JPH047491B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (Technical Field of the Invention) The present invention relates to a camera that prevents so-called "hand shake" caused by vibration of the camera during photographing.

(Background of the invention) When holding a camera in your hand to take a picture of something, if the photographer's posture or posture is unreasonable, unnecessary force will be applied to some part of the body, causing the release button to be pressed. The stroke motion may cause the camera to lose its balance and cause the camera to vibrate. Especially for beginners, even if you are not in an awkward position, your arm muscles may inadvertently tremble due to nervousness, causing the camera to vibrate. Alternatively, when taking pictures while riding in a vehicle, the camera may shake unexpectedly due to sudden shaking.

As a result, if the camera shakes during the exposure time,
The resulting photo image may become unclear or
It flows or becomes multiple. This phenomenon is called hand shake or camera shake.

Camera shake is particularly likely to occur when the shutter speed is slow, so foolproof cameras for the general public assume that camera shake will occur when the shutter speed is low, 1/60 seconds or less, and turn on a warning lamp across the board. Cameras that lock the shutter have been devised and put into practical use.

For example, as disclosed in Japanese Patent Application Laid-Open No. 55-84925, a camera shake warning is displayed when the shutter speed set before the shutter release is lower than a predetermined speed, and furthermore, after the shutter release, the set shutter speed Some devices compare the vibration speed of the camera detected by a vibration detector and display a warning as to whether or not camera shake has occurred. Also, Tokukai Akira
There is a method, as disclosed in Japanese Patent No. 55-106444, which uses a sensor of an autofocus device to detect camera shake and displays a warning. Also, JP-A-56-39525
As disclosed in Japanese Patent No. 3, there is a system that prevents camera shake by blocking shutter operation at low shutter speeds below the limit value of the shutter speed that causes camera shake.

However, camera shake may or may not occur depending on the skill and level of skill of the photographer, how the camera is supported during shooting, and the situation in which the photographer is placed.For example, with a shutter speed of 1/15 seconds, There are some experienced photographers who do not experience camera shake even at high speeds, and on the other hand, when taking pictures while riding in a moving car, camera shake may occur even when shooting at a shutter speed of 1/125 seconds.

Nevertheless, it must be said that it is unsatisfactory to take measures against camera shake by setting uniform fixed standards.

(Object of the Invention) Therefore, it is an object of the present invention to provide a camera that eliminates uniform measures against camera shake and takes appropriate measures against camera shake depending on the photographer and the shooting situation.

In order to achieve the above object, the present invention calculates a camera shake limit shutter speed by detecting camera vibration, and converts this camera shake limit shutter speed into a relatively slow first shutter speed determined from a first program diagram. If this first shutter speed cannot prevent camera shake, then compare this camera shake limit shutter speed with a relatively high second shutter speed determined from the second program diagram. If camera shake cannot be prevented even with this second shutter speed, the camera is configured to take measures against camera shake by activating either the shutter lock means, the flash mode transition means, or the warning means.

Before describing embodiments of the present invention, countermeasures against camera shake, which are the basis of the present invention, will be described below with reference to FIGS. 1 and 2.

Figure 1 is a block diagram. When the preparatory action for taking a photo, that is, the stroke action begins when the shutter release button (SB) is pressed, the vibration detection device 1 is activated (turned ON) based on the signal. ), detects the amount of vibration of the camera body. Examples of the vibration detection device 1 include an acceleration pickup using a piezoelectric element, a capacitance type displacement pickup, and the like. These vibration detection devices 1
The amount of vibration of the camera body is converted into an electrical signal, and the converted electrical signal is input to the next computing unit 2.

