JP4743868B2 - Image recording device - Google Patents

Description

  The present invention captures a subject and records the captured image, such as a so-called digital camera and digital video camera, and various electronic devices such as a PDA (personal digital assistant) and a cellular phone that have substantially the same functions as those of the digital camera and digital video camera. In addition, the present invention relates to an image recording apparatus capable of displaying on an image display apparatus, and more particularly to an image recording apparatus in consideration of the visibility of a display image in the image display apparatus.

In so-called digital cameras and digital video cameras, and image recording apparatuses such as various electronic devices that have substantially the same functions as those, a function of capturing a subject, recording the captured images, and displaying them on an image display apparatus Have. The image display device provided in such an image recording device can be used as a so-called electronic finder for confirming the arrangement of the subject to be imaged at the time of imaging, its composition, framing, or focusing state, or has already been imaged and recorded. In general, it is used as a viewer for confirming the recording state of a recorded image.
By the way, as an image display device in this type of image recording device, for example, a liquid crystal display device is usually used. Such an image display device such as a liquid crystal display device tends to be difficult to see a display image when the outside light is bright. In particular, in a situation where the display screen of the liquid crystal display device is directly illuminated by external light, the display screen becomes white and the image cannot be recognized. It becomes difficult to perform imaging using the finder. In such a case, conventionally, in many digital cameras, an imaging operation or the like is performed by observing a subject using an optical finder provided separately instead of an electronic finder for observing a subject image with a liquid crystal display device. It was.

However, in recent years, in digital cameras and the like, the size of the liquid crystal display device has increased, while the housing itself such as the camera body has been reduced in size. The display screen of the liquid crystal display device is arranged so as to cover almost the entire surface, and there is a tendency that there is not enough room for mounting the optical viewfinder. For this reason, there are not a few image recording apparatuses such as cameras that do not have an optical finder.
In such a situation, even if you do not have an optical viewfinder, you can avoid making the display screen used as an electronic viewfinder difficult to see by controlling the brightness of the image display device with a strong brightness that does not lose to external light. It is conceivable to change the image signal so that the image does not become white and difficult to see. However, in this case, it is necessary to control correctly according to the external light. If the brightness is increased unnecessarily, the power consumption increases, and if the image signal is changed unexpectedly, the display image becomes unnatural. Or appear inappropriate.

In the prior art, for example, in Patent Document 1 (Japanese Patent Application Laid-Open No. 2002-300447), the brightness of the image display device is controlled by controlling the backlight of the liquid crystal display device based on the exposure control information. It is shown. In this case, it is specified that a separate optical sensor is not provided, and the brightness of the image display device is controlled based only on luminance information obtained by an imaging system such as an imaging optical system and an imaging element. In the configuration of Patent Document 1, only luminance information obtained by the imaging system is used to control the brightness of the image display device, and information such as a photometric device is not separately used. For this reason, there is little information for determining the brightness control state of the image display device, and the brightness control may be inappropriate.
Further, in Patent Document 2 (Japanese Patent Application Laid-Open No. 2001-91921) and the like, photometric sensors are provided on both the subject side on the front side of the camera and the image display device side on the back side, respectively. It is shown that the brightness of the image display device is controlled in accordance with the magnitude relationship between the photometric outputs of these photometric sensors. In the configuration of Patent Document 2, since the photometric sensor is provided on both the front side and the rear side for brightness control of the image display device separately from the imaging system, the manufacturing cost is increased, and the photometric sensor Mounting space is also required.

JP 2002-300447 A JP 2001-91921 A

The present invention has been made in view of the above-described circumstances, and the brightness of the image display device in an image recording device having a function of recording a captured subject image and displaying the captured subject image with a simple configuration. An object of the present invention is to provide an image recording apparatus that can be controlled with high accuracy and can be configured at low cost and in a space-saving manner.
The purpose of claim 1 of the present invention is particularly precise control is simple configuration for realizing the brightness of the image display device, with may achieve low cost and space saving, when the backlight decision, quickly and An object of the present invention is to provide an image recording apparatus capable of displaying a display image that is appropriately viewable .

