JP2003262900A - Stroboscopic close-up photographic camera system and accessary thereof - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a stroboscopic close-up camera system and an accessary thereof which can be used for general photographing and irregular light distribution never occurs in close-up photographing. <P>SOLUTION: The system comprises: a camera main body 1 respectively provided with controlling communication lines SI, SO, CLK and GND; an auto focus interchangeable lens part 2; and an external stroboscopic flash apparatus part 3 for close up which is attachable and detachable to and from the tip of this interchangeable lens. The light emission of external strobes 3-2 and 3-3 for the external stroboscopic flash apparatus part 3 is controlled through the controlling communication lines SI, SO, CLK and GND by a CPU 1-4 for camera control, a CPU 2-2 for lens control and CPUs 3-13 for controlling the external stroboscopic flash apparatus of the camera main body 1. <P>COPYRIGHT: (C)2003,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a strobe close-up photography camera system and its accessories, and more particularly to an interchangeable lens and an external strobe flash device for close-up photography.

[0002]

2. Description of the Related Art Since close-up photography is performed at a close range, it is desirable that the light emitted from a strobe flash device illuminates an object to be photographed entirely.

Conventionally, a power source section of a strobe flash device is mounted on an accessory shoe of a camera body, and a ring-shaped light emitting section of the strobe flash device connected to the power source section via an electric wire is mounted on a tip portion of an interchangeable lens. Then, a method of illuminating an object to be photographed by attaching a strobe flash device, in which the light is emitted when the shutter is activated, or the light emitting unit can be moved up and down, to the accessory shoe of the camera body, and the light emitting unit is directed downward .

However, the former ring flash type is for close-up photography only and is not suitable for general photography, and the latter has the problem that the illumination light averaged on the object to be photographed is not applied and uneven light distribution occurs. It was

[0005]

SUMMARY OF THE INVENTION Therefore, the present invention is intended to provide a strobe close-up photography camera system which can be used for general photography and which does not cause uneven light distribution during close-up photography, and its accessory. .

[0006]

The present invention has been made to solve the above problems, and the invention according to claim 1 is
The flash unit for close-up photography comprises a camera body each having a communication line for control, an interchangeable lens, and an external strobe flash device for close-up photography that is detachably attached to the tip of the interchangeable lens. A strobe close-up photography camera system characterized in that the external strobe flash device for close-up photography is controlled to emit light via a communication line.

According to a second aspect of the present invention, the camera body and the interchangeable lens are of an autofocus type, and the close-up external strobe flash device is of a variable focal length type light emitter. It is a flash close-up photography camera system.

According to a third aspect of the present invention, there is provided an autofocus interchangeable lens characterized in that a terminal connected to a communication line for autofocus is provided at the tip of the lens barrel.

According to a fourth aspect of the present invention, a variable focal length type light emitter, a power source section thereof, and a control C for controlling the power source section are provided.
An external strobe flash device for close-up photography, comprising a PU, and an input terminal connected to the control CPU provided at a mounting portion of the interchangeable lens to the lens barrel distal end portion.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments in which the present invention is applied to an autofocus camera system will be described below.

FIG. 1 is a block diagram showing an embodiment of the present invention, in which 1 is an autofocus camera body part, 2 is an autofocus interchangeable lens part, and 3 is an external strobe flash device part (hereinafter referred to as EF part). Is. In order to clarify the details of each part, an enlarged view is shown in FIGS.

The camera body 1 includes a battery 1-1, a control power source 1-2 for making a power source for the camera arithmetic control CPU 1-4 from the battery 1-1, and a power source 1 for making a motor power source.
-3, the camera arithmetic control CPU 1-4 controls the camera.

Reference numeral 1-7 is an operation unit, and switches SW1 to SW
The mode of the camera is set by 4. Reference numeral 1-5 is a photometric sensor circuit for performing photometry, and 1-6 is an AF circuit for focusing the photographing lens system, each of which is a CP for camera calculation control.
It is connected to U1-4.

1-8 is a feeding circuit for activating the motor 1-9, and 1-10 is a one-push switch for performing ISO sensitivity selection, photographing mode selection, F value selection, shutter speed selection, and the camera arithmetic control CPU 1. -4 is connected. Then 1-11 is a shutter release switch,
It is connected to the camera calculation control CPU 1-4, and the output sides of the camera calculation control CPU 1-4 and the power supply 1-3 are electrically connected to the terminals provided on the mount 1-12 of the camera body 1. Has been done.

