KR0178755B1 - Thermal Sublimation Printer with Speed Control - Google Patents

Abstract

The present invention relates to a thermal sublimation printer having a speed control function for controlling a printing speed in accordance with a transmission speed of printing data transmitted from a computer. The thermal sublimation printer of the present invention reads data from a computer by a line synchronous signal, stores the data in a memory, and generates a clock control signal and a voltage control signal whose period is varied according to the speed of reading data from the computer. And a clock generator for generating a clock proportional to the period of the clock control signal and a line synchronization signal proportional to the period of the clock to the controller, and converts the data read from the memory into a form suitable for printing. A TPH control unit, a power supply unit for controlling the voltage output to the printing unit according to the voltage control signal applied from the system control unit, and a printing unit for printing the printing data applied from the TPH control unit by the voltage output from the power supply unit. Accordingly, the present invention compares the conventional method of reading and printing data for a predetermined period of time by a fixed clock signal, and then receiving one line data by varying the clock according to the speed of receiving data to be printed from a computer, and then the next line data. It has the effect of improving the overall printing speed by removing the blank time until receiving the.

Description

Thermal Sublimation Printer with Speed Control

1 is a block diagram showing a conventional thermal sublimation printer.

2 is a timing diagram showing the operation of the device of FIG.

3 is a block diagram showing a thermal sublimation printer having a speed control function according to a preferred embodiment of the present invention.

4 is a timing diagram showing the operation of the apparatus of FIG.

* Explanation of symbols for main parts of the drawings

31: system control unit 32: TPH control unit

33: memory 34: clock generator

35: power supply unit 36: motor drive unit

37: TPH 38: the operation part

The present invention relates to a thermal sublimation printer, and more particularly, to a thermal sublimation printer having a speed adjusting function to adjust the printing speed in accordance with a transmission speed of printing data transmitted from a computer.

Generally, printers are classified into dotmetric printers, inkjet printers, laser printers, and thermal transfer and sublimation color printers according to printing methods. The thermal transfer type color printer described above prints a dye coated on an ink film, such as a thin vinyl film, by dissolving it with heat generated in a thermal printing head (hereinafter referred to as TPH) and transferring it to a dedicated photo paper. According to the method, it can be divided into heat melting type and heat sublimation type. Recently, the commonly used method is a thermal sublimation printer which can obtain high quality output. This conventional thermal sublimation printer is shown in FIG.

1 is a block diagram showing a conventional thermal sublimation printer. As shown in the drawing, the system control unit 11 receives data to be printed from the computer PC, and the TPH control unit applies the line synchronization signal SYNC _LN and the step synchronization signal SYNC _ST to the system controller 11. (12) is provided. The system controller 11 outputs a plurality of control signals for printing to the TPH controller 12 and stores the printing data in the memory 13. The output terminal of the memory 13 is connected to the input terminal of the TPH controller 12, and the power supply unit 15 and the motor driver 16 receive the voltage control signal CON _HV and the step pulse SP from the system controller 11. Each is licensed. The TPH controller 12 receives the clock signal CLK from the clock generator 14, converts the printing data read from the memory 13 into a signal suitable for generating heat, and outputs the signal to the TPH 17. In addition, the power supply unit 15 varies the voltage HV supplied to the TPH 17 according to the voltage control signal CON _HV applied from the system control unit 11, and the motor driving unit 16 controls the system control unit 11. Is driven to drive the motor of the printing unit 18 in accordance with the step pulse SP applied from.

The operation of the conventional thermal sublimation printer configured as described above will be described with reference to FIG.

2 is a timing diagram showing the operation of the device of FIG.

