JP4316830B2 - camera - Google Patents

Description

【００４７】
表１に示すように、絞り値が、Ｆ８よりも１段程度絞り込まれたＦ１１に設定されると、撮影可能範囲が広くなることがわかる。
【００４８】
従って、例えばＬＶ値がＬＶ１４のような場所で外光による写真撮影を行う場合、第１実施形態のカメラでは、従来のカメラで設定されるシャッタ速度よりも遅いシャッタ速度が設定されるため、例えば高速で移動する被写体の動きを止めて撮影するような性能は犠牲となる。しかし、第１実施形態のカメラでは、従来のカメラで設定される絞り値よりも絞られた絞り値が設定されるため、従来のカメラよりもピントの合う範囲が広まり、外光による写真撮影を行う場合であっても、ピントを合わせた主被写体の周囲の状況についても鮮明に写すことのできるカメラが実現される。
【００４９】
また、上述したスナップ撮影モード（Ｍ１）を選択して写真撮影を行う場合は、ピントを合わせた主被写体の周囲の状況についても鮮明に写すことができるとともに、オートフォーカスのためのレンズ駆動を省略することが可能になるのでシャッタータイムラグが短くなり、動きの速い被写体の連続撮影も可能になる。
【００５０】
また、上述した自己撮影モード（Ｍ２）を選択して写真撮影を行う場合は、撮影者自身の顔にピントを合わせるようにするとともに背景の様子もおおよそ認識可能になる。
【００５１】
次に、本発明の第２実施形態について説明する。上述した第１実施形態では、シャッタ速度設定モード（ＳＥＴ）で所望のシャッタ速度を本発明の第１のシャッタ速度として設定する。これに対して以下の第２実施形態では、屋外での撮影では屋内での撮影と比べて動きの速い被写体が多いことを考慮し、本発明にいう第１のシャッタ速度の設定が、手持ちで撮影できる最も遅いシャッタ速度と言われている１／３０秒のシャッタ速度よりもやや高速の１／１００秒のシャッタ速度に固定されている。そして、このシャッタ速度と、このシャッタ速度よりも高速の１／１８０秒のシャッタ速度の間で複数回繰り返し変化させるプログラムに従ってシャッタのプログラム制御が行われる。尚、以下の第２実施形態の説明において、上述した第１実施形態のカメラ１０（図１，図２参照）の構成要素と同一の構成要素には同じ符号を付し、重複する説明は省略する。
【００５２】
図４は、本発明のカメラの第２実施形態である、プログラムレンズシャッタを備えたカメラを前面斜め上から見た外観斜視図、図５は、図４に示すカメラを背面斜め上から見た外観斜視図である。
【００５３】
図４に示すカメラ１０´は、上述した図１，図２に示す第１実施形態のカメラ１０と同様、図示しない写真フィルム上に写真撮影を行うカメラである。
【００５４】
このカメラ１０´の上面には、回転式のセレクトダイヤル１８´が備えられている。このセレクトダイヤル１８´を回し、セレクトダイヤル１８´上に印刷された指標を、カメラ１０´の上面に印刷されたモードに合わせることにより、図４に示すＯＦＦ状態のほか、プログラムモード（Ｐ）、スナップ撮影モード（Ｍ１）、自己撮影モード（Ｍ２）に切り替えることができる。
【００５５】
ＯＦＦ状態は、図示しない電池からカメラ１０に電力が供給されない状態であり、セレクトダイヤル１８´を回して、プログラムモード（Ｐ）に切り替えることにより、カメラ１０に電力が供給され写真撮影を行うことが可能な状態となる。
【００５６】
また、プログラムモード（Ｐ）は、上述したＡＥセンサで測定されたＬＶ値に応じて、本発明にいう第１のプログラムに相当するプログラムに従った絞りとシャッタ速度の組み合わせが自動で設定され、設定された絞りとシャッタ速度の組み合わせに基づいて写真撮影を行うためのモードである。
【００５７】
また、スナップ撮影モード（Ｍ１）は、撮影レンズ１１ａの撮影距離が、主に撮影頻度の高い１ｍ〜３ｍの被写体にピントが合うような値に固定され、プログラムモード（Ｐ）と同様の、本発明にいう第１のプログラムに相当するプログラムに従ってシャッタのプログラム制御を行って写真撮影を行うためのモードである。
【００５８】
また、自己撮影モード（Ｍ２）は、レンズの撮影距離が５０ｃｍに固定され、プログラムモード（Ｐ）と同様の、本発明にいう第１のプログラムに相当するプログラムに従ってシャッタのプログラム制御を行って写真撮影を行うためのモードである。
【００５９】