The object of claim 2 of the present invention is that the brightness does not change abruptly when the brightness of the display of the image display device is controlled, and good visibility can be obtained, which can contribute to power saving. An object is to provide an image recording apparatus.
The purpose of claim 3 of the present invention, in particular, display brightness brightness during control of the image display device is changed quickly, is to provide an image recording apparatus capable of improving the responsiveness .
The object of claim 4 of the present invention is to provide an image recording apparatus that can control the brightness of the display with high accuracy, in particular, by making the visual field range of the image display device and the photometric visual field range of the photometry device substantially the same. There is to do.
The object of claim 5 of the present invention is to control the brightness of the display more precisely by making the incident angle of external light that adversely affects the visibility of the image display device substantially coincide with the photometric incident angle of the photometric device. An object of the present invention is to provide an image recording apparatus that makes it possible.

In order to achieve the above-described object, the image recording apparatus according to the present invention described in claim 1
A housing,
An imaging optical system arranged on the front side facing the subject of the housing to form an optical image of the subject;
Imaging means for converting the subject optical image formed in the housing and imaged by the imaging optical system to obtain electrical image information;
An image display device arranged on the back side of the housing for displaying image information acquired by the imaging means via the imaging optical system;
A photometric device arranged near the image display device of the housing for measuring external light;
Based on the luminance information based on the image information acquired from the imaging unit and the luminance information of external light acquired from the photometry device, the display brightness of the image display device is controlled, and the brightness from the imaging unit Backlight determination information is acquired together with luminance information based on image information, and when the backlight is determined from information acquired by the imaging unit, display of the image display device is performed regardless of the luminance information of the photometry device. Brightness control means for controlling the brightness to be dark .

The image recording apparatus according to the present invention described in 請 Motomeko 2 is an image recording apparatus according to claim 1,
When the brightness control means changes the display brightness of the image display device based on the luminance information, the change in brightness is at least one of a multi-step change and a continuous change. It is characterized by controlling to.
The image recording apparatus according to the present invention described in claim 3 is the image recording apparatus according to claim 1 or 2 ,
When the brightness control means changes the display brightness of the image display device based on the brightness information, the brightness control is controlled so as to be an instantaneous change without going through an intermediate stage. It is said.

An image recording apparatus according to the present invention described in claim 4 is the image recording apparatus according to any one of claims 1 to 3 ,
The photometric device is characterized in that its light receiving angle is made to substantially correspond to the viewing angle of the image display device.
An image recording apparatus according to the present invention described in claim 5 is the image recording apparatus according to claim 1 ,
The light-receiving optical axis of the photometric device and the central axis of the field of view of the image display device are substantially associated with each other.

  According to the present invention, the brightness of the image display device in an image recording device having a function of recording a captured subject image and displaying the image on the image display device can be controlled with a simple configuration with high accuracy, and a wide variety of It is possible to provide an image recording apparatus that can display a display image satisfactorily in any imaging environment and can be configured at low cost and in a small space.

That is, according to the image recording apparatus of claim 1 of the present invention,
A housing,
An imaging optical system arranged on the front side facing the subject of the housing to form an optical image of the subject;
Imaging means for converting the subject optical image formed in the housing and imaged by the imaging optical system to obtain electrical image information;
An image display device arranged on the back side of the housing for displaying image information acquired by the imaging means via the imaging optical system;
A photometric device arranged near the image display device of the housing for measuring external light;
Based on the luminance information based on the image information acquired from the imaging unit and the luminance information of external light acquired from the photometry device, the display brightness of the image display device is controlled, and the brightness from the imaging unit Backlight determination information is acquired together with luminance information based on image information, and when the backlight is determined from information acquired by the imaging unit, display of the image display device is performed regardless of the luminance information of the photometry device. The brightness control means for controlling the brightness to be dark makes it possible to visually recognize the display image satisfactorily even though the configuration for realizing high-precision control of the brightness of the image display device is simple. In addition, it is possible to achieve low cost and space saving, and at the time of backlight determination, it is possible to display a display image that is easy to view quickly and appropriately .

According to the image recording apparatus of claim 2 of the present invention, in the image recording apparatus of claim 1 , the brightness control means changes the display brightness of the image display device based on the luminance information. By controlling so that the change in brightness becomes at least one of multi-step change and continuous change, the brightness does not change abruptly especially when controlling the display brightness of the image display device. Therefore, it becomes possible to obtain good visibility and contribute to power saving.

