KR20050097394A - Method and apparatus for controling voltage output of an image forming apparatus - Google Patents

Abstract

A method and apparatus for controlling voltage output of an image forming apparatus are disclosed. The method comprises the steps of (a) setting voltage output information for voltage output, (b) checking whether a synchronization signal for starting printing of one page occurs within a predetermined time, and (c) according to the set voltage output information. And outputting voltages for printing one page and proceeding to step (b), wherein the print data is printed by the output voltages. Therefore, according to the present invention, it is possible to significantly reduce the control signal lines connected to the voltage output board, thereby saving the material cost of the device configuration, minimizing the generation of noise in accordance with the reduction of the control signal lines vulnerable to noise, the operation speed is The system can be implemented with a low cost processor, and the control stability of the voltage output board can be achieved.

Description

Method and apparatus for controlling voltage output of an image forming apparatus {Method and apparatus for controling voltage output of an image forming apparatus}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a single pass type image forming apparatus, and more particularly, to a voltage of an image forming apparatus capable of outputting a voltage for image formation while significantly reducing a control signal line between a system control board and a voltage output board. An output control method and apparatus.

1 is a functional block diagram for controlling the voltage output of a conventional image forming apparatus.

As shown in FIG. 1, a typical single pass type image forming apparatus includes a system control board for system control, a voltage output board for generating a high voltage, and a voltage signal (N) between the system control board and the voltage output board. It consists of a plurality of control signal lines for transmitting the detection signals (M) for sensing the roll resistance, the transfer roll resistance and the like to set the optimum high pressure level. Meanwhile, power supply lines for powering the voltage output board are also required. The system control board applies a control signal to the voltage output board and outputs voltages, such as charging voltage, developing voltage, transfer voltage, and cleaning voltage, required for the electrophotographic image forming unit (not shown) through the output terminal OUT1. . In an image forming apparatus for forming an image of a color, a control signal for voltage output is required for each color of Yello, Magenta, Cyan, and Black. Thus, to form a color image, four charging voltages applied to the charging roll, four developing voltages applied to the developing roll, four supply voltages for supplying toner to the developing roll, and a first transfer voltage by indirect transfer Control signals for voltage output, such as four, one second transfer voltage and one cleaning voltage for cleaning the developing roll, are required, and a plurality of control signals are provided between the system control board and the voltage output board for transmission of such control signals. Control signal lines should be provided. That is, in the related art, the control signal lines are connected as many as the number of control signals between the system control board and the voltage output board to output the voltage under the control of the CPU of the system control board. In addition, a signal level for detecting resistance values of various rolls is applied to the system control board through a plurality of sensing signal lines to sense the sensing level.

However, the single pass type image forming apparatus has a problem in that many control signal lines or sensing signal lines are required for transmission of control signals or reception of detection signals between the system control board and the voltage output board.

In addition, since many control signal lines or sensing signal lines are provided, there is a problem that the signal lines are vulnerable to noise.

In addition, the control timing of the voltage signal is a very slow operation signal, which is inefficient to process while the central processing unit of the system control board continues to poll. Therefore, when the output of the voltage is controlled in the conventional manner, there is a problem in that the function of the central processing unit is not sufficiently utilized.

SUMMARY OF THE INVENTION The present invention has been made in an effort to provide a voltage output control method of an image forming apparatus capable of greatly reducing control signal lines connected to a voltage output board.

Another object of the present invention is to provide a voltage output control apparatus of an image forming apparatus capable of greatly reducing control signal lines connected to a voltage output board.

In order to achieve the above object, the voltage output control method of the image forming apparatus according to the present invention comprises the steps of (a) setting the voltage output information for the voltage output, (b) a synchronization signal for starting printing of one page is a predetermined time And (c) outputting voltages for printing one page according to the set voltage output information, and proceeding to step (b), wherein the print data is output by the output voltages. It is characterized by being printed.

