JPH0745251B2 - Thermal transfer printer - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a thermal transfer printer that prints on a printing paper sent by a paper feed motor with a thermal head via an ink sheet.

<Prior Art> A thermal transfer printer of this type is conventionally known, for example, as shown in FIG. This thermal transfer printer includes a thermal head 3 having a large number of heating elements arranged in a line (not shown), a motor control circuit 4 for controlling a paper feed motor 5 by receiving a motor control signal Sm from the CPU 1, and this motor control circuit. To the paper feed motor 5 via the motor voltage Vm
Is applied to the thermal head 3, a head voltage higher than this is applied.
A power supply circuit 6 for applying Vh and a system voltage Vs to each part, and a print control signal Sp from the CPU 1, and a print for controlling the energization time of each heating element by a thermal head control signal Sh based on the image signal. It comprises a control circuit 2.

Then, the paper feed motor 5 is stopped and the thermal head 3 is energized to print the first line of the primary color yellow through the ink sheet. Next, the paper feed motor 5 is step-operated to feed the photographic paper by one line in the vertical direction, and then the next one line is printed in the same manner as described above, and this process is repeated to print yellow on the entire surface of the photographic paper. To finish. further,
The thermal head 3 is de-energized, the paper feed motor 5 is continuously operated to feed the printing paper to the first printing position, and the next magenta color is printed in the same manner as described above. Then, the last cyan color is similarly printed, and the color printing is completed.

<Problems to be Solved by the Invention> However, in the above-mentioned conventional thermal transfer printer, the power supply circuit 6 is used.
Since a constant motor voltage Vm is always applied to the paper feed motor 5 from the motor control circuit 4, the rotation speed of the paper feed motor 5 during the continuous operation becomes the same low speed as the step operation during printing. Become. Therefore, it takes a long time to feed the printing paper to the initial position, and there is a drawback that high-speed and efficient color printing cannot be performed.

Therefore, an object of the present invention is to use a high head voltage Vh, which is not effectively used during continuous paper feeding, for driving the paper feeding motor, thereby providing a simple and inexpensive structure during the printing operation of each primary color. It is an object of the present invention to provide a thermal transfer printer capable of realizing high-speed printing by shortening the continuous paper feeding time.

<Means for Solving the Problems> In order to achieve the above object, the thermal transfer printer of the present invention is
At the time of printing, a constant head voltage is applied from the power supply circuit to a number of linear heating elements of the thermal head, and a constant motor voltage lower than the head voltage is applied to the paper feed motor. The printing control circuit controls the energization time based on the image signal to print on the printing paper through the ink sheet. When the printing of the series of image signals is completed and the continuous paper feeding is performed, the printing control circuit is used. It is characterized in that a voltage switching circuit for receiving the continuous paper feed command signal output from the paper feed motor and applying the head voltage to the paper feed motor is provided.

<Operation> At the time of printing, a constant head voltage is applied from the power supply circuit to each heating element of the thermal head, and each energization time is controlled by the printing control circuit based on the image signal, so that each line in the horizontal direction of the paper surface. Printing is done. At this time, a constant motor voltage lower than the above head voltage is applied to the paper feed motor from the power supply circuit, and the paper feed motor conveys the photographic paper in the vertical direction at low speed line by line every time one line printing is completed. To do.

Next, when printing of the first primary color on the entire surface of the printing paper is completed, a continuous paper feed command signal is output from the printing control circuit,
Upon receiving this signal, the voltage switching circuit applies the head voltage, which does not need to be applied to the thermal head during the continuous paper feeding period, to the paper feeding motor. Then, the paper feed motor receives a high head voltage and rotates at high speed to convey the printing paper in the vertical direction to the first printing position at high speed. Then, the next primary color is printed in the same manner as described above, the above continuous paper feeding is performed again, and then the last primary color is printed, and the color printing is completed.

<Examples> Hereinafter, the present invention will be described in detail with reference to illustrated examples.

