KR100463327B1 - Aperture Control Device and Method of SLR Camera - Google Patents

Abstract

The present invention provides deviation storage means for storing the drive deviation of the aperture caused by the mechanical operating state, photometric means for detecting the brightness of the camera surroundings and outputting a signal corresponding to the detected brightness, and a signal of the photometric means. After setting the appropriate aperture value by using, the aperture driving deviation of the deviation storage means corresponding to the set aperture value is read, and the difference between the set aperture value and the aperture driving deviation is calculated, and the aperture corresponding to the value obtained by the calculation. A control means for outputting a drive signal to control the state of the aperture; an aperture driving means for driving the aperture according to the drive signal output from the control means; and an operation state of the aperture in conjunction with driving of the aperture driving means; And aperture size detection means for outputting a signal corresponding to an operation state of the aperture Made, including, there is an effect that By using the luminance variation for each step measured in respect iris camera production process as a correction value of the actual diaphragm drive, to control the accurate aperture diameter.

Description

Aperture Control Device and Method of SLR Camera

The present invention relates to an aperture control device and a method of a single lens reflex camera, and more specifically, to a practical aperture driving operation using the aperture size control deviation obtained in the aperture diameter adjustment process during the camera production process. It relates to an aperture control device and a method of a single-lens reflex camera to correct.

In a single-lens reflex camera, it is the size of the aperture of the lens and the exposure time, i.e. the shutter speed, that determine the required exposure level for photographing the subject.

Therefore, among the conventional single-lens reflex cameras, the automatic camera automatically controls the size and exposure time of the aperture mirror according to the brightness of the subject according to the preset control data. Exposure time was controlled manually.

In the above, the single-lens reflex automatic camera controls the exposure level by a microcomputer built in the camera.

That is, the aperture control of the microcomputer calculates an appropriate aperture value from an optical signal of an input object, and gradually decreases the size of the aperture diameter to the corresponding state in the initial state in which the aperture diameter is completely opened so that the aperture diameter is a suitable size for the calculated aperture value. Goes.

In the above, the position detection for the aperture diameter of the corresponding size uses an electrical method using a photo interrupt.

This is to attach an encoder using the photo interrupter to the aperture transmitter for transmitting the movement of the aperture driving device to the aperture to drive the aperture to block or pass the light passing through the aperture to output a pulse corresponding to the aperture position. That's how.

Then, the microcomputer measures the pulse signal output from the encoder, and when a pulse corresponding to the calculated aperture value is output, the microcomputer stops driving of the aperture to have the aperture diameter of the corresponding size.

In order to stop the control signal of the microcomputer from stopping the operation of the diaphragm transmitter, the diaphragm transmitter corresponding to the mechanism part is generally stopped by using a magnet.

Therefore, when the pulse state output from the encoder is a signal corresponding to the aperture diameter of the corresponding size, the microcomputer outputs a control signal to the aperture driving device to stop driving of the aperture transmitter made of a magnet. Therefore, it is possible to maintain the aperture diameter of the set size.

However, the conventional aperture control stops the movement of the diaphragm transferr, which is a mechanism device as described above, and therefore, a drive delay occurs due to the deviation of the operation of the mechanism device, thereby preventing accurate aperture control.

The deviation of the driving delay in question is different for each camera.

Accordingly, the present invention is to solve the conventional problems, to provide an apparatus and method for controlling the aperture of a single-lens reflex camera to correct the operation of the aperture by correcting the deviation of the operation occurs when controlling the state of the aperture. .

The present invention as a means for solving the above technical problem

Deviation storage means for storing a drive deviation of an aperture generated by a mechanical operating state;

Photometric means for sensing a luminance around the camera and outputting a signal corresponding to the sensed luminance;

After setting an appropriate aperture value using the signal of the photometric means, the aperture driving deviation of the deviation storage means corresponding to the set aperture value is read, and the difference between the set aperture value and the aperture driving deviation is calculated, and the calculation is performed. Control means for controlling the state of the aperture by outputting an aperture driving signal corresponding to the obtained value;

Aperture driving means for driving the aperture in accordance with the drive signal output from the control means;

And an aperture size detecting means for controlling the operation state of the aperture in conjunction with driving of the aperture driving means and outputting a signal corresponding to the operation state of the aperture.

The present invention as another means for solving the above technical problem is

Setting an aperture value according to luminance around the subject;

Reading the aperture drive deviation;

Resetting the aperture value by calculating a set aperture value and a read-out aperture drive deviation;

And outputting a control signal to perform aperture driving corresponding to the reset aperture value.

