FR2643162A1 - Active self-focusing camera comprising a remote control device - Google Patents

Abstract

An active self-focusing camera comprises an active subject distance measurement device which includes a first infrared emitter 14 emitting a first infrared radiation for measuring the distance of a subject 16 to be photographed, and a first infrared receiver which receives the infrared radiation reflected by the subject 16, and a remote control receiver which receives a second infrared radiation emitter from a second infrared emitter for a remote control device 32 for controlling the camera from a distance. The first infrared receiver and the remote control infrared receiver are constituted by a single common infrared receiver 18.

Description

The present invention relates to an active autofocus camera (NF camera) comprising a remote control device
In a conventional infrared remote control camera, wherein the various camera operations such as the trigger operation etc. can be remote commands, a separate transmitter of the camera body emits infrared radiation (electrical pulses> which is resu by an infrared receiver provided on the body of camera.

 The infrared radiation received by the infrared receiver is converted into electrical pulses which are transmitted to a remote controller.

In the remote control device, the pulses are converted into start-up signals for distance measurement of the subject and trigger start signals, etc. which are applied to a control unit of the body of the camera.

 In the camera body control unit, detecting a distance of a subject to be photographed, detecting the luminance of the subject, triggering, etc., are performed in accordance with the output signals of the camera device. remote control.

 A conventional compact camera usually has an infrared active-type autofocusing device (active infrared AF device) incorporated therein, with a camera hereinafter referred to as an active AF camera. The infrared active infrared device includes an infrared emitter that emits infrared radiation to measure a distance from the subject to a subject to be photographed and an infrared receiver that reviews the infrared radiation (subject's distance signal) reflected by the subject .

 That is, the active AF camera has the infrared transmitter and the infrared receiver in addition to the photographic lens and a viewfinder on the front side of the body of the camera. In addition, an integrated sampling device must also be provided on the front side of the body of the camera.

 To integrate the remote infrared controller (infrared receiver) into the active AF camera, the infrared receiver must streak located on the front side of the body of the camera. However, as mentioned above, the photographic lens, the viewfinder, the integrated sampling device, the infrared emitter and the receiver for measuring the distance of the subject already exist on the front face of the body of the camera.

As a result, there is not sufficient space to place the infrared receiver for the remote control device on the front side of the body of the camera. That is, it is very difficult, if not impossible, to place the infrared receiver for the remote control device on the front of the body of the camera without increasing the body size of the camera. .

 The main object of the present invention is to create an active NF camera in which a remote control device using a signal-transmitting wave carrier is integrated without increasing the dimensions of the body of the camera or without deforming a camera body. existing camera.

 The inventor's approach is directed to the fact that the signal carriers for measuring the distance of the subject and for the remote control are of the same type as the signal-emitting wave carrier 5, for example a infrared radiation or an ultrasonic wave.

 To achieve the aforementioned purpose in an active RF camera having an active distance measuring device of the subject including a first infrared emitter which emits a first infrared radiation to measure a distance from the subject of a subject to be photographed and a first infrared receiver that receives infra-red radiation reflected by the subject and a remote control infrared receiver that receives a second infrared radiation emitted from a second infrared emitter of a remote control device for Controlling the camera from a distance, in accordance with one aspect of the present invention, the first infrared receiver and the remote control infrared receiver consist of a single common infrared radiation.

 With this arrangement, since the infrared receiver for measuring the subject distance and the infrared receiver for the remote control consist of a single common infrared receiver, there is no increase in the number of the components of the apparatus. thus leading to the integration of a remote control device (the infrared receiver thereof) into a compact camera without increasing the dimensions thereof.

The invention will be described hereinafter in detail with reference to the accompanying drawings, in which
Fig. 1 is a block diagram of the main components of an active AF camera having a remote controller in accordance with the present invention, and
FIG. 2 is a timing diagram of an active AF camera comprising a remote control device, shown in FIG.

 In this embodiment, the infrared rays are used as the signal-emitting wave carrier.

 On a front side of a camera body 10 is provided a photographic lens 12, an infrared emitter 14 which emits infrared radiation (first infrared radiation) to measure a distance from a subject's subject 16 to be photographed and an infrared receiver 18 which receives the infrared radiation reflected by the subject.

The infrared transmitter 14 and the infrared receiver 18 are located on the opposite sides of the photographic lens 12. The first infrared element is emitted from the infrared emitter 14, is collimated by a collimator lens 14a The infrared radiation reflected by the subject 16 is condensed by a condenser lens 1Ba to be converged on the infrared receiver 18.

