KR100420803B1 - Device and method for resetting ink-jet printer - Google Patents

Abstract

PURPOSE: A resetting device of an ink-jet printer and a method thereof are provided to reset the system of the ink-jet printer, and to prevent breakage of the driving unit by outputting the disablement signal in detecting the over current of a driver circuit with an over current detecting circuit. CONSTITUTION: A resetting device of an ink-jet printer is composed of a power reset circuit(220) outputting a reset signal in supplying unstable voltage to the ink-jet printer; a control unit(130) resetting the system by receiving the reset signal from the power reset circuit; and an over current detecting circuit(230) applying the reset signal through the reset signal output line of the power reset circuit to the control unit by detecting over current in a driving unit, and resetting the system. The over current detecting circuit has a reference voltage generating unit generating reference voltage by receiving direct current voltage, and a comparator outputting the reset signal by comparing the reference voltage from the reference voltage generating unit with the voltage from over current of the driving unit.

Description

Reset device and method of inkjet printer

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus and method for resetting an inkjet printer, and more particularly, to reset an inkjet printer in order to prevent the flow of overcurrent when an overcurrent occurs in a head drive, a line feed drive, a motor drive of an inkjet printer, The present invention relates to a reset device and a method for resetting.

In general, an ink jet printer applies heat to ink stored in an ink cartridge to form an ink drop to form an image on a media to perform a printing operation. The printing resolution of font or graphic data of such an inkjet printer is generally about 360 DPI (Dot Per Inch), and color is used by using color ink according to the type of ink cartridge to be installed. You will work on printing.

The conventional inkjet printer will be described in more detail with reference to the accompanying drawings.

1 is a block diagram showing the internal circuit configuration of a conventional inkjet printer. As shown, a personal computer 10 (hereinafter referred to as a PC) for generating print data and the print data generated from the PC 10 are received and controlled according to the print data to form an image on a media. It consists of an inkjet printer 20.

The operation of the inkjet printer according to this configuration will be described below.

The inkjet printer receives the print data generated from the PC 10 via the interface 21. Print data received through the interface 21 is temporarily stored in the RAM 22, and the CPU 23 reads the font stored in the ROM 24 from the print data temporarily stored in the RAM 22. To generate a print control signal according to the print data.

The print control signal generated from the CPU 23 is applied by the motor driver circuit 25. The motor drive circuit 25 receiving the print control signal includes a carrier (not shown) and a medium for mounting an ink cartridge (not shown) and performing a reciprocating motion in the printing mechanism 27 according to the applied print control signal. ) To drive a motor (not shown).

The head drive circuit 26 receives a print control signal output from the CPU 23 at the same time as the head of the printing mechanism 27 is driven. The head drive circuit 26 receiving the print control signal outputs the head control signal in accordance with the applied print control signal.

The head control signal output from the head drive circuit 26 is applied to the ink cartridge. The ink cartridge receiving the head control signal controls the formation of an ink drop according to the applied head control signal to display an image on the media. At this time, the power on / off circuit 28 turns on / off the supply of power to each circuit block.

The motor drive circuit of such a conventional inkjet printer has been used by directly driving a motor, an ink cartridge, or the like of a driving printing mechanism. In this case, if an overcurrent occurs in the motor or the head driver, the motor of the printing mechanism, the ink cartridge, or the like, a circuit component may be damaged, resulting in a problem requiring A / S.

In order to solve this problem, in order to prevent the over-current to increase the manufacturing cost of the ink-jet printer when the circuit is applied to the ink-jet printer using a fuse or a poly switch, which is an overcurrent protection element There is this.

Accordingly, in order to solve the above problems, the present invention senses an overcurrent generated in a drive circuit and resets the system of the inkjet printer by outputting a disable signal to the inkjet printer system according to the detected overcurrent. Resetting) to prevent damage to the drive unit due to overcurrent.

The present invention for achieving this object is a power reset circuit for outputting a reset signal when the voltage supplied into the inkjet printer system becomes unstable, and a reset signal from the power reset circuit. The control unit resets the system by receiving a reset signal applied during application, and detects the overcurrent generated when an overcurrent occurs in the driver, and resets the reset signal of the power reset circuit. And an overcurrent sensing circuit for resetting the system by applying to the control unit using a Reset signal output line.

1 is a block diagram showing the internal circuit configuration of a conventional inkjet printer;

2 is an internal circuit diagram of an inkjet printer to which a reset device according to the present invention is applied;

3 is a flowchart illustrating a reset method of the inkjet printer according to the present invention.

Hereinafter, the present invention will be described with reference to FIGS. 2 and 3.

