KR940002848B1 - Radiation prediction device and control method - Google Patents

Abstract

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Description

Radiation prediction device and control method

1 is a block diagram showing a general copier.

2 is a block diagram showing a radiation prediction apparatus according to another embodiment of the present invention.

3 is a flowchart illustrating a control method of an apparatus for predicting radiation according to an embodiment of the present invention.

4 is a displayed state diagram of the display device of the radiation prediction apparatus according to the embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

10: number of choices 20: micom

30: drive circuit 31: motor driver

32: motor 40: signal generation circuit

41: image detection unit 42: size detection unit

43: size determination section 50: display circuit

51: display element driver 52: display element

A: Key points for copying B: Paper after the copier is finished

P1 to P3: First to Third Processes S8: Step

The present invention relates to all systems having a function of copying, and more particularly, to a copy prediction method that informs a user of a completed state of copying in advance by displaying a copying completion state before copying, and a control method thereof.

When a general copier has a mode of the selection unit 1 selected by the user as shown in FIG. 1, the selected mode is applied to the microcomputer 2, and in the microcomputer 2 according to the input mode. A control signal for driving the driver 3 and the motor 4 is output, and the copier is driven according to the control signal of the microcomputer 2. At this time, the selected mode of the copier is displayed on the screen by the display driver 5 and the display unit 6, and thus informs the user of the use state of the copier. That is, the existing copier does not know the state after being copied because only the selected state of the copier is displayed, and there is a problem that the loss of paper, time, power, etc. increases when the copied state is not liked by the user.

SUMMARY OF THE INVENTION The present invention has been made to solve such a problem, and an object of the present invention is to display a completed state of a copy before copying is displayed on the screen to predict the copy state in advance, the copy prediction apparatus that can facilitate the function of copying and It is to provide a control method.

A characteristic of this invention for achieving this object is that the microcomputer 2 outputs a control signal for controlling the system according to the mode of the selected selection unit 1, and is driven according to the control signal of the microcomputer 2. In the copier comprising a motor driver (3) and a motor (4), a display driver (5) and a display unit (6) in which the output state of the microcomputer (2) is displayed on the screen, the microcomputer (2) A signal generating means connected to an output side of a signal indicating a state after completion of copying according to the selected mode, and a state after completion of copying according to a signal generated by a signal generating means connected to an output side of the microcomputer 2 The copy prediction device further included in the display prediction unit and the copy prediction device further included, and the copy completion state before the copy is displayed on the screen so that the copy completion state can be known in advance. Value, the second process of controlling a motor to be driven according to the selected mode, and a second process of generating a signal indicating a copy completion state according to the selected mode after performing the first process, and by the second process And a third process of displaying a state of completion of copying by a generated signal on a screen, and a control method of a radiation prediction apparatus.

EMBODIMENT OF THE INVENTION Hereinafter, the radiation prediction apparatus which is one Embodiment of this invention, and its control method are demonstrated in detail based on attached drawing.

FIG. 2 is a block diagram showing a radiation prediction apparatus according to an embodiment of the present invention, in which a function of enlarged or reduced copy is selected.

Here, when the reduction or enlargement mode of the selection unit 1 is selected by the user, the microcomputer 20, which receives a selection signal of the mode and outputs a control signal for controlling the system, is connected to the output side of the selection unit 10. In accordance with the control signal output from the microcomputer 20, the motor driver 31 and the driving circuit 30 for operating the motor 32 is connected to the output side of the microcomputer 20, and at the same time the microcomputer 20 The signal generating circuit 40 is connected to generate a signal indicative of the completion state of the copy by means of an output signal.

Here, the signal generation circuit 40 receives an output signal of the microcomputer 20 and detects an image signal to be copied, and an image signal to receive and outputs the output of the image detector 41. The size detector 42 detects the size of the signal and the size and the size determiner 43 receives the output of the size detector 42 and the column and row signals of the image signal copied by enlargement or reduction are applied to the microcomputer 20. Consists of

In addition, the display circuit 50 which receives the control signal output from the microcomputer 20 and displays the state copied by enlargement or reduction on the screen is connected to another output side of the microcomputer 20. The display circuit 50 includes a display element driver 51 and a display element 52 for outputting a signal displayed on the screen according to a control signal of the microcomputer 20.

3 is a flowchart illustrating a method of controlling a radiation prediction apparatus according to an embodiment of the present invention. The first process P1 is controlled to operate a system by receiving a selection signal of a selected reduced mode, and the first process P1. After the execution of the second video signal to be detected is detected, the magnitude of the detected video signal is detected, the second process (P2) to determine the size of the video signal to be copied by reduction, and after the second process According to the signal output in step 2 (P2), the size of the reduced and copied video signal is controlled in the third process (P3) in order to be displayed on the screen.

In this case, the first process P1 includes a step S1 in which an input reduction mode is sensed, and a step S2 in which a driving circuit is operated after the step S1 is executed. In addition, the second process P2 may include a step S3 of detecting a video signal to be copied, a step S4 of detecting a magnitude of the video signal detected by the step S3, and the step S4. In step S5, the size of the reduced-scaled video signal detected by step S5 is determined.