The above-described configuration will be described in detail with reference to the accompanying drawings the most preferred embodiment which can be easily carried out by those skilled in the art of the present invention.

1 is a block diagram of an aperture control device of a single-lens reflex camera according to an embodiment of the present invention.

As shown in FIG. 1, an aperture control apparatus for a single-lens reflex camera according to an embodiment of the present invention

A release switch S1;

A light metering unit 1 which detects light around a subject and outputs an electrical signal corresponding to the detected light;

A deviation storage unit 2 for storing aperture driving deviations, i.e., converted values of luminance deviations, measured at each aperture stage measured during product inspection of the production process;

The luminance is calculated using the signal input from the photometric unit 1 according to the operation signal of the release switch S1, and the aperture value is set according to the calculated luminance, and the aperture set from the deviation storage unit 2. Reads the aperture driving deviation corresponding to the value, performs a subtraction operation with the aperture value set above, resets the value corresponding to the operation result to the actual aperture value, and performs the aperture driving corresponding to the reset aperture value. A control unit 3 for outputting a;

An aperture driver 4 driven according to a drive signal output from the controller 3;

In addition to the operation of the aperture driving unit 4, and comprises an aperture size detector (5) for outputting a signal corresponding to the operating state.

In addition, the diaphragm 6 of the interchangeable lens may be mounted which is built in the interchangeable lens and whose size is adjusted by the driving of the aperture size detector 5.

The aperture size detector 5 is mounted to the aperture transmitter 51 driving the aperture 6 to drive the aperture 6 and the aperture transmitter 51, and the aperture transmitter 51 is driven. As a result of the rotational movement, the aperture encoder 52 is configured to output a pulse signal corresponding to the size of the aperture diameter to the controller 3 by blocking or passing light passing through the aperture 6.

2 is an operation flowchart of the aperture control apparatus of the single-lens reflex camera according to the embodiment of the present invention.

As shown in the accompanying FIG. 2, the aperture control apparatus of the single-lens reflex camera according to the embodiment of the present invention,

Determining an on operation signal of the release switch S1 (S100);

Setting an aperture value according to luminance around the subject (S200);

Reading an aperture driving deviation corresponding to a set aperture value (S300);

Resetting the actual aperture value by subtracting the set aperture value and the read-out aperture driving deviation (S400);

Outputting a driving signal to perform an aperture driving corresponding to the reset aperture value (S500);

And determining whether or not driving corresponding to the reset aperture value is performed (S600).

An apparatus for controlling an aperture of a single-lens reflex camera according to an embodiment of the present invention will be described with reference to FIGS. 1 and 2.

The producer checks whether the aperture of the iris is operating normally in the camera production process.

The above-described inspection is intended to measure the mechanical errors as described above because mechanical errors are generated by the process of manufacturing and assembling each part, even if there is no problem in design.

In the inspection, the producer measures the step error of each obtained aperture control value, that is, the luminance deviation, and stores the correction deviation in which the measured luminance deviation is converted into the deviation storage unit 2.

In other words, the correction deviation is the number of correction control pulses for each of the aperture control values for driving the aperture driver 4 in the corresponding direction.

When the photographer having the camera stored the correction deviation presses the release switch S1 to photograph the subject, the release switch S1 outputs a signal corresponding to the operation state to the controller 3.

When a photographing operation is performed according to an operation signal of the release switch S1, the controller 3 determines a signal output from the photometric unit 1 (S100).

The light metering unit 1 detects the luminance around the subject and converts the luminance into an electrical signal corresponding to the detected luminance state and outputs the electrical signal to the controller 3.

The controller 3 determines the luminance state around the camera by determining the signal output from the photometric unit 1 and sets an aperture value according to the calculated luminance state.

Then, the controller 3 reads the aperture driving deviation corresponding to the aperture value set above from the deviation storage unit 2 (S300).

In the above, the control part 3 sets the number of correction pulses of the control signal corresponding to each step of aperture control.

Therefore, the controller 3 subtracts the number of control deviation pulses read from the deviation storage unit 2 from the number of control pulses set so that the correct aperture driving is performed, and then sets the result value as a new aperture value.

More specifically, in a general camera, the number of control pulses corresponding to the aperture value of each stage is set. Among them, when the aperture value is F2, the number of control pulses is eight.

And it is assumed that the initially set aperture value measured according to the embodiment of the present invention is F2.

