JP2006064780A - Imaging apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To miniaturize and thin an imaging apparatus by optimizing the arranging balance of the component elements of the imaging apparatus. <P>SOLUTION: The housing 11 of the imaging apparatus 10 is equipped with a notched part 51 obtained by notching an almost center part on one end side in a longitudinal direction, and first space positioned on one side with the notched part as a boundary and second space positioned on the other side with the notched part as the boundary are regulated by the notched part. A capacitor for a stroboscope is arranged in the first space, and a motor for driving is arranged in the second space. Then, a lens unit equipped with an imaging lens body driven by the motor for driving is arranged in the third space regulated between the first space and the second space. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an imaging apparatus such as an electronic camera (digital camera), and more particularly to a small and thin imaging apparatus.

  Generally, in an imaging apparatus such as a digital camera (hereinafter simply referred to as a camera), at least a camera casing (camera frame) includes a control board, a battery (battery), a memory, an imaging lens, a display unit (liquid crystal display: LCD), and a strobe. In order to reduce the size and thickness of the camera itself, it is necessary to optimize the arrangement of the control board, battery, memory, imaging lens, LED, and strobe capacitor. In other words, cameras are required to be small and thin in order to ensure portability, and have many functions that can use various shooting modes. For this purpose, control boards, batteries, and memories are required. It is necessary to optimize the arrangement of the imaging lens, LED, and strobe capacitor.

  Conventionally, in order to reduce the size of the camera and improve operability and reliability, it has a memory and a battery that can be attached to and detached from the camera housing, and the memory can be inserted and removed in the open position to protect the memory in the closed position. It has a free lid member, and the lid member has an arm part whose width is narrower than the full width in the longitudinal direction and a rotation center part at the tip of the arm part, and the difference between the full width of the lid member and the width of the arm part when the lid is closed In this case, a battery and a memory card are arranged on the side surface side of the horizontal camera case, and the front side is opened on this side surface. A lid member is arranged.

  In addition, there is a battery compartment on one side of the camera housing, the battery is housed in this battery compartment, and the battery compartment is covered with a battery lid. An electronic circuit is arranged on a battery lid at a position where it can be easily controlled. A battery is arranged on one side of a horizontal camera housing, and an open / close lid for battery replacement (battery lid) on this side Is trying to arrange.

  In addition, in order to reduce the size and thickness of the camera, a reflection surface for bending the optical axis is provided in the vicinity of the light incident portion of the camera housing, and the optical axis direction after reflection is formed in the longitudinal direction. The imaging optical system is arranged in the camera housing so that the longitudinal direction is parallel to the camera bottom surface, and the optical viewfinder is arranged in the upper area of the imaging optical system so that the longitudinal direction is parallel to the longitudinal direction of the imaging optical system In the lower region of the photographic optical system, a strobe condenser is arranged so that its longitudinal direction is parallel to the longitudinal direction of the photographic optical system. The battery, control board, and memory card are stacked on the side, the 90 ° optical path bending optical element and the LCD are stacked on the other side of the camera housing, and the strobe condenser and optical are located below the optical element. The optical It is to be stacked the inductor.

  In addition, in order to obtain a vertical electronic camera that is compact and has good optical characteristics, the shape of the front surface portion having a light incident portion for allowing subject light to enter is vertically long when viewed from the front of the camera. As a shape, it has a side that bends the optical axis so that the optical axis after reflection faces in the horizontal direction parallel to the bottom surface of the camera housing in the vicinity of the light incident portion, and bisects the camera housing in the vertical direction, A unit including at least a strobe condenser, an optical finder, and a strobe light emitter in an upper region of the camera case that is divided in the vertical direction by arranging the photographing optical system so as to occupy substantially the entire lateral area of the camera case. In this example, a memory card, control board, battery, and LCD are stacked on the lower side of the vertical camera casing, and the optical element and strobe condenser are positioned on the upper side of the camera casing. And it is arranged and.

  Furthermore, in order to provide a compact and lightweight compact camera, a folding substrate, a media holder, and a switch operation unit are accommodated in a housing on the right grip side with a lens barrel as a center, and a strobe is disposed in the opposite housing. There is a type in which a flash, a zoom motor, and the like are accommodated, an electric circuit (control board) is kept away from a noise generation source, and a battery is accommodated in a lower part of a camera casing (see Patent Document 1).

