KR100644663B1 - Method and apparatus for compensating TRC - Google Patents

Abstract

The present invention relates to an image printing method and apparatus, and more particularly, an elapsed time from an image printing apparatus to an internal temperature of the image printing apparatus or a print command after the image printing apparatus is set to a sleeping mode. The present invention relates to a TRC correction method and apparatus for performing a ton reproduction curve (TRC) correction.

According to an embodiment of the present invention, a method of correcting a ton reproduction curve (TRC) by measuring a toner density of a test patch developed on a photosensitive drum in an image printing apparatus includes measuring an internal temperature of the image printing apparatus (step (a)). Generating a control signal for correcting the TRC when the difference between the measured temperature and the reference temperature is equal to or greater than a first threshold value (step (b)) and measuring the TRC of the test patch according to the control signal And correcting the measured TRC to approach the reference TRC (step (c)).

Description

TRC correction method and apparatus {Method and apparatus for compensating TRC}

1 schematically illustrates a printing unit of an image printing apparatus to which a TRC correction apparatus corresponding to an embodiment of the present invention is applied.

2 shows a functional block diagram of a TRC correction apparatus corresponding to one embodiment of the present invention.

3 illustrates a temperature difference ΔT and an elapsed time Δt for generating a control signal in a controller corresponding to an embodiment of the present invention.

4 shows a flowchart of a TRC correction method corresponding to an embodiment of the present invention.

The present invention relates to an image printing method and apparatus, and more particularly, an elapsed time from an image printing apparatus to an internal temperature of the image printing apparatus or a print command after the image printing apparatus is set to a sleeping mode. The present invention relates to a TRC correction method and apparatus for performing a ton reproduction curve (TRC) correction.

In order to print a predetermined image on a print media, generally, a step of charging a photosensitive roller, exposing the charged photosensitive roller to form an electrostatic latent image in a specific image area, and attaching toner to the electrostatic latent image using a developing unit In the step, the toner developed on the photosensitive roller is transferred to the print media, and the toner is fixed to the print media by heat and pressure.

The concentration of the toner developed on the photosensitive roller is related to the charging potential charged on the photosensitive roller, and the quality of the image to be printed depends on the potential of the photosensitive roller. By keeping the potential of the photosensitive roller within a certain range, the toner density can be kept constant, and thus a high quality image can be printed.

When the image printing apparatus receives a printing command in a sleeping mode, when the switch of the image printing apparatus is turned off, in order to keep the density of the toner constant according to the potential of the photosensitive roller, In the case of replacing the consumables of the image printing apparatus, the toner concentration of the test patch is sensed to measure the TRC of the test patch, and the TRC of the toner is corrected according to the measurement result.

However, it takes 30 seconds to 1 minute to perform the TRC correction. In particular, when performing the TRC correction every time a print command is received in the standby mode, the user has to wait a long waiting time. In addition, when the test patch is used to measure the TRC, there is a disadvantage in that the toner is wasted for purposes other than printing an image.

 An object of the present invention is to provide a TRC correction method for performing TRC correction based on an internal temperature of an image printing apparatus or an elapsed time until the printing command is input after the image printing apparatus is set to a standby mode.

Another object of the present invention is to provide a TRC correction apparatus for performing TRC correction based on an internal temperature of an image printing apparatus or an elapsed time from when the image printing apparatus is set to a standby mode until a print command is input. .

In order to achieve the technical problem, a method of correcting the TRC by measuring a TRC (Tone Reproduction Curve) of a test patch developed on a photosensitive drum in an image printing apparatus includes measuring an internal temperature of the image printing apparatus ((a Step), when the difference between the measured temperature and the reference temperature is greater than or equal to a first threshold value, generating a control signal for correcting the TRC (step (b)), and generating a control signal according to the control signal. Measuring a TRC and correcting the measured TRC to be close to a reference TRC (step (c)).

