JP2915428B2 - Remote control camera - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a remote control camera that can be remotely operated using infrared light.

(Prior Art) A remote control system for remotely controlling a television, an audio system, an air conditioner, or the like using infrared light or ultrasonic waves has become widespread, but recently, a remote control camera has also become available.

In a conventional remote control camera, a remote control signal is transmitted from a remote control transmitter that is detachable from the camera body, and when the remote control signal is received by the camera, the shutter of the camera is released. The remote control signal is output a plurality of times in succession so that the camera can reliably receive the signal. Even if the first signal is not received, another pulse signal is received and the remote control signal can be reliably operated. (Japanese
Nos. 54-28987 and 57-96439).

On the other hand, some recent AF (autofocus) cameras use an active method, that is, a method in which infrared light is applied to a subject, the reflected light is received, and the subject distance is obtained based on the principle of triangulation. Considering the case where the above remote controller is employed in this kind of camera, even if the camera operation is started by the first infrared pulse of the remote control signal, the infrared pulse is continuously transmitted from the remote controller transmitter. Since the infrared light pulse is emitted, the infrared light pulse may be received by the AF light receiving unit.
If this happens, the distance measurement value at the AF light receiving unit will be out of order, and accurate distance measurement will not be possible.

(Objects and Configurations of the Invention) The present invention has been made in view of the above points, and has a distance measuring device that projects infrared light to a subject and measures a distance before photographing, and a single remote control operation. A remote control transmitter for outputting a plurality of remote control signals consisting of infrared light at predetermined intervals, and receiving a remote control signal of one of the plurality of remote control signals and operating the distance measuring device. Thus, the operation of projecting the infrared light of the distance measuring device is performed during the predetermined interval different from each output timing of the plurality of remote control signals.

〔Example〕

 Hereinafter, the present invention will be described with reference to the drawings.

FIG. 1 is a perspective view of an embodiment of a remote control camera according to the present invention, wherein 1 is a camera body, 2 is a finder,
3 is a shooting lens, 4 is a strobe, 5 is a main switch,
Reference numeral 6 denotes a release button. Reference numeral 7 denotes a remote control transmitter which is detachable from the camera body 1, and reference numeral 8 denotes a remote control receiver on the camera side. When the remote control transmitter 7 is removed from the camera body 1, a push button 7a is provided on the back side as shown in FIG. 2. When this button 7a is operated, a remote control signal of infrared light is emitted from the light emitting section 7b. You. When this light is received by the light receiving section 8, the camera operation is started.

As shown in FIG. 3 (a), the remote control signal is composed of a plurality of infrared light pulses a, b, c..., And the light emission interval of each pulse is, for example, 400 msec.

9 in Fig. 1 is a display LED that lights up while the self-timer is operating.
However, in this embodiment, the remote control mode is also used as a means for notifying that the remote control mode is about to end.

Furthermore, 10 is an AF that projects infrared light for active distance measurement
Emitter, 11 is an AF receiver that receives reflected light from the subject,
Reference numeral 12 denotes a photometry unit that measures the luminance of a subject. Although not shown in FIG. 1, when the main switch 5 is OFF, the taking lens 3 is covered with a barrier (lens cover). When the main switch 5 is turned on, the barrier is opened, and the camera is ready for shooting.

FIG. 4 is a block diagram showing a circuit configuration of the remote control camera shown in FIG. 1, wherein reference numeral 21 denotes a power supply battery of the camera, 22 denotes a power supply holding circuit for supplying a predetermined power supply voltage to each part of the camera,
Is a start switch which is connected in series with the main switch 5 and is linked to the attachment / detachment of the main switch 5, the release button 6 and the remote control transmitter, and 24 is a control microcomputer. When the main switch 5 is turned on, the start switch 23 is also turned on, and the power supply holding circuit 22 supplies a predetermined power supply voltage to the microcomputer 24.
The microcomputer 24 outputs a self-holding signal to the power holding circuit 22 via the signal line A, and thereafter controls the power supply by the microcomputer 24 itself.
Maintain the operating state.

