JP2615224B2 - Camera self-photographing method and device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and apparatus for self-photographing a camera, and more particularly to a method and apparatus for self-photographing a camera having an automatic focusing function.

[Conventional technology]

In general, when performing self-photographing, a self-timer that gives a predetermined time difference (for example, 10 seconds) from when a shutter release button is pressed to when a shutter actually operates is used.

Recently, some cameras can perform self-photographing using a remote controller.

[Problems to be solved by the invention]

However, when using the self-timer, there is a problem that the user goes to a position where he stands and poses during a predetermined self-time, and the self-time is too long. is there. Furthermore, in order to measure the distance to the subject when the shutter release button is pressed, the general camera measures the distance by pointing the camera to the subject at the same distance as the position where the camera stands, and then changes the horizontal line to use the self-timer. It was necessary to start, and it was complicated.

On the other hand, a camera equipped with a remote controller has the disadvantage that it is expensive and the camera is also large.

The present invention has been made in view of such circumstances, and it is an object of the present invention to provide a camera self-photographing method and apparatus that can solve these disadvantages.

[Means for solving the problem]

According to the present invention, in order to achieve the above object, a step of starting a sequence for performing self-photographing by operating a predetermined button, and measuring a subject distance at the start of the sequence, and performing a first distance corresponding to the subject distance A first step of storing distance measurement data, and a distance measurement of a subject distance is performed at a constant cycle after the distance measurement in the first distance measurement step, and second distance measurement data corresponding to the subject distance is obtained. A second distance measuring step of sequentially obtaining, a detecting step of comparing the first distance measuring data and the second distance measuring data to detect a change in the distance measuring data, and a change in the distance measuring data by the detecting step. Is detected, the final distance measurement of the object distance is performed after a lapse of a predetermined time, the lens extension amount is controlled based on the distance measurement data corresponding to the object distance, and then the shutter release operation is performed. Performing a self-photographing operation without performing a shutter release operation when the detection step does not detect a change in the distance measurement data for a predetermined time. I have.

[Action]

According to the present invention, a predetermined shutter release operation is performed by detecting that the photographer has entered the photographing position. That is, the first distance measurement data stored by measuring the distance when the sequence for performing the self-photographing is started, and the second distance measurement data obtained by repeatedly measuring the distance at a fixed cycle are then obtained. In comparison, when the distance measurement data changes, it is determined that the photographer has entered the photographing position. Then, a predetermined shutter release operation (for example, an operation of blinking the self-LED for 3 seconds and then releasing the shutter) is started from the time when the distance measurement data changes.

〔Example〕

Hereinafter, preferred embodiments of a method and apparatus for self-photographing a camera according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a block diagram showing an embodiment of the entire circuit of a camera to which the method of the present invention is applied. As shown in FIG. 1, the circuit of the camera mainly includes a central processing unit (CPU) 10, an operation switch group 12, a photometric unit 14, a distance measuring unit 16, a shutter unit 18, a liquid crystal display unit 20, and the like. .

The operation switch group 12 is, for example, a main switch of a camera.
SM, shutter release switch SP, focus lock switch SPFL, self mode switch SSELF, film manual rewind switch SMR, distant or night view control switch SINF, option mode switch SOPT, tele operation control switch STELE, wide operation control switch SWIDE, etc. And the outputs of these switches are applied to the CPU 10.

The photometry unit 14 measures the brightness of the subject, and outputs a signal SHAE indicating the photometry data and a signal SHγ indicating the γ correction data of the photoconductive element of the photometry unit 16 to the CPU 10.

The distance measuring unit 16 measures the subject distance by triangulation,
The distance measurement data AFD is output to the CPU 10. That is, CPU10
Outputs a drive signal AFLED for emitting the infrared light emitting diode 30 to the infrared light emitting diode 30 at the time of distance measurement, an AF logic clock signal AFLCK for driving the distance measuring unit 16, an AF serial data AFSD, and an AF signal. The serial clock signal AFSCK is output to the distance measuring unit 16. Here, the infrared light emitting diode 30 can emit a multi-beam of the beams L, C, and R by the drive signal AFLED from the CPU 10, and can emit a single beam of only the beam C. I have. The distance measurement 16 is AF serial data AFSD indicating a distance measurement command by the beams L, C, and R.
The distance measurement data AFD is serially transferred to the CPU 10.

