JPH07291523A - Device for detecting program searching mark of roll paper - Google Patents

Abstract

PURPOSE:To detect the program searching mark by providing a comparison circuit which compares the reflected level signal from a light-receiving part with the reference value signal from a level conversion circuit, and outputs the mark detecting signal to a control part to determine the reference value by itself according to the brightness of the paper or the like when the reflected level signal is smaller than the reference value signal. CONSTITUTION:A light-receiving part 22 to receive the light reflected by a roll paper 10, and output the reflected level signal according to the intensity or the like of the received light is provided, the maximum value of the reflected level signal from this light-receiving part 22 is kept by a peak hold circuit 23, and the maximum value signal from this peak hold circuit 23 is inputted and converted into the reference value signal by a level conversion circuit 24 and the converted signal is outputted. The reflected level signal from the light-receiving part 22 is compared with the reference value signal from the level conversion circuit 24, and when the reflected level signal is smaller than the reference value signal, the mark detecting signal is outputted to a control part 30 by a comparison circuit 25. This constitution detects the program searching mark by determining the reference value according to the brightness or the like of the paper by itself.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mark detecting apparatus for a printer, which detects a cue mark printed on a roll sheet and finds the cue mark on the roll sheet. The present invention relates to a roll paper cue mark detection device that can determine a cue mark by itself setting a corresponding reference value.

[0002]

2. Description of the Related Art In recent years, portable electricity collection terminals have been used for making receipts for customers in the operation of collecting electricity, gas, etc. that visits homes. This portable collection terminal inputs necessary data such as charges, and a built-in printer prints on a roll paper on which a fixed receipt frame is printed.
These data are printed. Here, in a printer using roll paper on which such a standard format is printed, in order to perform printing at a predetermined position of the standard format, it is necessary to position the print position of the roll paper at the start of printing. Therefore, in a printer that prints on roll paper on which a standard format is printed, a cue mark is printed at a predetermined position on the roll paper, and this is detected by a cue mark detection device built in the printer. The roll paper is located at a predetermined position and the print position of the roll paper is positioned.

A conventional roll paper cue mark detecting device is
A cue mark printed at a predetermined position on the roll paper, a light emitting part for emitting light to the roll paper, light reflected from the roll paper, and reflection of a value corresponding to the intensity of the received light. A light receiving unit for outputting a level signal and a reference value corresponding to a reflection level of a margin portion of the roll paper are preset, and a comparison circuit for comparing the reference value with the reflection level signal to detect a cue mark. When the comparison circuit detects a cue mark, the roll paper conveyance is stopped, the roll paper is cueed to a predetermined position, and the print position of the roll paper is positioned.

In Japanese Patent Laid-Open No. 4-146181, reflectance detecting means for detecting the light reflectance of the printing surface of the paper and reflection for comparing the detection result of this reflectance detecting means with a preset reference value. There has been proposed a printer which automatically adjusts a print density most suitable for a print surface of a sheet by a rate comparison means.

[0005]

SUMMARY OF THE INVENTION However, the above-described conventional roll paper cue mark detection apparatus and Japanese Patent Laid-Open No. 4-14 are disclosed.
The 6181 printer has a configuration in which a reference value for comparison is set in the comparison circuit in advance. Therefore, it is necessary to adjust the reference value at the time of manufacturing, which requires a great deal of labor and time. There was a problem.
In addition, regardless of the type of roll paper, the cue mark is always detected based on a fixed reference value.Therefore, for a roll paper with low lightness (reflection level), the cue mark is not detected. There was a problem that other parts were misidentified as cue marks. Further, when the characteristics of the light emitting unit and the light receiving unit that detect the reflection level of the roll paper change over time, there is a problem that the reference value of the comparison circuit must be readjusted.

The present invention has been made in view of the above-mentioned problems, and it is possible to detect a cue mark by setting a reference value according to the brightness of the paper and the like, thereby making the apparatus easy and inexpensive. A roll paper cue mark detection device that can be manufactured in a reliable manner and that can reliably detect cue marks without being affected by the brightness of the paper, and that does not require readjustment of the reference value due to aging. The purpose is to do.

[0007]

In order to achieve the above-mentioned object, a roll paper cue mark detection device of the present invention is a device for detecting a cue mark printed on a roll paper. A light emitting unit that emits light, a light receiving unit that receives the light reflected from the roll paper, and outputs a reflection level signal according to the intensity of the received light, and a maximum value of the reflection level signal from this light receiving unit. A peak hold circuit for holding, a level conversion circuit for inputting the maximum value signal from this peak hold circuit, converting it to a reference value signal and outputting it, a reflection level signal from the light receiving section and a reference value from the level conversion circuit The signals are compared, and when the reflection level signal is smaller than the reference value signal, a comparison circuit that outputs a mark detection signal to the control unit is provided. Specifically, the light receiving unit is configured by a phototransistor, and the peak hold circuit is a voltage follower unit that prevents a voltage drop of the voltage output from the light receiving unit, and a polarity that outputs the maximum voltage from the light receiving unit. And a capacitor that holds the maximum voltage output from this diode. here,
The light emitting unit may be configured by an infrared light emitting diode, and the light receiving unit may be configured by a phototransistor for infrared detection. Further, the level conversion circuit is composed of a voltage dividing circuit in which a plurality of resistors are connected in series.