Preferably, the TRC correction method further comprises the step of measuring the elapsed time until the print command is input after the image printing apparatus is set to a sleeping mode (sleeping mode),

In the step (c), when the difference between the measured temperature and the reference temperature is equal to or greater than the first threshold value or the elapsed time is equal to or greater than the second threshold value, the image printing apparatus based on the measured TRC and reference TRC To correct the TRC.

In order to achieve the above technical problem, an apparatus for correcting the tone reproduction curve (TRC) of a test patch developed on a photosensitive drum in an image printing apparatus includes: a temperature sensor unit measuring an internal temperature of the image printing apparatus; When the difference in the reference temperature is greater than or equal to the first threshold value, the control unit generates a control signal for correcting the TRC and the TRC of the test patch is measured according to the control signal, and the measured TRC is closer to the reference TRC. And a correction unit for correcting.

Preferably, the correction unit is a density sensor unit for emitting a predetermined light to the test patch and receiving reflected light having a different size according to the toner concentration of the test patch, to generate a sensing signal corresponding to the size of the reflected light, the control And a correction unit for correcting the TRC based on the measured TRC and the reference TRC based on the measured TRC and the reference TRC.

Preferably, the TRC correction apparatus further includes a timer for measuring an elapsed time until a print command is input after the image printing apparatus is set to a sleeping mode.

The correction unit generates a control signal for correcting the TRC when the difference between the measured temperature and the reference temperature is equal to or greater than the first threshold value or the elapsed time is equal to or greater than the second threshold value.

Hereinafter, a TRC correction method and apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

1 schematically illustrates a printing unit of an image printing apparatus to which a TRC correction apparatus corresponding to an embodiment of the present invention is applied.

Referring to FIG. 1, a conventional image printing apparatus exposes light of different sizes according to an image to be printed on the charging unit 40 that charges the photosensitive drum 50 and the charged photosensitive drum 50. A laser scan unit 30 for generating an electrostatic latent image, a developing unit 20, 22, 24, 26 for developing toners of cyan, magenta, yellow and black colors in the electrostatic latent image, and the photosensitive drum ( A first transfer roller 60 which forms a nip with the 50 and transfers the toner developed on the photosensitive drum 50, and a second transfer roller which transfers the first transferred toner to the print media 1. 62).

On the other hand, the image printing apparatus to which the TRC correction apparatus according to the present invention is applied is reflected light after irradiating infrared rays to the test patch developed on the photosensitive drum 50 to sense the toner concentration of the test patch developed on the charged photosensitive drum. The density sensor unit 15, the photosensitive drum 50, the developing units 20, 22, 24, and 26, and the first transfer roller (20), which generate an electrical signal proportional to the toner density of each color by measuring the intensity of 60) and a temperature sensor unit 10 for measuring the internal temperature of the image printing apparatus including the light.

2 shows a functional block diagram of a TRC correction apparatus corresponding to one embodiment of the present invention.

Referring to FIG. 2, the TRC correction apparatus according to the present invention includes a temperature sensor unit 210, a timer unit 220, a print mode setting unit 230, a control unit 240, and a correction unit 250. The temperature sensor unit 210 measures the ambient temperature of the photosensitive drum 50, the developing units 20, 22, 24, 26, and the first transfer roller 60 of the image printing apparatus. The timer unit 220 measures an elapsed time until a print command is input after the image printing apparatus is set to the standby mode. The print mode setting unit 230 sets an operation mode of the image printing apparatus based on whether a user command for printing a predetermined image is input. In order to reduce power consumption, the image printing apparatus is set to a sleeping mode when a command for printing an image is not input from the user for a predetermined time of the standby mode setting time. During the standby mode, the temperature of the fixing unit for fixing the toner transferred to the print media is kept below a predetermined temperature to reduce power consumption. The timer unit 220 measures the time after the operation mode of the image printing apparatus is set to the standby mode through the print mode setting unit 230.