JP 2003-5267 A (paragraph (0005) to paragraph (0012), FIG. 1 to FIG. 5)

  By the way, although the conventional camera pursues miniaturization and thinning, a large number of components (for example, control board, battery, memory, imaging lens, LED, strobe condenser, etc.) provided in the camera are appropriately arranged. Thus, there is a problem that the balance of the camera components cannot be achieved by optimizing the balance of the camera itself, and as a result, the arrangement balance of the camera components is deteriorated.

  In a conventional camera, it is difficult to properly arrange the condenser for strobe and the motor for driving the imaging lens. As a result, the arrangement balance of the entire camera components is deteriorated, and the camera itself is small and thin. There is a problem that it is difficult to make it.

  SUMMARY OF THE INVENTION Accordingly, in view of the problems of the prior art, an object of the present invention is to provide a small and thin imaging device by optimizing the arrangement balance of camera components.

  Therefore, in order to solve such a problem, the present invention includes a notch portion in which a substantially central portion on one end portion side is notched in the longitudinal direction, and the notch portion serves as a boundary between the notch portion and the notch portion. A housing in which a first space located on the side and a second space located on the other side with respect to the notch are defined, a strobe capacitor disposed in the first space, and the first An imaging member including a driving motor disposed in a second space and an optical element disposed in a third space defined between the first and second spaces and driven by the driving motor; It is characterized by having.

  Furthermore, according to the present invention, the front cover and the rear cover are provided, and the length in the vertical direction is a substantially rectangular parallelepiped shape longer than the length in the left-right direction, and a substantially central portion on the upper end side is cut out in the longitudinal direction. A first space located on one of the left and right sides with the notch as a boundary, and a second located on the other of the left and right with the notch as a boundary. A housing in which the space is defined, a base member extending in the longitudinal direction in the housing, and the first space between the front cover and the base member Between the strobe capacitor, the drive motor disposed in the second space between the front cover and the base member, and between the front cover and the base member, the first and second Arranged in a third space defined between Imaging device is obtained having an imaging member is provided with an optical element driven by the driving motor.

  In the present invention, a strobe light emitting portion and a cover portion that covers the optical element are provided, and a strobe member having a substantially rectangular parallelepiped shape is provided. The strobe member is disposed in the cutout portion so as to be movable in the vertical direction. The optical element is selectively exposed according to the movement of the member.

  In the present invention, a recording medium that can be attached to and detached from the casing, a recording medium holding member that holds the recording medium in the casing, a battery that can be attached to and detached from the casing, and an electronic component are mounted. A base board, a display element for displaying an image, and a sub board on which an operation unit is mounted; and the base member fixes the imaging member on the subject side on the upper side of the housing, and The display element is fixed to the rear side opposite to the subject side on the upper side of the casing, and the main board is fixed to the subject side on the lower side of the casing, and the rear side on the lower side of the casing. A storage space for storing the battery is defined between the main substrate and the lower portion of the front cover, and the recording medium holding member is fixed to the upper side of the casing from the subject side sequentially. The imaging member and the display element are stacked and arranged, Lower side to the battery from the object side of Kikatamitai, the main substrate, the recording medium holding member, and said sub-substrate are sequentially stacked.

  In the present invention, the recording medium and the battery can be inserted into and removed from the housing in the open position, and the recording medium and the battery are protected from being opened and closed in the closed position. The lid member is disposed so as to protrude from the front cover and the rear cover, and the housing is made to stand by the lid member.

  As described above, in the imaging device of the present invention, the housing includes the cutout portion in which the substantially central portion on the one end portion side is cut out in the longitudinal direction, and the cutout portion serves as a boundary between the cutout portion and the cutout portion. A first space located on the side and a second space located on the other side with the notch as a boundary, a strobe capacitor disposed in the first space, and a drive motor in the second space And an image pickup member including an optical element driven by a driving motor in a third space defined between the first and second spaces. As a result, the main device such as the head and the battery can be stacked in two elements in the front-rear direction of the housing, so that the balance of the image pickup device can be made uniform, and the arrangement balance of the components of the image pickup device can be optimized and reduced in size.・ Effect of being thin A.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. However, the dimensions, materials, shapes, relative arrangements, and the like of the component parts described in this embodiment are not intended to limit the scope of the present invention only to the description unless otherwise specified. It is just an example.

