JP2020134789A - Imaging device - Google Patents

Abstract

To provide an imaging device with which it is possible to both reduce and prevent an imaging screen shake when a release button is pushed down in high-angle or low-angle photographing and reduce and prevent an erroneous response when a user inadvertently touches the release button when not photographing.SOLUTION: The imaging device comprises: an operation unit (114) operable by a user; pushing detection means (116) for detecting pushing on the operation unit (114); means (107) for determining whether or not the detected depth of push is greater than or equal to a threshold; threshold setting means (107) capable discretionarily setting the determination threshold; and state detection means (107) capable of detecting whether or not an imaging device (100) is in a high-angle photographing state or a low-angle photographing state. When the high-angle or low-angle photographing state is detected by the state detection means (107), the threshold setting means (107) sets the determination threshold to be smaller than a default value.SELECTED DRAWING: Figure 1

Description

The present invention relates to an imaging device such as a digital camera or a video camera and a control method thereof, and more particularly to control of a stroke amount of a release button.

Conventionally, in a typical imaging device, when a user pushes a release button, a conductive leaf spring connected to the release button comes into contact with another leaf spring arranged at intervals in the pushing direction. This will release the shutter. In this method, there is a concern that the image pickup screen may be blurred because the entire image pickup device is rotated by the force of pushing the release button. In particular, in high-angle shooting, low-angle shooting, and other shooting in a state where the image pickup device cannot be sufficiently held, the image pickup screen blur is remarkable, so there is a problem that the stroke amount of the release button should be shortened. However, if the stroke amount is uniformly shortened, there remains a problem that an erroneous reaction is likely to occur when the user unintentionally touches the release button except during shooting.

Patent Document 1 discloses a means by which a user can arbitrarily adjust the stroke amount of the release button by providing a regulation position adjusting mechanism that changes the regulation position in which the electrical contact piece is regulated in the release button direction. ..

Japanese Unexamined Patent Publication No. 9-325407

However, in the prior art disclosed in Patent Document 1 above, the stroke amount is adjusted by a physical adjustment mechanism, so that when the user wants to change the stroke amount, it takes time and effort to operate the stroke adjustment mechanism each time. ..

Therefore, an object of the present invention is to reduce / prevent image blurring when the release button is pressed by automatically controlling the stroke amount of the release button according to the state of the image pickup device, and the user intends to reduce / prevent image blurring when the release button is pressed. An object of the present invention is to provide an imaging device that can both reduce and prevent erroneous reactions when a button is touched without using it.

In order to achieve the above object, the imaging device according to the present invention is
An operation unit (114) that can be operated by the user
A pressure detecting means (116) for detecting the pressure on the operation unit (114), and
A means (107) for determining whether or not the detected pressing amount is equal to or greater than the determination threshold value, and
A threshold setting means (107) capable of arbitrarily setting the determination threshold, and
A state detecting means (107) capable of detecting that the image pickup apparatus (100) is in a high-angle shooting state or a low-angle shooting state, and
When the state detecting means (107) detects a high-angle shooting state or a low-angle shooting state, the threshold setting means (107) sets the determination threshold value to be smaller than the default value. It is characterized by doing.

According to the present invention, by controlling the stroke amount of the release button to be short only when a high-angle shooting state or a low-angle shooting state is detected, image blurring when the release button is pressed can be reduced / prevented and shooting can be performed. It is possible to provide an imaging device that can both reduce and prevent erroneous reactions when the user unintentionally touches the release button in a state other than the state.

It is a block diagram which shows the structure of the image pickup apparatus for demonstrating the embodiment of this invention. It is a flowchart in 1st Embodiment of this invention. It is a flowchart in 2nd Embodiment of this invention.

Hereinafter, embodiments for carrying out the present invention will be described in detail with reference to the drawings.

FIG. 1 is a block diagram relating to an image pickup apparatus 100 provided with a release button 115 according to an embodiment of the present invention.

Reference numeral 101 denotes an image sensor, which forms an optical image of a subject (not shown) through the lens 121, the diaphragm 122, and the shutter 113, and converts the optical image into an electric signal.

Reference numeral 102 denotes an A / D conversion unit, which converts the analog signal output of the image sensor 101 into a digital signal. The digital signal A / D converted by the A / D conversion unit 101 is controlled by the memory control unit 103 and the system control unit 107, and is stored in the memory 104.

