JP4263876B2 - camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera that can continuously perform shooting without flashing and shooting with flashing on the same screen.
[0002]
[Prior art]
Shooting may be performed on a subject that has a large difference in distance from the camera. For example, when a person in the vicinity is photographed against a background of a building such as a mountain, lake, or bridge far away.
When shooting a subject with a large difference in distance under dark conditions, the background located far away is not clearly exposed or hardly visible even if a strobe light (flash) is emitted. For this reason, a mode in which shooting with no flash light and shooting with flash light are continuously performed on the same screen (multiple) so that both subjects with large differences in distance can be properly captured. Cameras equipped with an exposure night view mode) have been commercialized (see Japanese Patent No. 3008190, etc.). The camera performs shooting in the multiple exposure night scene mode setting by opening and closing the shutter, focusing, and flash light emission at the flow and timing as shown in FIG.
On the other hand, it is known that when a person or the like is used as a subject in a dark situation and shooting is performed with flash light emitted (flash shooting), a red-eye phenomenon occurs in which the flash light is reflected and the eyes appear red. One of the causes has been found that the pupil of the eye is enlarged due to the darkness. Therefore, a camera equipped with a flash photography mode (red-eye reduction mode) that emits a flash to reduce the pupil of the eye (for example, a strobe light whose light intensity is lower than usual) to prevent red-eye phenomenon. Has been commercialized (see Japanese Patent Publication No. 58-48088). At present, cameras equipped with these modes have been commercialized.
[0003]
[Problems to be solved by the invention]
In the conventional camera equipped with the multiple exposure night scene mode and the red-eye reduction mode, when both modes are set, as shown in FIG. 7, the first shooting in the multiple exposure night scene mode → the red-eye reduction mode Shooting was performed in the sequence of operation (flash light emission for preventing red-eye phenomenon) → second shooting in the multiple exposure night view mode. As described above, since the red-eye reduction mode is activated during the shooting in the multiple exposure night view mode, the second shooting from the start of the first shooting is performed as compared with the case where the red-eye reduction mode is not set (see FIG. 6). There was a problem that the shooting time, which is the time until the end, was long.
As the subject moves during shooting, the shooting state deteriorates (decreases). It is painful for a person not to move. For this reason, the longer shooting time means that the requirement for shooting for a person becomes practically stricter. For this reason, it is considered that an increase in shooting time should be avoided.
It is an object of the present invention to provide a camera that avoids fluctuations in the shooting time of shooting performed on a subject having a large difference in distance depending on whether or not the red-eye phenomenon is prevented.
[0004]
[Means for Solving the Problems]
The cameras according to the first and second aspects of the present invention are both provided with the following means on the premise that photographing can be performed by causing the flash light emitting means to emit flash light.
The camera according to the first aspect includes a light emission control means for causing the flash light emitting means to emit a flash light, a first photographing performed on the same screen without causing the flash light emitting means to emit a flash light, and a flash light to the flash light emitting means. In order to prevent the red-eye phenomenon when a second exposure is performed by using a multiple-exposure shooting mode that is performed after the first shooting, and when shooting is performed using the flash light emitting means, a predetermined time before the start of shooting. A red-eye prevention mode for performing pre-flash, and when shooting in the multiple exposure shooting mode and the red-eye prevention mode, the timing of the pre-flash that is performed a predetermined time before the start of the second shooting is the exposure timing of the first shooting The first exposure is interrupted and pre-flash is performed, and then the first exposure is resumed to perform the first and second shooting in the multiple exposure shooting mode . Photographing control means to perform, To.
The camera according to the second aspect includes a light emission control means for causing the flash light emitting means to emit a flash light, a first photographing performed on the same screen without causing the flash light emitting means to emit a flash light, and a flash light to the flash light emitting means. In order to prevent the red-eye phenomenon in a multiple exposure shooting mode in which the second shooting performed by emitting light is performed following the first shooting, and when shooting using the flash light emitting means, a predetermined time before the start of shooting. A pre-flash red-eye prevention mode and distance measuring means for measuring the distance between the camera and the subject, and when shooting in the multiple exposure shooting mode and the red-eye prevention mode, a predetermined time before the start of the second shooting If the pre-flash timing overlaps with the exposure timing of the first shooting, the pre-flash timing is less than the flash amount determined from the distance obtained by the distance measuring means and the under limit of the film latitude. Comprising a photographing control means for performing control to perform the first and second imaging multiple exposure shooting mode performs light emission, the.
