KR20010026697A - A control device and the method of barrel moving - Google Patents

Abstract

PURPOSE: An apparatus and method for controlling movement of lens housing is provided to reduce the size of an encoder system by improving an encoder pattern and eliminating the necessity of repeating movement of lens housing. CONSTITUTION: An apparatus comprises a release switch(100) for selecting an operation of release stage 1 for measuring the distance from a camera to an object or an operation of release 2 for picking up the object; a distance measuring unit(200) for measuring the distance from the camera to the object in accordance with the operation signal of the release switch; a control unit(300) for controlling movement of the lens housing in accordance with the measured distance; a location detection unit(500) having a pattern section(510) and a pattern sensing section(520); and a lens housing moving unit(400) for performing lens housing movement operation in accordance with the signal detected by the location detection unit when the release switch is in the operation of the release stage 2.

Description

A CONTROL DEVICE AND THE METHOD OF BARREL MOVING}

The present invention relates to a barrel movement control apparatus and method, and more particularly, to a barrel feeding control apparatus and method for automatically controlling the focus of the far and near by using an encoder pattern for detecting the focus position when the camera automatically adjusts the focus.

The automatic camera currently used by the general user has a whole army movement method and a barrel movement method depending on the method of focusing.

The all-group movement method is a method of focusing on a subject by moving the all-lens lens located in front of the barrel back and forth. This method uses a step motor to move the lens to the point where the subject is to be focused, and then the shutter is opened to take a picture.

The barrel movement method is a method of focusing a subject by moving the barrel itself. In this method, if the distance of the subject measured by the distance measuring sensor of the camera is closer than the set reference distance in the program of the camera, it is judged to be near, if it is farther than the reference distance, it is judged to be far and then the zoom motor To focus.

Hereinafter, the encoder pattern in the conventional barrel movement control device will be described.

1 shows a waveform diagram of a conventional pattern portion and a pattern detection signal.

As shown in FIG. 1A, in order to detect the position of the barrel in the conventional barrel movement control apparatus, the pattern unit 51 may include a distant pattern P1, a near pattern P2, a close pattern P3, and a ground pattern GND. )

That is, the pattern unit 51 is configured to distinguish the long distance and the short distance, and is divided by four pattern signal lines. The far-field pattern P1 is a pattern representing each focus position for focusing when the distance of the subject is farther than the reference distance, and the short-range pattern P2 is each focus for focusing when the distance of the subject is closer than the reference distance. A pattern representing a location. The close pattern P3 is a pattern indicating a close position where the barrel is stored inside the camera. The remaining pattern GND represents a ground pattern.

A pattern detecting unit (not shown) for detecting a pattern of the pattern unit 51 includes a brush 52. The terminal of one end of the brush 52 is in contact with the ground pattern GND, and the terminal of the other end is connected to the distant pattern P1, the near pattern P2, and the close pattern P3 by moving the barrel in the optical axis direction. It is arranged to be selectively contacted.

A conventional barrel movement control device using the encoder pattern 51 will be briefly described.

The release unit measures the distance to the subject by the release stage 1 operation of the release switch, and the measured distance is input to the controller, and the controller determines the distance if it is farther than the preset reference distance, and determines the distance when it is closer than the reference distance. . At this time, if the measured distance is close, the controller drives the zoom motor to move the barrel to the focus position of the subject.

Shooting is performed when the user performs the release two-stage operation of the release switch to shoot a desired subject.

At this time, as shown in Figure 1, the brush 52 attached to one side of the barrel detects the pattern of the pattern portion 51 attached to the barrel to determine the position of the barrel. The brush 52 outputs a low signal from a high signal each time the remote pattern P1, the near pattern P2, and the close pattern P3 are detected among the patterns of the pattern unit 51. The controller controls the position of the barrel by this signal.

However, when the distant and the near pattern are separately distinguished, an error may occur in a signal for detecting the pattern when the brush is out of a fixed position, and a controller of the camera, that is, a central processing unit (CPU, not shown) ) Must process each input signal separately through the signal line for remote and near field. As such, since signal lines for determining the distance and the short distance are separately configured, the pattern shape of the pattern portion is complicated, and there is a problem in that the contact portion of the pattern of the barrel and the pattern portion is difficult to be miniaturized in space.

In addition, in the first stage of the release switch, when the distance measuring sensor (not shown) is located and the subject is determined to be near, the current position of the barrel is stopped in the distant pattern and the barrel is moved to a position where the near pattern is detected. Let's do it. In this case, if the user repeatedly presses the release switch only one stage, the barrel may repeatedly move and return to a short distance.

The present invention is to solve such a conventional problem, to simplify the pattern of the pattern portion and to eliminate the repetition of the barrel movement, to provide a compact and simple camera barrel movement control apparatus and method.

1 is a view showing a waveform of a conventional pattern portion and a pattern detection signal.

2 is a block diagram of a barrel motion control apparatus according to an embodiment of the present invention.