According to an image recording apparatus of claim 3 of the present invention, in the image recording apparatus of claim 1 or 2 , the brightness control means changes the display brightness of the image display device based on the luminance information. By controlling the brightness so that it changes instantaneously without going through an intermediate stage, especially when controlling the brightness of the display of the image display device, the brightness changes quickly, improving responsiveness. Since the brightness control means can be simplified, low cost and space saving can be realized.
According to an image recording apparatus of a fourth aspect of the present invention, in the image recording apparatus of any one of the first to third aspects, the photometric device causes the light receiving angle to substantially correspond to the viewing angle of the image display device. In particular, the visual field range of the image display device and the photometric visual field range of the photometric device can be made substantially equal, and the display brightness can be controlled with high accuracy.
According to the image recording apparatus of the fifth aspect of the present invention, in the image recording apparatus of the first aspect, the light receiving optical axis of the photometric device and the central axis of the visual field of the image display device are made to substantially correspond to each other. In particular, it is possible to make the incident angle of external light that adversely affects the visibility of the image display device substantially coincide with the photometric incident angle of the photometric device, and to control the display brightness with higher accuracy.

Hereinafter, based on an embodiment of the present invention, an image recording apparatus of the present invention will be described in detail with reference to the drawings.
1 to 3 show the configuration of a digital camera according to an embodiment of the image recording apparatus of the present invention. FIG. 1 is a front view schematically showing an appearance of a digital camera viewed from the front side facing the subject, and FIG. 2 is a rear view schematically showing an appearance of the digital camera shown in FIG. FIG. 3 is a block diagram showing an electrical system configuration of the digital camera of FIG.
As shown in FIGS. 1 and 2, the digital camera includes a camera body 1, an imaging optical system 2, a strobe unit 3, a distance measuring unit 4, a remote control (remote control) light receiving unit 5, an optical viewfinder 6, a card slot / battery chamber. Cover 7, AF (autofocusing) -LED (light emitting diode) 8, strobe LED 9, image display device 10, photometric device 11, release button SW1, mode dial SW2, wide-angle zoom button SW3, telephoto zoom button SW4, self-timer / Delete button SW5, menu button SW6, up / strobe button SW7, right button SW8, image display button SW9, down / macro button SW10, left / image confirmation button SW11, OK button SW12 and power switch SW13.

In this case, the camera body 1 is a housing having a substantially rectangular parallelepiped shape. An imaging optical system 2 is provided on the front side of the camera body 1 facing the subject. The imaging optical system 2 is configured to be extendable and retractable by, for example, a so-called collapsible lens barrel. In general, in the shooting state, the imaging optical system 2 extends in the direction of the optical axis and protrudes to the front side of the camera body 1 to be in a non-shooting state. Is retracted in the optical axis direction and stored in the camera body 1. The imaging optical system 2 portion is provided with a barrier (not clearly shown) that closes the objective lens opening at the front end of the imaging optical system 2 in the non-photographing state. The front side is almost flat. In the photographing state, this barrier opens the objective lens opening at the front end of the imaging optical system 2 protruding from the front surface of the camera body 2 and enables imaging of the subject. In this case, the imaging optical system 2 is configured as a so-called zoom lens having a variable focal length.
The camera body 1 further includes a strobe light emitting unit of the strobe unit 3, a distance measuring window unit of the distance measuring unit 4, a remote control light receiving unit 5, and an object plane unit of the optical viewfinder 6 on the front side.

  The strobe unit 3 illuminates the subject by emitting strobe light when the subject does not have sufficient brightness. When the external distance measurement is required, the distance measuring unit 4 is, for example, an active type that measures an object distance by irradiating an infrared light beam toward a subject and receiving a reflected beam from the subject, or two object reflected lights. And the subject distance is measured in a passive format in which the subject distance is measured by a triangulation method based on the difference between the two. Usually, in a digital camera, since the in-focus state can be analyzed by processing of image information to be captured, distance measurement by this image processing is often used, and sufficient measurement is performed by this image processing. The distance measurement information obtained by the distance measurement unit 4 is used when distance information cannot be obtained. The remote control light receiving unit 5 receives remote control information such as infrared light from a separately prepared remote control device or the like, and is used to perform various operations of the digital camera in accordance with the received light information. . The optical viewfinder 6 is used to confirm the in-focus state, composition, framing, and the like of the subject, and is normally configured as an optical system that works in conjunction with the imaging optical system 2.