[0005]
Also, the imaging control unit may further emit light before the start of the flash for preventing red-eye phenomenon first imaging, it is desirable.
In the present invention, for the same screen, a multiple exposure shooting mode in which the first shooting without flashing and the second shooting with flashing are performed following the first shooting, and the flash is performed. When shooting using the light emitting means, when performing shooting in the red-eye prevention mode in which pre-flash for preventing red-eye phenomenon is performed a predetermined time before the start of shooting, pre-processing performed a predetermined time before the start of the second shooting is performed. When the light emission timing overlaps with the exposure timing of the first photographing, the first photographing exposure is interrupted and the pre-light emission is performed. By emitting a flash for preventing red-eye phenomenon at that timing, it is possible to perform the first and second photographing along the mode regardless of whether the flash is emitted. As a result, the shooting time from the start of the first shooting to the end of the second shooting can be made constant regardless of whether or not the flash is emitted. When the flash is emitted, the red-eye phenomenon can be prevented by the emission.
In the present invention, for the same screen, a multiple exposure shooting mode in which the first shooting without flashing and the second shooting with flashing are performed following the first shooting, and the flash is performed. When shooting using the light emitting means, when performing shooting in the red-eye prevention mode in which pre-flash for preventing red-eye phenomenon is performed a predetermined time before the start of shooting, pre-processing performed a predetermined time before the start of the second shooting is performed. If the light emission timing overlaps with the exposure timing of the first shooting, the light emission is smaller than the light emission amount obtained from the distance obtained by the distance measuring means for measuring the distance between the camera and the subject and the under limit of the film latitude. Pre-flash with the amount. The first and second shootings can be performed according to the mode regardless of whether or not the flash is emitted during the first shooting by emitting the flash for preventing the red-eye phenomenon with the light emission amount. It becomes possible. As a result, the same effect can be obtained.
[0006]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
<First Embodiment>
FIG. 1 is a circuit configuration diagram of a camera (photographing apparatus) according to the first embodiment.
The camera shoots by exposing the film set inside, and as shown in FIG. 1, a CPU 101 for controlling the entire camera, a motor M1 for film conveyance, and the motor M1 are provided. A film feeding circuit 102 to be driven, a motor M2 for adjusting the focal length of a zoom lens (not shown), a zoom driving circuit 103 for driving the motor M2 to change a photographing magnification, and a motor M3 for focusing The focus drive circuit 104 that performs focusing by driving the motor M3, the motor M4 for opening and closing the shutter, the shutter drive circuit 105 that opens and closes the shutter by driving the motor M4, and the xenon tube that emits strobe light 106, a strobe circuit 107 that emits strobe light to the xenon tube 106, and photographing A distance measuring circuit 108 for measuring the distance between the subject located in the central region of the field, a light measuring circuit 109 for measuring the amount of light passing through the photographing lens, and a film sensitivity detection for detecting the sensitivity of the set film A switch (SW) 110; and an operation unit 111 having a release switch for instructing start of shooting, a switch for setting a shooting magnification, and a plurality of switches for setting various modes (both not shown). It is configured. The mode setting switches include a multiple exposure shooting mode setting switch and a red-eye reduction mode setting switch.
[0007]
The operation in the above configuration will be described.
The CPU 101 monitors the state changes of the various switches and the film sensitivity detection switch 110 that constitute the operation unit 111, and executes control according to the state-changed switch and the content of the change. As a result, various modes are set and canceled, the shooting magnification is set with driving the motor M2 to the zoom drive circuit 103, shooting is performed according to the mode being set, and the like.
The photographing is performed by opening and closing the shutter by driving the motor M4 in the shutter driving circuit 105 when the operation to the release switch is detected. Other than that, there is a need for focusing by driving the motor M3 to the focus driving circuit 104 according to the distance to the subject measured by the distance measuring circuit 108, and the necessity of emitting strobe light from the amount of light measured by the light measuring circuit 109. Judgment is also made. In a situation where it is determined that there is a need to emit strobe light, the strobe circuit 107 is caused to emit the xenon tube 106 during photographing. After shooting, the film feeding circuit 102 drives the motor M1 to feed the film.