3 is a view showing a pattern portion and a pattern detection signal according to an embodiment of the present invention.

4 is a flowchart illustrating a barrel movement control method according to an embodiment of the present invention.

For this purpose, the barrel movement control apparatus of the present invention processes the distant pattern and the near pattern as one signal line, and if the pattern detector detects the first signal, recognizes that the focal length is near, and the pattern detector detects the second signal. The camera will automatically adjust the focus by recognizing that the focal length is far.

The barrel movement control apparatus of the present invention includes a release switch for selecting distance measurement and photographing of a subject; A measuring unit measuring a distance to a subject; A controller for controlling the barrel to move to a focal length of the subject; A position detection unit having a pattern unit in which a zoom position and a focus adjustment position are designated as one, and a pattern detection unit detecting a pattern; And a barrel moving unit for moving the barrel to the focal position.

The pattern portion includes an encoder pattern, a close pattern, and a ground pattern in which the far focus position and the near focus position are designated by one signal line.

The barrel movement control method of the present invention includes the steps of measuring the distance to the subject by the first stage release operation of the release switch; Determining a focal length to the measured subject in the distance measuring step; If the focal length is close in the focal length determination step, the zoom motor rotates forward at the position where the signal detected by the encoder pattern indicating the focal position detection changes from the first signal to the second signal by the release two-stage operation of the release switch. Photographing the subject by stopping the barrel at the focus position of the subject; And after the photographing step is finished, the zoom motor reversely rotates to stop the position of the barrel at the distant position to end the photographing.

In addition, the method of controlling the barrel movement according to the present invention further includes the step of photographing the subject by the release switch two-stage operation when the measured distance of the subject is a long distance and ending the photographing. In addition, in the step of finishing the shooting, after the shooting of the subject is finished, the zoom motor is rotated in reverse to stop the zoom motor at a position where the encoder pattern signal indicating the focus detection is changed from the first signal to the second signal, and then rotates forward again. And if the encoder pattern signal is the first signal, stopping the zoom motor.

Hereinafter, with reference to the drawings will be described in detail the most preferred embodiment that can be easily implemented by those skilled in the art.

2 is a block diagram of a barrel movement control apparatus according to an embodiment of the present invention.

As shown in FIG. 2, the barrel movement control device of the present invention includes a release switch 100 for selecting a photographing operation; A measuring unit 200 for measuring a distance of the subject; A control unit 300 receiving a signal of the release switch 100 and outputting a signal for moving the barrel 500 to the correct focus position; A barrel moving unit 400 driving the zoom motor M in response to a signal from the controller 300; The pattern detector 510 includes an encoder pattern EN1, a close pattern EN2, and a ground pattern GND, and a position detector 500 having a pattern detector 520.

The release switch 100 is a switch interlocked with a shutter button (not shown), and when the user presses the shutter button, the release switch 100 is sequentially operated in a release first stage and a release second stage.

The ranger 200 measures the distance between the camera and the subject.

When the release switch 100 is operated in the first release stage, the controller 300 determines whether the distance of the distanced object is far or near. If the release switch 100 is operated in the second release stage, the controller 300 moves the barrel moving unit 400 according to the far or near focus position. Control to perform focus adjustment.

The barrel moving unit 400 drives the zoom motor M according to the signal of the controller 300.

The position detector 500 includes a pattern unit 510 including an encoder pattern EN1, a close pattern EN2, and a ground pattern GND, and a pattern detector 520 that detects a pattern of the pattern unit 510.

The encoder pattern EN1 is a pattern showing a focal position for focusing when the distance of the subject is far from the reference distance and focusing when the distance of the subject is nearer than the reference distance in one pattern. In addition, the encoder pattern EN1 has a form in which a plurality of contact types vary, and the size ratio between the patterns is stored in a storage device (not shown) of the controller 300 based on a pre-calculated result, It can be used by changing the production process.

3 is a view showing a pattern portion and a pattern detection signal according to an embodiment of the present invention, Figure 4 is a view showing a flow diagram of a barrel movement control method according to an embodiment of the present invention.

Hereinafter, an operation of the barrel moving device of the present invention will be described in detail with reference to FIG. 4.

In order to capture the subject, when the user presses a zoom switch (not shown) for moving the barrel to a wide end or a tele end to a desired zoom position, the controller 300 signals the barrel moving unit 400 to move the barrel. Outputs The barrel moving unit 400 receiving the output signal from the controller 300 rotates the zoom motor M to move the barrel along the optical axis.

As the barrel moves to the wide end or the tele end in accordance with the zoom switch operation, the pattern detecting unit 520 attached to one side of the barrel detects the encoder pattern EN1 to determine the position of the barrel, and at the zoom position desired by the user. When the zoom switch is released, the zoom motor M stops driving and the barrel stops at the far focus position specified in the encoder pattern EN1 as shown in FIG.