The controller 240 calculates a temperature difference ΔT between the internal temperature and the predetermined reference temperature based on the internal temperature of the image printing apparatus measured by the temperature sensor 210. The reference temperature is an internal temperature of the image printing apparatus while the image printing apparatus performs a print job. The reference temperature may be set differently according to the field to which the present invention is applied, which is within the scope of the present invention.

The controller 240 generates a control signal for correcting the TRCs of the cyan, magenta, yellow, and black colors when the temperature difference ΔT is equal to or greater than a predetermined first threshold value. On the other hand, the control unit 240 is based on the elapsed time (Δt) until the print command is input after the image printing apparatus is set to the standby mode, measured by the timer unit 220, cyan, magenta, A control signal is generated to correct the TRCs of yellow and black colors. In other words, the control signal is generated when the elapsed time is equal to or greater than a second predetermined threshold. Preferably, according to the field to which the present invention is applied, the controller 240 may generate a control signal based on any one of a temperature difference ΔT and an elapsed time Δt.

The correction unit 250 includes a density sensor unit 252, a TRC measurement unit 254, and a TRC correction unit 256, and measure the TRC of each color according to the control signal generated by the control unit 240. The TRC is corrected based on the measurement result. The density sensor unit 252 irradiates a predetermined light to the test patch developed on the photosensitive drum 50 and generates a sensing signal corresponding to the magnitude of the reflected light. The size of the reflected light reflects light of a small size when the concentration is high according to the toner concentration of the test patch of each color developed on the photosensitive drum, and reflects light of a high size when the concentration is low. Preferably, the concentration sensor unit 252 may be used a CDT sensor, other types of concentration sensor unit may be used according to the field to which the present invention is applied.

The TRC measuring unit 254 measures the TRC of the test patch of each color based on the toner density of the sensed test patch, and the TRC correcting unit 256 measures the measured TRC based on a predetermined reference TRC. The TRC of each color is corrected so that the TRC of the test patch is close to the reference TRC. The TRC correction unit corrects a potential (charge potential, exposure potential, development potential) on the photosensitive roller required to maintain and control the TRC so that the TRC of each color approaches the reference TRC.

3 illustrates a temperature difference ΔT and an elapsed time Δt for generating a control signal in the controller.

Referring to FIG. 3, the x axis represents a time elapsed since the image printing apparatus is set to the standby mode, and the y axis represents a temperature (° C.). Curve 310 is a reference curve representing the average internal temperature of the image printing device, measured while the image printing device is performing a print job. The curve 320 is a curve representing the internal temperature of the image printing apparatus measured by the temperature sensor unit. The temperature of the reference curve 310 may be set differently according to the field to which the present invention is applied as a temperature determined by an experimental value.

When the elapsed time Δt until the print command is input after the image printing apparatus is set to the standby mode is equal to or greater than a first threshold value TH1, that is, when Δt> TH1, the controller may control the respective colors. Generates a control signal to correct the TRC. In addition, when the difference ΔT between the reference temperature and the measured internal temperature of the image printing apparatus is greater than or equal to a second predetermined threshold value TH2, that is, when ΔT> TH2, the controller may control TRC of each color. Generate a control signal to correct.

4 shows a flowchart of a TRC correction method corresponding to an embodiment of the present invention.

Referring to FIG. 4, a user command for printing a predetermined image from the user is input through the predetermined user interface unit (step 410). According to the user command, it is determined whether the image printing apparatus is set to the ready mode (step 420), and if the image printing apparatus is set to the ready mode, a print job for printing the image is immediately performed. (Step 490).

On the other hand, if the image printing apparatus is not set to the ready mode, it is determined whether the image printing apparatus is set to the standby mode (step 430). If the image printing apparatus is set to the standby mode, the elapsed time DELTA t until the user command is input after the image printing apparatus is set to the standby mode is calculated (step 440). The internal temperature of the image printing apparatus is measured and a temperature difference ΔT between the measured internal temperature and the reference temperature is calculated (step 450).

Based on the calculated elapsed time Δt and the temperature difference ΔT, it is determined whether the elapsed time is equal to or greater than a predetermined first threshold value (step 460), and the temperature difference is a predetermined second threshold value. It is determined whether or not it is abnormal (step 470).