The autofocus interchangeable lens unit 2 has a bayonet 2-1 having a terminal electrically connected to a terminal provided on the mount 1-12 of the camera body 1, and a lens control CPU 2 based on an instruction from the camera. -2 controls the motor circuits 2-3 and 2-5 to incorporate the AF motor 2-4 and the diaphragm drive motor 2-6.

At the tip of the lens unit 2, power terminals PW and PG for controlling the external strobes 3-2 and 3-3 of the external strobe flash device unit 3 (EF unit) for close-up photography and communication are provided. Terminals SI, SO, CLK, GND
There is provided a lens adapter ring 3-1 having two sets.

The EF portion 3 is formed in a ring shape, and external strobes 3-2 and 3-3 having variable focal length light emitting portions 3-8 are provided on the left and right or top and bottom thereof.

The external strobes 3-2 and 3-3 are controlled from the power supply signal terminal of the lens adapter ring 3-1 to the control CPU power supply 3-5 for powering the control CPU 3-13 in the strobe flash unit 3. A motor circuit power supply 3-4 and a light emission power supply 3-6 for controlling the focal length of the reflecting mirror of the light emitting unit with a motor from the CPU 3-13 for use,
Further, a variable focal length light emitting section 3-8 equipped with a reflecting mirror 3-14
Is provided. In addition, 3-9 is a Fresnel lens for converging light between light emission.

The variable focal length light emitting section 3-8 comprises a booster circuit 3-10 for boosting a voltage from a light emitting power source 3-6, and an arc tube 3.
A light emitting control circuit 3-11 for controlling the light emission of -12, a light emitting tube 3-12 connected to the light emitting control circuit 3-11, and a reflecting mirror 3-14, and a lens adapter ring 3-11.
Signal terminals SI, SO, CL for communication with one end connected to 1
K and GND are connected to the control CPU 3-13, and the communication terminals SI and C of the lens adapter ring 3-1.
The LK is connected to the light emission control circuit 3-11.

In the embodiment configured as described above,
First, when the first switch of the shutter release switch 1-11 is turned on, the AF circuit operates, and the camera calculation control CPU 1-4 causes the SI, SO, CLK of the mount 1-12 to operate.
The lens movement amount is transmitted to the lens calculation control CPU 2-2 through the communication contact of, and the lens control CPU 2-2 outputs a signal to the AF motor circuit 2-3 to cause the AF motor 2-
4 is operated.

When the AF adjustment lens (not shown) is moved and the camera calculation control CPU 1-4 confirms that the camera is in focus, the photometric sensor circuit 1-5 measures the brightness of the subject and the camera aperture. When it is darker than the setting, the second switch of the shutter release switch 1-11 is turned on, and the communication terminal SI signal of the accessory shoe and the bayonet is set to High at the same time when the shutter is fully opened. And the lens adapter ring 2-7 and the lens adapter ring 3 of the lens
The communication terminal signal of -1 is transmitted to the EF control CPU 3-13 and the emission control circuit 3-11 of each of the external strobe 3-2 and the external strobe 3-3, and the EF control CPU 3-3.
When the light emitting signal is recognized by the light emitting signal 13, each light emitting control circuit 3-1.
1 makes the arc tubes 3-12 and 3-12 emit light.

Then, when the object is irradiated with the reflected light and the exposure amount on the image plane is measured by the photometry circuit of the camera to reach the proper amount, the photometry circuit of the camera sets the communication terminal CLK signal of the mount to Low and the lens adapter. The information is transmitted to the lens adapter ring 3-1 through the communication terminal CLK of the ring 2-7.
Of the external strobe 3-2 and the external strobe 3-3, the same EF control CPU 3-13 and light emission control circuit 3-11.
When the EF control CPU 3-13 recognizes this signal as a light emission stop signal, the light emission control circuit 3-11 stops the light emission of the arc tube 3-12.

Power for the lens control CPU 2-2 is supplied from the VCC terminal of the camera body 1. Then, the camera arithmetic control CPU 1-4 and the lens control CPU 2-2 communicate using three lines of SI, SO, and CLK, and at the same time, the EF control CPU 3-13 also communicates with the camera body unit 1. It can be performed.

