KR200394739Y1 - Power supply for thermal printer head - Google Patents

Abstract

The present invention relates to a power supply circuit for a thermal printer that can reduce the power supply capacity of the power supply required for driving the thermal print head, thereby reducing the manufacturing cost of the power supply.

In the present invention, a charging unit 20 having a plurality of capacitors C11 to C14 is provided in a power supply line for a thermal printer head constituting a thermal printer. When the current consumption of the thermal print head is low, the charging unit 20 charges the current supplied to the thermal print head, and when the current consumption of the thermal print head becomes high, discharges the charged current to supply the thermal print head. do.

Therefore, in the present invention, since the power supply device does not have to be employed on the basis of the peak value of the amount of current consumed by the thermal print head, the thermal printer can be configured using a low specification power supply device. That is, the manufacturing cost of a thermal printer can be reduced significantly.

Description

Power supply circuit for thermal print heads

The present invention relates to a power supply circuit for a thermal printer, and in particular, to lower the power supply capacity of the power supply required for driving the thermal print head, thereby reducing the manufacturing cost of the power supply device, and thus the manufacturing cost of the thermal printer. The present invention relates to a power supply circuit for a thermal printer.

In general, an automatic cash machine (ATM) or a kiosk device employs a thermal printer using a thermal print head as a printing device.

1 is a circuit diagram showing a power supply circuit for a thermal print head currently in use.

In FIG. 1, reference numeral V1 denotes a driving power source for the thermal print head output from a power supply device (not shown). The driving power supply V1 from this power supply is supplied to the thermal print head through the MOS transistor T1 for interrupting the driving power supply. In this case, a capacitor C1 for removing ripple is coupled to a power supply line supplied to the thermal print head, and a driving signal for controlling the power supply on / off through a resistor T1 is connected to a gate of the MOS transistor T1. Is approved. In the drawings, reference numeral R2 denotes a resistor for bias.

The power supply circuit is configured to control the MOS transistor T1 on / off through a high level or low level driving signal to interrupt the driving power supply V1 supplied to the thermal print head.

However, the above-described conventional power supply circuit has the following problems.

In general, in the case of the thermal print head, high current is required at the time of printing operation because printing is performed by heating the heating element. Therefore, in the case of a conventional thermal printer, a power supply device capable of supplying a high current of 40 A or more is usually used. However, such a high-end power supply device is a high price of the overall thermal printer is a factor to increase the price.

Accordingly, the present invention was created in view of the above circumstances, and has an object of providing a power supply circuit for a thermal header in which a power supply of a power supply is lowered so that a low specification and low cost power supply can be used. .

The power supply circuit for the thermal header according to the present invention for realizing the above object is a power supply for supplying a drive current required for driving the thermal print head, and for intermittently driving the drive current supplied from the power supply to the thermal print head. And switching means and current charging means coupled to the current supply line from the switching means to the thermal print head to charge and discharge the driving current supplied to the thermal print head.

Hereinafter, with reference to the drawings will be described an embodiment according to the present invention.

First, the basic concept of the present invention will be described.

As described above, in the case of a thermal printer which generally prints using a thermal print head, since a printing is performed by driving a heating element, a high driving current is required when printing. However, according to the experiments by the inventors, it was found that high driving current is not always required when printing using the thermal print head, but only at certain moments of printing.

Fig. 2 is a characteristic graph showing the present inventors measuring the amount of current consumed by the thermal print head while performing printing through the thermal print head. As can be seen from the figure, the current consumption supplied to the thermal print head after printing starts is not always kept constant, but a current of about 4 A flows in the low current section, whereas a high current of 15 A or more in the high current section. Will flow. In particular, the high current consumption section has a very short interval, so it can be seen that a high peak current flows at a constant interval.

On the other hand, in the case of constituting the power supply device, since it is required to supply sufficient amount of current required by each device, the power supply device is inevitably configured based on the above peak current in the conventional device. Therefore, in the related art, since the power supply device is configured based on the amount of current required for a short time, there is an unreasonable point of unnecessarily adopting a high-power supply device.

On the other hand, Figure 3 is a circuit diagram showing a power supply circuit for a thermal print head according to an embodiment of the present invention in consideration of the above circumstances.

In the power supply circuit according to the present embodiment, as in the prior art, the output power supply V1 from the power supply device is coupled to the thermal print head through the MOS transistor T11 for power supply switching. In addition, a driving signal is applied to the gate terminal of the MOS transistor T11 through the pull-up resistor R11, the buffer 10, and the bias resistors R12 and R13.

On the other hand, in this embodiment, the charging section 20 for charging the drive current supplied to the thermal print head is coupled to the current path from the MOS transistor T11 to the thermal print head. In addition, the charging unit 10 includes a plurality of charging capacitors C11 to C14 coupled between the driving current supply line and the ground.

When the amount of current supplied to the thermal print head is small, the charging unit 20 charges the supply current. When the high current consumption is required for the thermal print head, the charging unit 20 supplies the charging current to the thermal print head.

In the above embodiment, when a high current consumption is required for the thermal print head, the current charged in the charging unit 20 is supplied to the thermal print head to satisfy the required current consumption.

FIG. 4 shows the measured amount of current supplied from the power supply device to the thermal print head when the power supply circuit according to the embodiment is applied. When comparing FIG. 4 with FIG. 2, it can be seen that in FIG. 4 according to the present invention, the amount of current supplied from the power supply device to the thermal print head is about 7 A and a uniform current flows as a whole. Therefore, in the above embodiment, since the peak value of the current supplied from the power supply device to the thermal print head is significantly lower than in the related art, it is possible to use a low-power supply device that can satisfy the peak value. In other words, it is possible to adopt a lower cost power supply device than the conventional one.

The embodiment according to the present invention has been described above. However, the above-described embodiment shows one preferred embodiment of the present invention and the present invention can be implemented in various forms. That is, the present invention is not limited to the above-described embodiments and can be carried out in various modifications within the scope not departing from the technical gist of the present invention.

As described above, according to the present invention, the specification of the power supply device for supplying the current consumption to the thermal print head can be greatly reduced, thereby reducing the manufacturing cost of the thermal printer.

1 is a circuit diagram showing a power supply circuit for a conventional thermal print head.

Figure 2 is a characteristic diagram showing the current consumption measured in the thermal print head.

3 is a circuit diagram showing a power supply circuit for a thermal print head according to an embodiment of the present invention.

Figure 4 is a characteristic diagram showing the current measured from the power supply to the thermal print head when applying the power supply circuit according to the present invention.

*** Brief description of the main parts of the drawing ***

10: buffer, 20: charging unit,

T11: MOS transistor, V1: drive power supply.

Claims (1)

A power supply for supplying a driving current required for driving the thermal print head; Switching means for interrupting a driving current supplied from the power supply to the thermal print head; And a current charging means coupled to the current supply line from the switching means to the thermal print head for charging and discharging a driving current supplied to the thermal print head.