JP2007313704A - Thermal printer device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To obtain a thermal printer device that is provided with a cooling-fan control means and prevents excessive power consumption while efficiently cooling a thermal head. <P>SOLUTION: The thermal printer device is provided with a fan 4 for cooling the thermal head 1 of a printer device, a first temperature detection means 7 for detecting a temperature of the thermal head 1, a second temperature detection means 9 for detecting an outside temperature of the printer device, and a first control means 10 that adjusts a voltage supplied to the fan so as to control a rotating speed of the fan. The first control means 10 controls the rotating speed of the fan 4 on the basis of the detected temperatures of the first/second temperature detection means 7, 9 so as to perform temperature control of the thermal head. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a thermal printer apparatus that performs printing using a thermal head, and more particularly to a thermal printer apparatus that includes a cooling fan control device that can cool a thermal head efficiently.

  A conventional thermal printer device performs printing by causing a thermal head composed of a plurality of heating elements arranged in the paper width direction to generate heat, melting the ink ribbon ink with this heat, and transferring it to printing paper. . As described above, since the thermal printer apparatus has components that generate high heat, it is generally performed to attach a fan to the opening formed in the apparatus housing and rotate the fan at high speed to forcibly discharge the heat inside the apparatus. It has been broken.

  Conventionally, the rotation speed of the fan is controlled according to the temperature inside the apparatus detected by using a temperature sensor. In this thermal printer apparatus, the operation stability is ensured by the cooling mechanism as described above. On the other hand, the rotation of the fan generates noise and consumes a little electric power.

As a measure for improving such a conventional thermal printer apparatus, the number of rotations of the fan is adjusted by controlling the voltage applied to the fan according to the temperature detection result from the temperature sensor for detecting the temperature of the thermal head. There is something. (For example, see Patent Documents 1 and 2.)
Further, as the above-described thermal printer device for improvement, the outside air temperature sensor that detects the temperature outside the device and the inside air temperature sensor that detects the temperature inside the device adjust the rotational speed of the fan according to the detected temperature. There is something that was made. (For example, see Patent Document 3)

JP-A-6-255141 JP 7-61003 A JP 2004-181783 A

However, in the thermal printer apparatuses disclosed in Patent Documents 1 and 2, since the temperature is detected using a temperature sensor to control the rotational speed of the fan, there is an effect of suppressing noise and power consumption. Since the temperature is not controlled by high and low, efficient cooling cannot be performed.
Further, in the thermal printer apparatus disclosed in Patent Document 3, the cooling efficiency is good because the control is performed in consideration of the high and low temperatures, but there is no risk of condensation in the apparatus because there is no control of the rotation direction of the fan. There was a problem.

  The present invention has been made to solve the above-described problems of the conventional thermal printer apparatus. It is an object of the present invention to obtain a thermal printer apparatus capable of efficiently cooling a thermal head and stably performing a printing operation. Objective.

  A thermal printer apparatus that performs printing using a thermal head according to the present invention includes a fan that cools the thermal head, an air duct provided between the fan and the thermal head, and a temperature of the thermal head. First temperature detection means, second temperature detection means for detecting the temperature outside the printer device, and supply to the fan according to temperatures detected by the first temperature detection means and the second temperature detection means Control means for adjusting the electric power to be controlled and controlling the number of revolutions, and when the temperature detected by the first temperature detection means is higher than the temperature detected by the second temperature detection means Increase the rotation speed of the fan to inhale, and if it is low, decrease the rotation speed of the fan or stop supplying power to prevent the fan from rotating. It is intended.

  In addition, a thermal printer apparatus that performs printing using the thermal head according to the present invention includes a fan that cools the thermal head, an air duct provided between the fan and the thermal head, and a temperature of the thermal head. First temperature detecting means for detecting, second temperature detecting means for detecting the temperature outside the printer apparatus, third temperature detecting means for detecting the temperature inside the printer apparatus, and the first temperature detection And control means for adjusting the power supplied to the fan in accordance with the temperature detected by the second temperature detecting means and the third temperature detecting means, and controlling the rotational speed and direction of rotation of the fan. It is a thing.