2 is an internal circuit diagram of an inkjet printer to which a reset device according to the present invention is applied. As shown, a ROM 120 for storing control program and font data, a RAM 110 for temporarily storing data during system operation, and a reset if the voltage supplied into the inkjet printer system becomes unstable. A power reset circuit 220 for outputting a signal) and a control program stored in the RAM 110 to read the print data output from a PC (not shown) to generate a print control signal. A control unit 130 that resets the inkjet printer system by receiving a reset signal applied when a reset signal is applied from the power reset circuit 220, and outputs from the control unit 130; A head drive circuit 150 for controlling the ink cartridge 140 by receiving a print control signal to form an ink drop according to the applied print control signal, and performing printing, and from the controller 130. Carrier (hereinafter, abbreviated as CR) drive circuit 170 for controlling the carrier motor 160 generating the rotational force for mounting the ink cartridge 140 and performing left and right reciprocating motion by receiving an output print control signal. ) And a LF drive for controlling a line feed (hereinafter abbreviated as LF) motor 180 that generates a rotational force for feeding media by receiving a print control signal output from the controller 130. Maintenance drive for controlling the circuit 190 and the maintenance motor 200 to prevent the nozzle (not shown) portion of the ink cartridge 140 is exposed by the control of the control unit 130. Over-current in the circuit 210, the head drive circuit 150, the CR drive circuit 170, the LF drive circuit 190, and the maintenance drive circuit 210, which are drivers; When generated, the generated over-current is sensed and a reset signal is applied to the controller 130 by using the reset signal output line of the power reset circuit 220 to reset the system. It consists of an overcurrent sensing circuit 230.

In such a configuration, the overcurrent sensing circuit 230 may receive a DC voltage (V _CC ) and divide it through a resistor (R1) and a resistor (R2) to generate a reference voltage to generate a reference voltage. The reference voltage generated from the reference voltage generator 231 and outputted from the head drive circuit 150, the CR drive circuit 170, the LF drive circuit 190, and the maintenance drive circuit 210. The comparator 232 is configured to receive and compare a voltage according to the generated overcurrent to output a reset signal.

A method of detecting and resetting an overcurrent using the overcurrent sensing circuit 230 according to the above configuration will be described with reference to the accompanying drawings.

3 is a flowchart illustrating a reset method of an inkjet printer according to the present invention. As shown, a start step (S111) of turning on the inkjet printer to print the print data generated from the PC, and each circuit block of the inkjet printer when the power of the inkjet printer is turned on in the start step (S111). A system driving step (S112) which is turned on and operated, a current amount detecting step (S113) for detecting an amount of current during printing operation by operating an inkjet printer in the driving step (S112) of the system, and the current amount detecting step An overcurrent generation determination step S114 for determining whether an overcurrent has occurred by sensing the amount of current detected in S113 and an overcurrent detection step S115 for detecting the generated overcurrent when overcurrent is generated in the overcurrent generation determination step S114. And outputting a reset signal through the comparator 232 (shown in FIG. 2) when the overcurrent is detected in the overcurrent detecting step S115. A comparator output step S116, a system reset step S117 in which the inkjet printer system executes a reset when a reset signal is output in the comparator output step S116, and the system reset ( Initialization state output step S118 of the control unit which initializes the inkjet printer when the system of the inkjet printer is reset in the reset step S117, and normal operation is performed when no overcurrent occurs in the overcurrent generation determination step S114. A normal operation step (S119) to be executed, and an initialization step output step (S118) of the control unit and the end step (S120) to terminate when the initialization is completed or the print job is completed in the normal operation step (S119). .

Referring to the operation according to the configuration as follows.

In the starting step S111, the power of the inkjet printer for performing the print job is turned on. When the power of the inkjet printer is turned on, the inkjet printer system performs an operation for printing the print data generated in the PC in the system driving step S112.

That is, the controller 130 receiving the print data generated from the PC executes the control program stored in the ROM 110 according to the applied print data and temporarily stores the executed result in the RAM 120. Through this operation, the print data applied to the controller 130 generates a print control signal.

The print control signal generated by the controller 130 is applied to the head drive circuit 150, the CR drive circuit 170, the LF drive circuit 190, and the maintenance drive circuit 210 of the driver. Each drive circuit to which the print control signal has been applied receives the ink cartridge 140, the carrier motor 160, the LF motor 180, and the maintenance motor 200 of the R drive unit according to the applied print control signal. Will be driven.

The ink cartridge 140, the carrier motor 160, the LF motor 180, and the maintenance motor 200 driven by the respective drive circuits of the driving unit may supply media or carriers according to an applied signal. (Not shown) to form an ink drop through the ink cartridge 140 to perform a printing operation, and to prevent the nozzle from contacting air after the ink cartridge 140 ejects ink. The operation is performed.

During the printing operation, the current generated from the head drive circuit 150, the CR drive circuit 170, the LF drive circuit 190, and the maintenance drive circuit 210 of the driving unit in the current amount detecting step S113 is determined. Will be detected. The current flowing from the head drive circuit 150, the CR drive circuit 170, the LF drive circuit 190, and the maintenance drive circuit 210 of the driver unit is induced to the voltage Vs through the resistor R3 to overcurrent. The inverting terminal (−) of the comparator 232 of the sensing circuit 230 is applied.