 The photographic lens 1, as is well known, comprises a photographic optical system (not shown) comprising a focusing lens, a pulse motor (not shown) and a diaphragm and shutter unit (not shown). -représentée). These elements are all driven by a control circuit 20 in the body of the camera. That is, the focusing lens is moved to a focal position in accordance with the distance signal of the subject detected by a subject. distance measuring device of the subject (not shown)> that, during the triggering operation, the diaphragm is driven to be at a desired aperture value in accordance with the luminance signal (luminance signal) detected by a brightness detection device (not shown) and that the shutter is open at a predetermined speed QU.

 The infrared distance measuring transmitter of the subject 14 is driven by an infrared emitter control circuit 22 which is in turn driven by a control circuit 2.

 The output terminal of the infrared receiver 18 is selectively connected to a distance control circuit of the subject 26 in the form of a subject distance control means or a remote control receiver circuit 28 such as remote control by a selection switch 24. The selection switch 24 which normally connects the infrared receiver 18 to the remote control receiver circuit 28 is controlled by the control circuit 2, so that when a transmitter control circuit 22 is to be controlled, the selection switch 24 is switched to connect the infrared receiver 18 to the distance control circuit of the subject 26.

 The control circuit 20 is comprised of a microcomputer having control means for controlling the distance measuring operation of the subject and the switching operation of the selection switch.

 The trip switch 30 is connected to the control circuit 20, which provides two functions = a distance measurement operation of the subject and a trip operation, as is well known. That is, when the trigger switch 30 is half-pressed, the distance measurement of the subject and the detection of the brightness are started and when the trigger switch 3 is depressed completely, the shutter is trained to perform the trigger operation. That is, when the trip switch 30 is depressed halfway, the control circuit 20 is connected to the distance control circuit of the subject 26 through the selection switch 4 to control the control circuit. infrared transmitter 22 so that the subject's distance infrared radiation is emitted from the infrared emitter 14. The infrared radiation emitted from the infrared transmitter 14 is reflected by the subject 16 and is then received by the infrared receiver 18 in which the infrared radiation is converted into an electrical distance signal of the subject which is sent to the distance control circuit of the subject 26 through the selection switch 24.

 The distance control circuit of the subject 26 performs the arithmetic operation to detect the distance of the subject so that the distance of the subject thus obtained is applied to the control circuit 20. The control circuit 20 controls the focusing lens of the subject. photographic lens 12 to arrive at a desired focal position in accordance with the distance of the subject. When performing the focusing, the control circuit 2 switches the selection switch 24. to connect the infrared receiver 18 to the remote control remote receiver circuit 28.

 A remote control remote receiver 32 separated from the body of the camera 10 comprises a circuit arrangement known per se, comprising an infrared emitter (second infrared emitter) which emits infrared radiation having a length band substantially identical to that of the infrared ray emitted by the subject distance infrared emitter transmitter (first infrared transmitter) 14, a control switch for controlling the distance measurement of the subject as well as the operation and a remote control infrared transmitter circuit which converts the ON signal of the control switch into a predetermined pulse which is outputted from the second infrared emitter in the form of remote-controlled infrared radiation.

 The remote control of the camera by the remote control infrared transmitter 32 is as described below (see FIG. 2). Note that the object of the present invention is not directed to the detection of brightness and that, therefore, no description is given here.

 When the control switch of the remote control infrared transmitter 32 is depressed half or completely, similar to the actuation of the trigger switch 4 (1 remote control infrared radiation which carries the signal start of the distance measurement of the subject and the trigger start signal is outputted from the remote control infrared transmitter 32. The infrared receiver 18 receives the remote control infrared radiation from the remote control. so that the latter is converted into an electrical pulse which is then sent to the remote control infrared receiver circuit 28 through the selection switch 24.

 The remote control infrared receiver circuit 28 converts the pulse into a start-up signal of the subject-distance measurement and a trigger start signal which is applied to the control circuit 20. The control circuit 20 first performs the distance measurement process of the subject in accordance with the start signal of the distance measurement of the subject and the trigger start signal. That is, the control circuit 20 controls the switching control means 20a thereof to connect the infrared receiver 18 to the distance control circuit of the subject 26 through the selection switch 24, allowing thus to measure the distance of the subject and the focusing operation, such as the emission of the infrared radiation for measuring the subject's distance from the infrared emitter for measuring the distance of the subject 14. When the distance measurement of the subject and the focusing operation are completed, the trigger operation is performed. Next, the selection switch 24 is switched by Ziia switching control means to connect the infrared receiver 18 to the infrared receiver circuit. remote control 28.

 If no trigger start signal is included in the signal transmitted from the remote control infrared transmitter 32, no trigger operation is performed in the previously mentioned process.

 According to the embodiment mentioned above, since the infrared receiver 18 for the subject's distance measuring device is also commonly used as an infrared receiver for the control device remote from the camera, no additional infrared receiver is required for remote control only, thus leading to easy integration of the remote control device into the camera.

