KR910005442B1 - Photographing apparatus for camera - Google Patents

Abstract

The controller for the fixed focal length type camjera, offers the proper focus and exposure automatically for photographing in the close-up or backlighting condition. The controller comprises: a compensation switch (SW) for close range base bias resistancess (R1,R3) and first, second transistors (TR1,TR2) connected with base; flash radiation waiting device (10) mounted at terminal (A) connected with the collector and at terminal (B) connected with the emittor; photoelectric element (Cds) at terminal (C,D) connected with each of collector and emittor. The controller enables it to perform photographing in daylight close-up or indoor close-up flash or backlighting conditions.

Description

Proximity and backlighting of fixed-focus autoexposure cameras

1 is a block diagram illustrating the concept of the present invention.

2 is a detailed circuit diagram used in the present invention.

* Explanation of symbols for main parts of the drawings

A, B, C, D: Terminal 1: Switching Circuit

cds: optoelectronic device 2: aperture control switching circuit

R ₁ , R ₂ , R ₃ , R ₄ : Resistor 4: Conventional camera circuit

SW: Compensation switch 5: Receiver

TR ₁ : First transistor 7: Associator

TR ₂ : Second transistor 10: Flash light emitting device

Vcc: Power 11: Aperture

The present invention relates to a proximity and backlighting apparatus of a fixed-focus autoexposure camera. In particular, in a fixed-focus autoexposure camera, a phenomenon in which the focus is not matched during close-up photography or the exposure is excessive during flash photography and backlighting The present invention relates to a proximity and backlighting device incorporating a circuit capable of improving and supplementing this almost impossible point.

In the conventional fixed-focus autoexposure camera, the subject's focus does not fit well in the close-up photographing method within a distance of approximately 1.5 mm, or the exposure is excessively generated during flash photography, and the subject is reflected white. When shooting, even if the aperture is adjusted to the minimum diameter, there is a problem in that it is impossible to shoot because there is almost no light reflected from the subject.

The present invention has been made to solve the problems of the conventional fixed-focus automatic exposure camera has the following object.

The first object of the present invention is to close and backlit a fixed-focus automatic camera that improves the resolution by automatically adjusting the aperture to deepen the depth of field to completely eliminate the blurring of the subject focus even in close-up photography. The present invention provides a photographing apparatus.

The second object of the present invention is to provide a fixed-focus auto exposure camera that automatically adjusts the iris even when taking a close-up flash shot indoors to prevent exposure and multi-development and to obtain a bright and clear picture. The present invention provides a proximity and backlighting apparatus.

It is a third object of the present invention to provide a proximity and back light photographing apparatus of a fixed-focus auto exposure camera that enables a flash to be photographed in front of a subject by forcibly operating a flash at an appropriate exposure value for a subject even in back light photography.

The present invention provides a resistor that serves as a base bias resistor of a first transistor, a resistor for collector-emitter current control of a first transistor, and a second transistor for realizing these objects. The base bias of the transistor, the resistor acting as a resistor, the resistor connected in parallel with the optoelectronic device to control the aperture, the first transistor for synchro switching of the flash during button operation, the resistor for controlling the aperture and the optoelectronic device A device having a second transistor connected in parallel is connected to both ends of a flash synchronization ready switch of a camera and an optoelectronic device.

Next, with reference to the accompanying drawings will be described in more detail with respect to the proximity and backlighting apparatus of the present invention fixed-focus automatic exposure camera.

In FIG. 1, the switching circuit 1 incorporated in the apparatus of the present invention has a correction switch SW on a line to which a power supply Vcc is applied, and the flash tuning preparatory switching circuit 2 and the aperture control switching circuit 3 Each circuit (2, 3) is coupled to the operation unit (7) connected in parallel with the flash light standby device (10) and the light receiving unit (5) built in the conventional fixed-focus auto exposure camera. In this case, the conventional fixed-focus auto-exposure camera circuit 4 drives the aperture through the operation unit 7 and the control unit 8 to which the light receiving unit 5 having the photoelectric elements (cds) and the ASA data 6 are connected. It is configured to be connected to the circuit connected to the aperture (11) to the device (9) and the circuit for connecting the flash 12 to the flash light emitting device (10), between the flash light waiting device (10) and the flash (12) The tuning switch is interposed.

As shown in FIG. 2, a circuit incorporated as a proximity and back light photographing apparatus of the fixed focus self-exposure camera of the present invention has a correction switch SW on a terminal side line to which a power supply Vcc is applied, and the correction position SW In the flash tuning preparation switching circuit 2 and the aperture control switching circuit 3 connected through the circuit, the bare bias resistors R ₁ and R _{3 are} formed of the first transistor TR ₁ and the second transistor TR ₂ . Terminals (A) are connected to the base of the first transistor (TR ₁ ) by connecting a resistor (R ₂ ) to the collector side of the first transistor (TR ₁ ), and the terminal (B) at the emitter side output terminal of the first transistor (TR ₁ ). The flash emission standby apparatus 10 of the conventional fixed focus auto exposure camera is coupled to both terminals A and B, and the second transistor TR ₂ connects a resistor R ₄ to the collector side. A terminal (C) is formed and a terminal (D) is formed on the emitter side, which is an output terminal, and both terminals (C, D) are formed. The photoelectric device (cds) built in the conventional fixed-focus auto exposure camera is configured by connecting the resistor (R ₄ ) and the second transistor (TR ₂ ) in parallel.