また、第２実施形態のカメラは、外光による撮影が可能な被写界輝度範囲のうちの、ＥＶ１４．５からＥＶ１１までの露出可能な被写体の撮影に際しては、ＥＶ値を変数としたときのシャッタ速度を、１／１００秒のシャッタ速度と、このシャッタ速度よりも高速の１／１８０秒のシャッタ速度の間で複数回繰り返し変化させるプログラムに従ってシャッタのプログラム制御を行うものである。従って、第２実施形態のカメラにおける、ＥＶ値に応じた絞り値とシャッタ速度の組み合わせを定めたプログラムは、第１実施形態のカメラにおいて、シャッタ速度設定モード（ＳＥＴ）でシャッタ速度を１／１００秒のシャッタ速度に設定する場合の例で説明した、図３に実線で示すプログラムと同一である。重複説明を避けるため、ここでの、第２実施形態のカメラにおけるプログラム線図の説明は省略する。
【００６０】
尚、本発明は、上述した各実施形態に示すような、写真フィルム上に写真撮影を行うカメラに限られるものではなく、例えば、撮像素子上に被写体の像を結像させて画像を信号として取り込む電子スチールカメラ等であっても、プログラムレンズシャッタを備えたカメラであればカメラの種類を問わず適用することができる。
【００６１】
【発明の効果】
以上説明したように、本発明によれば、従来より知られている、プログラムレンズシャッタを備えたカメラに比べて、ピントを合わせた主被写体の周囲の状況についても鮮明に写すことのできるカメラが提供される。
【図面の簡単な説明】
【図１】本発明のカメラの第１実施形態である、プログラムレンズシャッタを備えたカメラを前面斜め上から見た外観斜視図である。
【図２】図１に示すカメラを背面斜め上から見た外観斜視図である。
【図３】第１実施形態のカメラにおける、ＥＶ値に応じた絞り値とシャッタ速度の組み合わせを定めたプログラム線図である。
【図４】本発明のカメラの第２実施形態である、プログラムレンズシャッタを備えたカメラを前面斜め上から見た外観斜視図である。
【図５】図４に示すカメラを背面斜め上から見た外観斜視図である。
【図６】従来より知られている、プログラムレンズシャッタを備えたカメラの、ＥＶ値に応じた絞り値とシャッタ速度の組み合わせを定めたプログラムを示す、代表的なプログラム線図である。
【符号の説明】
１０，１０´ カメラ
１１ レンズ鏡胴
１１ａ 撮影レンズ
１２ フラッシュ発光窓
１３ ファインダ対物窓
１４ａ ＡＦ投光窓
１４ｂ ＡＦ受光窓
１５ ＡＥ受光窓
１６ シャッタボタン
１７ ファインダ接眼窓
１８，１８´ セレクトダイヤル
１９ ＬＣＤパネル
２０ａ アップボタン
２０ｂ ダウンボタン[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a camera provided with a program lens shutter.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a camera such as a camera for taking a photograph on a photographic film or an electronic still camera provided with a program lens shutter is known. In a camera equipped with a program lens shutter, the shutter speed when the field luminance (Light Value: hereinafter referred to as LV value) is used as a variable is controlled by a program according to a program capable of taking a picture with proper exposure. The
[0003]
FIG. 6 shows a conventionally known program that defines a combination of an aperture value and a shutter speed according to an exposure value (hereinafter referred to as an EV value) of a camera equipped with a program lens shutter. FIG. 3 is a representative program diagram.