Reference numeral 103 denotes a memory control unit, which controls the transmission and reception of data between the A / D conversion unit 102, the image processing unit 105, and the display device 106. The data of the A / D conversion unit 102 is written to the memory 104 via the image processing unit 105.

The 104 is a memory for storing captured still images, moving images, and image data for display for reproduction, and has a sufficient storage amount for storing a predetermined number of still images and moving images. The memory 104 secures a program stack area, a status storage area, a calculation area, a work area, and an image display data area of the system control unit 107. Various operations are executed by the system control unit 107 using the operation area of the memory 104.

Reference numeral 105 denotes an image processing unit, which performs predetermined pixel interpolation processing and color conversion processing on the data of the digital signal A / D converted by the A / D conversion unit 102.

Reference numeral 106 denotes a display device, which includes a liquid crystal panel display unit (not shown) and a backlight illumination unit. The display device 106 can perform "live view" shooting by sequentially displaying the image pickup data obtained from the image sensor in real time as a through image. It is also possible to display and reproduce captured images or moving images.

Reference numeral 107 denotes a system control unit that controls the entire image pickup apparatus 100. Further, even in the case of an interchangeable lens type image pickup apparatus, it is possible to control the lens unit 120 by controlling the lens control unit 123. In addition, the system control unit 107 has one or a plurality of means and determination threshold values for determining whether or not the signal level output from the pressure-sensitive sensor 116 described later is equal to or higher than a predetermined value. The system control unit 107 controls the entire image pickup apparatus 100 according to whether or not the output level from the pressure sensor 116 exceeds the determination threshold value. For example, when the system control unit 107 has two judgment threshold values, if it is equal to or more than the first judgment threshold value and is equal to or less than the second judgment threshold value, preparation for shooting such as AE / AF is performed, and if it is equal to or higher than the second judgment threshold value. For example, control such as performing an imaging operation can be considered.

Reference numeral 108 denotes a non-volatile memory that can be electrically erased and recorded, and for example, a flash memory, EEPROM, or the like is used. The non-volatile memory 108 stores a program for storing the photographing state and controlling the image pickup apparatus 100.

Reference numeral 109 denotes a power supply unit, which is composed of a battery, a battery detection circuit, a DC-DC converter, a switch circuit for switching a block to be energized, and the like, and detects whether or not a battery is installed, the type of battery, and the remaining battery level. Further, the DC-DC converter is controlled based on the detection result and the instruction of the system control unit 107, and the required voltage is supplied to each block unit for a necessary period.

Reference numeral 110 denotes a shutter control unit, which controls the shutter 113 based on the photometric information from the photometric unit 111 in cooperation with the lens control unit 123 that controls the aperture 122.

Reference numeral 111 is a metering unit for performing AE (automatic exposure) processing. By causing a light beam incident on the lens 121 to enter the photometric unit 111 via a diaphragm 122 and a photometric lens (not shown), the exposure state of the image formed as an optical image can be measured.

Reference numeral 112 denotes a ranging unit for performing AF processing. The in-focus state of the image formed as an optical image can be measured by causing the light beam incident on the lens 121 to enter the distance measuring unit 112 via the diaphragm 122 and the distance measuring mirror (not shown). ..

Reference numeral 113 denotes a shutter, which shields the image sensor 101 from light during non-shooting, and opens to guide light rays to the image sensor 101 during shooting.

Reference numeral 114 denotes an operating means for inputting various operation instructions of the system control unit 107. The operating means is composed of a single unit or a combination of a switch, a dial, pointing by line-of-sight detection, a voice recognition device, and the like.

Reference numeral 115 denotes a release button included in the operation unit 114, which is composed of a pressure sensor 116. The release button 115 is operated by the user when performing shooting preparation and imaging operations such as AE / AF.

Reference numeral 116 denotes a pressure-sensitive sensor constituting the release button 115, which outputs a signal corresponding to the amount of pressing of the release button 115 to the system control unit 107.

Reference numeral 117 denotes a state detection unit that detects the state of the image pickup apparatus 100, and is composed of one or a plurality of combinations of, for example, a pressure sensor, an eyepiece detection sensor, a magnetic sensor, an acceleration sensor, and an angular velocity sensor. The state detection unit 117 can detect that the image pickup apparatus 100 is in a high-angle shooting state or a low-angle shooting state.

Reference numeral 120 denotes a lens unit, which is composed of a lens 121, an aperture 122, a lens control unit 123, and a lens drive unit 124. However, in the case of an interchangeable lens type image pickup device, the lens unit 120 does not necessarily have to be included in the image pickup device 100. In that case, the lens unit 120 and the image pickup apparatus 100 are connected via electrical contacts (not shown).