  On the upper surface of the camera body 1, as shown in FIG. 2, a release button SW1 for giving a shooting instruction is provided on the right side when viewed from the rear side, and a mode dial SW2 is provided in a substantially central portion. For example, the release button SW1 performs a distance-focusing operation in a half-pressed state, and maintains the distance-focused state by maintaining the half-pressed state, thereby enabling a so-called focus lock operation. When the shutter button is fully depressed, the shutter is opened to perform a release operation for capturing a subject image. In this case, the mode dial SW2 is configured as a change-over switch that is operated by a rotation operation, and is used for selectively changing operation modes such as various photographing modes of the digital camera. A memory card slot for loading a memory card such as a so-called SD card (trademark) and a battery chamber lid for loading a battery, that is, a card slot / battery chamber lid, on the right side when viewed from the back side of the camera body 1 shown in FIG. 7 is arranged. The card slot / battery chamber lid 7 is opened, and the memory card or battery is attached or detached, and the memory card or battery is attached, exchanged, or removed.

On the back side of the camera body 1, AF (autofocusing) -LED (light emitting diode) 8, strobe LED 9, image display device 10, photometry device 11, release button SW1, mode dial SW2, wide-angle zoom button SW3, telephoto side Zoom button SW4, self-timer / delete button SW5, menu button SW6, up / strobe button SW7, right button SW8, image display button SW9, down / macro button SW10, left / image confirmation button SW11, OK button SW12 and power switch SW13 Etc. are arranged. Note that the eyepiece of the above-described optical viewfinder 6 is also disposed on the back side of the camera body 1.
The AF-LED 8 and the strobe LED 9 respectively display the AF operation state and the charge / operation state of the strobe unit 3 by lighting color, lighting or blinking.
The image display device 10 includes a liquid crystal display device, for example, and is used for displaying captured image information and the like. The image display by the image display apparatus 10 is used as a so-called electronic viewfinder at the time of shooting, for monitoring a shot image before and after shooting, checking a shot image after shooting, and the like. In the present invention, the brightness of the display is controlled as will be described later in order to prevent the display of the image display device 10 from being difficult to see due to external light or the like.

The photometric device 11 measures the brightness in the vicinity of the image display device 10. Although details will be described later, the image display device 10 is based on both the back side light amount (luminance information) by the photometric device 11 and the front side light amount (luminance information) acquired via the imaging optical system 2. The gist of the present invention is to control the brightness of the image.
The wide-angle zoom button SW3 depresses this to zoom the imaging optical system 2 to the wide-angle short focus side, and the telephoto zoom button SW4 depresses this to bring the imaging optical system 2 to the telephoto long focus side. Zoom in. The self-timer / delete button SW5 is a switch for setting the self-timer operation mode or deleting the selected item in various operation states, and the menu button SW6 is a switch for displaying various operation menus. The up / strobe button SW7 is a switch for moving the selected item upward in various operation states or setting the strobe emission mode, and the down / macro button SW10 is down in the selected item in various operation states. A switch for performing a movement operation or a macro shooting mode setting operation, the right button SW8 is a switch for performing a rightward movement operation of a selection item in various operation states, and a left / image confirmation button SW11 is It is a switch for causing the selection item to move to the left in various operation states or to perform an image confirmation mode setting operation.

The image display button SW9 is a switch for starting display by the image display device 10 from a non-display state for power saving or the like, the OK button SW12 is a switch for confirming a selection state in various operation states, and a power switch SW13 is a switch for turning on / off the power of the digital camera.
FIG. 3 shows the electrical system configuration of the digital camera shown in FIGS.
A digital camera as an image recording apparatus shown in FIG. 3 includes a control device 21, a lens barrel unit 22, an image sensor 23, and an image processing device in addition to the image display device 10 and the photometry device 11 (see FIG. 2) described above. 24, a storage device 25, and an external interface unit 26.
In this case, the image display device 10 includes, for example, a liquid crystal (LCD) display unit 10a as a display element unit and a backlight 10b as an illuminating unit that illuminates the display device unit 10 from behind. The display brightness of the image display device 10 is mainly determined by the luminance of the backlight 10b. As the image display device 10, for example, an organic EL (electroluminescence) display device or the like can be used. The photometric device 11 measures the brightness on the back side of the camera body 1 and in the vicinity of the image display device 10, and is configured using a phototransistor, a photodiode, a CdS cell (cadmium sulfide photoconductive cell), or the like. be able to.