In order to achieve the above object, the voltage output controller of the image forming apparatus according to the present invention includes a first input / output interface for communicating with a voltage output board, a second input / output interface for communicating with a system control board, and a set voltage output. A voltage output control unit for controlling the output of voltages according to the information, and a control signal line connecting the first input / output interface and the second input / output interface, wherein the first input / output interface is installed on the system control board, and the second input / output interface and the voltage output are provided. The controller is installed on the voltage output board.

Hereinafter, a voltage output control method of an image forming apparatus according to the present invention will be described with reference to the accompanying drawings.

2 is a flowchart of an embodiment for explaining a voltage output control method of an image forming apparatus according to an exemplary embodiment of the present invention, and includes outputting voltages (steps 100 to 106) according to set voltage output information.

First, voltage output information for voltage output is set (step 100). The voltage output information includes the magnitude of the charge voltage to be output for each color of yellow, magenta, cyan, and black, the start time of the charge voltage, the end time of the charge voltage, and the development voltage. Image formation such as magnitude, start time of developing voltage, end time of developing voltage, magnitude of transfer voltage, start time of transfer voltage, end time of transfer voltage, magnitude of cleaning voltage, start time of cleaning voltage and end time of cleaning voltage It has information for the output of the voltage needed for The voltage output information may be set to a numerical value or coded and set by a control command code.

3 is a diagram illustrating an embodiment of a transmission timing diagram of voltage output information and output sensing information for explaining the present invention illustrated in FIG. 2. As shown in Fig. 3, the voltage output information Tx is set after entering the step for image formation after the warming up time of the image forming apparatus has elapsed.

 Meanwhile, the process of sensing the output state of the output voltages and providing the detected result as the output detection information Rx is also a step for image formation after the warming up time of the image forming apparatus has elapsed. It takes place before entering. The output state of the voltages means a voltage substantially output for image formation in the image forming apparatus. By grasping the output state of such a voltage, it is for adjusting the level of an output voltage in order to improve the quality of image formation according to a change of environment.

After step 100, it is checked whether a synchronization signal for starting printing of one page occurs within a predetermined time (step 102). The sync signal includes the start time of the charging voltage, the end time of the charging voltage, the start time of the developing voltage, and the development voltage of each of the colors of Yellow, Magenta, Cyan, and Black. Refers to a signal for synchronizing timing so as to start or end output of voltages necessary for image formation, such as an end time, a start time of a transfer voltage, an end time of a transfer voltage, a start time of a cleaning voltage, and an end time of a cleaning voltage. .

FIG. 4 is a diagram illustrating a voltage output timing diagram in which voltages are output by the voltage output information and the output sensing information shown in FIG. 3. As shown in Fig. 4, the synchronization signal SYNC causes a signal change to occur before image formation of one page for image formation (e.g., printing). The start time of the charging voltage, the end time of the charging voltage, the start time of the developing voltage, the end time of the developing voltage, the start time of the transfer voltage, the end time of the transfer voltage, and the cleaning voltage based on the change of the synchronization signal. Start time, end time of cleaning voltage, and so on.

The synchronizing signal is characterized in that the generation of the synchronizing signal is detected by sensing the leading end of the printing sheet or by detecting any reference point of the photosensitive drum or transfer belt. That is, it is possible to detect that the leading edge of the printing sheet is input and output the detected result as a synchronization signal. In addition, a reference point may be provided at any point of the photosensitive drum, and the reference point may be detected every time the photosensitive drum is rotated, and the detected result may be output as a synchronization signal. In addition, a reference point may be provided at any point of the transfer belt for image formation, and this reference point may be detected every time the transfer belt rotates, and the detected result may be output as a synchronization signal.

If the synchronization signal does not occur within a predetermined time, it is determined that the time for image formation has elapsed and the above-described process is terminated.

However, if the synchronization signal occurs within a predetermined time, according to the set voltage output information, voltages for printing one page are output (step 104).

As an example, Table 1 below is the above-described set voltage output information.