Reference numeral 121 denotes a lens or a lens group, which is controlled by a lens driving unit 124.

Reference numeral 122 denotes a diaphragm, and the amount of light reaching the image sensor 101 can be adjusted. The aperture 122 is controlled by the lens driving unit 124.

Reference numeral 123 denotes a lens control unit that controls the entire lens unit 120. The lens control unit 123 includes identification information such as a memory unique to the lens unit 120 and a memory that stores constants, variables, and programs for operation, management information, functional information such as an open aperture value and a minimum aperture value, and a focal length. It also has a non-volatile memory function that holds each setting value in the past. The lens control unit 123 controls the focusing of the lens 121 according to the focusing state of the image measured by the distance measuring unit 112 or the image processing unit 105, and changes the imaging position of the subject image incident on the image sensor 101. By doing so, it is possible to perform AF operation. The lens control unit 123 also has a function of controlling the aperture 122 and controlling the zooming of the lens 121.

Reference numeral 124 denotes a lens driving unit that drives the lens 121 and the aperture 122. The lens 121 is driven by receiving a focusing control signal, a zooming control signal, and an image shake correction control signal from the lens control unit 123. Further, the aperture 122 is driven by receiving the aperture control signal. The lens driving unit 124 includes the above-mentioned focusing control mechanism, zooming control mechanism, image blur correction control mechanism, and aperture control mechanism, respectively.

Hereinafter, with reference to FIGS. 1 and 2, a process of controlling the stroke amount of the release button 115 according to the state of the image pickup apparatus 100 according to the first embodiment of the present invention will be described.

The flowchart of FIG. 2 is the most basic process in the present invention, and when the state of the image pickup apparatus 100 is a high-angle shooting state or a low-angle shooting state, the system control unit 107 determines the pressure-sensitive sensor 116. The process of controlling so as to reduce the threshold value is described.

This flowchart starts from the point where the image pickup device 100 is started by operating the operation unit 114 while the power is turned on to the image pickup device 100.
In step 100, the system control unit 107 acquires information on the state of the image pickup apparatus 100 from the state detection unit 117. The information to be acquired is atmospheric pressure information, time change of atmospheric pressure information, and eyepiece detection information.

Step 101 determines whether or not the image pickup apparatus 100 is in the high-angle shooting state or the low-angle shooting state based on the information acquired by the system control unit 107 in step 100. If it is in the high-angle shooting state or the low-angle shooting state, the process proceeds to step 102, otherwise the process proceeds to step 103. The high-angle shooting state and the low-angle shooting state are detected by the time change of the atmospheric pressure information and the presence / absence of eyepiece detection. If the time change of the atmospheric pressure information is equal to or more than a predetermined value in the decreasing direction and the eyepiece is not detected, it is judged as high-angle photography. If the time change of the atmospheric pressure information is equal to or more than a predetermined value in the increasing direction and the eyepiece is not detected, it is judged as low-angle shooting. The above determination method is an example, and is not limited to this.

In step 102, the system control unit 107 controls so that the determination threshold value of the pressure sensor 116 is reduced.

In step 103, the system control unit 107 controls so that the determination threshold value of the pressure sensor 116 is maintained in the default state.

In this way, the system control unit 107 is based on the information acquired from the state detection unit 117.
By controlling the output determination threshold value of the pressure sensor 116 to be small, the stroke amount of the release button can be shortened. This makes it possible to reduce / prevent blurring of the captured image due to pressing the release button 115 during high-angle shooting or low-angle shooting. In addition, since the stroke amount remains the default value except during high-angle shooting and low-angle shooting, it is possible to reduce erroneous reactions when the user unintentionally touches the release button.

Hereinafter, with reference to FIGS. 1 and 3, a process of controlling the stroke amount of the release button 115 according to the state of the image pickup apparatus 100 according to the second embodiment of the present invention will be described.

In the flowchart of FIG. 3, in addition to the processing of the first embodiment, it is determined whether or not the lens unit 120 is attached to the image pickup device 100 and whether or not the image pickup device 100 is in the photographing mode, and the system control unit 107 describes a process of controlling the determination threshold value of the pressure sensor 116.

This flowchart starts from the point where the image pickup device 100 is started by operating the operation unit 114 while the power is turned on to the image pickup device 100.

In step 300, the system control unit 107 acquires information regarding the state of the image pickup apparatus 100 from the state detection unit 117. Since the information to be acquired is the same as in step 100, it is omitted.