The shutter section 18 is a stepping motor driven lens shutter that electromagnetically controls the opening and closing of the shutter blades, and includes stepping motor drive control signals SH0, SH1, SH2 and an AF magnet drive control signal S applied from the CPU 10.
Controlled by HAFMg. That is, when performing shutter control, first, the AF magnet drive control signal SHAFMg
To excite the AF magnet to drive the lens, and the stepping motor is driven by the stepping motor drive control signals SH0, SH1, and SH2 to move the lens. When a step position corresponding to the distance measurement data AFD measured in advance is reached, the AF magnet is demagnetized and the shutter blade can be driven. Thereafter, when the stepping motor is further driven, the shutter blades are opened. Then, when the step position corresponding to the photometry data SHAE measured in advance is reached, the stepping motor is rotated in the reverse direction, the shutter blades are closed, and a series of operations is completed when returning to the initial position.

The liquid crystal display section 20 has a self-timer display section 22, a number-of-films display section 24A, 24B, a film feed display section 26, a battery warning display section 28, and the like as shown in FIG.
A required display is performed based on a control signal from the CPU 10.
FIG. 2B shows the display contents of a mode in which a picture is taken after a predetermined time has elapsed after the shutter release switch SP is pressed (hereinafter, referred to as a normal self mode).
FIG. 2C shows a display content of a self-photographing mode (hereinafter, referred to as an auto-self mode) according to the present invention, which will be described later. Is displayed, and "A" is displayed using the film number display section 24B. Furthermore,
FIG. 2 (D) shows the display contents of a mode for taking a plurality of images in the auto self mode (hereinafter, referred to as a multi auto self mode). In this multi auto self mode, the self timer display section 22 is displayed. At the same time, "A" is displayed using the film number display section 24A, and the number is displayed using the film number display section 24B.

In FIG. 1, the CPU 10 outputs a signal SELFLED to the self-light-emitting diode 32 during the self-operation to control the lighting thereof. Further, 4-bit signals EA, EB, EC, and ED indicating the zoom position are added to the CPU from the encoder 34, and a signal SO is added from the 1-frame detection switch 36 every time the film is fed one frame. Film sensitivity detection switch 38
Is a 4-bit signal DX2, DX indicating the film's ISO sensitivity
3, DX4 and DX5 are added. Further, the CPU 10 outputs a date imprint signal X to the date imprint device 40, and further outputs a 3-bit motor drive signal MD0, MD1, MD3 to a drive circuit 42 for driving the zoom motor and the film feed motor.
Output MD2.

Next, the self-photographing method of the camera according to the present invention will be described in detail with reference to the flowchart shown in FIG.

When the main switch SM of the camera is turned on and the shutter release switch SP is pressed, the CPU 10 executes the following processing.

First, it is determined whether or not the shooting mode is set to the auto self mode (step 100). If the auto self mode has not been set, it is determined whether or not the nol self mode has been set (step 110). The auto self mode can be set by the option mode switch SOPT.
Normal self mode is a self mode switch
Can be set by SSELF.

If it is determined in step 110 that the normal self mode has not been set, normal shooting is performed. That is, the distance measuring unit
As well as inputting the distance measurement data from the photometer 16 and the photometry data from the photometry unit 14 (steps 120 and 130), the lens extension amount and the exposure are controlled based on the distance measurement data and the photometry data as described above. Output the stepping motor drive control signals SH0, SH1, SH2 and the AF magnet drive control signal SHAFMg to the shutter section 18 (step 14).
0), end the shooting.

On the other hand, if it is determined in step 110 that the normal self mode is set, the self LED 32 is turned on for 7 seconds (step 150), and then the self LED 32 is blinked for 3 seconds (step 160). Ten seconds after the SP is pressed, shooting is performed via steps 120, 130, and 140 in the same manner as described above.

Next, a case where it is determined in step 100 that the auto self mode has been set will be described.

In this case, first, the self LED 32 is turned on, the distance is measured by the distance measuring section 16, and the distance measurement data AF (1) when the shutter release switch SP is pressed is input and stored (steps 200 and 210). .