[0008]
FIG. 2 is a diagram showing a shutter sequence when the multiple exposure night view mode and the red-eye reduction mode are set. This shows the timing for opening and closing the shutter, focusing, and emitting strobe light. Next, with reference to FIG. 2, a photographing operation performed under the control of the CPU 101 when the multiple exposure night view mode and the red-eye reduction mode are set will be described in detail.
In this embodiment, as shown in FIG. 2, when the user operates the release switch, the strobe light for preventing red-eye phenomenon indicated as “pre-irradiation” in the figure is emitted by the xenon tube 106 and then the strobe light. The first shooting without focusing on, focusing, and the second shooting performed by emitting strobe light for shooting indicated as “main flash” in the figure are sequentially performed. Before the first shooting, focusing suitable for distant shooting is performed.
In order to reduce the human pupil by pre-irradiation, it takes about 0.75 to 1.3 seconds. Experimentally, it is known that the red-eye phenomenon is sufficiently reduced in about 1 second. Conversely, a reduced pupil does not return to its original size at the same time, that is, it takes a longer time to return to its original size. Therefore, as shown in FIG. 2, the red-eye phenomenon can be reduced even if pre-irradiation is performed before the first photographing. The shooting time from the start of the first shooting to the end of the second shooting is constant regardless of whether or not the pre-irradiation is performed in order to perform the pre-irradiation before the first shooting (start). It can be. Note that the shutter sequence when pre-irradiation is not performed is the same as in FIG.
[0009]
<Second Embodiment>
In the red-eye reduction mode, the waiting time from pre-irradiation to main light emission is normally about 1 second. However, in the first embodiment, since pre-irradiation is performed before the first imaging, the waiting time may be longer depending on the time (exposure time) required for the first imaging. The exposure time may be changed according to the film sensitivity indicated by the film sensitivity detection switch 110 and the output value of the photometry circuit 109. The fluctuation of the waiting time caused by such a thing is not desirable because it may make a person feel uncomfortable. In the second embodiment, it is avoided to make a person feel such a sense of incongruity.
The configuration in the second embodiment is basically the same as that of the first embodiment. As for the operation, the shooting operation at the time of setting the multiple exposure night view mode and the red-eye reduction mode is different from that of the first embodiment. For this reason, only the photographing operation will be described with reference to FIG. 3 while using the reference numerals in the description of the first embodiment as they are.
[0010]
In the second embodiment, as shown in FIG. 3, pre-irradiation is performed a predetermined time before the start of the second imaging. The predetermined time is a waiting time (for example, 1 second) from pre-irradiation to main light emission in the red-eye reduction mode. Thereby, the waiting time from pre-irradiation to main light emission is made the same when only the red-eye reduction mode is set and when the multiple exposure night view mode is set. For this reason, it is possible to avoid making a person feel a sense of incongruity as described above.
In the first shooting, focusing suitable for distant shooting is performed. For this reason, there is a possibility that a subject close to the subject will be shot out of focus due to pre-irradiation. This possibility can be avoided or reduced as follows.
[0011]
In recent years, IGBTs (Insulated Gate Biplar Transistors), which are power devices, have been downsized and are increasingly used as current control elements used in the strobe circuit 107. As a result, it is also widely used in cameras with built-in flash.
The effective amount of pre-irradiation for preventing the red-eye phenomenon while avoiding the shooting of a blurred subject near the subject is about GNo. (Guide number) 1 to 2 when the film sensitivity is ISO100. In the IGBT, the light emission amount control of about GNo. 1 or 2 can be easily performed. For this reason, by mounting the strobe circuit 107 using the IGBT, it is possible to perform effective pre-irradiation at the timing shown in FIG.
On the other hand, a color negative film with the widest latitude is exposed to about ± 4 Ev with respect to an appropriate amount of light. For example, assuming that an ISO 100 film is used and the brightness of the continuous steps is F4.0 and the subject distance L is 3 m, the appropriate GNo. Can be obtained by the following calculation formula.
Appropriate GNo. = F × L = 4 × 3 = 12 (1)
At this time, the GNo. In the case of changing a predetermined exposure step number (difference in exposure correction value) dEv from the appropriate GNo. The limit Gno. Of −4 Ev, which is the under limit of the film latitude, can be obtained by the following equation.