[0004]
The horizontal axis of the program diagram shown in FIG. 6 indicates the shutter speed, the vertical axis indicates the aperture value, and the diagonal line indicates the EV value.
[0005]
Here, when comparing photographic films having different ISO sensitivities, the amount of light taken into the photographic film necessary to obtain proper exposure is inversely proportional to the ISO sensitivity of the photographic film. When the sensitivity is increased by 1 for the sensitivity of 100, the EV value is also increased by 1 for the LV value. In the case of a photographic film with ISO sensitivity 100, the LV value and the EV value are equal. For example, when a photographic film with ISO sensitivity 100 is used and the LV value is LV5, the EV value is EV5. However, when using a photographic film with ISO sensitivity 200 that is one step higher than a photographic film with ISO sensitivity 100, for example, when the LV value is LV5, the EV value is EV6.
[0006]
Hereinafter, the program diagram shown in FIG. 6 will be described as an example in the case of using a photographic film having an ISO sensitivity of 100 in which the LV value and the EV value are equal.
[0007]
According to the program shown by the broken line in FIG. 6, when shooting a subject in the field luminance range from EV17 to EV12, the shutter speed is gradually increased as the EV value decreases when the EV value is a variable. The exposure is adjusted by gradually opening the aperture as it slows down.
[0008]
Further, according to the program shown in FIG. 6, when shooting a subject in an area where the EV value is lower than EV12, the EV value is fixed at F4.5 and the EV value is fixed when the EV value is a variable. Exposure adjustment is performed by gradually decreasing the shutter speed as the speed decreases.
[0009]
[Problems to be solved by the invention]
According to the program indicated by the broken line in FIG. 6, when taking a photograph using a photographic film having a sensitivity of ISO sensitivity 100 in a bright place, for example, in a situation where the LV value is LV17, the EV value is EV17 as described above. The aperture value is set to F16 and the shutter speed is set to 1/500 seconds. If you take a picture with this combination, you can take a picture with a deep depth of field that is in focus from a short distance to a long distance.
[0010]
However, according to the program shown in FIG. 6, for example, when a photograph is taken with external light using a photographic film having an ISO sensitivity of 100 at a place where the LV value is LV14, the EV value is EV14 as described above. Therefore, the aperture value is set to about F8 and the shutter speed is set to about 1/250 seconds. When the aperture value (about F8) in this combination is compared with the aperture value (F16) set when the above-described LV value is set to LV17, the aperture value of about F8 is the aperture value of F16. The aperture value is about 2 steps wider than the aperture value. Therefore, when taking a picture in the situation of LV14, the in-focus range is narrower than in the case of taking a picture in the situation of LV17, resulting in a photograph with a shallow depth of field. As a result, when taking a picture in the LV 14 situation, there is a possibility that the area around the focused main subject is blurred and not clearly captured.
[0011]
SUMMARY OF THE INVENTION In view of the above circumstances, an object of the present invention is to provide a camera that can clearly capture the surroundings of a main subject in focus when taking a photograph using external light.
[0012]
[Means for Solving the Problems]
The camera of the present invention that achieves the above object provides:
In a camera with a program lens shutter,
A metering unit for measuring the field luminance;
Between the predetermined first shutter speed and the second shutter speed higher than the shutter speed when the subject field brightness is a field speed equal to or higher than the predetermined field brightness when the field brightness is a variable. And a shutter control unit that performs program control of the shutter according to a first program that repeatedly changes a plurality of times.
[0013]
The present invention provides a shutter when a measured field luminance is a variable between a predetermined low shutter speed and a predetermined high shutter speed at a field luminance equal to or higher than a predetermined field luminance. Since it has a shutter control unit that performs shutter program control according to a program that repeatedly changes the speed multiple times, the situation around the main subject that is in focus even when taking a picture with external light in a dim place A camera capable of clearly capturing images will be realized.
[0014]
In the camera of the present invention, it is preferable that the shutter control unit performs shutter program control according to a program that sets 1/100 second to the first shutter speed.
