capacitor.

 ─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-61-145061 (JP, A) JP-A-56-137101 (JP, A) Practical application Sho-59-49986 (JP, U)

Claims (1)

(57) [Claims] 1. A reflective first sensor circuit for detecting an end mark added to the end of a roll-shaped recording paper,
A second sensor circuit for detecting the reflected light of the portion of the recording paper without the end mark, and the first sensor circuit and the second sensor circuit according to the magnitude of the output level of the second sensor circuit. And a control circuit that adjusts the current supplied to the light emitting diode and sets the sensitivity of the sensor to a predetermined value.