In addition, the third process P3 may include controlling step S6 such that the magnitude of the video signal determined by step S5 of the second section P2 is displayed, and the screen after execution of the step S6. A judging step (S7) of judging whether or not the magnitude of the video signal displayed on the screen is appropriate; and step S8 of performing reduction and copying if it is determined that the magnitude of the video signal displayed on the screen is appropriate by the judging step (S7). Consists of

4 is a displayed state diagram of the display element of the radiation prediction apparatus according to the embodiment of the present invention. Here, A represents the size of the paper to be copied, and B represents the size of the paper copied by reduction.

In the present invention configured as described above, when the reduced mode is selected through the selector 10 of FIG. 2, the select signal of the reduced mode is applied to the microcomputer 20, and the microcomputer 20 is applied to the selected signal input. Accordingly, a control signal for driving the motor driver 31 and the motor 32 of the driving circuit 30 is output, and a control signal for sensing an image signal to be copied is output.

The control signal for detecting the image signal to be copied is applied to the image detection unit 41 of the signal generation circuit 40 to detect the image signal to be copied.

When an image signal to be copied is detected by the image detector 41, an output signal of the image detector 41 is applied to the magnitude detector 42.

The magnitude detector 42 detects the magnitude of the video signal to be copied, and the signal output by the magnitude detector 42 is applied to the magnitude determiner 43. That is, the size of the video signal reduced and copied from the size of the video signal to be copied is determined by the size determiner 43 of the signal generation circuit 40.

In addition, the magnitude of the image signal reduced and copied by the size determiner 43 of the signal generator 40 is applied to the microcomputer 20, and the signal for controlling the display circuit 50 is controlled by the microcomputer 20. Is output. The signal output from the microcomputer 20 is applied to the display element driver 51 of the display circuit 50 to reduce the size of the reduced-copy image signal output from the size determiner 43 of the signal generator 40. The signal output from the display element driver 51 is applied to the display element 52 so that the magnitude of the image signal reduced and copied as shown in FIG. 4 is displayed.

Referring to FIG. 3, the input of the reduced mode is sensed by the step S1, and the signal sensed by the step S1 is determined by the step S2. The motor 32 of the driving circuit 30 is controlled to be driven.

On the other hand, if the video signal to be copied is detected by the step S3, and the video signal to be copied is detected, the magnitude of the video signal to be copied is detected by the step S4. After the size of the video signal to be copied is detected by the step S4, the size of the video signal reduced and copied by the step S5 is determined. After the execution of the step S5, the step S6 Control to display the size of the video signal to be reduced and copied.

The displayed state of the screen is as shown in FIG. In addition, it is determined by the determination step S7 whether the video signal of the reduced copy displayed on the screen is appropriate in step S6, and the magnitude of the video signal displayed on the screen is appropriate by the determination step S7. If so, the copy mode is executed by step S8. However, if it is determined by the determination step S7 that the magnitude of the video signal displayed on the screen is not appropriate, the step S1 is repeated.

As described above, according to the present invention, a signal capable of displaying the copied state is generated according to the selected mode, and the copied state is previously displayed on the screen according to the generated signal, thereby preventing erroneous copying in advance. Therefore, it is possible to minimize the waste of paper and time due to inappropriate copying.

Claims (4)

The microcomputer 2 outputs a control signal for controlling the system according to the mode of the selected selection unit 1, the motor driving circuit 3 and the motor 4 driven according to the control signal of the microcomputer 2; And a display driving circuit (5) and a display unit (6) in which the output state of the microcomputer (2) is displayed on the screen, and which is connected to the output side of the microcomputer (2), according to the selected mode. Signal generating means for generating a signal indicating a state after completion, display means connected to the output side of the microcomputer 2, and displaying the state after completion of copying according to the signal generated by the signal generating means; Prediction device. According to claim 1, The signal generating means, the image detection unit 41 for detecting the image signal to be received and copied the output signal of the microcomputer 20, and receives the output of the image detection unit 41 and the copy The magnitude detector 42 detects the magnitude of the image signal to be desired, and the column and row signals of the image signal copied by the enlargement or reduction by receiving the output of the magnitude detector 42 are determined, and the magnitude determiner 43 and Radiation prediction device. A radiation prediction apparatus in which a copy completed state is displayed on a screen before copying and thus knows in advance the copy completed state, comprising: a first process of controlling a motor to be driven according to a selected mode, and a signal selected after performing the first process And a second process of generating a signal indicating a copy completion state, a third process of displaying a copy completion state on the screen by the signal generated by the second process, and the like. Way. The method of claim 3, wherein the second process comprises: step S3 of detecting a video signal to be copied; step S4 of detecting a magnitude of the video signal detected by the step S3; And a step (S5) in which the magnitude of the reduced-copy image signal of the video signal sensed by step (S4) is determined, and the order of the radiation prediction apparatus.