[0015]
In general, in a camera equipped with a lens having a focal length of 30 mm, the shutter speed of 1/30 seconds is said to be the slowest shutter speed that can be taken by hand without using a fixing device such as a tripod. When shooting outdoors with external light, there are many subjects that move faster than shooting indoors. Therefore, if the shutter speed is set to 1/30 seconds, shooting by hand may have the effect of camera shake. In view of this point, it is preferable that the first shutter speed is 1/100 second, which is slightly faster than 1/30 second.
[0016]
The camera of the present invention further includes a shutter speed setting unit for setting the first shutter speed.
It is also preferable that the shutter control unit performs program control of the shutter according to a program that sets the shutter speed set by the shutter speed setting unit as the first shutter speed.
[0017]
According to the camera provided with such a shutter speed setting unit, the shutter speed can be adjusted to an arbitrary shutter speed even when the shutter speed causing the camera shake differs depending on the photographer.
[0018]
In addition, the camera of the present invention includes a photographing lens whose photographing distance is adjustable, and has a focus fixing mode in which photographing is performed with the photographing distance of the photographing lens being fixed to a predetermined distance.
The shutter control unit may perform shutter program control according to the first program when shooting in the fixed focus shooting mode.
[0019]
Here, in the focus fixing mode, for example, a snap shooting mode in which the shooting distance of the lens is fixed to a fixed value so that, for example, a subject of 1 m to 3 m, which is frequently photographed, is focused, is focused. In addition, there is a self-photographing mode in which the photographing distance of the lens is fixed to 40 cm to 60 cm so as to focus on the face and the background can be roughly recognized.
[0020]
In both the snap shooting mode and the self-photographing mode, it is desirable that the focus be in a wide range, but the shutter according to the present invention is set to a larger aperture value than the conventional shutter program when compared with the same brightness. Program control is effective.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described.
[0022]
FIG. 1 is an external perspective view of a camera equipped with a program lens shutter, which is a first embodiment of the camera of the present invention, as seen from diagonally above the front.
[0023]
A camera 10 shown in FIG. 1 is a camera that takes a picture on a photographic film (not shown).
[0024]
At the center of the front surface of the camera 10, a lens barrel 11 having a photographing lens 11a therein is provided. In addition, a flash emission window 12, a finder objective window 13, an AF projection window 14a incorporating a light emitting element for autofocus (AF), and an AF projection window 14a are projected on the upper front of the camera 10. The AF light receiving window 14b having a light receiving element for receiving the light reflected and returned from the subject and the exposure adjustment AE sensor for guiding the light to the built-in exposure AE sensor (Light View: hereinafter referred to as this). An AE light receiving window 15 for measurement (referred to as LV value) is provided.
[0025]
A shutter button 16 and a rotary select dial 18 are provided on the upper surface of the camera 10. By turning the select dial 18 and matching the index printed on the select dial 18 with the mode printed on the upper surface of the camera 10, in addition to the OFF state shown in FIG. 1, the program mode (P), the snap shooting mode (M1), self-photographing mode (M2), and shutter speed setting mode (SET) can be switched.
[0026]
FIG. 2 is an external perspective view of the camera shown in FIG.
[0027]
A finder eyepiece window 17 is provided on the back of the camera 10.
[0028]
Further, a liquid crystal display (LCD) panel 19 and an up button 20a and a down button 20b are provided adjacent to each other on the rear surface of the camera 10.
[0029]
The OFF state is a state in which power is not supplied to the camera 10 from a battery (not shown), and power is supplied to the camera 10 by turning the select dial 18 to switch to the program mode (P) or the shutter speed setting mode (SET). Thus, it becomes possible to perform photography and setting the shutter speed, which will be described later.
[0030]
The program mode (P) is a combination of an aperture and a shutter speed according to a program described later, which is a program corresponding to the first program according to the present invention, according to the LV value measured by the AE sensor described above. Is a mode for automatically taking a picture and taking a picture based on the set combination of aperture and shutter speed.