  With reference to FIGS. 1 and 2, here, an electronic camera (digital still camera (DSC)) will be described as an example of an imaging apparatus. FIG. 1 is a perspective view showing the electronic camera 10 from the front side (subject side), and FIG. 2 is a perspective view showing the electronic camera 10 from the back side. The illustrated electronic camera 10 has a camera housing 11, and an imaging lens body (not shown in FIGS. 1 and 2), which is an optical element, on the front surface (front surface: subject) side of the camera housing 11. Is installed. This imaging lens body constitutes a part of a lens unit (imaging member), and although not shown, the lens unit further includes a shutter mechanism and a CCD (charge coupled device).

  Further, a slide cover portion (strobe member) 12 is attached to the camera housing 11, and this slide cover portion 12 is supported by the camera housing 11 so as to be slidable in the direction indicated by the solid line arrow in FIG. The imaging lens body is protected by the slide cover unit 12 during non-shooting. That is, the slide cover unit 12 is slidable between a first position that covers the imaging lens body and a second position that exposes the imaging lens body.

  The slide cover portion 12 includes a front portion (lens cover portion) 12a located on the front side, an upper surface portion 12b located on the upper surface side when viewed from the front side, and a rear portion (display portion cover portion) 12c located on the rear side. The camera casing 11 is slidably disposed on the camera casing 11 such that the camera casing 11 is sandwiched between the front portion 12a and the rear portion 12c. In the illustrated example, a strobe light emitting portion 13 is formed from the front surface portion 12 a to the upper surface portion 12 b, that is, across two surfaces, and light is emitted from the strobe light emitting portion 13 during strobe shooting.

  As shown in FIG. 2, a display element (for example, a liquid crystal display (LCD)) 14 is disposed on the back surface of the camera housing 11, and an operation unit 15 is disposed. A mode dial and various function keys are provided. When the slide cover portion 12 is positioned at the first position described above, a part of the liquid crystal display 14 is covered by the back surface portion 12c (the back surface portion 12c covers the entire liquid crystal display 14). However, it is sufficient to cover at least a part of the liquid crystal display 14).

  3 and 4, FIG. 3 is a perspective view of the electronic camera 10 at the time of photographing viewed from the front side, and FIG. 4 is a perspective view of the electronic camera 10 viewed from the back side. When photographing with the electronic camera 10, the slide cover portion 12 is slid upward from the first position to the second position. Thereby, as shown in FIG. 3, the imaging lens body 21 is exposed, the main power supply is turned on, and the liquid crystal display 14 is brightened.

  At this time, as shown in FIG. 4, the back surface portion 12 c of the slide cover portion 12 slides, and the entire liquid crystal display 14 is exposed. Further, the strobe light emitting unit 13 is moved further outward than the mounting position of the imaging lens body 21 due to the slide of the slide cover unit 12, and at the time of strobe shooting, the imaging lens body 21, the strobe light emitting unit 13, and the like. The distance becomes larger.

  As shown in FIG. 4, the shutter button 22 is disposed on one end portion side of the upper surface of the imaging apparatus main body 11, and the slide cover portion 12 is in the end portion side direction opposite to the one end portion side on which the shutter button 22 is disposed. Slide to. When performing strobe shooting, the operation unit 15 turns on the strobe shooting mode and sets various shooting modes, an image playback mode, a flash waiting time, and the like. Examples of the various shooting modes include “normal shooting”, “continuous shooting”, “fine shooting”, “still image”, and “moving image”, and the image reproduction mode includes “still image” and “moving image”. And so on.

  When the image reproduction mode is set, the photographed image is reproduced and displayed on the liquid crystal screen after photographing. These various shooting modes, image playback modes, and flash waiting times are called operation modes, and the microprocessor (control means and power-on means: not shown) housed in the imaging apparatus main body 11 depends on the operation mode. Light emission from the strobe light emitting unit 13 can be controlled by changing light intensity, color, or blinking.

  The shutter mechanism described above has, for example, an autofocus (AF) mechanism, a diaphragm mechanism, a filter mechanism, and the like, and controls exposure at the time of release. An optical image of a subject or the like incident from the imaging lens body 21 is formed on the CCD, and the optical image is converted into an electrical signal. The output signal (electrical signal) from the CCD is sampled at a predetermined sampling frequency by the microprocessor and converted into a digital value (digital image data). The digital image data is divided into a color difference component and a luminance component, for example, JPEG. (Joint Photographic Experts Group) compliant processing such as orthogonal transformation and Huffman encoding / decoding for image compression / decompression is performed. The image data compressed in this way is temporarily stored in the memory.