  According to the thermal printer device of the present invention, the rotational speed of the fan and the power supplied to the fan are controlled by comparing the temperature of the thermal head with the external temperature, and the air duct is provided between the fan and the thermal head. Since the air flow generated by the fan is efficiently applied to the thermal head, it is possible to suppress power consumption and noise more than necessary and cool the thermal head efficiently.

  In addition, according to the thermal printer apparatus of the present invention, the temperature detecting means for detecting the temperature in the printer apparatus is provided, and the rotation direction of the fan can be switched by the control means. By comparing with the outside air temperature, the rotation direction of the fan is switched, and the thermal head can be cooled more efficiently by applying the cooler air to the thermal head.

  Further, when the outside temperature of the printer device is significantly lower than the inside temperature of the printer device, the rotation direction of the fan is switched so as not to blow the air outside the printer device inside, thereby preventing condensation inside the printer device. it can.

Embodiment 1 FIG.
Hereinafter, a thermal printer apparatus according to Embodiment 1 of the present invention will be described in detail with reference to the drawings.
FIG. 1 shows an example of the configuration of a thermal transfer type printer apparatus according to Embodiment 1 of the present invention.
In FIG. 1, a thermal printer apparatus includes a thermal head 1 composed of a plurality of heating elements arranged in the paper width direction, and an ink ribbon 2 to which a paint melted by the heat of the heating element of the thermal head 1 is applied. An image is printed on the roll-shaped printing paper 3.
A cooling fan 4 is disposed above the thermal head 1. An air duct is provided between the thermal head 1 and the cooling fan 4 so that cooling air can be efficiently applied to the thermal head 1. 5 is disposed. Note that the thermal head 1 can be more effectively cooled by integrally configuring the air duct 5 and the fan 4.

The thermistor 6 that detects the temperature and outputs a temperature signal is attached to the thermal head 1, and the temperature output detected by the thermistor 6 is input to the head temperature detection unit 7 to detect the temperature of the thermal head 1. The thermistor 6 and the head temperature detection unit 7 constitute a first temperature detection means.
Also, a thermistor 8 that detects the temperature outside the thermal transfer type thermal printer device and outputs a temperature signal, and a printer external temperature detection that detects the temperature outside the device (outside temperature) when the temperature output detected by the thermistor 8 is input. The thermistor 8 and the printer external temperature detection unit 9 constitute a second temperature detection means.
Further, the temperature detected by the head temperature detection unit 7 and the temperature detected by the printer external temperature detection unit 9 are compared, and the voltage applied to the fan 4 is controlled according to these temperatures, and the rotation speed of the fan Is provided with a motor drive control unit 10 (hereinafter also referred to as control means).

Next, the operation of the thermal transfer type thermal printer apparatus of the first embodiment configured as described above will be described.
The ink ribbon 2 and the roll-shaped printing paper 3 are sandwiched between the thermal head 1 and a platen roller (not shown), the heating elements of the thermal head 1 are heated corresponding to the image signal, and applied to the ink ribbon 2. The dye is melted to print an image on the photographic paper 3.
At this time, the temperature of the thermal head 1 rises due to heating of the heating element. This temperature is detected by the thermistor 6 attached to the thermal head 1, and the detected temperature signal is input to the head temperature detector 7.

Next, the thermistor 8 disposed outside the thermal transfer thermal printer apparatus detects the temperature outside the apparatus, and the detected temperature signal is input to the printer external temperature detector 9.
Thereafter, the temperature information detected by the head temperature detection unit 7 and the printer external temperature detection unit 9 is input to the motor drive control unit 10, and the motor drive control unit 10 compares the temperatures of both, and the head temperature detection unit 7 Is higher than the temperature at the printer external temperature detector 9, the power supply to the fan 4 is increased based on the control signal output from the motor drive controller 10, and the rotational speed of the fan 4 is increased to Cooling.
At this time, since the air duct 5 is disposed between the thermal head 1 and the cooling fan 4, the air volume generated by the fan 4 can be efficiently applied to the thermal head 1.