[0031]
In the snap shooting mode (M1), the shooting distance of the shooting lens 11a is fixed to a value that focuses on a subject of 1m to 3m whose shooting frequency is high, and the same as in the program mode (P). This mode corresponds to the first program according to the invention, and is a mode for taking a picture by performing shutter program control according to a program described later.
[0032]
In the self-photographing mode (M2), the photographing distance of the lens is fixed to 50 cm, and the shutter is operated according to the program described later, which is a program corresponding to the first program in the present invention, similar to the program mode (P). This mode is for taking a picture by performing program control.
[0033]
The shutter speed setting mode (SET) is a mode for setting an arbitrary shutter speed. When an arbitrary shutter speed is set by switching the select dial 18 to the shutter speed setting mode (SET) and operating the up button 20a or the down button 20b, the set shutter speed is displayed on the LCD panel 19. When an arbitrary shutter speed is set, a shutter speed higher than the shutter speed is automatically set for program control inside the camera. A program for repeatedly changing the shutter speed when the EV value is a variable between the two shutter speeds set in this way is set a plurality of times, and shutter program control is performed according to this program.
[0034]
FIG. 3 is a program diagram that defines combinations of aperture values and shutter speeds according to exposure values (Exposure Value: hereinafter referred to as EV values) in the camera of the first embodiment.
[0035]
In the program diagram shown in FIG. 3, the horizontal axis indicates the shutter speed, the vertical axis indicates the aperture value, and the diagonal line indicates the EV value.
[0036]
Hereinafter, as described in the section of the prior art, an example in which a photographic film having an ISO sensitivity of 100 in which the LV value and the EV value are equal to each other is used in the camera of the first embodiment is shown in FIG. The program diagram shown will be described.
[0037]
In addition, the program corresponding to the first program according to the present invention indicated by the solid line in FIG. 3 is set by setting the shutter speed to 1/100 second in the shutter speed setting mode (SET) described above. In this example, a shutter speed of 1/100 seconds is set, and at the same time, a shutter speed of 1/180 seconds, which is higher than the shutter speed, is automatically set.
[0038]
According to the program indicated by a solid line in FIG. 3, the field luminance range in which the EV value is EV17 to EV14.5 in the field luminance range in which the EV value is EV17 to EV11 and photographing with external light is possible. When the subject is photographed, exposure adjustment is performed by gradually decreasing the shutter speed from 1/500 second as the EV value decreases while the aperture value is fixed at F16. In this exposure adjustment, when the EV value reaches EV14.5 when the EV value is a variable, the shutter speed reaches 1/100 second.
[0039]
When shooting an object in the field luminance range of EV 14.5 to EV 11.5 in the field luminance range that can be shot with external light, the EV value is a variable. A shutter speed of 1/100 seconds set in the shutter speed setting mode (SET) described above, and an automatically set shutter speed of 1/180 seconds, which is faster than the shutter speed. Shutter program control is performed in accordance with a program that is repeatedly changed.
[0040]
Also, when shooting a subject whose EV value is lower than EV11.5, the aperture value remains fixed at F4.5, and exposure adjustment is performed according to a program that gradually decreases the shutter speed as the EV value decreases. Is going.
[0041]
When taking a photograph using a photographic film having a sensitivity of ISO sensitivity 100 in a bright place, for example, in a situation where the LV value is LV17, according to the program indicated by the solid line in FIG. 3, the EV value is EV17, the aperture value is F16, and the shutter. The speed is set to a combination of 1/500 seconds. If you take a picture with this combination, you can take a picture with a deep depth of field that is in focus from a short distance to a long distance.
[0042]
Further, in accordance with the program shown in FIG. 3, for example, when a film with ISO speed of 100 is used and photographing is performed with external light having an LV value of LV14, the EV value is EV14, the aperture value is about F11, and the shutter. The speed is set to a combination of about 1/125 seconds.
[0043]
On the other hand, in the conventional camera described with reference to FIG. 6 in the section of the conventional technique, the EV value is used as a variable when shooting a subject in the field luminance range from EV17 to EV12. In addition, since the exposure is adjusted by a program lens shutter that gradually decreases the shutter speed as the EV value decreases and at the same time gradually opens the aperture, for example, the LV value is LV14 according to the program shown in FIG. When a photograph is taken with external light using a photographic film having a sensitivity of ISO sensitivity 100, the aperture value is set to about F8 and the shutter speed is set to about 1/250 seconds.