[0008]

According to the roll paper cue mark detecting device of the present invention having the above-described structure, the light emitted from the light emitting portion is reflected by the roll paper and received by the light receiving portion. The light receiving section outputs a reflection level signal having a value corresponding to the intensity of the received light to the peak hold circuit and the comparison circuit. The reflection level signal from the light receiving unit is sequentially output as the roll paper is conveyed. Here, the brightness of the margin of the roll paper is usually high,
Since the lightness of the cue mark is low, the reflection level of the margin of the roll paper is high, and the reflection level of the cue mark is low. The peak hold circuit holds the maximum value of the input reflection level signal and outputs it to the level conversion circuit. The level conversion circuit obtains a reference value signal based on the maximum value signal from the peak hold circuit and outputs it to the comparison circuit. The comparison circuit compares the reflection level signal from the light receiving unit with a reference value signal from the level conversion circuit, and outputs a cue mark detection signal to the control unit when the reflection level signal is smaller than the reference value signal. . Based on this detection signal,
The control unit stops the conveyance of the roll paper, and causes the roll paper to cue (position the printing position).

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the roll paper cue mark detection device of the present invention will be described below with reference to the drawings. Figure 1
FIG. 3 is a block diagram of a cue mark detection device according to the present embodiment. 2 is an explanatory view showing roll paper of the printer, and FIG. 3 is a time chart diagram showing signal waveforms of respective parts of the heading mark detection device.

In these drawings, 10 is a roll paper, which is set on a roll paper transport unit 11 such as a platen provided in the printer. A standard format 10a such as a receipt frame is printed on the printing surface of the roll paper 10, and a cue mark 10b is printed at a predetermined position for each unit of the standard format 10a. Here, as the roll paper 10, a bright color having a large reflection level is used, and the color of the cue mark 10b is made a dark color having a small reflection level to provide a difference in reflection level. Reference numeral 21 denotes a light emitting unit that emits light onto the line on which the cue mark 10b of the roll paper 10 conveyed to the roll paper conveyance unit 11 is printed. As the light emitting unit 21, a light emitting element such as a light emitting diode or LED is used, and preferably, an infrared light emitting diode or the like that emits infrared rays or the like that are rarely included in visible light in order to prevent the influence of external light. The light emitting element of is used.

Reference numeral 22 denotes a light receiving section, which receives the light reflected from the roll paper 10 and sequentially outputs a reflection level signal S ₁₀ having a value corresponding to the intensity of the received light as the roll paper 10 is conveyed. (FIG.3 (b)). Here, the roll paper 10
In addition to using a bright color, cue mark 10b
Because of it is constituted that the darker the color, the value of the reflection level signal S ₁₀ of the margin of the paper roll increases, the head hoax - the value of the reflection level signal S ₁₀ of the click 10b is reduced.
It is preferable that the light receiving section 22 has an input / output characteristic in which the output level corresponds to the light receiving level in a one-to-one relationship, but there is no problem even if it has a non-linear input / output characteristic. . For example, a light receiving element such as a phototransistor that outputs a voltage having a value corresponding to the intensity of the received light is used. Further, when an infrared light emitting element such as an infrared light emitting diode is used for the light emitting section 21, a phototransistor for infrared detection is used to deal with it.

A peak hold circuit 23 receives the reflection level signal S ₁₀ from the light receiving section 22 and sequentially holds the maximum value of the reflection level signal S ₁₀ as a maximum value signal S ₂₀ (FIG. 3 (c)). ). The peak hold circuit 23 includes a voltage follower portion formed by an operational amplifier that prevents the voltage output from the light receiving portion 22 from dropping, and a diode having a polarity that outputs the maximum voltage from the light receiving portion 22.
It is composed of a capacitor that holds the maximum voltage output from this diode.

Reference numeral 24 is a level conversion circuit which converts the maximum value signal S ₂₀ from the peak hold circuit 23 into a reference value signal S ₂₁ of a predetermined value and outputs it (FIG. 3 (d)). The level conversion circuit 24 is composed of a voltage dividing circuit in which a plurality of resistors are connected in series, and a reference value (a relative detection value of the cue mark 10b with respect to a blank portion of the roll paper 10 is changed by changing the ratio of the resistors to be formed. ) Level can be changed. Therefore, by adjusting the value of the reference value signal S ₂₁ output from the level conversion circuit 24, the cue mark 1
The effective width of 0b can be adjusted. That is, regarding the width and reflection level of the cue mark 10b, as shown in FIG. 4A, when the width of the cue mark 10b is large, the reflection level is low, and when the width of the cue mark 10b is small, the reflection level is small. Have a higher relationship. Therefore, as shown in FIG. 4B, the reference value signal S which is the comparison target of the reflection level signal S _10.
Reducing the ₂₁ values of, it is possible to narrow the effective width of the Date search mark 10b, also increasing the value of the reference value signal S _21, it is possible to widen the effective width of the Date search mark 10b.