In steps 460 and 470, when the elapsed time is greater than or equal to the second threshold or the temperature difference is greater than or equal to the first threshold, the TRC is measured and corrected (step 480). When the temperature difference is greater than or equal to the first threshold value or the elapsed time is greater than or equal to the second threshold value, a control signal for correcting the TRC is generated, and the toner concentration of the test patch on the photosensitive drum is sensed according to the control signal. Measure the TRC of the test patch. The potentials (charge potentials, exposure potentials, development potentials) on the photosensitive rollers are corrected so that the TRC of each color is close to a predetermined reference TRC. After correcting the TRC, a print job for printing a predetermined image is performed.

According to the field to which the present invention is applied, a control signal for correcting the TRC is generated when either the temperature difference or the elapsed time is equal to or greater than the first threshold value or the second threshold value, respectively.

Meanwhile, the above-described embodiments of the present invention can be written as a program that can be executed in a computer, and can be implemented in a general-purpose digital computer that operates the program using a computer-readable recording medium.

The computer-readable recording medium may be a magnetic storage medium (for example, a ROM, a floppy disk, a hard disk, etc.), an optical reading medium (for example, a CD-ROM, DVD, etc.) and a carrier wave (for example, the Internet). Storage medium).

Although the present invention has been described with reference to the embodiments shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

In the TRC correction method and apparatus according to the present invention, the temperature difference between the internal temperature and the reference temperature of the image printing apparatus exceeds a first threshold or the elapsed time is within a second threshold within a range that does not affect image print quality. Only perform TRC correction if the value is exceeded. Therefore, after the image printing apparatus is set to the standby mode, the waiting time can be reduced when a predetermined print command is input.                     

Further, since the TRC correction is performed only when the temperature difference exceeds the first threshold value or when the elapsed time exceeds the second threshold value, the number of TRC corrections can be optimized to prevent unnecessary toner consumption. have.

Claims (5)

In the method for correcting the TRC by measuring the TRC (Tone Reproduction Curve) of the test patch developed on the photosensitive drum in the image printing apparatus, (a) measuring an internal temperature of the image printing apparatus; (b) generating a control signal for correcting the TRC when a difference between the measured temperature and a predetermined reference temperature is equal to or greater than a first threshold value; And (c) measuring the TRC of the test patch according to the control signal, and correcting the measured TRC to be close to a reference TRC. The method of claim 1, Measuring an elapsed time until a print command is input after the image printing apparatus is set to a sleeping mode; In the step (c), when the difference between the measured temperature and the reference temperature is equal to or greater than the first threshold value or the elapsed time is equal to or greater than the second threshold value, the image printing apparatus based on the measured TRC and reference TRC TRC correction method, characterized in that for correcting the TRC. An apparatus for correcting the tone reproduction curve (TRC) of a test patch developed on a photosensitive drum in an image printing apparatus, A temperature sensor unit measuring an internal temperature of the image printing apparatus; A controller configured to generate a control signal for correcting the TRC when the difference between the measured temperature and the reference temperature is equal to or greater than a first threshold value; And And a correction unit for measuring a TRC of the test patch according to the control signal and correcting the measured TRC to be closer to a reference TRC. The method of claim 3, wherein the correction unit A density sensor unit which emits a predetermined light to the test patch and receives reflected light having a different size according to the toner concentration of the test patch to generate a sensing signal corresponding to the size of the reflected light; A TRC measuring unit measuring a TRC of the test patch from the sensing signal in response to the control signal; And And a correction unit for correcting the TRC based on the measured TRC and the reference TRC. The method of claim 4, wherein And a timer configured to measure an elapsed time until a print command is input after the image printing apparatus is set to a sleeping mode. The correction unit generates a control signal for correcting the TRC when the difference between the measured temperature and the reference temperature is equal to or greater than the first threshold value or the elapsed time is equal to or greater than the second threshold value. Device.

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