[0044]
The aperture value and shutter speed when taking a picture with this combination set in the conventional camera, and the above-mentioned set when taking a picture in the situation where the LV value is LV14 in the camera of the first embodiment. Comparing the aperture value and the shutter speed, respectively, the shutter speed set to 1/250 seconds in the conventional camera is set to 1/125 seconds, which is a half shutter speed in the camera of the first embodiment. In the conventional camera, the aperture value is set to about F8. However, in the camera according to the first embodiment, the aperture value is set to F11, which is an aperture value that is narrowed by about one stage from about F8.
[0045]
Table 1 shows a shootable range when the focal length of the photographic lens 11a shown in FIG. 1 is 28 mm and the focus is adjusted to 1.5 m. In this case, the standard of focus is that the diameter of the circle of confusion is 0.025 mm or less.
[0046]
[Table 1]

[0047]
As shown in Table 1, it can be seen that when the aperture value is set to F11, which is reduced by about one step from F8, the shootable range is widened.
[0048]
Therefore, for example, when taking a photograph with external light at a place where the LV value is LV14, the camera according to the first embodiment sets a shutter speed slower than the shutter speed set by the conventional camera. The performance of shooting while stopping the movement of a subject moving at high speed is sacrificed. However, in the camera of the first embodiment, an aperture value that is smaller than the aperture value set by the conventional camera is set, so that the in-focus range is wider than that of the conventional camera, and photography with external light is possible. Even when it is performed, a camera capable of clearly capturing the situation around the main subject in focus is realized.
[0049]
In addition, when the above-described snap shooting mode (M1) is selected to take a picture, the situation around the focused main subject can be clearly captured and lens driving for autofocus is omitted. This makes it possible to reduce the shutter time lag and to continually shoot fast-moving subjects.
[0050]
In addition, when taking a picture by selecting the above-described self-photographing mode (M2), it is possible to focus on the photographer's own face and to roughly recognize the background.
[0051]
Next, a second embodiment of the present invention will be described. In the first embodiment described above, a desired shutter speed is set as the first shutter speed of the present invention in the shutter speed setting mode (SET). On the other hand, in the following second embodiment, considering that there are many subjects that move faster in outdoor shooting than in indoor shooting, the first shutter speed setting according to the present invention is handheld. The shutter speed is fixed at 1/100 seconds, which is slightly higher than the shutter speed of 1/30 seconds, which is said to be the slowest shutter speed at which photography can be performed. Then, shutter program control is performed according to a program that is repeatedly changed a plurality of times between this shutter speed and a shutter speed of 1/180 seconds higher than the shutter speed. In the following description of the second embodiment, the same components as those of the camera 10 (see FIGS. 1 and 2) of the first embodiment described above are denoted by the same reference numerals, and redundant descriptions are omitted. To do.
[0052]
FIG. 4 is a perspective view of an external appearance of a camera equipped with a program lens shutter, which is a second embodiment of the camera of the present invention, as viewed from diagonally above the front. FIG. 5 is a perspective view of the camera shown in FIG. It is an external perspective view.
[0053]
A camera 10 'shown in FIG. 4 is a camera that takes a picture on a photographic film (not shown), similar to the camera 10 of the first embodiment shown in FIGS.
[0054]
A rotary select dial 18 'is provided on the upper surface of the camera 10'. By turning this select dial 18 'and matching the index printed on the select dial 18' with the mode printed on the upper surface of the camera 10 ', in addition to the OFF state shown in FIG. 4, the program mode (P), The snap shooting mode (M1) and the self-shooting mode (M2) can be switched.
[0055]
The OFF state is a state in which power is not supplied to the camera 10 from a battery (not shown), and by turning the select dial 18 'to switch to the program mode (P), the camera 10 is supplied with power and can take a picture. It becomes possible.