Limit GNo. = Appropriate GNo. × 2 ^{dEv / 2} = 12 × 2 ^-4/2 = 3 (2)
For this reason, depending on the film sensitivity and the situation at that time, pre-irradiation with the light emission level of about GNo. 2 during the first shooting avoids shooting a nearby subject. However, the red-eye phenomenon can be effectively prevented.
In some cases, a person who is the subject is located extremely close. It is known that the red-eye phenomenon hardly occurs when the subject is close. For this reason, when the distance to the subject is shorter than a predetermined distance, the amount of light for normal pre-irradiation may be reduced. In such a case, the amount of light from a nearby subject caused by pre-irradiation can be further suppressed, so that it is possible to avoid shooting the subject while the subject is out of focus while preventing the red-eye phenomenon. Become.
[0012]
<Third Embodiment>
By adopting the above-mentioned IGBT, the amount of pre-irradiation can be adjusted with high control accuracy. However, it is conceivable that the amount of light cannot be adjusted with high accuracy depending on the camera or an external flash device. The third embodiment is adapted to cope with such a situation.
The configuration in the third embodiment is basically the same as that in the first embodiment. As for the operation, the shooting operation at the time of setting the multiple exposure night view mode and the red-eye reduction mode is different from that of the second embodiment. For this reason, only the photographing operation will be described with reference to FIG. 4 while using the reference numerals in the description of the first embodiment as they are.
In the third embodiment, as in the second embodiment, pre-irradiation is performed a predetermined time before the start of the second imaging. However, as shown in FIG. 4, the first shooting (exposure) is interrupted by temporarily closing the shutter in accordance with the timing of the pre-irradiation. Thereby, it is reliably avoided that a nearby subject is shot by pre-irradiation.
The time for interrupting the first shooting is about several tens of milliseconds. The time required for the first shooting is very large compared to that time. For this reason, the exposure time in the first shooting may be constant regardless of whether or not there is an interruption, or may be shortened by the interruption by the interruption.
The number of times of interruption by performing pre-irradiation may be two or more instead of once.
[0013]
<Fourth embodiment>
Because the flash light emission time is short, even if pre-irradiation is performed, the effect of preventing red-eye phenomenon is because the subject person is closing his eyes at the moment or looking in another direction It is not small that there is a possibility that it will be significantly reduced. In the fourth embodiment, the possibility that the effect is lowered due to such a reason is reduced.
The configuration in the fourth embodiment is basically the same as that in the first embodiment. As for the operation, the shooting operation at the time of setting the multiple exposure night view mode and the red-eye reduction mode is different from that of the third embodiment. For this reason, only the photographing operation will be described with reference to FIG. 5 while using the reference numerals in the description of the first embodiment as they are.
In the fourth embodiment, as in the third embodiment, pre-irradiation is performed a predetermined time before the start of the second imaging. In addition to the pre-irradiation, as shown in FIG. 5, the pre-irradiation is also performed before the first imaging is started. Thereby, the probability that the pre-irradiation enters the eyes of the person who is the subject is improved, and the red-eye phenomenon can be prevented more reliably.
In the fourth embodiment, during pre-irradiation during the first shooting, the shutter is closed and the shooting is interrupted. However, by adjusting the amount of light, the shooting is not interrupted. May be. Further, a plurality of pre-irradiations may be performed during the photographing, not before the start of the first photographing. When the pre-irradiation is performed a plurality of times, the light amount is adjusted and the shutter is closed in order to avoid a reduction in exposure amount in the first shooting and an increase in the total shooting time. It is desirable to avoid the need.
[0014]
In the present embodiment (first to fourth embodiments), the pre-irradiation at the time of setting the multiple exposure night view mode is performed only when the red-eye reduction mode is set, but the distance from the subject measured by the distance measuring circuit 108 is used. Depending on whether or not is smaller than a predetermined distance, the pre-irradiation may be automatically performed regardless of whether or not the red-eye reduction mode is set. This is because when the distance to the subject measured by the distance measuring circuit 108 is smaller than a predetermined distance, there is a high possibility that a person will be photographed against a night view. The function of emitting strobe light is not necessarily built in, and a device having the function may be externally attached. The flash for preventing red-eye phenomenon may be emitted from another device instead of being emitted by a device that emits strobe light.