TABLE 1

Charging voltage Developing voltage First transfer voltage Second transfer voltage Voltage size A B C D Start time 100 [ms] 200 [ms] 300 [ms] 600 [ms] End time 1100 [ms] 1200 [ms] 1400 [ms]

The voltage output information in Table 1 shows the charge voltage, developing voltage, and first transfer voltage having the same voltage magnitude, start time, and end time in Yellow, Magenta, Cyan, and Black. Although the second transfer voltage is expressed as an example, it is also possible to set voltage output information of a charging voltage, a developing voltage, a first transfer voltage, and a second transfer voltage having a different voltage magnitude, start time, and end time for each color. . In addition, although Table 1 does not indicate the cleaning voltage, the cleaning voltage may be set as necessary. Table 1 shows an example in which the toner is indirectly transferred to the transfer belt by the first transfer voltage, and the toner transferred to the transfer belt by the second transfer voltage is transferred onto the printing sheet.

It demonstrates with reference to Table 1 and FIG. When the synchronization signal SYNC is generated as shown in Fig. 4, the charging voltage shown in Table 1 is output as the voltage magnitude of " A " after 100 [ms] elapses after the synchronization signal is generated. 4 shows that the charging voltage is output as a negative voltage. On the other hand, since the charging low pressure is output until the image formation is completed, it can be confirmed that the voltage output is finished after the third page is printed as shown in FIG.

When the synchronization signal SYNC is generated as shown in Fig. 4, the developing voltage shown in Table 1 is output as the voltage magnitude of " B " after 200 [ms] has elapsed after the synchronization signal has been generated. In FIG. 4, the developing voltage is output as a negative voltage. The developing voltage continues to be output and output ends after 1100 [ms] has elapsed after the synchronizing signal occurred.

When the synchronization signal SYNC is generated as shown in Fig. 4, the first transfer voltage shown in Table 1 is output as the voltage magnitude of " C " after 300 [ms] elapses after the synchronization signal is generated. 4 shows that the first transfer voltage is output as a negative voltage. The first transfer voltage is continuously output, and then output ends after 1200 [ms] elapses after the synchronization signal is generated.

When the synchronization signal SYNC is generated as shown in Fig. 4, the second transfer voltage shown in Table 1 is output as the voltage magnitude of " D " after 600 [ms] elapses after the synchronization signal is generated. 4 shows that the second transfer voltage is output as a negative voltage. The second transfer voltage continues to be output, and after 1400 [ms] elapses after the synchronization signal is generated, the output is terminated.

After step 104, the voltage output information is reset and the process proceeds to step 102 described above (step 106). The previously set voltage output information may be used without change until the image forming job is finished, but when a large amount of image forming job is performed, it may be inappropriate to use the previously set voltage output information as it is. Therefore, it is necessary to update the voltage output information in the middle of performing an operation for forming an image. This updating operation may be performed each time image formation of one page is performed, or may be updated each time image formation of several tens to hundreds of pages is performed. The timing diagram shown in FIG. 4 shows that the voltage output information is newly reset every time the synchronization signal SYNC occurs. That is, when the synchronizing signal SYNC occurs between the first page and the second page, the voltage output information is also synchronized and reset, and when the synchronizing signal SYNC occurs between the second page and the third page, the voltage output information. Is also synchronized and reset. The reset voltage output information is used as information for voltage output necessary for image formation of the second page and the third page, respectively.

The voltage output information is reset and the process proceeds to step 102, where it is again detected whether a synchronization signal has occurred within a predetermined time.

As shown in FIG. 4, the voltage output information is set at the same time as the synchronization signal, and the output detection information is generated after the synchronization signal is generated and transmitted to the system control board. As such, the voltage output information and the output sensing information are repeatedly set or transmitted after the synchronization signal is generated.

Hereinafter, a voltage output control apparatus of an image forming apparatus according to the present invention will be described with reference to the accompanying drawings.