[0056]
In the program mode (P), the combination of the aperture and the shutter speed according to the program corresponding to the first program according to the present invention is automatically set according to the LV value measured by the AE sensor described above. This is a mode for taking a picture based on a combination of a set aperture and shutter speed.
[0057]
In the snap shooting mode (M1), the shooting distance of the shooting lens 11a is fixed to a value that focuses on a subject of 1m to 3m whose shooting frequency is high, and the same as in the program mode (P). This is a mode for taking a picture by performing shutter program control according to a program corresponding to the first program in the invention.
[0058]
In the self-photographing mode (M2), the photographing distance of the lens is fixed to 50 cm, and the program control of the shutter is performed according to the program corresponding to the first program according to the present invention, similar to the program mode (P). This is a mode for shooting.
[0059]
In addition, the camera of the second embodiment uses the EV value as a variable when shooting subjects that can be exposed from EV14.5 to EV11 in the field luminance range that can be shot with external light. Program control of the shutter is performed in accordance with a program that repeatedly changes the shutter speed a plurality of times between a shutter speed of 1/100 seconds and a shutter speed of 1/180 seconds, which is faster than the shutter speed. Therefore, the program that defines the combination of the aperture value and the shutter speed corresponding to the EV value in the camera of the second embodiment is set to 1/100 in the shutter speed setting mode (SET) in the camera of the first embodiment. The program is the same as the program indicated by the solid line in FIG. 3 described in the example of setting the shutter speed to seconds. In order to avoid redundant description, description of the program diagram in the camera of the second embodiment is omitted here.
[0060]
The present invention is not limited to a camera that takes a photograph on a photographic film as shown in the above-described embodiments. For example, an image of a subject is formed on an image sensor and the image is used as a signal. Even an electronic still camera or the like to be captured can be applied to any camera provided with a program lens shutter regardless of the type of camera.
[0061]
【The invention's effect】
As described above, according to the present invention, compared with a conventionally known camera equipped with a program lens shutter, a camera that can clearly capture the situation around the focused main subject. Provided.
[Brief description of the drawings]
FIG. 1 is an external perspective view of a camera equipped with a program lens shutter, which is a first embodiment of the camera of the present invention, as viewed diagonally from the front.
FIG. 2 is an external perspective view of the camera shown in FIG.
FIG. 3 is a program diagram defining combinations of aperture values and shutter speeds according to EV values in the camera of the first embodiment.
FIG. 4 is an external perspective view of a camera equipped with a program lens shutter, which is a second embodiment of the camera according to the present invention, as seen from diagonally above the front.
5 is an external perspective view of the camera shown in FIG.
FIG. 6 is a typical program diagram showing a program that defines a combination of an aperture value and a shutter speed according to an EV value of a camera having a program lens shutter, which is conventionally known.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10,10 'Camera 11 Lens barrel 11a Shooting lens 12 Flash light emission window 13 Finder objective window 14a AF light projection window 14b AF light reception window 15 AE light reception window 16 Shutter button 17 Viewfinder eyepiece window 18, 18' Select dial 19 LCD panel 20a Up button 20b Down button

Claims (3)

In a camera with a program lens shutter,
A metering unit for measuring the field luminance;
Between the predetermined first shutter speed and the second shutter speed that is faster than the shutter speed when the subject field brightness is greater than or equal to the predetermined scene brightness when the subject field brightness is a variable. A shutter control unit that performs program control of the shutter according to a first program that repeatedly changes a plurality of times ,
A shutter speed setting unit for setting the first shutter speed ,
The camera , wherein the shutter control section performs shutter program control in accordance with a program that sets the shutter speed set by the shutter speed setting section as the first shutter speed .   The camera according to claim 1, wherein the shutter control unit performs shutter program control according to a program in which 1/100 second is the first shutter speed. It has a photographing lens with adjustable photographing distance, and has a focus fixing mode for photographing with the photographing distance of the photographing lens fixed to a predetermined distance,
The camera according to claim 1, wherein the shutter control unit performs program control of a shutter according to the first program when shooting in the focus fixed shooting mode .

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