  That is, in the illustrated electronic camera, an image captured by the CCD is displayed in real time on the liquid crystal display before the release button or shutter button 22 is pressed, and the liquid crystal display is an electronic device for electronically checking the imaging field of view. A finder function is provided, and an image is taken by operating a release button or the like while observing the electronic viewfinder. At this time, the strobe light emitting section emits light as necessary. The image data obtained by the imaging is displayed on the liquid crystal display 14 as the imaging result at any time when a reproduction operation is performed using the function keys.

  In this way, digital image data before and during imaging is displayed in real time on the liquid crystal display 14 and functions as an electronic viewfinder. Further, the digital image data after imaging and the recorded image data decompressed and restored are stored. Is displayed. The liquid crystal display 14 displays a mode display such as the operating state of the electronic camera. Note that a battery is used for the power supply unit of the electronic camera, and a Ni-Cd (nickel cadmium) battery, a nickel metal hydride battery, a lithium ion rechargeable battery, or the like is used as the battery.

  As shown in FIG. 4, a lid (lid member) 23 is disposed on the bottom surface of the camera housing 11 so as to be openable and closable with respect to the camera housing. When replacing the battery, the lid member 23 is opened. Replace the battery. Further, when the memory (recording medium) is inserted into the camera housing 11, the lid member 23 is opened and the memory is inserted into the camera housing 11. That is, when the lid member 23 is in the open position, the memory and the battery can be inserted / removed from the camera housing 11, and when the lid member 23 is in the closed position, the memory and the battery are closed to protect the memory and the battery. Will be.

  As shown in FIGS. 1 to 4, the camera casing 11 includes a front cover 11 a located on the front side and a rear cover 11 b located on the back side, and the lid member 23 is the lower end of the front cover 11 a and the rear cover 11 b. When the lid member 23 is closed, the electronic camera 10 is placed on the side board using the surface of the lid member 23 as a mounting surface, as shown in FIG. Can do. That is, the camera housing 11 can be made independent by the lid member 23.

  6 is a perspective view showing the camera housing 11 with the slide cover 12 removed, and FIG. 7 omits the camera housing and the imaging lens body 21 and the slide cover 12 from the electronic camera 10. It is a perspective view shown from the front side with the slide light emission part 13. FIG. As shown in FIG. 6, a substantially central portion on one end side (upper end side) of the camera housing 11 is cut out in the longitudinal direction to form a notch 51, resulting in a substantially U-shaped end shape. Yes. A lens unit housing 32 a for holding the imaging lens body 21 is positioned at the end (bottom) of the notch 51.

  As illustrated, first and second spaces (not shown) are defined by the camera casing 11 on the left and right sides of the camera casing 11 with the notch 51 as a boundary. A strobe capacitor and a driving motor, which will be described later, are disposed in each of the two spaces. A third space is defined between the first and second spaces, and a lens unit housing 32a (that is, a lens unit) is disposed in the third space. Then, the slide cover portion 12 is inserted into the cutout portion 51 from the upper end side of the camera housing 11 in the direction indicated by the solid line arrow from the opening end side, and the slide cover portion 12 slides with respect to the camera housing 11. Held possible.

  As shown in FIG. 7, a strobe capacitor 33 is disposed in the first space on the left side of the lens unit housing 32 a disposed in the third space. The strobe capacitor 33 drives the strobe light emitting unit 13. Connected to the strobe unit 13a. Although not shown, the strobe unit 13 a is housed in the slide cover portion 12.

  On the other hand, a drive motor 34 is disposed in the second space on the right side of the lens unit housing 32a. The drive motor 34 is attached to an arm portion 32b provided in the lens unit housing 32a as will be described later. It has been. Although not shown in FIG. 7, the strobe capacitor 33 is disposed in the first space between the front cover and the base member, which will be described later, and the drive motor 34 is disposed between the front cover and the base member. Arranged in the second space. A battery 31 is disposed between the front cover and a control board described later on the lower side of the camera casing 11 (that is, on the lower side of the lens unit casing 32a).

  8 is a perspective view showing the electronic camera 10 from the front side with the camera housing 11 omitted, FIG. 9 is a front view showing the electronic camera 10 with the camera housing 11 omitted, and FIG. 10 shows the electronic camera 10. FIG. 11 is a rear view showing the electronic camera 10 with the camera housing 11 omitted, and FIG. 12 shows the electronic camera 10 with the camera housing 11 omitted. It is a side view. 8 to 12, the electronic camera 10 includes a battery 31, a lens unit 32 having an imaging lens body 21, a strobe capacitor 33, a driving motor 34, and a control board 35, and an imaging lens. The body 21 is disposed on the upper side of the center of the camera housing (not shown in FIG. 8). On the other hand, the battery 31 is disposed below the imaging lens body 21, and the strobe capacitor 33 and the drive motor 34 are disposed above the battery 31.