  On the contrary, when the temperature at the head temperature detection unit 7 is lower than the temperature at the printer external temperature detection unit 9, the supply voltage to the fan 4 is lowered based on the control signal output from the motor drive control unit 10, and the rotation speed The cooling of the fan 4 is stopped by cooling down or the power supply is stopped.

  As described above, according to the thermal transfer thermal printer apparatus of Embodiment 1 of the present invention, the power supply to the fan is adjusted according to the temperature outside the printer apparatus, the rotational speed of the fan is adjusted, and the air duct As a result, the air volume generated by the fan 4 can be efficiently applied to the thermal head 1, so that power consumption and noise more than necessary can be suppressed, and the thermal head can be efficiently cooled.

Embodiment 2. FIG.
FIG. 2 shows an example of the configuration of a thermal transfer type printer apparatus according to Embodiment 2 of the present invention. In the figure, the same reference numerals as those in FIG. 1 denote the same or corresponding parts.
In FIG. 2, the thermal printer apparatus includes a thermal head 1 composed of a plurality of heating elements arranged in the paper width direction, and an ink ribbon 2 to which a paint melted by the heat of the heating element of the thermal head 1 is applied. An image is printed on the roll-shaped printing paper 3.
A cooling fan 4 is disposed above the thermal head 1. An air duct is provided between the thermal head 1 and the cooling fan 4 so that cooling air can be efficiently applied to the thermal head 1. 5 is disposed. Note that the thermal head 1 can be more effectively cooled by integrally configuring the air duct 5 and the fan 4.

The thermistor 6 that detects the temperature and outputs a temperature signal is attached to the thermal head 1, and the temperature output detected by the thermistor 6 is input to the head temperature detection unit 7 to detect the temperature of the thermal head 1. The thermistor 6 and the head temperature detection unit 7 constitute a first temperature detection means.
Also, a thermistor 8 that detects the temperature outside the thermal transfer type thermal printer device and outputs a temperature signal, and a printer external temperature detection that detects the temperature outside the device (outside temperature) when the temperature output detected by the thermistor 8 is input. The thermistor 8 and the printer external temperature detection unit 9 constitute a second temperature detection means.

Furthermore, a thermistor 11 for detecting the temperature inside the thermal transfer type thermal printer device and outputting a temperature signal, and a printer internal temperature detection unit 12 for detecting the temperature inside the device by receiving the temperature output detected by the thermistor 11 are provided. The thermistor 11 and the printer internal temperature detector 12 constitute third temperature detecting means.
Information on the temperature detected by the head temperature detection unit 7, the temperature detected by the printer external temperature detection unit 9, and the temperature detected by the printer internal temperature detection unit 12 is obtained from the motor drive control unit 13 (hereinafter referred to as control). The motor drive control unit 13 compares these temperatures and controls the voltage applied to the fan 4 in accordance with these temperatures, and determines the rotation speed and rotation direction of the fan 4. It is configured to control.

Next, the operation of the thermal transfer thermal printer apparatus of the second embodiment configured as described above will be described.
The ink ribbon 2 and the roll-shaped printing paper 3 are sandwiched between the thermal head 1 and a platen roller (not shown), the heating elements of the thermal head 1 are heated corresponding to the image signal, and applied to the ink ribbon 2. The dye is melted to print an image on the photographic paper 3.
At this time, the temperature of the thermal head 1 rises due to heating of the heating element. This temperature is detected by the thermistor 6 attached to the thermal head 1, and the detected temperature signal is input to the head temperature detector 7.

Next, the thermistor 8 disposed outside the thermal transfer thermal printer apparatus detects the temperature outside the apparatus, and the detected temperature signal is input to the printer external temperature detector 9.
Further, the thermistor 11 disposed in the thermal transfer type thermal printer apparatus detects the temperature inside the apparatus, and the detected temperature signal is input to the printer internal temperature detection unit 12.
Thereafter, temperature information detected by the head temperature detection unit 7, the printer external temperature detection unit 9, and the printer internal temperature detection unit 12 is input to the motor drive control unit 13, and the motor drive control unit 13 compares these temperatures. When the temperature at the head temperature detection unit 7 is higher than the temperatures of the printer external temperature detection unit 9 and the printer internal temperature detection unit 12, the power to the fan 4 is based on the control signal output from the motor drive control unit 13. The supply is increased and the rotational speed of the fan 4 is increased to cool the thermal head 1.