In addition, the comparator 232 non-inverts the reference voltage Vref in the reference voltage generator 231 which distributes the voltage Vc through the resistor R1 and the resistor R2 to generate the reference voltage Vref. It is applied to the terminal (+). The comparator 232 receiving the voltage Vs through the inverting terminal (−) and the reference voltage Vref through the non-inverting terminal (+) compares the level of the applied voltage.

At this time, the comparator 232 is driven by being supplied with the voltage Vcc induced through the resistor R4, and the voltage Vs applied through the comparator 232 of the overcurrent sensing circuit 230 and the reference. When the levels of the voltages Vref are compared, a low or high level signal is output according to the comparison result.

When the voltage Vs and the reference voltage Vref are compared and output through the comparator 232 as described above, the overcurrent generation determination step S114 determines whether the overcurrent is generated according to the comparison result. If an overcurrent is generated in the overcurrent generation step S114 and the voltage Vs is greater than the reference voltage Vref (Vs> Vref), the overcurrent detection step S115 detects the overcurrent and generates an "Error" signal. It is displayed through the display means (not shown) of a printer.

)으로 로우 레벨(Low) 레벨 신호를 인가하게 된다.In the comparator output step S116 at the same time as the occurrence of the "Error" signal, the comparator 232 outputs a low level signal because the level of the applied voltage Vs and the reference voltage Vref is different. do. When a low level signal is output from the comparator 232 of the overcurrent detecting circuit 230, a reset terminal of the controller 130 (

) Applies a low level signal.

Reset stage ( The controller 130, which receives the low level signal, resets the inkjet printer system through the system reset step S117 to prevent the overcurrent from flowing to the driver. At this time, when the reset of the inkjet printer system is completed, the initialization operation of the inkjet printer is executed through the initialization state output step S118 of the controller. That is, in the initialization operation of the inkjet printer, the controller 130 reinitializes each drive circuit of the driver.

If the overcurrent is not generated in the overcurrent generation determination step S114, that is, when the level of the voltage Vs and the reference voltage Vref applied to the comparator 232 are the same, the comparator 232 generates a high level signal. Will print Therefore, the control unit 130 executes the normal operation through the normal operation step S119, and the inkjet printer executes the normal operation.

When the system is initialized in the initialization state output step (S118) of the control unit, or when the print job is normal operation in the normal operation step (S119) to complete the print job, the termination step (S120) ends the initialization or print job Done.

In this way, by detecting the overcurrent generated in the drive circuit of the inkjet printer, it is possible to prevent the abnormal operation of the drive unit.

As described above, the present invention can stably use an inkjet printer by using an overcurrent detection circuit for resetting the system by detecting an overcurrent generated when an overcurrent occurs in a drive circuit of the inkjet printer. It is effective to reduce manufacturing costs due to the use of expensive parts.

Claims (5)

When the voltage supplied into the inkjet printer system becomes unstable, a power reset circuit outputting a reset signal and a reset signal applied when a reset signal is applied from the power reset circuit. The control unit is configured to reset the system by receiving an overcurrent, and detects the overcurrent generated when an overcurrent occurs in the driver, and resets the reset signal using the reset signal output line of the power reset circuit. A reset device for an inkjet printer, comprising an overcurrent sensing circuit applied to the system to reset the system. The method of claim 1, Applying a voltage according to the overcurrent generated from the over-current detection circuit includes a reference voltage generator receiving applying a direct current voltage (V _CC) for generating a reference voltage unit, and a reference voltage and the drive output is generated from the reference voltage generation unit A reset device of an inkjet printer, characterized by comprising a comparator for receiving and comparing and outputting a reset signal. A system driving step in which each circuit block of the inkjet printer is turned on when the inkjet printer is turned on, and a current amount detecting step of detecting an amount of current during the printing operation by operating the inkjet printer in the driving step of the system; And an overcurrent generation step for determining whether an overcurrent has occurred by sensing the amount of current detected in the current amount detection step, an overcurrent detection step for detecting an overcurrent generated when an overcurrent is generated in the overcurrent generation determination step, and the overcurrent detection The comparator output step outputs a reset signal through the comparator when the overcurrent is detected in the step, and the system of the inkjet printer executes a reset when the reset signal is output in the comparator output step. Reset method of inkjet printer including system reset step method. The method of claim 4, wherein The overcurrent generation determination step is a reset method of the inkjet printer, characterized in that the normal operation step for performing a normal operation is further added if the overcurrent is not generated. The method of claim 4, wherein The system reset step may further include adding an initialization state output step of the controller to initialize the inkjet printer when the system is reset.

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