[0015]
【The invention's effect】
As described above, according to the present invention, the multiple exposure in which the first photographing performed without emitting the flash and the second photographing performed by emitting the flash following the first photographing is performed on the same screen. When shooting in the shooting mode and the red-eye prevention mode in which pre-flash for preventing the red-eye phenomenon is performed a predetermined time before the start of shooting when shooting using the flash light emitting means, the second predetermined start of shooting is set. When the timing of the pre-light emission performed before the time overlaps with the timing of the first photographing exposure, the first photographing exposure is interrupted and the pre-light emission is performed. By emitting a flash for preventing the red-eye phenomenon at that timing, the first and second imaging can be performed along the mode regardless of whether or not the flash is emitted. For this reason, the shooting time from the start of the first shooting to the end of the second shooting can be made constant regardless of whether or not the flash is emitted. When the flash is emitted, the red-eye phenomenon can be prevented by the emission. The same effect can be obtained when the pre-flash is emitted with a light emission amount smaller than the light emission amount obtained from the distance obtained by the distance measuring means for measuring the distance between the camera and the subject and the under limit of the film latitude. Can be obtained.
[Brief description of the drawings]
FIG. 1 is a circuit configuration diagram of a camera according to a first embodiment.
FIG. 2 is a diagram illustrating a shutter sequence when a multiple exposure night view mode and a red-eye reduction mode are set in the first embodiment.
FIG. 3 is a diagram illustrating a shutter sequence when a multiple exposure night view mode and a red-eye reduction mode are set in the second embodiment.
FIG. 4 is a diagram illustrating a shutter sequence when a multiple exposure night view mode and a red-eye reduction mode are set in the third embodiment.
FIG. 5 is a diagram illustrating a shutter sequence when a multiple exposure night view mode and a red-eye reduction mode are set in the fourth embodiment.
FIG. 6 is a diagram showing a shutter sequence when a multiple exposure night view mode is set.
FIG. 7 is a diagram illustrating a shutter sequence when both red-eye reduction modes are set.
[Explanation of symbols]
101 CPU
105 Shutter drive circuit 106 Xenon tube 107 Strobe circuit 108 Ranging circuit 111 Operation unit M4 Motor

Claims (3)

In a camera that can shoot by flashing the flashlight means,
Light emission control means for causing the flash light emission means to emit flash light,
Multiplexing in which the first photographing performed without causing the flash light emitting means to emit a flash and the second photographing performed by causing the flash light emitting means to emit a flash, following the first photographing, for the same screen. Exposure shooting mode,
A red-eye prevention mode for performing pre-light emission for preventing a red-eye phenomenon a predetermined time before the start of photographing when photographing using the flash light emitting means;
When shooting in the multiple exposure shooting mode and the red-eye prevention mode, when the timing of the pre-flash that is performed a predetermined time before the start of the second shooting overlaps with the timing of the exposure of the first shooting, After the exposure of the first shooting is interrupted and the pre-emission is performed, the exposure of the first shooting is resumed and the first and second shootings in the multiple exposure shooting mode are controlled. And a photographing control means. In a camera that can shoot by flashing the flashlight means,
Light emission control means for causing the flash light emission means to emit flash light,
Multiplexing in which the first photographing performed without causing the flash light emitting means to emit a flash and the second photographing performed by causing the flash light emitting means to emit a flash, following the first photographing, for the same screen. Exposure shooting mode,
A red-eye prevention mode for performing pre-light emission to prevent a red-eye phenomenon a predetermined time before the start of photographing when photographing using the flash light emitting means;
A distance measuring means for measuring a distance between the camera and the subject;
When shooting in the multiple exposure shooting mode and the red-eye prevention mode, when the timing of the pre-flash that is performed a predetermined time before the start of the second shooting overlaps with the timing of the exposure of the first shooting, Pre-light emission is performed with a light emission amount smaller than the light emission amount obtained from the distance obtained by the distance measuring means and the under limit of the film latitude, so that the first and second photographing in the multiple exposure photographing mode are performed. And a photographing control means for controlling the camera. It said imaging control means, camera according to claim 1 or 2, characterized in that said start before further emission of preliminary light emission of the first shooting.

Images