Reference numeral 25 is a comparison circuit, which compares the reflection level signal S ₁₀ from the light receiving section 22 with the reference value signal S ₂₁ from the level conversion circuit 24. That is, the comparison circuit 25 detects the cue mark and outputs the mark detection signal S ₃₀ when the reflection level signal S ₁₀ having a value smaller than the reference value signal S ₂₁ is input (FIG. 3E). A comparator is used as the comparison circuit 25.

Reference numeral 30 denotes a control unit of the printer, which outputs a control signal S ₄₀ to the roll paper transport unit 11 when the mark detection signal S ₃₀ from the comparison circuit 25 is input to stop the transport of the roll paper 10 and roll paper. 10 is performed to position the print position of the roll paper 10. Reference numeral 12 denotes a print head, which performs cueing, that is, printing is performed at a predetermined position of the standard format 10a of the roll paper 10 whose print position is positioned.

According to such a roll paper cue mark detection apparatus of the present embodiment, the reference value for detecting the cue mark 10b is automatically set based on the reflection level of the blank portion of the roll paper 10. Thus, it is possible to detect the cue mark 10b. This eliminates the need to adjust the reference value at the time of manufacturing, and the device can be easily and inexpensively manufactured. Further, according to the heading mark detection device, a new reference value can be set according to the lightness of the paper. Since it is determined, it is not necessary to manually readjust the reference value even when the type of roll paper is changed or when the characteristics of the light emitting unit 21 and the light receiving unit 22 that detect the reflection level of the roll paper 10 are changed over time. .

Further, when the effective width of the cue mark 10b is widened, a decrease in the reflection level due to a small stain on the roll paper 10 is not mistakenly recognized as the cue mark 10b, and only the cue mark 10b is surely made. Can be detected.

[0018]

As described above, according to the cue mark detecting device for roll paper of the present invention, the cue mark can be detected by setting the reference value according to the lightness of the sheet. As a result, the device can be manufactured easily and inexpensively, and the cue mark can be reliably detected without being affected by the brightness of the roll paper. Further, even if the characteristics of the light emitting unit and the light receiving unit change over time, it is not necessary to manually readjust the reference value.

[Brief description of drawings]

FIG. 1 is a block diagram showing a cue mark detection device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing roll paper of the printer.

FIG. 3 is a time chart diagram showing signal waveforms of respective parts of the head-out mark detection device.

FIG. 4 (a) is a chart showing a relationship between a cue mark and a reflection level, and FIG. 4 (b) shows a converted reference value signal and an effective width of the cue mark. It is a chart figure which shows a relationship.

[Explanation of symbols]

10 roll paper 10a standard format 10b cue mark 11 roll paper transport unit (platen) 12 print head 21 light emitting unit 22 light receiving unit 23 peak hold circuit 24 level conversion circuit 25 comparison circuit 30 control unit S ₁₀ reflection level signal S ₂₀ maximum value Signal S ₂₁ Reference value signal S ₃₀ Mark detection signal S ₄₀ Control signal

Claims (4)

[Claims] 1. An apparatus for detecting a cue mark printed on roll paper, comprising: a light emitting section for emitting light to the roll paper; and light intensity reflected by the roll paper. , A peak-hold circuit that holds the maximum value of the reflection-level signal from this light-receiving section, and the maximum-value signal from this peak-hold circuit are input and converted into a reference-value signal. And a level conversion circuit for outputting the reference level signal from the light receiving unit and the reference value signal from the level conversion circuit, and outputs a mark detection signal to the control unit when the reflection level signal is smaller than the reference value signal. A roll paper cue mark detection device having a comparison circuit. 2. The light receiving section is formed of a phototransistor, and the peak hold circuit is a voltage follower section for preventing a voltage drop of a voltage output from the light receiving section, and a polarity for outputting the maximum voltage from the light receiving section. 2. The roll paper cue mark detecting device according to claim 1, wherein the roll paper cue mark detecting device comprises the diode of FIG. 3. A cue mark detecting device for roll paper according to claim 2, wherein said light emitting portion is an infrared light emitting diode, and said light receiving portion is a phototransistor for infrared ray detection. 4. The cue mark detecting device for roll paper according to claim 1, wherein the level conversion circuit comprises a voltage dividing circuit in which a plurality of resistors are connected in series.