S of the lens adapter rings 2-7 and 3-1
The I terminal communicates data from the camera, the SO terminal communicates data between the lens unit and the external strobes 3-2 and 3-3, and the CLK terminal transmits a data clock to transmit data from the camera body 1 to the external strobe. Communication with. The PW terminal of the lens adapter ring 2-7 is the power source of the strobe and the motor circuit 3-7 for the variable focal length.
Used for.

In this variable focal length system, when the camera body 1 requests the lens to obtain the focal length information, the lens sends the focal length information to the camera body 1, and the camera body 1 uses the external strobe according to the information. Send focal length information to. EF control CPU 3-13, 3-of each strobe
When 13 receives the focal length information from the camera body 1,
The reflecting mirror 3 is operated by operating the motor circuit 3-7 for the variable focal length.
The focal length is set by the distance between -14 and the Frennel lens 3-9.

As described above, according to the camera system of the present invention, it is possible to perform close-up flash photography without uneven light emission during close-up photography, and it can also be used for general photography. It is far superior to the device.

[0027]

According to the invention of the strobe close-up photography camera system described in claim 1, it is possible to obtain the effect that strobe close-up photography without unevenness of light distribution can be performed and it can also be used for general strobe photography. To be

According to the invention of the stroboscopic close-up photography camera system described in claim 2, in addition to the effect in the invention described in claim 1, there is an effect that proper stroboscopic illumination according to the focal length can be obtained.

[Brief description of drawings]

FIG. 1 is a block diagram of an embodiment of the present invention.

FIG. 2 is an enlarged block diagram of a camera unit shown in FIG.

FIG. 3 is an enlarged block diagram of a lens unit shown in FIG.

FIG. 4 is an enlarged block diagram of an EF unit shown in FIG.

[Explanation of symbols]

1 Camera body 1-1 battery 1-2 Control power supply 1-3 power supply 1-4 CPU for camera arithmetic control 1-5 Photometric sensor circuit 1-6 AF circuit 1-7 Operation part 1-8 Feeding circuit 1-9 motor 1-10 One push switch 1-11 Shutter release switch 1-12 mount 2 Autofocus interchangeable lens section 2-1 Bayonet 2-2 Lens control CPU 2-3 AF motor circuit 2-4 Motor 2-5 Aperture motor circuit 2-6 Aperture drive motor 2-7 Lens adapter ring 3 External strobe flash device section (EF section) 3-1 Lens adapter ring 3-2, 3-3 External strobe 3-4 Power supply for motor circuit 3-5 Control CPU power supply 3-6 Power supply for light emission 3-7 Motor circuit 3-8 Variable focal length light emitting unit 3-9 Fresnel lens 3-10 Booster circuit 3-11 Light emission control circuit 3-12 arc tube 3-13 Control CPU 3-14 Reflector

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁷ Identification code FI theme code (reference) G03B 15/03 G03B 15/03 PX 17/14 G02B 7/11 Z 17/14 G03B 3/00 Z F Term (reference) 2H044 AE07 AE09 AJ06 2H051 EB07 2H053 BA72 BA82 CA02 CA06 CA08 CA13 CA15 CA18 CA22 CA32 DA04 2H101 EE08 EE21 EE75 EE76 EE93

Claims (4)

[Claims] 1. A camera body, each having a communication line for controlling a close-up strobe flash device, and an interchangeable lens,
The interchangeable lens has a detachable external flash strobe device for close-up photography, which is a CPU of the camera body.
The strobe close-up photography camera system is characterized in that the external strobe flash device for close-up photography is controlled to emit light via the control communication line. 2. The flash close-up photography camera according to claim 1, wherein the camera body and the interchangeable lens are of an autofocus type, and the close-up external strobe flash device uses a variable focal length type light emitter. system. 3. An autofocus interchangeable lens, characterized in that a terminal connected to an autofocus communication line is provided at the tip of the lens barrel. 4. A variable focal length type light emitter, a power supply unit for the same, and a control CPU for controlling the power supply unit, and the control CPU is connected to a mounting portion of the interchangeable lens to the lens barrel tip. An external strobe flash device for close-up photography, which is equipped with an input terminal that