FIG. 1 is a block diagram showing an embodiment of a thermal transfer printer of the present invention, 1 is a CPU for controlling each block of the thermal transfer printer, 2 is a print control circuit for receiving a print control signal Sp including an image signal from the CPU 1. 3 is a thermal head in which the energizing time of each heating element arranged in a line is controlled by the thermal head control signal Sh from the print control circuit 2. Reference numeral 4 is a stepping motor or the like in response to the motor control signal Sm from the CPU 1. A motor control circuit for controlling the paper feed motor 5 consisting of 6 applies a constant head voltage Vh to each heating element of the thermal head 3, and the head voltage Vh is applied to the paper feed motor 5.
Is a power supply circuit that applies a constant motor voltage Vm lower than the above and applies a system voltage Vs to each block. Each of the above blocks has the same configuration as the conventional example described in FIG. 4, and the same blocks are denoted by the same numbers.

The feature of the present invention is the voltage switching circuit 7. The voltage switching circuit 7 includes a motor voltage Vm, head voltage Vh,
When the system voltage Vs is supplied, the motor voltage Vm is received when the print command signal S ₁ is received from the print control circuit 2, the head voltage Vh is received when the continuous paper feed command signal S ₂ is received, and the standby mode when no command signal is input. The system voltage Vs is applied to the paper feed motor 5, respectively. The continuous paper feed command signal S ₂ is output each time line printing with the primary colors of yellow, magenta, and cyan is completed, and when the paper feed motor 5 conveys the printing paper to the first printing position, or When the photographic paper on which printing has been completed is ejected, the output is stopped.

In the voltage switching circuit 7, as shown in FIG. 2, the emitter E is connected to the head voltage line 11 to which the head voltage Vh is applied, and the collector C is connected to the motor power supply line 12, respectively.
The base B of the first transistor 15 is connected to the collector C of the second transistor 16 whose emitter E is grounded.
It is connected via 21 and is connected to the head voltage line 11 via the resistor 22. On the other hand, the emitter E is connected to the motor voltage line 13 to which the motor voltage Vm is applied, and the first is connected to the motor power supply line 12.
A third transistor 17 is provided by connecting collectors C via diodes 20 respectively, and a base B of the third transistor 17 is connected via a resistor 23 to a collector C of a fourth transistor 18 whose emitter E is grounded. Also, it is connected to the motor voltage line 13 via the resistor 24. Further, the system voltage line 14 to which the system voltage Vs is applied is connected to the motor power supply line 12 via the second diode 19.

First, the operation of the voltage switching circuit 7 having the above configuration will be described.

At the time of printing, the printing command signal S ₁ of "H" is input to the base B of the fourth transistor 18 from the printing control circuit 2 (see FIG. 1). Then, the fourth transistor 18 becomes conductive, the collector C is grounded, and the base B of the third transistor 17 is "L".
Becomes Then, the third transistor 17 becomes conductive,
The motor voltage Vm of the motor power supply line 12 is applied from the motor voltage line 13 via the first diode 20. The second transistor
Since the continuous paper feed command signal S ₂ is not input to the base B of 16, the first transistor 15 is turned on by the conduction of this transistor.
The base B becomes low and the first transistor 15 does not conduct. Therefore, at this time, the high head voltage Vh is not applied to the motor power supply line 12. Also, the system voltage line
Since the system voltage Vs of 14 is smaller than the motor voltage Vm, it will not be added to the motor power supply line 12.

On the other hand, when printing with one primary color is completed, the second transistor
A continuous paper feed command signal S _{2 of} “H” is input to the base B 16 from the print control circuit 2. Then, the second transistor 16 becomes conductive, the collector C is grounded, and the base B of the first transistor 15 becomes "L". Then, the first transistor
When 15 is conducted, the head voltage Vh is applied from the head voltage line 11 to the motor power supply line 12. The fourth transistor 18 is turned off because the print command signal S ₁ is not input to the base B, and therefore the third transistor 17 is also turned off. At this time, the motor voltage Vm is not applied to the motor power supply line 12. Absent.

Further, the second transistor 16 and the fourth transistor 18
In the standby state in which the "H" signal is not input to any of the bases B, neither the first transistor 15 nor the third transistor 17 conducts, so that the system voltage Vs is applied to the motor power supply line 12 via the diode 19.

The operation of the thermal transfer printer of FIG. 1 provided with the voltage switching circuit 7 is as follows.

