JP2000015901A - Printer - Google Patents

Abstract

PROBLEM TO BE SOLVED: To prevent low quality printing and to use a battery up to the limit of lifetime. SOLUTION: The printer comprises a power supply section 1 and a printing section 5 being driven by the power supply section 1. The power supply section 1 comprises a battery 2 and a section 3 for converting the battery voltage and supplying the printing section 5 with a converted voltage. When the output voltage Eo from the voltage converting section 3 drops below a first predetermined voltage Er1, the printing section 5 performs split printing.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a printer which changes a printing method when the voltage of a built-in power supply decreases.

[0002]

2. Description of the Related Art FIG. 2 is a block diagram for explaining a conventional printer having a built-in power supply unit.
And a voltage converter 13 for boosting the voltage of the battery 12. As the battery 12, an alkaline battery, a NiCd battery, or the like is used. Further, the voltage conversion unit 13
It is composed of a DC-DC converter. Then, the voltage of the battery 12 is supplied to the voltage conversion unit 13 and the voltage conversion unit 1
3 outputs a voltage higher than the voltage of the battery 12,
This is supplied to a printing unit (thermal head) 14 of a thermal printer, for example.

[0003] Although not shown, a voltage conversion unit 13 composed of a DC-DC converter includes a switching element such as a transistor for intermittently supplying a voltage of the battery 12, and a switching element such as a transistor.
And a control circuit for controlling a period (duty cycle) of conduction and non-conduction of the switching element. The switching element intermittently conducts to boost and smooth the output battery voltage. Then, the above-described duty cycle control is performed so that the output voltage is kept constant even by the voltage fluctuation of the battery 12 or the fluctuation of the load state. By controlling the output voltage of the power supply unit to be constant, the printing quality of the printer is kept constant.

By the way, a current is supplied from the power supply unit 11 to the printing unit 14 as a load. In the process, the internal resistance of the battery 12 increases and the terminal voltage of the battery 12 decreases. Then, the operation of the transformer conversion unit 13 becomes unstable, and its output voltage also decreases. As a result, the printing unit 14
Is not sufficiently driven, and the print quality is degraded. Therefore, in such a case, the battery 12 is replaced with a new one.

[0005]

In the above-described conventional printer, if a decrease in printing quality due to a decrease in battery voltage can be immediately detected, the battery can be replaced at that point in time. Inferior quality printing will be continued. Therefore, after battery replacement,
I had to reprint it.

It is therefore an object of the present invention to prevent poor quality printing and to allow the battery to be used to the end of its life.

[0007]

In order to solve the above problems, a printer according to the present invention includes a power supply unit and a printing unit driven by the power supply unit, wherein the power supply unit includes a battery,
And a voltage converter that converts the voltage of the battery and outputs the converted voltage and supplies the converted voltage to the printing unit.If the output voltage of the voltage converter drops below a first predetermined voltage, In the above, the printing unit performs division printing.

Further, the printer according to the present invention includes a first comparing means for comparing the output voltage of the voltage conversion section with the first predetermined voltage, and the printing section based on a comparison result of the first comparing means. A control unit for controlling the printing unit, wherein when the output voltage of the voltage conversion unit falls below the first predetermined voltage, the control unit causes the printing unit to perform the divided printing.

Further, the printer of the present invention compares the output voltage of the voltage converter with a second predetermined voltage lower than the first predetermined voltage, and determines that the output voltage of the voltage converter is equal to the second predetermined voltage. When the voltage falls below the second predetermined voltage, the supply of the output voltage to the printing unit is stopped.

[0010] The printer of the present invention may further comprise a switch provided between the battery and the voltage conversion unit, wherein when the output voltage of the voltage conversion unit falls below the second predetermined voltage, The switch is opened to stop supplying the voltage of the battery to the voltage converter.

[0011]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A printer according to the present invention will be described below with reference to FIG. FIG. 1 is a configuration diagram illustrating a printer of the present invention having a built-in power supply unit.
It comprises a battery 2 and a DC-DC converter 3 which is a voltage converter for boosting the voltage of the battery 2. As the battery 2, an alkaline battery, a NiCd battery, or the like is used. Then, the voltage of the battery 2 is supplied to the DC-DC converter 3 via the switch means 4 such as a switch transistor.