First, when the clock generator 14 applies the clock signal CLK to the TPH controller 12, the TPH controller 12 transmits the line synchronization signal SYNC _LN as shown in FIG. 2. ) Then, the system controller 11 receives the first line data DT ₁ to be printed from the computer PC in synchronization with the line synchronization signal SYNC _LN and stores it in the memory 13. At this time, the clock signal CLK and the line synchronization signal SYNC _LN are signals having a fixed period, and the memory 13 is a line memory for storing information in line units. When the TPH controller 12 outputs the second line synchronization signal SYNC _LN according to the clock signal CLK, the system controller 11 receives the second line data DT2 according to the clock signal CLK and stores the second line data DT2 in the memory 13. do. At the same time, the TPH controller 12 reads out the first line data DT2 already stored from the memory 13, converts it into a signal suitable for the TPH 17 to generate heat, and transmits it to the TPH 17. The TPH controller 12 outputs the second line synchronizing signal SYNC _LN and simultaneously outputs the step synchronizing signal SYNC _ST to the system controller 11, and the system controller 11 outputs the step synchronizing signal SYNC _ST. ), And outputs the step pulse ST to the motor driving unit 16 in synchronization with. The motor driving unit 16 outputs a signal for driving the motor for operating the drum of the printing unit 18 to the printing unit 18 by the applied step pulse ST. In this case, the step synchronizing signal SYNC _ST is a signal having a fixed period, and FIG. 2 illustrates a case in which the step synchronizing signal SYNC _ST operates in two steps per line. Repeat this process until you have finished printing one page. The power supply unit 15 varies the voltage HV supplied to the TPH 17 according to the voltage control signal CON _HV applied from the system controller 11, which causes the printing concentration to be reduced by the heat storage of the TPH 17. This is to prevent the deterioration of image quality.

However, the data transmission (T _t) time receive a minute Halla from a computer (PC) in the conventional thermal sublimation printer as above is generally the period variably inde whereas line synchronization signal (SYNC _LN) according to the performance of the computer Since T _p is a fixed value, an empty time T _f occurs as shown in FIG. 2. Therefore, there is a problem in that printing speed cannot be improved even when printing using a computer of any kind.

Accordingly, an object of the present invention is to provide a thermal sublimation type printer having a speed adjusting function for controlling a printing speed in response to a data transmission speed of a computer.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a circuit diagram showing a thermal sublimation printer having a speed adjusting function according to the present invention. As shown in the drawing, a system controller 31 which receives data to be printed from a computer PC and a TPH controller which applies the line synchronization signal SYNC _LN and the step synchronization signal SYNC _ST to the system controller 31. (32) is provided. The system controller 31 outputs a plurality of control signals for printing to the TPH controller 32 and stores the printing data in the memory 33. The output terminal of the memory 33 is connected to the input terminal of the TPH controller 32, and the system controller 31 outputs the clock control signal CON _CLK to the variable clock generator 34. The power supply unit 35 and the motor driver 36 receive the voltage control signal CON _HV and the step pulse SP from the system controller 31, respectively. The TPH controller 32 receives the clock signal CLK from the variable clock generator 34, converts the printing data read from the memory 33 into a signal suitable for heat generation, and outputs the signal to the TPH 37. In addition, the power supply unit 35 varies the voltage HV supplied to the TPH 37 according to the voltage control signal CON _HV applied from the system control unit 31, and the motor driving unit 36 controls the system control unit 31. In accordance with the step pulse (SP) applied from the) is configured to drive the motor of the printing unit 38.

The operation of the thermal sublimation type printer having a speed control function according to the present invention configured as described above will be described in more detail with reference to FIG.

4 is a timing diagram showing the operation of the apparatus of FIG.