As shown in FIG. 3, during standby, the voltage V
Is held at the lowest system voltage Vs by the voltage switching circuit 7 as described above. At time t ₀ , when the continuous paper feed command signal S ₂ is output from the printing control circuit 2 for T ₂ hours, the first and second transistors 15 and 16 of the voltage switching circuit 7 are turned on and the motor power feed line is turned on. A high head voltage Vh is applied to the paper feed motor 5 via 12 for T ₂ hours. Then, the paper feed motor 5 rotates at high speed to convey the printing paper in the vertical direction at high speed to the printing start position.

Next, when the print command signal S ₁ is input from the print control circuit 2 for T ₁ time, the printing of the first primary color yellow starts. That is, the third voltage control circuit 7 by the printing command signal S _1,
The 4th transistors 17 and 18 are turned on, and the motor power supply line 1
A low motor voltage Vm is applied to the paper feed motor via 2 for T ₁ hours. Then, the paper feed motor 5 performs a step operation each time one line of yellow is printed, and conveys the photographic paper one line at a time at a low speed in the vertical direction, and after ₁ hour T, prints the yellow on the entire surface of the photographic paper. Is over.

Subsequently, the continuous paper feed signal S ₂ is output from the printing control circuit 2 for T ₂ hours, and the printing paper is conveyed in the vertical direction at a high speed to the first printing position by the same operation as described above, and then T ₁ hours. The next printing of the primary color magenta is performed in the same manner as described above with the printing command signal S ₁ output. When the printing of the last primary color cyan is completed by repeating the above operation, color printing is completed and the continuous paper feed signal S ₂ is output for T ₂ hours.
The printed printing paper is ejected, and the paper feed motor 5 is applied with the system voltage Vs again and enters the standby state.

As described above, in the present invention including the above-described embodiment, the high head voltage Vh that has not been effectively used during continuous paper feeding is applied to the paper feeding motor 5 by the voltage switching circuit 7 so that it is rotated at high speed. because there, a continuous paper feed time is between the initial positioning time and the discharge time of the printing paper and the printing operation of each primary color, conventionally indicated by a two-dot chain line in FIG. 3 example of T ₂ '
After greatly shortened to T _2, it can have an inexpensive and simple configuration unexpected separately requiring a power supply, to achieve high-speed printing.

Needless to say, the present invention is not limited to the illustrated embodiment.

<Effects of the Invention> As is apparent from the above description, the thermal transfer printer of the present invention, when the continuous paper feed is performed after the printing of the series of image signals is completed, the continuous paper feed command signal output from the print control circuit. In response to this, a voltage switching circuit that applies a head voltage higher than the motor voltage from the power supply circuit to the paper feed motor is provided, so a high speed rotation of the paper feed motor can be achieved with an inexpensive and simple configuration that does not require a separate power supply. With, you can greatly reduce the continuous paper feed time and achieve high-speed printing.

[Brief description of drawings]

1 is a block diagram showing an embodiment of the thermal transfer printer of the present invention, FIG. 2 is a detailed view of the voltage switching circuit of FIG. 1, and FIG.
FIG. 4 is a diagram showing a time change of a motor power supply line voltage, and FIG. 4 is a diagram showing a conventional thermal transfer printer. 2 ... printing control circuit, 3 ... thermal head, 5 ... paper feed motor, 6 ... power supply circuit, 7 ... voltage switching circuit, Vh ... head voltage, Vm ... motor voltage, Vs ... system voltage, S ₁ ... printing command signal, S ₂ ... Continuous paper feed command signal.

Claims (1)

[Claims] 1. At the time of printing, a constant head voltage is applied from a power supply circuit to a large number of linear heating elements of a thermal head, and a constant motor voltage lower than the head voltage is applied to a paper feed motor. In a thermal transfer printer that controls the energization time of each heating element based on an image signal by a printing control circuit and prints on printing paper via an ink sheet, continuous printing is performed after printing a series of image signals. At this time, the thermal transfer printer is provided with a voltage switching circuit for receiving the continuous paper feed command signal output from the print control circuit and applying the head voltage to the paper feed motor.