However, if the iris driving corresponding to F2 measured in the camera production process stops when the control pulse number reaches 10, the iris driving deviation, that is, the control pulse number becomes 2, and the value of 2 is the deviation storage unit. Stored in (2).

On the other hand, if the number of control pulses for driving the aperture corresponding to F2 measured in the camera production process is 6, the deviation of the control pulse number at this time will be -2 will be stored in the deviation storage unit (2).

Therefore, the control unit 3 subtracts the aperture driving deviation read from the deviation storage unit 2 from the number of pulses of the control pulse signal corresponding to the set aperture value, and resets the result to the new aperture value. S400)

Then, the controller 3 outputs a control pulse signal having a pulse number corresponding to the reset aperture value to drive the aperture to the aperture driver 4 (S500).

The aperture driver 4 is driven according to the control pulse signal output from the controller 3 to move the aperture transmitter 51 of the aperture size detector 5.

The aperture transmitter 51 adjusts the operating state of the aperture 6 in conjunction with the driving of the aperture driver 4.

When the aperture transmitter 51 moves, the aperture encoder 52 of the aperture transmitter 5 attached to the aperture transmitter 51 is incident on the aperture 6 according to a pattern formed by performing a rotational movement. By blocking or passing the light, a pulse of a corresponding state is generated, and the generated pulse signal is output to the controller 3.

The operation of generating the pulse signal by the rotational motion of the aperture encoder 52 as described above is continued until the aperture adjustment by the movement of the aperture transmitter 51 is finished.

The controller 3 receives a signal output from the aperture encoder 52 and calculates a luminance value, and compares whether the calculated value matches the luminance value determined by the signal output from the light metering unit 1, To judge.

In the comparison, if the luminance value obtained from the signal of the aperture encoder 52 is different from the luminance value determined by the signal of the light metering portion 1, the controller 3 continues to vary the size of the aperture so that the encoder The aperture driver 4 is driven so that the luminance value obtained from 52 is equal to the luminance value determined by the photometric unit 1.

However, if the luminance value obtained from the signal of the aperture encoder 52 actually driven in the comparison is the luminance value corresponding to the set aperture value, the aperture diameter control is terminated (S600).

This invention has the effect of controlling the correct aperture diameter by using the luminance deviation of each stage of the aperture diameter measured in the camera production process as a correction value of the actual aperture drive.

1 is a block diagram of an aperture control device of a single-lens reflex camera according to an embodiment of the present invention,

2 is an operation flowchart of the aperture control apparatus of the single-lens reflex camera according to the embodiment of the present invention.

Claims (6)

Deviation storage means for storing a drive deviation of an aperture generated by a mechanical operating state; Photometric means for sensing a luminance around the camera and outputting a signal corresponding to the sensed luminance; After setting an appropriate aperture value using the signal of the photometric means, the aperture driving deviation of the deviation storage means corresponding to the set aperture value is read, and the difference between the set aperture value and the aperture driving deviation is calculated, and the calculation is performed. Control means for controlling the state of the aperture by outputting an aperture driving signal corresponding to the obtained value; Aperture driving means for driving the aperture in accordance with the drive signal output from the control means; And an aperture size detecting means for controlling an operation state of the aperture in conjunction with driving of the aperture driving means, and outputting a signal corresponding to the operation state of the aperture. The method of claim 1, wherein the deviation storage means The iris control apparatus of the single-lens reflex camera, characterized in that for storing the pulse number of the control signal corresponding to the luminance deviation of each step driven by the iris. The method of claim 1, wherein the aperture size detecting means It is composed of an aperture transmitter for driving the aperture in conjunction with the drive by the aperture driving means, and an aperture encoder mounted on the aperture transmitter and outputting a pulse signal of a state according to the aperture driving by rotating by the operation of the aperture transmitter Aperture control device of a single-lens reflex camera characterized in that. The method of claim 1, wherein the control means The single-lens reflection type characterized in that the pulse number of the new aperture drive pulse signal is obtained by subtracting or adding the drive deviation control pulse number of the corresponding aperture value read from the deviation storing means and the pulse number of the control signal corresponding to the set aperture value. Aperture control of the camera. Setting an aperture value according to luminance around the subject; Reading the corresponding aperture driving deviation; Resetting the aperture value by calculating a set aperture value and a read-out aperture drive deviation; And outputting a control signal in a corresponding state so that an aperture driving corresponding to a reset aperture value is performed. The method of claim 5, wherein the reading of the aperture driving deviation is A method of controlling the iris of a single-lens reflex camera characterized in that the number of deviation pulses of the iris driving pulse signal is read according to each iris step.

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