The control device 21 is configured as a central processing unit (CPU) using a microprocessor or the like, and controls various parts to execute various functional operations as a digital camera. The lens barrel unit 22 includes the imaging optical system 2 shown in FIG. 1 and is controlled by the control device 21 to drive the imaging optical system 2. The lens barrel unit 22 includes a motor driver 221, a zoom motor 222, a focus motor 223, a shutter motor 224, and an aperture motor 225. The zoom motor 222 is a motor for zooming the imaging optical system 2, the focus motor 223 is a motor for driving the imaging optical system 2 for focusing, and the shutter motor 224 is a mechanical shutter of the imaging optical system 2. The aperture motor 225 is a motor for driving the aperture of the imaging optical system 2 and adjusting the aperture opening. The motor driver 221 drives and controls these motors 222 to 225 in accordance with instructions from the control device 21.
The image pickup device 23 constitutes image pickup means, and is composed of, for example, a CCD (charge coupled device) solid-state image pickup device or a CMOS (complementary metal oxide semiconductor) image sensor solid-state image pickup device and the like, and a subject imaged by the image pickup optical system 2 The optical image is converted into image information made up of electrical signals and used for processing.

The image processing device 24 includes, for example, a digital signal processor (DSP) or the like, and performs necessary image processing on the image information converted by the image sensor. The storage device 25 is a built-in memory including, for example, a main storage device and an auxiliary storage device, and appropriately uses a volatile memory and a non-volatile memory depending on the application. The image information obtained by the image pickup device 23 and the image information obtained by subjecting the image information to the required processing by the image processing device 24 are stored in the storage device 25. The control program for the operation of the control device 21 is normally stored in the storage device 25, and the control program stored in the auxiliary storage device is read out and loaded into the main storage device for execution. good.
The external interface unit 26 exchanges information with the system control unit of the digital camera shown in FIG. 3 and external subjects and users, and the strobe unit 3 and ranging unit already described in connection with FIGS. 1 and 2. 4, remote control light receiving unit 5, AF-LED 8 and strobe LED 9, as well as operation unit, card slot and other communication system. The operation unit includes a release button SW1, a mode dial SW2, a wide-angle zoom button SW3, a telephoto zoom button SW4, a self-timer / delete button SW5, a menu button SW6, an up / strobe button SW7, a down / macro button SW10, and a right button SW8. , A left / image confirmation button SW11, an image display button SW9, an OK button SW12, and a power switch SW13. The card slot is used to exchange information with the memory card loaded in the card slot / battery chamber lid 7. Used for. The communication system includes interfaces such as a USB (Universal Serial Bus) interface and a Bluetooth interface for exchanging information with an external personal computer (PC), a printer, a PDA, a mobile phone, and the like.

Next, detailed functions in such a configuration will be specifically described together with the operations thereof.
As shown in FIGS. 1 and 2, the imaging optical system 2 is disposed on the front subject side of a camera body 1 as a housing. A subject optical image obtained via the imaging optical system 2 is captured as image information by the imaging device 23 and converted into other image information, distance information, luminance information, or the like by at least one of the control device 21 and the image processing device 24. To do.
The image display device 10 and the photometry device 11 are arranged on the back side far from the subject of the camera body 1, the image display device 10 displays image information and character information related to various operations, and the photometry device 11 The brightness information corresponding to the brightness is acquired.
The captured luminance information is supplied to the control device 21, and the control device 21 controls the brightness of the image display device 10 according to the luminance information so that the display image of the image display device 10 does not become difficult to see. Do. Therefore, in this case, the brightness control means is configured as a part of the function in the control device 21.

In this case, the brightness control of the image display device 10 is performed by controlling the illumination light by controlling the power of the backlight 10b as the illumination means for the liquid crystal display unit 10a as the display element unit. When the image display device 10 is configured using a display element such as an organic EL that emits light, the power of the image display device 10 itself or the luminance of the image signal may be controlled. Corresponding to claim 1, claim 2 and claim 3).
As an example of brightness control, when the back side, that is, the image display device 10 side is bright, it is considered that the image is difficult to recognize, and the substantial brightness is controlled so that the display of the image display device 10 becomes bright. To do. When both the front side subject side and the back side image display device side are dark, it is considered that the image is easily recognized, and control is performed so that the display of the image display device 10 becomes dark.
The luminance information on the subject side is acquired from the existing imaging optical system 2 and the luminance information on the side far from the subject is acquired from the photometry device 11, so that brightness control according to the external light can be performed with high accuracy and low cost. As a result, the image display apparatus 10 can recognize an image in various imaging environments.