Subsequently, it is determined whether or not a predetermined time T ₁ (for example, 0.5 seconds) has elapsed since the last distance measurement was performed (step 220).
After time T ₁ has elapsed, to perform again ranging in distance measuring unit 16, the distance data AF (2) Enter the (step 230), measured in the stored distance measurement data AF (1) and the time T after ₁ Distance measurement data
AF (2) is compared (step 240).

If the distance measurement data AF (1) is equal to the distance measurement data AF (2), it is determined whether or not a predetermined time T ₂ (for example, 30 seconds) has elapsed since the start of the auto self mode ( step 250), until the time T ₂ has elapsed, the process returns to step 220, the comparison of the input and ranging data AF distance measurement data AF every time T ₁ (2) and (1) and distance data AF (2) Execute repeatedly.

On the other hand, if the distance measurement data AF (1) and the distance measurement data AF (2) are different, it is determined that the photographer has entered a predetermined photographing position, and when the distance measurement data changes, steps 240 to 160 are performed. Then, after the self LED is blinked for 3 seconds, the photographing is performed through steps 120, 130, and 140.

Also, during the time T _2, the distance measurement data AF (1) the distance data
If the distance measurement data does not change evenly with AF (2),
After time T ₂ elapses, turns off the self LED (step 260) and ends without imaging by automatic self-mode.

〔The invention's effect〕

As described above, according to the method and apparatus for self-photographing a camera according to the present invention, a predetermined shutter release operation is performed by detecting that a photographer has entered a photographing position. The advantage is that there is no longer the problem of busyness or long waiting time when making poses, and there is no need for a series of ranging operations to measure the distance equidistant with the position where you stand before starting self-operation. is there. Furthermore, the use of the existing distance measuring means does not cause a significant increase in cost as compared with a case where a remote control transceiver is separately provided.

[Brief description of the drawings]

FIG. 1 is a block diagram showing an embodiment of the entire circuit of a camera to which a method and apparatus for self-photographing a camera according to the present invention are applied, and FIGS. FIG. 3 is a flowchart used for explaining the self-photographing method of the camera according to the present invention. 10: Central processing unit, 12: Operation switch group, 14: Photometry unit,
16: distance measuring section, 18: shutter section, 20: liquid crystal display section, 30: infrared light emitting diode, 32: self light emitting diode.

 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Fumio Iwai 1-34 Uetakecho, Omiya City, Saitama Prefecture Inside Fuji Photo Optical Co., Ltd. (56) References JP-A-62-153845 (JP, A)

Claims (2)

(57) [Claims] 1. A step of starting a sequence for performing self-photographing by operating a predetermined button; measuring a subject distance at the start of the sequence; and storing first distance measurement data corresponding to the subject distance. A first distance measurement step, and a second distance measurement data corresponding to the object distance is sequentially obtained after the distance measurement in the first distance measurement step. A distance measuring step, a comparing step of comparing the stored first distance measuring data with a second distance measuring data sequentially obtained at the predetermined cycle, and detecting a change in the distance measuring data; When a change in the distance measurement data is detected, the final distance measurement of the object distance is performed after a lapse of a predetermined time, and the lens extension amount is controlled based on the distance measurement data corresponding to the object distance. Performing a shutter release operation; and terminating a sequence for performing the self-photographing without performing a shutter release operation when the detection step does not detect a change in the distance measurement data for a certain period of time. A self-photographing method for a camera. 2. Operating means for starting a sequence for performing self-photographing, distance measuring means for measuring a subject distance at a constant cycle, and measuring by the distance measuring means when self-photographing is started by operating the operating means. The detected object distance is compared with the object distance sequentially measured by the distance measuring means, and a detecting means for detecting a change time point of the object distance, and when the change in the object distance is detected by the detecting means, After a lapse of a predetermined time from the detection time, the distance measuring means performs the final distance measurement of the subject distance, controls the lens extension amount based on the final measured subject distance, and then executes the shutter release operation. If the change in the object distance is not detected within a predetermined time by the means, the shutter release operation is not performed and Self imaging device of the camera characterized by comprising a control means for ending the sequence for a full shot, the.