In step 301, the system control unit 107 determines whether or not the lens unit 120 is attached to the image pickup apparatus 100, and if it is attached, the process proceeds to step 302, and if it is not attached, the process proceeds to step 306. When the lens unit 120 is a part of the image pickup apparatus 100, the process proceeds to step 302.

In step 302, the system control unit 107 determines whether or not the image pickup apparatus 100 is in the photographing mode, and if it is in the photographing mode, it proceeds to step 303, and if it is not in the photographing mode, it proceeds to step 305. The shooting mode in this embodiment refers to a live view shooting state or a state in which the user is in contact with the image pickup device 100. Whether or not the user is in contact with the image pickup device 100 is determined by the eyepiece detection sensor included in the state detection unit 117.

Step 303 determines whether or not the image pickup apparatus 100 is in the high-angle shooting state or the low-angle shooting state based on the information acquired by the system control unit 107 in step 300. If it is in the high-angle shooting state or the low-angle shooting state, the process proceeds to step 304, otherwise the process proceeds to step 305. The method of detecting the high-angle shooting state and the low-angle shooting state is the same as in step 101, and is omitted.

In step 304, the system control unit 107 controls so as to reduce the determination threshold value of the pressure sensor 116.

In step 305, the system control unit 107 controls so that the determination threshold value of the pressure sensor 116 is maintained in the default state. This is based on the assumption that the user is playing back captured images and moving images on the display device 106, or setting various imaging devices 100. It is possible to reduce or prevent the erroneous reaction of touching the release button 115 and shifting to the shooting mode when there is no intention of shooting. Further, the reason why the determination threshold value of the pressure sensor 116 is not increased as in step 306 described later is that when the user wants to immediately shift to the shooting mode, he / she may feel a sense of discomfort if the operation feeling is different from the normal one. is there.

In step 306, the system control unit 107 controls so as to increase the determination threshold value of the pressure sensor 116.

In this way, the system control unit 107 determines whether or not the lens unit 120 is attached to the image pickup device 100 and determines whether or not the image pickup device 100 is in the photographing mode, and determines the output of the pressure sensor 116. The threshold can be controlled. As a result, in addition to the effect of the first embodiment, when the shooting operation is not performed, the stroke amount of the release button is not changed, or the stroke amount is controlled to be lengthened so that the user unintentionally presses the release button 115. The erroneous reaction when touched can be reduced and prevented more accurately than in Example 1.

Although the preferred embodiments of the present invention have been described above, the present invention is not limited to these embodiments, and various modifications and modifications can be made within the scope of the gist thereof.

(Other Examples)
The present invention supplies a program that realizes one or more functions of the above-described embodiment to a system or device via a network or storage medium, and one or more processors in the computer of the system or device reads and executes the program. It can also be realized by the processing to be performed. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.

100 Imaging device, 107 system control unit, 114 operation unit,
115 release button, 116 pressure sensor, 117 state detector,
120 lens unit

Claims (3)

An operation unit (114) that can be operated by the user
A pressure detecting means (116) for detecting the pressure on the operation unit (114), and
A means (107) for determining whether or not the detected pressing amount is equal to or greater than the determination threshold value, and
A threshold setting means (107) capable of arbitrarily setting the determination threshold, and
A state detecting means (107) capable of detecting that the image pickup apparatus (100) is in a high-angle shooting state or a low-angle shooting state, and
When the state detecting means (107) detects a high-angle shooting state or a low-angle shooting state, the threshold setting means (107) sets the determination threshold value to be smaller than the default value. An imaging device (100) characterized by the above. The lens unit (120) can be attached to and detached from the image pickup device (100).
It has a lens mounting detecting means (107) for detecting whether or not the lens unit (200) is mounted.
When the lens mounting detecting means (107) detects a state in which the lens unit (120) is not mounted, the threshold value setting means (107) is used regardless of the detection result of the state detecting means (107). The imaging device (100) according to claim 1, wherein the determination threshold value is set to be larger than the default value. It has a mode determination means (107) for determining whether or not the image pickup apparatus (100) is in the photographing mode.
When the lens mounting detecting means (107) detects a state in which the lens unit (120) is mounted, and the mode determining means (107) determines that the imaging device (100) is not in the photographing mode. The imaging device (100) according to claim 2, wherein the threshold value setting means (107) sets the determination threshold value to a default value regardless of the detection result of the state detection means (107). ..