Further, for example, on the imaging optical system side on the front side, in the situation where the lens barrier is closed, or in the situation where the control device 21 judges that proper photometric determination cannot be made with extremely high luminance or low luminance, etc., the luminance information Can not get. On the other hand, with respect to the photometric device 11 on the back side, luminance information is acquired in a situation where the photometric window is blocked with a finger, or in a situation where the photometric range is too high or low and out of the photometric range. I can't. If the luminance information cannot be acquired as described above, the information obtained after a predetermined time or a predetermined number of counts has passed, not waiting for the luminance information to be obtained or giving up control. The brightness of the display is controlled only by this, and the process proceeds to the next sequence (corresponding to claim 4).
As described above, when the luminance information cannot be acquired, a problem may have occurred. Therefore, the user is preferably warned that the luminance information could not be acquired.
That is, in order to perform control with high accuracy, brightness information on both the front side and the back side is necessary, but in the worst case, a certain level of brightness control is possible with only one side. Therefore, rather than waiting for both luminance information to be gathered indefinitely and reducing the responsiveness of the luminance control, if the brightness control is performed using only one of the luminance information that can be acquired, the responsiveness will be improved. Can be improved. In that case, the user interface can be improved by warning the user.

For the luminance information obtained as described above, the luminance information obtained is weighted such that the luminance information on the front side is 40% of 100% and the luminance information of the photometry device 11 is 60% of 100%. Thus, by performing the control as described above, it is possible to realize control more suitable for the situation (corresponding to claim 5).
Desirably, this weighting can be changed according to the shooting environment. For example, according to the incident angle of external light, weighting is different between daytime and summer when the sun is high and morning and evening when the sun is low and winter. Furthermore, if the weight can be changed as desired by the user, more appropriate control can be performed.
In the shooting state such as still image shooting or movie shooting, the imaging optical system 2 and the image sensor 23 operate (receives light), so that it is possible to acquire luminance information. However, during still image playback and movie playback, Since the imaging optical system 2 and the imaging device 23 are not operating except in the shooting state such as during voice recording and during voice reproduction, luminance information cannot be acquired. Therefore, in such a situation, the brightness of the image display device 10 is controlled based only on the luminance information from the photometric device 11 (corresponding to claim 6).

At this time, the luminance information is not acquired from the imaging optical system 2 and it is not necessary to energize the imaging device 23. Therefore, power is saved, and time for obtaining the luminance information is not required, leading to an improvement in response speed. .
Further, at the start of the imaging operation such as when the release button SW1 is pressed, luminance information may be acquired and used for brightness control of the image display device 10 (corresponding to claim 7). In this case, when the imaging operation is completed, the brightness control state before the imaging operation, the default brightness control state, or the dark brightness control state may be restored.
When there is no change in the image, that is, when it is determined from the image information continuously acquired from the imaging optical system that the change in the image is within a predetermined value, the user prepares for the imaging operation on the subject. The brightness of the image display device 10 may be controlled based on the determination that the image is in the active state (corresponding to claim 8).
When the imaging operation preparation operation is completed, or shooting is performed from the imaging operation preparation state and the imaging operation is completed, the brightness control state before the imaging operation, the initial brightness control state, or dark You may make it return to a brightness control state.

For example, after shooting, an automatic image check (referred to as a REC review) state for confirming whether the shot image has been shot as intended by the photographer or the operation of the left / image check button SW11 The brightness of the image display device 10 may be controlled in an image confirmation operation state such as a manual image confirmation state by (corresponding to claim 9). Also in this case, after the imaging operation is completed, the brightness control state before the imaging operation, the default brightness control state, or the dark brightness control state may be restored.
For example, even when a subject is selected, such as in a monitoring state, brightness information may be always obtained and brightness control of the image display device may be performed (corresponding to claim 10).
Note that the control device 21 can determine whether the subject is normal light or backlight based on luminance information, image information, and the like of the imaging optical system 2, and therefore, if it is determined that the light is back, Since it is clear that there is a somewhat bright light source on the subject side, the image display device 10 side on the back side becomes a shadow and darkens. At that time, since it is possible to recognize an image without controlling the image display device 10 to be bright, the display may be controlled to be dark (corresponding to claim 11). At this time, the luminance information of the photometric device 11 may not be acquired.