FIG. 5 is a block diagram of an embodiment for describing a voltage output control apparatus of an image forming apparatus according to the present invention, and includes a first input / output interface 210 and a main controller 220 in a system control board 200. The second input / output interface 310, the voltage output controller 320, and the voltage output unit 330 are provided in the voltage output board 300. In addition, a control signal line 400 is provided to connect the system control board 200 and the voltage output board 300.

The first input / output interface 210 is a communication interface for communicating with the voltage output board 300. The first input / output interface 210 receives the voltage output information generated by the control of the main controller 220 and transmits the input voltage output information to the second input / output interface 310 in the voltage output board 300. In addition, the first input / output interface 210 receives output sensing information from the second input / output interface 310 in the voltage output board 300, and outputs the received output sensing information to the main controller 220. The first input / output interface 210 may transmit the transmission of the voltage output information through a serial communication method and receive the output sensing information through a serial communication method.

The main controller 220 is responsible for the overall control of the system control board 200, and is particularly involved in generating voltage output information to be transmitted to the voltage output board 300.

The second input / output interface 310 is a communication interface for communicating with the system control board 200. The second input / output interface 310 receives voltage output information from the first input / output interface 210 in the system control board 200, and outputs the received voltage output information to the voltage output controller 320. In addition, the second input / output interface 310 receives output sensing information generated by the control of the voltage output controller 320 and transfers the input output sensing information to the first input / output interface 210 in the system control board 200. send. The second input / output interface 310 may receive the voltage output information in a serial communication method and transmit the output sensing information in a serial communication method.

The voltage output controller 320 controls the output of the voltages according to the set voltage output information. The voltage output controller 320 receives the voltage output information from the system control board 200 as the second input / output interface 310 and sets the input voltage output information as information for voltage output. The set voltage output information is used for controlling the magnitude or output time of the voltage output for image formation. The voltage output controller 320 outputs a control signal for controlling the output of the voltages to the voltage output unit 330 according to the set voltage output information. In addition, the voltage output controller 320 detects an output state of the output voltage, generates a detected result as an output detection signal, and outputs the result to the second input / output interface 310.

The voltage output controller 320 may be implemented by a one chip micom, or a specific purpose-oriented integrated circuit (ASIC) in which the second input / output interface 310 and the voltage output controller 320 are integrated. Specific Integrated Circuit) may be implemented.

The voltage output unit 330 receives the control signal of the voltage output control unit 320 and outputs voltages for image formation through the output terminal OUT2. The output voltages may be, for example, charging voltage, developing voltage, transfer voltage, cleaning voltage, and the like. In addition, the voltage output unit 330 outputs the output state of the output voltages to the voltage output control unit 320.

The control signal line 400 is a signal line connecting the first input / output interface 210 and the second input / output interface 310. The control signal line 400 includes a synchronization signal line, a voltage output information signal line, an output sensing information signal line, and a reset signal line. Characterized in that.

The synchronization signal line is a communication line for transmitting the synchronization signal SYNC for starting printing. The synchronization signal SYNC is a start time of a charge voltage to be output for each color of Yello, Magenta, Cyan and Black, an end time of the charge voltage, a start time of the developing voltage, Signal synchronizing timing to start or end the output of voltages necessary for image formation, such as the end time of the developing voltage, the start time of the transfer voltage, the end time of the transfer voltage, the start time of the cleaning voltage, and the end time of the cleaning voltage. Means.

The voltage output information signal line is a communication line for transmitting voltage output information Tx. The voltage output information Tx is the magnitude of the charge voltage to be output for each color of Yello, Magenta, Cyan and Black, the start time of the charge voltage, the end time of the charge voltage, Magnitude of developing voltage, start time of developing voltage, end time of developing voltage, magnitude of transfer voltage, start time of transfer voltage, end time of transfer voltage, magnitude of cleaning voltage, start time of cleaning voltage and end time of cleaning voltage Etc. has information for outputting a voltage necessary for image formation. The voltage output information may be set to a numerical value or coded and set by a control command code.