25 is a remote control receiving circuit for receiving a remote control signal from the remote control transmitter 7, 26 is a photometric circuit for measuring subject brightness, 27 is an LED display in the finder that displays the results of photometry and distance measurement in the finder 2, and 28 is a An infrared light emitting circuit for emitting infrared light for distance measurement; 29 receives reflected light from the object of the infrared light emitted from the infrared light emitting circuit and outputs distance measurement data according to the object distance AF light receiving circuit, 30 is a lens driving circuit for moving and returning the taking lens 3 according to the measurement result, 31 is a shutter driving circuit for opening and closing a shutter, 32 is winding and rewinding for film feeding. A drive circuit, 33 is a barrier drive circuit for opening and closing the barrier, and 34 is a self-display circuit for turning on the display LED 9 when a self-timer is set.

Referring now to switches, S ₁ is a switch, S ₂ to ON by pressing lightly the shutter button 6 is a switch for ON depressing more deeply the shutter button 6.
Reference numeral 35 denotes a remote control switch which is attached to the camera and is turned on when the remote control transmitter 7 is removed from the camera. When the remote control switch 35 is turned on, the camera enters a remote control mode.

Next, the operation of the embodiment will be described with reference to the flowchart of FIG.

First, a normal shooting mode other than the remote control mode will be described. The power is turned on by operating the main switch (F-1). Release button is pressed, S ₁
Is turned on (F-2), photometry (F-3) and distance measurement (F
-4) is performed. Next, turn on / off the remote control switch 35
Is checked (F-5), but since it is OFF in this case (because it is not in the remote control mode), the flow jumps to step (F-9) to display the results of photometry and distance measurement in the viewfinder. Then check the S ₁ again in order to confirm whether the operation of the release in the photographer's intention is carried out (F
-10), then see if S ₂ is ON (F-11), it is determined whether or unwinding lens once if ON (F
-12). If the lens is not extended, the lens is extended according to the distance measurement result (F-13), the shutter is driven, and the film is exposed (F-14). Thereafter, the extended lens is returned to the initial position (F-15), and the film motor is driven to wind up the film (F-16).
Next, it is determined whether the remote control switch 35 is ON (F-
17) Here, the sequence ends because it is not ON.

 Next, the operation in the remote control mode will be described.

In the remote control mode, the remote control switch 35 is ON in step (F-17).
Go to 18) and set the 5-minute timer. Then, according to the loop formed by steps (F-19), (F-20) and (F-21), whether there is remote control reception within 5 minutes (F-20) or cancel (F-21) Wait). During this time, if there is remote control reception in step (F-20), the flow returns to step (F-3) to perform photometry, and then to perform distance measurement (F-4).

As shown in FIG. 3 (b), an infrared light pulse d for distance measurement is used.
Is emitted until 300 msec elapses from the reception of the remote control signal, and therefore does not interfere with the next infrared light pulse b of the remote control signal. In this embodiment, since the light measurement is performed before the distance measurement, the emission timing of the infrared light pulse d for the distance measurement may be slightly shifted strictly according to a change in the light measurement time, but in any case. An infrared light pulse d for distance measurement until the next infrared light pulse b of the remote control signal is emitted
The hardware and software are designed to emit light.

Returning to FIG. 5 (a), after the distance measurement (F-4), the flow goes through steps (F-5) and (F-6), and then to steps (F-12) to (F-16). Then, a series of photographing operations are performed. At this time, if in the remote control mode, the 5-minute timer is set again (F-18).

If the remote control mode is canceled in step (F-21), the sequence ends. The remote control mode is canceled when the main switch 5 is turned off, the remote control transmitter 7 is mounted (that is, the remote control switch 35 is turned off), and the like.

By the way, when the timer time of 5 minutes elapses, the 30-second timer is set next (F-22) and displayed to notify a user who seems to be operating away from the camera that the remote control mode is about to end. "Notice" that LED9 blinks
Is performed (F-23). Then, in the loop of steps (F-24) and (F-25), it is checked whether or not there is remote control reception during this 30 seconds. If the remote control is received (F-25), the 5-minute timer is set again at step (F-18). If no remote control is received, the barrier is closed (F-26) and the sequence ends. .