  As shown in FIG. 8, the control board 35 is fixed to the lower side of the base member 36, and a plurality of electronic components are mounted on the control board 35 (the control board 35 is a main board). That is, the control board 35 is fixed to the lower surface of the front surface of the base member 36, and the battery 31 is disposed on the front side of the control board 35 (that is, the control board 35 and the front cover 11a (see FIG. 8). The battery 31 is arranged in a space defined by the lower side of (not shown)). A sub-board 37 is fixed to the lower surface of the rear side of the base member 36, and the operation unit 15 is mounted on the sub-board 37 (see FIG. 10).

  On the other hand, on the upper side of the base member 36, the LCD 14 is disposed on the rear surface of the base member 36. The upper side of the base member 36, as shown in FIG. Is cut out in a U-shape to form a notch. A lens unit 32 is disposed in association with the notch, and the lens unit 32 and the LCD 14 are associated with each other. As described above, the lens unit 32 includes the shutter mechanism and the CCD, and the shutter mechanism, the CCD, and the imaging lens body 21 are supported by the lens unit housing 32a.

  The imaging lens body 21 is supported so as to be movable forward and backward with respect to the lens unit housing 32 a. The imaging lens body 21 is driven by a driving motor 34. As shown in FIG. 8, the lens unit housing 32a is formed with an arm portion 32b extending upward on the right side, and a driving motor 34 is attached to the tip portion of the arm portion 32b.

  Although not shown, the front cover 11a and the rear cover 11b described above also have notches formed in the same manner as the base member 36, and the drive motor 34 is supported by the arm portion 32b so that the front cover 11a and the base member 36. Further, the aforementioned strobe capacitor 33 is disposed in a space defined by the front cover 11 a and the base member 36 on the left side of the imaging lens body 21. As shown in FIG. 12, a memory holding portion 36a for holding the memory 41 is formed on the lower end side of the base member 36, the lid member 23 is opened, and the memory 41 is inserted into the memory holding portion 36a. .

  As is clear from the above description, the lens unit 32 and the LCD 14 are sequentially stacked on the upper side of the camera casing 11 from the subject side, and the battery 31, the control board (main board) 35, The memory holding part 36a and the sub board 37 are sequentially stacked. Furthermore, the lens unit 32 is fixed to the base member 36 on the subject side on the upper side of the camera casing 11, and the LCD 14 is fixed on the rear side opposite to the subject side on the upper side of the camera casing 11. The main board 35 is fixed to the subject side on the lower side of the casing 11, the memory holding part 36a is fixed to the rear side opposite to the subject side on the lower side of the camera casing 11, and the main board 35 and the front cover 11a are The battery 31 is accommodated between the lower part.

  Further, the slide cover portion 12 described with reference to FIG. 6 has a cutout portion that is cut out in a substantially U-shape at a substantially central portion of the upper end portion of the front cover 11a, the rear cover 11b, and the base member 36. 51, the slide cover portion 12 is movable in the vertical direction.

  As described above, in the illustrated camera, the control board, the battery, the memory, the imaging lens, the LED, and the strobe capacitor are optimized, so that the camera size can be reduced in size and thickness. Even when the lid member is closed, there is an effect that the camera itself can be self-supported by the lid member. In particular, the camera housing includes a notch portion in which a substantially central portion on the upper end side is cut out in the longitudinal direction, and the first space is located on one side of the notch portion by the notch portion. A second space located on the other side with the notch as a boundary, a strobe capacitor is disposed in the first space, a driving motor is disposed in the second space, and the first and Since the lens unit including the imaging lens body driven by the driving motor is arranged in the third space defined between the second space and the device such as the LCD, the operation unit, and the battery, As a result of stacking and arranging two elements in the front-rear direction of the body, the balance of the imaging device can be made uniform, and the arrangement balance of the components of the imaging device can be optimized to reduce the size and thickness.

  The camera housing includes a cutout portion in which a substantially central portion on one end side of the camera housing is cut out in the longitudinal direction, and the cutout portion and the first space located on one side with the cutout portion as a boundary and the cutout portion A second space located on the other side of the boundary, a strobe capacitor is disposed in the first space, a driving motor is disposed in the second space, and the first and second Since the lens unit including the imaging lens body driven by the driving motor is arranged in the third space defined between the space and the arrangement, the arrangement balance of the components of the imaging device is optimized to be small and thin. As a result, the present invention can be applied to other cameras, videos, mobile terminals such as mobile phones.