At this time, the resistors R ₁ , R ₂ and R ₃ have a bias resistance value suitable for the characteristics of the first transistor TR ₁ and the second transistor TR ₂ , and the resistor R ₄ is flashed in daylight or indoors. The first transistor TR ₁ and the second transistor TR ₂ have appropriate resistance values calculated by calculating data of the amount of light received from the photoelectric elements cds at the time of photographing or backlighting and ASA data. Operation is performed in the saturation region of the transistor to perform a switching operation, and at the same time, the compensation switch SW is a switching to supply or cut off the power supply Vcc.

Next, the operation and effects of the present invention will be described based on the technical contents of the present invention described above.

First of all, in the camera with the built-in device, when the user wishes to take close-up photography in daylight, when the compensation switch SW is pressed, the power supply Vcc is connected to the first transistor through the resistor R ₁ and the resistor R ₂ . TR ₁ ) and the second transistor TR ₂ are applied to the base, respectively, so that the first transistor R ₁ and the second transistor TR ₂ are turned on, and thus the first transistor TR ₁ is turned on. Is ready for flash synchronization, and the second transistor TR ₂ has a lower resistance than the resistance of the actual photoelectric device cds having the photoelectric elements cds and the resistor R ₄ connected in parallel. It is determined to be brighter than the actual exposure in the conventional control computing device inside to reduce the aperture, deepen the depth of the lens to improve the resolution to improve the focus of the subject at close range. In addition, the aperture is reduced so that the flash is operated to compensate for the insufficient exposure amount less than the proper exposure.

In the case of a close-up flash shooting indoors, the conventional camera is over-exposure when the maximum aperture of the aperture is formed, but when the correction switch (SW) is pressed in the device of the present invention, as in the above-mentioned daylight close-up photography The first transistor TR ₁ and the second transistor TR ₂ are turned on to reduce the aperture size to a prescribed aperture according to the ASA value, and an appropriate exposure value is formed to obtain a clear picture. .

In back light photography, a photoelectric element (cds) of a camera generally receives strong light, and the aperture is operated to a minimum diameter by a conventional camera control computing device. At this time, when the switch SW of the device is turned on, the first transistor TR ₁ and the second transistor TR ₂ are also turned on as in the case described above. The first transistor TR ₁ is ready for flash tuning, and the second transistor TR ₂ resistor R ₄ and the photoelectric elements cds are connected in parallel so that the actual photoelectric elements cds are provided. Since the sum of these resistance values is smaller than the resistance values, the camera's control unit determines that it is brighter than the actual exposure, but the aperture is not reduced anymore, so the flash 12 is activated and emits light when shooting so that the front of the subject is momentarily It can be brightened so that a good picture can be taken even in backlight.

Therefore, the present invention provides a built-in switching circuit (1) of the fixed focus self-exposure camera having a built-in switching device (1) by only pressing the correction switch (SW) even in close-up photography or indoor flash photography or backlight photography in daylight. ) And circuits (8, 7) such as the control operation unit attached to the existing camera work together to obtain a bright and clear picture by deepening the depth or making an appropriate exposure state through the operation of the aperture 11 and the flash 12. It is also a compact camera that can expect a close-up effect when shooting a portrait or still life. It is simple and inexpensive, and combines all the functions of high-end models such as an autofocus camera. It is an invention having performance and effect.

Claims (1)

In a fixed-focus autoexposure camera, a base bias resistor (R ₁ , R ₃ ) is provided with a first correction switch SW on a terminal side line to which a power supply Vcc is applied, and then through the correction switch SW. The first transistor TR ₁ is connected to the bases of the second transistors TR ₁ and TR ₂ , and the first transistor TR ₁ connects a resistor R ₂ to the collector side to form a terminal A, and the terminal B on the emitter side. ), And the flash emission standby apparatus 10 of the conventional fixed-focus autoexposure camera is coupled to the terminals A and B, and the second transistor TR ₂ connects the resistor R ₄ to the collector side. The terminals C are connected to each other, and the terminals D are formed on the emitter side, and the terminals C and D include photoresist devices cds built in a conventional fixed-focus autoexposure camera and a resistor R ₄ . a second transistor (TR ₂₎ during daylight according to the operation of the correction switch (SW) connected in parallel to the close-up, close-up flash indoor shooting again Fixed focus proximity and backlighting apparatus of an automatic exposure camera, characterized in that made possible to perform the backlighting.

Images