Now, after setting of the remote control mode (F-5), if there is a remote control receiving this time (F-6), looking at the ON / OFF of the S ₁ (F-7), if S ₁ is ON ranging The photographing lens 3 is extended according to the result (F-8). This is because, in the remote control mode, the user looks in the finder to perform framing in order for the user to set the autofocus distance measuring location in advance, and further presses the release button one step (S ₁
= ON), focus lock. At this time, when the user later releases the camera using the remote control,
To be able as soon as possible imaging, it is so feed the lens when S ₁ is now to ON. Then performs Faida the display of AE-AF result (F-9), the S ₁
Check ON / OFF again (F-10). S ₁ is the flow advances to if OFF step (F-17), previously described (F-18)
The subsequent steps (waiting for remote control reception) are executed.

In the above embodiment, as shown in FIG.
The infrared light pulse d for distance measurement is output before the second infrared light pulse b of the remote control signal is output. However, as shown in FIG. The infrared light pulse e for distance measurement may be emitted after the second infrared light pulse b. In short, the light emission timing of infrared light for distance measurement and the light emission timing of infrared light for remote control operation Should not be matched. Needless to say, all calculation timings performed using the light receiving element responding to the infrared wavelength are avoided.

〔The invention's effect〕

As described above, according to the present invention, the projection operation (light emission timing) of the infrared light for distance measurement by the distance measurement device is performed at each output timing (each remote control signal) of a plurality of remote control signals output at predetermined intervals. (Light emission period of infrared light for remote control) is performed during the above-mentioned predetermined interval, so that interference of infrared light for remote control signal with infrared light for distance measurement is prevented, Ranging can be prevented.

[Brief description of the drawings]

FIG. 1 is a perspective view of an embodiment of a remote control camera according to the present invention, FIG. 2 is an external view of a remote control transmitter, and FIG. 3 is an emission timing of infrared light for distance measurement and infrared light for remote control operation. FIG. 4 is a block diagram showing a circuit configuration of the embodiment, and FIG. 5 is a flowchart for explaining the operation of the embodiment. 7 Remote control transmitter, 8 Receiver, 24 Microcomputer

Continuing from the front page (72) Inventor Kiyoshige Ogakiuchi 2970, Ishikawacho, Hachioji-shi, Tokyo Konica Corporation (72) Inventor Zenichi Sakai 2970, Ishikawacho, Hachioji-shi, Tokyo Konica Corporation (56) References Special JP-A-62-123436 (JP, A) JP-A-64-17034 (JP, A) JP-A-63-155037 (JP, A) JP-A-60-149127 (JP, A) JP-A-2-214804 (JP-A) JP, A) JP-A-59-83472 (JP, A) (58) Fields investigated (Int. Cl. ⁶ , DB name) G02B 7/28-7/40 G03B 3/00-3/12 G03B 17 / 38

Claims (3)

(57) [Claims] 1. A distance measuring device for projecting infrared light to a subject prior to photographing to measure a distance, and a remote control for outputting a plurality of remote control signals composed of infrared light at predetermined intervals by one remote control operation. Having a transmitter, a camera with a remote control function to receive any one of the plurality of remote control signals and operate the distance measuring device, wherein the infrared light emitting operation of the distance measuring device, A remote control camera, wherein the control is performed during the predetermined interval different from each output timing of the plurality of remote control signals. 2. The method according to claim 1, wherein the distance measuring device performs an infrared light projecting operation after receiving the remote control signal and before outputting a remote control signal to be output next. Remote control camera. 3. An active distance measuring device comprising: a light projecting section for projecting infrared light to a subject; and a light receiving section for receiving the reflected light of the projected infrared light reflected by the subject. The remote control camera according to claim 1, wherein the remote control camera is a distance measuring device for distance measurement.