On the contrary, when the temperature at the head temperature detection unit 7 is lower than the temperatures of the printer external temperature detection unit 9 and the printer internal temperature detection unit 12, to the fan 4 based on the control signal output from the motor drive control unit 13. The supply voltage is reduced and the number of rotations is reduced to cool, or the power supply is stopped and the rotation of the fan 4 is stopped.
Further, in the motor drive control unit 13, when the temperature detected by the printer internal temperature detection unit 12 is lower than the temperature detected by the printer external temperature detection unit 9 and the temperature detected by the head temperature detection unit 7 is high, the fan 4 rotates. Is given a reverse rotation, the thermal head 1 is cooled at the internal temperature, and the heat is exhausted to the outside.
At this time, since the air duct 5 is disposed between the thermal head 1 and the cooling fan 4, the heat of the thermal head 1 can be exhausted efficiently.

    Further, even when the outside air temperature is extremely lower than the temperature inside the printer apparatus and condensation occurs when outside air is sucked into the apparatus, the outside air is not sucked into the printer by reversing the rotation direction of the fan 4. Can prevent condensation.

It is the schematic which shows an example of a structure of the thermal transfer type printer apparatus in Embodiment 1 of this invention. It is the schematic which shows an example of a structure of the thermal transfer type printer apparatus in Embodiment 2 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Thermal head 2 Ink ribbon 3 Printing paper 4 Cooling fan 5 Air duct 6, 8, 11 Thermistor 7 Head temperature detection part 9 Printer external temperature detection part 10, 13 Motor drive control part 12 Printer internal temperature detection part.

Claims (5)

  A thermal printer device that performs printing using a thermal head, wherein a fan that cools the thermal head, an air duct provided between the fan and the thermal head, and a temperature of the thermal head are detected. 1 temperature detection means, second temperature detection means for detecting the temperature outside the printer device, and supply to the fan according to the temperature detected by the first temperature detection means and the second temperature detection means Control means for adjusting electric power and controlling the number of revolutions, and when the temperature detected by the first temperature detection means is higher than the temperature detected by the second temperature detection means, the control means Increase the fan speed to inhale, and if it is low, decrease the fan speed, or stop supplying power and stop the fan from rotating Thermal printing apparatus according to claim.   A thermal printer device that performs printing using a thermal head, wherein a fan that cools the thermal head, an air duct provided between the fan and the thermal head, and a temperature of the thermal head are detected. 1 temperature detection means, second temperature detection means for detecting the temperature outside the printer apparatus, third temperature detection means for detecting the temperature inside the printer apparatus, the first temperature detection means, and the And a second temperature detection means and a control means for adjusting the electric power supplied to the fan in accordance with the temperature detected by the third temperature detection means and controlling the rotation speed and rotation direction of the fan. A thermal printer device.   If the temperature detected by the first temperature detecting means is higher than the temperature detected by the second temperature detecting means and the temperature detected by the third temperature detecting means, the control means may rotate the fan. When the intake air is low, the rotation speed of the fan is decreased, or the supply of power is stopped to prevent the fan from rotating, and the temperature detected by the third temperature detection means is 3. The fan according to claim 2, wherein when the temperature detected by the second temperature detecting unit is lower than the temperature detected by the first temperature detecting unit, the fan is rotated backward to exhaust the air. Thermal printer device.   The control means compares the detection temperature of the second temperature detection means with the detection temperature of the third temperature detection means, and if the outside air temperature sucks the outside air into the device, condensation occurs in the device. 3. The thermal printer apparatus according to claim 2, wherein when the temperature is low, the rotation direction of the fan is reversed so that outside air is not sucked into the printer apparatus.   The thermal printer device according to claim 1, wherein the fan and the air duct are integrally formed.

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