Although not shown, the DC-DC converter 3 has a switching element such as a transistor for intermittently supplying the voltage of the battery 2 and a conduction / non-conduction period (duty cycle) of the switching element. , And the switching element intermittently conducts to boost and smooth the output battery voltage. Then, the above-described duty cycle control is performed so that the output voltage Eo becomes constant regardless of the voltage fluctuation of the battery 2 or the fluctuation of the load state. And DC
A voltage Eo higher than the voltage of the battery 2 is output from the DC converter 3 and is supplied to a printing unit (thermal head) 5 of a printer (for example, a thermal printer) serving as a load. By controlling the output voltage Eo of the power supply unit 1 to be constant, the print quality of the printer is kept constant.

However, the capacity of the battery 2 gradually decreases in the course of use, and as a result, the internal resistance increases and the terminal voltage decreases. Therefore, the control circuit in the DC-DC converter 3 does not function sufficiently, and its output voltage Eo also decreases. Therefore, a first comparison circuit (first comparison means) 6 and a second comparison circuit (second comparison means) 7 for detecting the output voltage Eo of the DC-DC converter 3 are provided.

First, the first comparison circuit 6 includes a DC-DC
The output voltage Eo of the converter 3 and the first predetermined voltage Er ₁ from the first reference voltage source 8 are input. The first predetermined voltage Er _1, for example, is set to a voltage printing unit 5 is supplied to the printing portion when begins to thin printing density such as characters to be printed (output voltage Eo of the DC-DC converter) You. This voltage Er ₁ can be determined in advance by an experiment or the like. Then, a control circuit (control means) 9 for controlling the printing method of the printing unit 5 is connected to the first comparison circuit 6.

The first comparison circuit 6 outputs a high-level voltage when the output voltage Eo of the DC-DC converter 3 becomes lower than the first predetermined voltage Er1. When the output of the first comparison circuit 6 is at a low level, the control circuit 9 operates the printing unit 5 in a normal printing method (so-called solid printing), and the output of the first comparison circuit 6 is at a high level. Then, the printing method is automatically switched, and control is performed so as to operate in a so-called divided printing method.
The division printing is a method in which a plurality of printing dots are not printed at once, but are printed twice, for example, by half. Therefore, since the current required for one printing is small, the voltage supplied to the printing unit (that is, the output voltage Eo of the DC-DC converter 3) is reduced, and the printing quality is deteriorated in the solid printing method. However, the print quality does not decrease in the division printing.

On the other hand, the second comparison circuit 7 has a DC-DC
The output voltage Eo of the converter 3 and the second predetermined voltage Er ₂ from the second reference voltage source 10 are input. The second predetermined voltage Er ₂ is past a change of printing density such as characters printed portion 5 is printed, for example, is supplied to the printing unit when the blur is reached the steps as appearing in the character Voltage (output voltage Eo of the DC-DC converter). Therefore, the second predetermined voltage is a voltage that specifies the life of the battery 2 when used in a printer. Therefore,
Further, the second predetermined voltage Er ₂ becomes lower than the first predetermined voltage Er _1. This voltage Er ₂ can also be determined in advance by experiments or the like. The first comparison circuit 6
The output voltage Eo of the DC-DC converter 3, when lower than the first predetermined voltage Er _1, and outputs a high level voltage. Then, the second comparison circuit 7
The opening and closing of the switch means 4 is controlled by the switch.

That is, when the output of the second comparison circuit 7 is at a low level, the switch means 4 is closed and the battery 2
Is supplied to the DC-DC converter 3, but when the output of the second comparison circuit 7 goes to a high level, the circuit is opened and the voltage of the battery 2 is not supplied to the DC-DC converter 3.

For this reason, the voltage supplied from the battery 2 to the DC-DC converter 3 is stopped at the stage where the characters printed by the printing unit 5 are blurred, so that the printing operation is stopped at that stage, and thereafter the printing is stopped. Not done. Therefore,
Printing with reduced quality can be prevented. When the printing operation is stopped, the battery 2 may be replaced with a new one. Further, since the low voltage of the battery 2 is not supplied to the DC-DC converter 3, the DC-DC converter 3 does not operate unnecessarily and does not adversely affect peripheral circuits in the printer. Here, if a monitoring means (not shown) operated by the second comparison circuit is provided and this monitoring means is provided with a display function or generates a warning sound, the time for battery replacement is lost. Never do.