When the user presses the first stage of the release switch 100 to focus on the subject, the ranger 200 measures the distance to the subject (S100 to S120). The measured distance information is input to the controller 300, and the controller 300 determines whether the focus position according to the distance of the subject is a far focus position or a near focus position (S130).

Next, the controller 300 determines whether the release switch 100 is operated in the second release stage (S140), and if the measured object distance when the release switch 100 operates in the second release stage is close, the controller. 300 drives the barrel moving part 400. The barrel moving unit 400 drives the zoom motor M to move the barrel to the near focus adjustment position.

At this time, the pattern detecting unit 520 attached to one side of the barrel detects the encoder pattern EN1 signal of the pattern unit 510. When the signal detecting the encoder pattern EN1 is changed from a high signal to a low signal, the barrel is detected. When the signal detected by the encoder pattern EN1 changes from a low signal to a high signal, it indicates that the barrel is located at a near position.

The control unit 300 determines whether the signal detected by the pattern detecting unit 520 changes from a low signal to a high signal, controls the barrel moving unit 400 to stop the zoom motor M, and then starts photographing the subject. (S150 ~ S180).

As shown in FIG. 3, the barrel stops at the position where the barrel stops after the time T1 elapses after the pattern detection signal changes. This is because the transmission delay time T1 is present while the signal detected by the pattern detecting unit 520 is input to the control unit 300, and the signal arrives at the barrel moving unit 400. Therefore, the barrel is always set to stop at a position delayed from the moment when the signal detecting the encoder pattern EN1 changes from a high signal to a low signal or from a low signal to a high signal. The setting time at this time can also be adjusted in the product producer or production process by an appropriate ratio.

When the photographing of the subject is finished, the zoom motor M rotates in reverse, and the controller 300 detects whether the encoder pattern EN1 signal detected by the pattern detector 520 changes from a low signal to a high signal (S190). ~ S200).

When the detected signal changes from a low signal to a high signal, as shown in FIG. 3, the control unit 300 rotates the zoom motor M forward again to stop the barrel at the far focus position (S210) and the pattern detection unit ( When it is confirmed that the current encoder pattern EN1 detected by the signal 520 is in the low signal state, the driving of the zoom motor M is stopped and the barrel is stopped to finish all the operations (S220 to S240).

In the distance determining step (S130) of the operation, if the focal length of the subject is far, the current barrel position is located at the far focus position, and thus the zoom motor M does not drive even when the release switch 100 performs the release two-stage operation. Instead, shooting is performed at the current far focus position and the operation is stopped (S250 to S260).

As described above, the apparatus and method for controlling the movement of the barrel according to the embodiment of the present invention comprises a pattern specifying the zoom position and the focal length position as one pattern, thereby simplifying the signal line processing for the long distance and the short distance, and moving to the center of the encoder pattern. Encoder systems can be miniaturized by eliminating passing signal lines.

Also, the barrel will remain in the current state even when the release switch is pressed only one step, and the barrel moves to the focal length of the subject when shooting the second release switch. Easy barrel feeding control can be performed by eliminating repeated barrel feeding operations.

Claims (5)

A release switch for selecting a release first stage operation of measuring a distance to a subject and a release second stage operation of photographing a subject; A measuring unit for measuring a distance to a subject by an operation signal of the release switch; A control unit controlling movement of the barrel according to the distance from the ranger to the subject measured; In order to determine the position of the moving barrel, a pattern consisting of a close pattern indicating a close position of the barrel stored inside the camera, a ground pattern indicating ground, and an encoder pattern in which the zoom position and the focus position of the subject are set as one pattern A position detecting unit having a pattern detecting unit detecting a pattern of the pattern unit; When the second release stage of the release switch is operated, the barrel moving unit for performing a barrel moving operation according to the signal detected by the position detection unit Torque movement control device comprising a. In claim 1, The encoder pattern is If the signal detected by the pattern detector is changed from the first signal to the second signal, the distance to the subject is far, and when the signal detected by the pattern detector is changed from the second signal to the first signal, it indicates that the distance to the subject is near. Barrel movement control device, characterized in that. Measuring a distance to a subject by a first release operation of the release switch; Determining a focal length to the subject measured in the distance measuring step; If the focal length is close in the focal length determination step, the zoom motor is positioned at a position where the signal detected by the encoder pattern indicating the focal position detection changes from the first signal to the second signal by the release two-stage operation of the release switch. Forward rotation to stop the barrel at the focal position of the subject to photograph the subject; And After the photographing step is finished, the zoom motor is rotated in reverse to stop the photographing of the barrel at a distant position and end photographing. A barrel feeding control method comprising a. In claim 3, The focal length determination step And photographing the subject by a release switch two-stage operation if the measured distance of the subject is far, and ending shooting. In claim 4, Ending the shooting After the photographing of the subject is finished, the zoom motor is rotated in reverse to stop the zoom motor at a position where the encoder pattern signal indicating the focus detection is changed from the first signal to the second signal, and then rotate forward again, and the encoder pattern signal And stopping the zoom motor if is a first signal.