The computing unit 2 has a program that stores in advance the "slowest shutter speed that can avoid the camera shake phenomenon" according to the amount of vibration, that is, the "limit shutter speed for camera shake", and based on the electrical signal input from the device 1, It calculates the camera shake limit shutter speed at that moment and outputs the answer in the form of an electrical signal. Here, the program that stores the camera shake limit shutter speed is, for example, one that has a correlation as shown in FIG.
When an amount of vibration of 250 Gal (cm/sec ² ) is detected by the system and that information is input to the converter 2 in the form of an electrical signal, the calculator 2 calculates the amount of vibration necessary to avoid shaky photographs in that case. 1/125 second is calculated as the slowest shutter speed, and the information is output in the form of an electrical signal, and this signal is input to the next comparator 4.

On the other hand, the preset shutter speed from the shutter speed setting means 3 is also input to the comparator 4 in the form of an electrical signal in this example. For example, in the case of manual exposure, the shutter speed setting means 3 is the shutter dial, and in the case of automatic exposure, the automatic exposure control device is the shutter speed setting means 3.

The comparator 4 compares the camera shake limit shutter speed input from the calculator 2 (1/125 seconds in the above example) with the preset shutter speed input from the shutter speed setting means 3 (for example, 1/60 seconds). Compare and decide which one is slower. Then, as shown in the example, if the preset shutter speed (1/60
If the shutter speed (seconds) is slower than the camera shake limit shutter speed (1/125 seconds), a signal is output in the form of an electrical signal.

The output signal from the comparator 4 is input to the camera shake countermeasure means 5. The camera shake countermeasure means 5 is activated by a signal from the comparator 4, and includes, for example, a warning display means (warning lamp or warning board), a warning sound generating means (buzzer), a shutter jack means, or a means for switching to a flash mode (for example, a flashlight). (starting charging of the capacitor, popping up the flash, etc.).

Therefore, countermeasures against camera shake are taken only when a camera shake phenomenon definitely occurs, increasing the chances of taking pictures without camera shake, and reducing the number of failures due to camera shake.

Next, an embodiment of the present invention will be described based on FIGS. 3A to 4.

In this example, a camera in which the shutter speed setting means 3 is an automatic exposure control device (3A) using a program control method will be explained. Here, the automatic exposure control device (3A) has a program (I) as shown in FIG. 3A and a program () as shown in FIG. 3B. I) is the slower shutter speed (V _s )
and a larger F-number (Fe), and program () sets a combination of a faster shutter speed (V _q ) and a smaller F-number (F _s ).

Next, the operating mechanism of the camera of this example will be explained based on the flowchart shown in FIG.

With the start of the stroke operation of the shutter release button, all electrical switches are turned on, and the vibration detection device 1 detects the vibration amount χ (e.g.
250Gal) is detected, and this vibration amount χ is converted into an electrical signal and input to the calculator 2.

The computing unit 2 has a program as shown in FIG. 2 that stores the camera shake limit shutter speed according to the amount of vibration in advance, and determines the camera shake limit shutter speed V _e based on the input signal (χ) from the detection device 1.
(for example, 1/125 seconds).

On the other hand, the light amount L is detected by a photometric means, for example, Cds, and this is logarithmically compressed to an EV value (for example, EV1
0). From this EV value (EV10),
First, the shutter speed V _s (for example, 1/60 second) and the f-number F ₁ are determined by the program (I) in FIG. 3A.
(For example, F4) is set.

Then, the shutter speed V _s (for example, 1/60 seconds) set in the program () is calculated by comparing the camera shake limit shutter speed V _c (for example, 1/125 seconds) detected by the previous computing unit 2 with the next comparator 4. are compared. As a result, if V _c ≦ V _s , by continuing the stroke operation of the release button,
F number set by program ()
The shutter starts with F ₁ and shutter speed V _s .
In this way, you can obtain photos without camera shake. On the other hand, as shown in the example, V _c (1/125 seconds) > V _s (1/60 seconds)
In this case, the program () in Figure 3B is immediately used instead of the program (), and the previous EV
The value (EV10) is input, and a new combination of shutter speed V _q (for example, 1/125 seconds) and F number F _s (for example, F2.8) is set.