The output sensing information signal line is a communication line for transmitting the output sensing information Rx indicating the output state of the voltages output by the control of the voltage output control unit 320 to the system control board. The output detection information Rx is information for detecting an output state of voltages and means a voltage that is substantially output for image formation in an image forming apparatus. By grasping the output state of such a voltage, it is possible to adjust the level of the output voltage in order to improve the quality of image formation according to the change of environment.

The reset signal line is a communication line for transmitting a reset signal RESET for initiating a control operation of the voltage output controller 320. The reset signal RESET is a signal for initializing the control operation of the voltage output controller 320 when the output voltages are abnormal due to a control error of the voltage output controller 320.

As described above, even if the control signal line 400 is configured with four or fewer lines, the system control board 200 can easily control the voltage output of the voltage output board 300. Therefore, a large number of control signal lines as in the prior art are not necessary in the present invention.

The voltage output control method and apparatus of the image forming apparatus of the present invention have been described with reference to the embodiment shown in the drawings for clarity, but this is merely illustrative, and those skilled in the art can various modifications therefrom. And other equivalent embodiments are possible. Therefore, the true technical protection scope of the present invention should be defined only in the appended claims.

As described above, the voltage output control method and apparatus of the image forming apparatus according to the present invention can greatly reduce the control signal lines connected to the voltage output board, thereby saving the material cost of the device configuration, vulnerable to noise control The reduction of the signal line has the effect of minimizing the generation of noise.

In addition, according to the present invention, since the voltage output board operates independently of the system control board, the system can be implemented by a low-cost processor having a low operation speed, and the control stability of the voltage output board can be achieved.

1 is a functional block diagram for controlling the voltage output of a conventional image forming apparatus.

2 is a flowchart of an embodiment for explaining a voltage output control method of an image forming apparatus according to the present invention.

3 is a diagram illustrating an embodiment of a transmission timing diagram of voltage output information and output sensing information for explaining the present invention illustrated in FIG. 2.

FIG. 4 is a diagram illustrating a voltage output timing diagram in which voltages are output by the voltage output information and the output sensing information shown in FIG. 3.

5 is a block diagram of an embodiment for explaining the voltage output control apparatus of the image forming apparatus according to the present invention.

<Brief description of the major symbols in the drawings>

10, 200: system control board 20, 300: voltage output board

210: first input / output interface 220: main controller

310: second input / output interface 320: voltage output control unit

330: voltage output unit

Claims (5)

(a) setting voltage output information for voltage output; (b) checking whether a synchronization signal for starting printing of one page occurs within a predetermined time; And (c) outputting voltages for printing one page according to the set voltage output information, and proceeding to step (b), And the print data is printed by the output voltages. The method of claim 1, wherein the voltage output control method of the image forming apparatus is And after step (c), resetting the voltage output information and proceeding to step (b). The method of claim 1, wherein the voltage output control method of the image forming apparatus is A method of controlling the voltage output of an image forming apparatus, characterized in that it detects the leading edge of printing paper or detects any reference point of the photosensitive drum or transfer belt to check the generation of the synchronization signal. In the voltage output control apparatus of the image forming apparatus including a system control board and a voltage output board, A first input / output interface for communicating with the voltage output board; A second input / output interface for communicating with the system control board; A voltage output control unit controlling an output of voltages according to the set voltage output information; And And a control signal line connecting the first input / output interface and the second input / output interface, And the first input / output interface is provided on the system control board, and the second input / output interface and the voltage output controller are provided on the voltage output board. The method of claim 4, wherein the control signal line is A synchronization signal line corresponding to a communication line for transmitting a synchronization signal for starting printing; A voltage output information signal line corresponding to a communication line for transmitting the voltage output information; An output sensing information signal line corresponding to a communication line for transmitting the output state of the voltages output by the control of the voltage output controller to the system control board; And And a reset signal line corresponding to a communication line for transmitting a reset signal for initiating the control operation of the voltage output control unit.