If the luminance information of the photometric device is not obtained, the responsiveness of brightness control can be improved, and if the photometric device 11 is not energized, it contributes to power saving.
When changing the brightness of the image display device 10, the brightness is changed by sequentially controlling in multiple stages including an intermediate stage, or by gradually decreasing or increasing the brightness. Control that does not make it difficult to see the state in the middle is possible (corresponding to claim 12).
In this way, by changing the brightness in multiple steps or continuously, the visibility is not impaired, and since the power is changed in multiple steps or continuously, an inrush current can be prevented. This reduces the burden on the power supply and saves power.
On the contrary, when the brightness of the image display device 10 is changed, if the brightness is controlled instantaneously without going through an intermediate stage, the control responsiveness and efficiency can be improved. (Corresponding to claim 13). In this case, there is an advantage that the control can be simplified.
For example, a condensing lens is arranged in front of the light receiving element of the photometric device 11 to control the light receiving angle, or an aperture hole is arranged in front of the light receiving element, so that the light receiving angle of the photometric device 11 and the image By making the viewing angle of the display device 10 equal, it is possible to control the brightness efficiently (corresponding to claim 14).

  For example, by arranging the photometric device 11 and the image display device 10 on the same surface of the same member, the optical axis of the light receiving angle of the photometric device 11 and the central axis of the viewing angle of the image display device 10 are matched. Therefore, it is possible to control the brightness appropriately and efficiently (corresponding to claim 15).

1 is a front view schematically showing an external appearance of a digital camera according to an embodiment of an image recording apparatus of the present invention. It is a rear view which shows typically the external appearance of the digital camera of FIG. FIG. 2 is a schematic block diagram illustrating a schematic system configuration of the digital camera of FIG. 1.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Camera body 2 Imaging optical system 3 Strobe unit 4 Ranging unit 5 Remote control (remote control) light-receiving part 6 Optical finder 7 Card slot / battery compartment cover 8 AF (autofocusing) -LED (light emitting diode)
9 Strobe LED (Light Emitting Diode)
DESCRIPTION OF SYMBOLS 10 Image display apparatus 10a Liquid crystal display part 10b Backlight 11 Photometry apparatus 21 Control apparatus (CPU)
22 Lens barrel unit 221 Motor driver 222 Zoom motor 223 Focus motor 224 Shutter motor 225 Aperture motor 23 Image sensor 24 Image processing device 25 Storage device 26 External interface unit SW1 Release button SW2 Mode dial SW3 Wide-angle zoom button SW4 Telephoto zoom button SW5 Self-timer / delete button SW6 Menu button SW7 Up / Strobe button SW8 Right button SW9 Image display button SW10 Down / Macro button SW11 Left / Image confirmation button SW12 OK button SW13 Power switch

Claims (5)

A housing,
An imaging optical system arranged on the front side facing the subject of the housing to form an optical image of the subject;
Imaging means for converting the subject optical image formed in the housing and imaged by the imaging optical system to obtain electrical image information;
An image display device arranged on the back side of the housing for displaying image information acquired by the imaging means via the imaging optical system;
A photometric device arranged near the image display device of the housing for measuring external light;
Based on the luminance information based on the image information acquired from the imaging unit and the luminance information of external light acquired from the photometry device, the display brightness of the image display device is controlled, and the brightness from the imaging unit Backlight determination information is acquired together with luminance information based on image information, and when the backlight is determined from information acquired by the imaging unit, display of the image display device is performed regardless of the luminance information of the photometry device. An image recording apparatus comprising: brightness control means for controlling brightness to be dark . When the brightness control means changes the display brightness of the image display device based on the luminance information, the change in brightness is at least one of a multi-step change and a continuous change. The image recording apparatus according to claim 1, wherein the image recording apparatus is controlled as follows. The brightness control means controls the change in brightness to be an instantaneous change without going through an intermediate stage when changing the display brightness of the image display device based on the luminance information. The image recording apparatus according to claim 1 or 2 . The photometric apparatus, an image recording apparatus according to any one of claims 1 to 3, characterized by being substantially in correspondence with the light receiving angle on the viewing angle of the image display device. The image recording apparatus according to claim 1, wherein the light receiving optical axis of the photometric device, to become substantially in correspondence with the central axis of the field of view of the image display device.

Images