As described above, when the battery 2 is exhausted, the internal resistance increases, and the terminal voltage of the battery 2 drops even if the same current is applied to the load.
Although the printing operation is hindered, in the present invention, when the output voltage of the DC-DC converter 3 becomes equal to or lower than the first predetermined voltage, the printing is switched to the division printing method. And the normal printing operation can be continued. Therefore, the battery 2 can be used up to the end of its life.

[0020]

As described above, the printer of the present invention includes the power supply section and the printing section driven by the power supply section. The power supply section converts the battery and the voltage of the battery, and converts the converted voltage. A voltage converter that outputs a voltage and supplies it to the printing unit. When the output voltage of the voltage conversion unit falls below the first predetermined voltage, the printing unit performs divided printing, so that the battery Can be used up to the end of the battery life, and the print quality is not degraded to the limit of the battery life.

Further, the printer according to the present invention has a first comparing means for comparing the output voltage of the voltage conversion section with the first predetermined voltage, and a control section for controlling the printing section based on the comparison result of the first comparing means. When the output voltage of the voltage conversion unit falls below the first predetermined voltage, the control unit causes the printing unit to perform divided printing, so that the printing method is automatically switched with the decrease of the battery. Can be

Further, the printer of the present invention compares the output voltage of the voltage conversion unit with a second predetermined voltage lower than the first predetermined voltage, and determines that the output voltage of the voltage conversion unit is higher than the second predetermined voltage. Since the supply of the output voltage to the printing unit is stopped when the battery voltage has also decreased, the printing operation can be automatically stopped when the battery life reaches the limit, and poor quality printing can be avoided.

The printer according to the present invention further comprises a switch provided between the battery and the voltage converter. When the output voltage of the voltage converter drops below a second predetermined voltage, the switch is opened. Thus, the supply of the voltage of the battery to the voltage conversion unit is stopped, so that it is not necessary to supply an unnecessary voltage to the voltage conversion unit. Therefore, the voltage conversion unit does not perform unnecessary operations, and does not cause malfunction or the like to other parts in the printer.

[Brief description of the drawings]

FIG. 1 is a configuration diagram illustrating a printer having a built-in power supply unit according to the present invention.

FIG. 2 is a configuration diagram illustrating a conventional printer including a power supply unit.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Power supply part 2 Battery 3 DC-DC converter 4 Switching means 5 Printing part 6 First comparison circuit 7 Second comparison circuit 8 First reference voltage source 9 Control circuit 10 Second reference voltage source

 ──────────────────────────────────────────────────続 き Continued on the front page F term (reference) 2C061 AQ04 AQ05 BB08 HV04 HV19 HV23 HV45 HV50 2C062 QB08 QB17 2C066 AA08 BF01 CB01 CB06 CC03 5B021 AA19 BB10 EE01 MM06

Claims (4)

[Claims] A power supply unit; and a printing unit driven by the power supply unit. The power supply unit converts a voltage of the battery and outputs a converted voltage, and outputs the converted voltage to the printing unit. And a voltage conversion unit that supplies the data to the printer, and when the output voltage of the voltage conversion unit falls below a first predetermined voltage, the printing unit performs divided printing. A first comparing unit that compares an output voltage of the voltage conversion unit with the first predetermined voltage; and a control unit that controls the printing unit based on a comparison result of the first comparing unit. 2. The printer according to claim 1, wherein the control unit causes the printing unit to perform the divided printing when the output voltage of the voltage conversion unit falls below the first predetermined voltage. . And comparing the output voltage of the voltage conversion unit with a second predetermined voltage lower than the first predetermined voltage, wherein the output voltage of the voltage conversion unit is higher than the second predetermined voltage. 3. The printer according to claim 1, wherein the supply of the output voltage to the printing unit is stopped when the output voltage also decreases. 4. A switch means is provided between the battery and the voltage converter, and when the output voltage of the voltage converter drops below the second predetermined voltage, the switch means is opened. 4. The supply of the voltage of the battery to the voltage conversion unit is stopped.
The printer described.