 Alternatively, it is possible to include discrimination signals in the distance signal of the subject and in the remote control signal to discriminate from each other. In this variant, if the subject distance control circuit 26 and the remote control infrared receiver circuit 28 provide discrimination functions of the subject distance signal and the remote control signal, the selection switch 24 can be avoided. In this case, the outputs of the infrared receiver 18 are again applied to the distance control circuit of the subject 26 and to the remote control remote receiver circuit 28.

 In the embodiment mentioned above, the control circuit 20, the distance control circuit of the subject 26 and the remote control remote receiver circuit 28 are three independent circuits, but these circuits can be realized on a chip of a microcomputer.

 The switching function of the remote control device may include control functions, such as the changing of the photographic mode, the forced activation of the sampling, etc., in addition to the triggering function.

 As can be understood from the foregoing, in accordance with the present invention, since the infrared receiver of the remote infrared controller and the infrared receiver of the infrared active AF device are constituted by a single same infrared receiver, no additional infrared receiver applied to the remote controller alone is required, thereby leading to increased design freedom and easy integration of the remote controller into a compact camera without increasing the size of the camera,

Claims (13)

 An active AF camera characterized in that it comprises an active distance measuring device of the subject in that a first emitter (14) which emits a first signal emitting wave medium for measuring a subject distance a subject (16) in between photographed and a first receiver which receives the signal-transmitting wave carrier reflected from the subject (and a remote control receiver which receives a second signal-emitting wave carrier transmitted from a second transmitter (z.2) of a remote control device for controlling the remote camera, wherein said first receiver and the remote control receiver  consist of a single common receiver (18),  Active AF camera according to claim 1, characterized in that said signal-emitting wave carrier consists of infrared rays.  Active AF photographic apparatus according to claim 1, characterized in that it further comprises subject distance control means (26) for arithmetically calculating the distance of the subject when the single common receiver (18) receives the first signal-transmitting wave carrier, remote control means (2i for performing a camera trigger operation when the single common receiver (18) receives the second signal-transmitting medium and switching means (30) for selectively connecting the output of the single common receiver (18) to the remote control means (28) or to the distance control means of the subject (2  Active AF camera according to claim 3, characterized in that it further comprises switching control means for controlling the selection means to connect the single common receiver to the distance control means of the subject when the first transmitter emits the first signal-emitting wave carrier et to connect, in the other case, the single common receiver to the remote control means.  An active AF photographic apparatus characterized by comprising an active distance measuring device of the subject having a first transmitter 814) which emits a first signal-transmitting wave medium for measuring a subject's distance from a subject ( -16> in front of between photographed and a first receiver receiving the signal transmitting wave carrier reflected by the subject (16), a second transmitter (32) which emits a second signal transmitter medium for remote camera control and a second receiver which receives the second signal-emitting wave carrier transmitted from the second transmitter (said first transmitter (14j and the second receiver being constituted by a single same receiver (18),  Active AF photographic apparatus according to claim 5, characterized in that the signal-emitting wave carrier consists of infrared rays.  Active AF photographic apparatus, characterized in that it comprises a remote control device (14) and an active distance measuring device of the subject comprising a single receiver (18) which receives a transmission of a transmitter for transmitting a distance measurement signal. the subject emitted from an active distance measuring device of the subject and a remote control signal transmitting wave medium transmitted from the remote control device C32).  An active AF camera as claimed in claim 7, characterized in that said signal-emitting wave carrier consists of infrared rays.  Active AF camera according to claim 7, characterized in that it further comprises control means for controlling the single receiver so that the latter receives the control signal transmitter wave medium first. remote and then the transmitting waveform signal carrier of the subject during a remote control photograph.  An active AF camera providing a remote control function, characterized in that a receiver receives a remote control signal transmitting wave medium for sending a distance signal of the subject and a distance measuring function of the subject in which the The subject distance signal signal transmitting waveform is transmitted in accordance with the distance signal of the subject, so that the distance measuring signal transmitting waveform carrier of the subject is reflected by a subject (16). ) photographed front is received by a second receiver  to detect a distance from the subject, said first previously mentioned receiver and the second receiver consisting of a single common receiver (  An active AF camera according to claim 10, characterized in that said signal-emitting wave carrier is comprised of infrared rays.  An active AF camera according to claim 10, characterized in that said common receiver (18) first receives the remote control signal transmitting wave carrier and then the distance measuring signal transmitting wave carrier. of the subject Pu course of a photograph in remote control.  Active AF camera according to claim 12, characterized in that, by detecting the distance of the subject, said control means causes a focusing lens integrated in the camera to arrive at a desired focal position corresponding to the subject. distance from the subject and then releases a shutter from the camera.