First, before starting printing, the system controller 31 applies the clock control signal CON _CLK to the variable clock generator 34 at an appropriate period (a time which is set to be larger than the data transfer time of a computer that is normally recognized). . The variable clock generator 34 varies the clock signal CLK according to the clock control signal CON _CLK applied from the system controller 31 and applies the clock signal CLK to the TPH controller 32. The clock signal CLK applied as described above is a basic clock for operating the TPH control unit 32. The output signal generated by the TPH control unit 32 is changed in proportion to the period of the clock signal CLK. do. Accordingly, the TPH controller 32 outputs the line synchronization signal SYNC _LN to the system controller 31 according to the applied clock signal CLK. Then, the system controller 31 receives the first line data DT1 to be printed from the computer PC in synchronization with the line synchronization signal SYNC _LN and stores it in the memory 33. At this time, the memory 33 is a line memory that stores information in line units. When the system controller 31 receives the first line data DT1 to be printed, the system controller 31 calculates a time Tt of receiving one line of data to be printed from the computer PC. When the system control unit 31 applies the clock control signal CON _CLK , which is varied according to the data transfer time Tt, to the variable clock generator 34, the variable clock generator 34 accordingly varies the clock signal ( CLK is generated, and the TPH controller 34 outputs the line synchronization signal SYNC _LN corresponding to the variable clock signal CLK to the system controller 31. The system controller 31 receives the second line data DT2 and stores the second line data DT2 in the memory 33. At the same time, the TPH controller 32 reads out the first line data DT2 already stored from the memory 33, converts it into a signal suitable for the TPH 37 to generate heat, and transmits it to the TPH 37. The TPH controller 32 outputs the second line synchronizing signal SYNC _LN and simultaneously outputs the step synchronizing signal SYNC _ST to the system controller 31. The system controller 31 outputs the step synchronizing signal SYNC _ST. ), And outputs the step pulse ST to the motor drive unit 36 in synchronization with. The motor driving unit 36 outputs a signal for driving the motor for operating the drum of the printing unit 38 to the printing unit 38 by an applied step pulse ST. In this case, the step synchronizing signal SYNC _ST is a signal having a fixed period, and the case of operating in two steps per line in FIG. 4 is illustrated. Repeat this process until you have finished printing one page.

As described above, since the next line sync signal SYNC _LN is shortened according to the time T _t receiving data of one line to be printed from the computer PC, the one-line printing cycle determined by the computer as shown in FIG. (T _P ) is shortened variably like T _PV so that there is no blank time (T _f ) between receiving one line of data and receiving the next line data. Therefore, it has the effect of shortening the overall printing time.

However, as described above, when the printing time is changed, a problem that the printing concentration is changed occurs. In order to solve this problem, the power supply unit 35 according to the voltage control signal (CON _HV ) applied from the system control unit 31 to prevent the image quality deterioration phenomenon in which the printing density is changed by the heat storage of the TPH (37). The voltage HV is variable and output to the TPH 37. The voltage control signal CON _HV is also included in the voltage control signal CON _HV to control the voltage HV. This method is a compensation method using a property that the heat generation amount of TPH is proportional to the magnitude of the voltage (HV).

As described above, the present invention is compared with the conventional method of reading and printing data for a predetermined period of time by a fixed clock signal, after receiving one line data by varying the clock according to the speed of receiving data to be printed from a computer. It has the effect of improving the overall printing speed by eliminating the blank time before receiving the next line data.

Claims (5)

A thermal sublimation printer having a memory and reading data in line units from a computer, wherein the data is read from the computer by a line synchronization signal and stored in the memory, and generates a clock control signal and a voltage control signal. Control unit; A clock generator for generating a clock corresponding to the clock control signal; A TPH controller which applies a line synchronization signal corresponding to the clock to the controller, converts the data read from the memory into a form suitable for printing; A power supply unit controlling a voltage output to the printing unit according to the voltage control signal applied from the control unit; And a printing unit for printing the printing data applied from the TPH control unit by the voltage output from the power supply unit. The thermal sublimation printer of claim 1, wherein the controller generates a clock control signal in proportion to a time for reading one line of data from a computer. The thermal sublimation printer of claim 1, wherein the clock generator generates a clock proportional to a period of the clock control signal. The thermal sublimation printer of claim 1, wherein the TPH controller outputs a line synchronization signal proportional to a clock signal applied from a clock generator. The thermal sublimation printer of claim 1, wherein the controller outputs a voltage control signal that changes in accordance with a cycle of the clock.