It is a perspective view which shows the electronic camera by Example 1 of this invention from the front side (object side) in the state which closed the slide cover part. It is a perspective view which shows an electronic camera from the back side in the state shown in FIG. It is a perspective view which shows the electronic camera by Example 1 of this invention from the front in the state which opened the slide cover part. It is a perspective view which shows an electronic camera from the back side in the state shown in FIG. It is a perspective view which shows the state which mounted the electronic camera by using the cover member side as a mounting part in the state shown in FIG. It is a perspective view which shows the camera housing | casing of the electronic camera by Example 1 of this invention from the front side in the state which removed the slide cover part. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing an electronic camera according to a first embodiment of the present invention from the front side with a camera casing omitted and an imaging lens body and a slide cover portion omitted, together with a slide light emitting portion. It is a perspective view which omits a camera housing | casing and shows the electronic camera by Example 1 of this invention from the front side. It is a front view which abbreviate | omits a camera housing | casing and shows the electronic camera by Example 1 of this invention. It is a perspective view which omits a camera housing | casing and shows the electronic camera by Example 1 of this invention from the back side. It is a rear view which abbreviate | omits a camera housing | casing and shows the electronic camera by Example 1 of this invention. It is a side view which abbreviate | omits a camera housing | casing and shows the electronic camera by Example 1 of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Electronic camera 11 Camera housing | casing 12 Slide cover part 13 Strobe light emission part 14 Display part (liquid crystal display)
15 Operation Unit 21 Imaging Lens Body 22 Shutter Button 23 Lid Member 31 Battery 32 Lens Unit 33 Strobe Capacitor 34 Drive Motor 35 Control Board (Main Board)
36 Base member 37 Sub-board 51 Notch

Claims (5)

A first space located on one side of the notch with the notch as a boundary, and the other with the notch as a boundary. A housing in which a second space located on the side is defined;
A strobe capacitor disposed in the first space;
A driving motor disposed in the second space;
An imaging apparatus comprising: an imaging member including an optical element disposed in a third space defined between the first and second spaces and driven by the driving motor. The front cover and the rear cover have a substantially rectangular parallelepiped shape in which the length in the vertical direction is longer than the length in the left and right direction, and includes a cutout portion in which a substantially central portion on the upper end side is cut out in the longitudinal direction A first space located on one of the left and right sides with the notch as a boundary and a second space located on the other of the left and right sides with the notch as a boundary are defined by Body,
A base member disposed in the casing extending in the longitudinal direction;
A strobe capacitor disposed in the first space between the front cover and the base member;
A driving motor disposed in the second space between the front cover and the base member;
An imaging member comprising an optical element disposed in a third space defined between the first cover and the second space between the front cover and the base member and driven by the driving motor; An imaging apparatus having A strobe light emitting part and a cover part covering the optical element;
The said strobe member is arrange | positioned at the said notch part so that a vertical movement is possible, The said optical element was selectively exposed according to the movement of the said strobe member, The Claim 1 or 2 characterized by the above-mentioned. Imaging device. A recording medium that can be attached to and detached from the casing, a recording medium holding member that holds the recording medium in the casing, a battery that can be attached to and detached from the casing, a main board on which electronic components are mounted, and an image display A display element that further includes a sub-board on which an operation unit is mounted,
The base member fixes the imaging member on the subject side on the upper side of the casing, and fixes the display element on the rear side opposite to the subject side on the upper side of the casing. The main substrate is fixed to the subject side on the lower side of the recording medium, and the recording medium holding member is fixed to the rear side on the lower side of the housing.
A storage space for storing the battery is defined between the main board and a lower portion of the front cover,
The imaging member and the display element are sequentially stacked from the subject side on the upper side of the housing,
4. The image pickup apparatus according to claim 2, wherein the battery, the main board, the recording medium holding member, and the sub board are sequentially stacked on the lower side of the casing from the subject side. The recording medium and the battery can be inserted into and removed from the housing in the open position, and further includes a lid member that can be opened and closed while protecting the recording medium and the battery in the closed position.
The imaging according to any one of claims 2 to 4, wherein the lid member is disposed on a bottom surface of the casing so as to protrude from the front cover and the rear cover, and the casing is made to stand by the lid member. apparatus.

Images