Then, the shutter speed V _q (for example, 1/125 seconds) set in program () is determined by the calculation unit 2
This is compared with the camera shake limit shutter speed V _c (for example, 1/125 seconds) calculated in . As a result, if V _c
(For example, 1/125 seconds) ≦ V _q (For example, 1/125 seconds), by continuing the stroke operation of the release button, the F number F _s and shutter speed F _q set by the program () will be set. The shutter starts. And you can get photos without camera shake.

On the other hand, if V _c >V _q , a signal is output from the comparator 4', and the signal is input to the camera shake countermeasure means 5.

In this example, the camera shake countermeasure means 5 consists of a combination of a shutter lock means and a means for transitioning to a warning or flash mode, and in the case of V _c > V _q , further stroke operation of the release button is prohibited;
The shutter will stop operating, a warning light will come on, a warning sound will be emitted, or the shutter will go into flash mode.

Further, the camera shake countermeasure means 5 includes a warning display means (warning lamp or warning board), a warning sound generating means (buzzer), a shutter lock means, or a transition means to flash mode, similar to the camera shake countermeasure explained in FIG. 1 above. It may be configured to take any one of the following measures.

Although the maximum value of the amplitude of the acceleration signal was used as the amount of vibration, a velocity or displacement signal may be used instead of the acceleration signal. Furthermore, it is also possible to use the RMS value instead of the maximum amplitude value, or to convert it to the frequency domain and use the frequency as an evaluation function to determine the camera shake limit shutter speed.

(Effects of the Invention) As described above, according to the present invention, uniform anti-shake countermeasures are eliminated, and appropriate anti-shake countermeasures are taken according to the skill level of the photographer and the shooting situation, and as a result, the number of times of taking pictures without camera shake is reduced. Opportunity rates increase and failures decrease.

[Brief explanation of drawings]

FIG. 1 is a block diagram illustrating the main mechanism of a camera which is the basis of the present invention. FIG. 2 is a graph showing the relationship between the amount of vibration and the camera shake limit shutter speed. FIGS. 3A and 3B are graphs representing programs showing combinations of preset shutter speeds and F-numbers for EV values in the embodiment of the present invention. FIG. 4 is a flowchart illustrating the main operating mechanism of the camera in the embodiment of the present invention.

Claims (1)

[Scope of Claims] 1. Vibration detection means for detecting the amount of vibration of the camera body during a shooting preparation operation based on the operation of the release button, and calculating a camera shake limit shutter speed according to the amount of vibration detected by the vibration detection means. a calculation means; a photometry means for detecting the brightness of a subject and calculating a photometry value; and defining a combination of a first shutter speed and a first aperture value for the photometry value calculated by the photometry means. a first program determining means having a first program diagram that outputs the first shutter speed and the first aperture value according to the photometric value; It has a second program diagram that defines a combination of a second shutter speed higher than the shutter speed and a second aperture value, and outputs the second shutter speed and the second aperture value according to the photometric value. a second program determining means; an exposure control means for controlling exposure according to the output from the first program determining means or the output from the second program determining means; and the limit shutter speed calculated by the calculating means. Comparing the first shutter speed determined by the first program determining means, if the first shutter speed is higher than the limit shutter speed, transmitting the output of the first program determining means to the exposure control means. and when the first shutter speed is lower than the limit shutter speed, the second shutter speed set by the second program determining means is compared with the limit shutter speed, and the second shutter speed is determined. Comparing means outputs an output of the second program determining means to the exposure control means when the shutter speed is higher than the limit shutter speed, and outputs a camera shake limit signal when the second shutter speed is lower than the limit shutter speed; , camera shake countermeasure means for activating either a shutter lock means for prohibiting shutter release, a means for transitioning to a flash mode, or a warning means for issuing a camera shake warning when the camera shake limit signal outputted from the comparison means is input; An anti-shake camera featuring: