JP2004173204A - Camera - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a camera whose thickness in a direction parallel to an incident light axis (first optical axis) of light of an object is thin and which can be made small. <P>SOLUTION: A lens barrel 10 having a prism 33 for refracting luminous flux of the object downward, an electric substrate unit 5 and a power supply unit 6 arranged to the left and right of the lens barrel 10, an LCD unit 9 disposed at the rear side of the lens barrel 10, and a switch substrate 58 disposed at an upper part of the LCD unit 9 are incorporated in the electronic camera 1 while being covered with front and rear covers 2 and 3. The LCD unit 9 has a light guide plate 17 whose thickness reduces downward, and the lens barrel 10 has a CCD 55 projecting backward at a lower side and a CCD substrate 56. A CCD side being a projecting side of the lens barrel 10 is arranged oppositely to a side where the thickness of the LCD unit 9 is thin to be housed in the camera so that the camera can be made thinner. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a camera structure, and more particularly, to a layout of electric members built in the camera.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, an electronic camera disclosed in Patent Literature 1 is configured to bend a subject light flux taken along a first optical axis taken by a prism in a second optical axis direction orthogonal to the first optical axis, thereby forming a plurality of electronic cameras. The present invention relates to an electronic camera (electronic imaging device) incorporating a lens barrel having a so-called bending optical system, which causes the subject light beam to enter an optical system including a lens group. In this electronic camera, an electric wiring board having a notch extending over both left and right sides of the lens barrel is arranged, and further, an LCD display unit is arranged on the back side of the electric wiring board and the lens barrel. In this case, the size and thickness of the camera have been reduced.
[0003]
[Patent Document 1]
Patent Document 1 is Japanese Patent Application Laid-Open No. H11-196303.
[0004]
[Problems to be solved by the invention]
However, in the electronic camera disclosed in Patent Document 1, an image pickup device (CCD) is arranged at a position below the direction along the second optical axis in the lens barrel, and the connection of the image pickup device is made. The image plane is arranged along a direction orthogonal to the second optical axis. . The CCD is mounted on an FPC (Flexible Printed Circuit Board) for CCD, and the FPC for CCD is connected to an imaging board arranged below and in parallel with the connector. The CCD FPC and the imaging board are disposed below the lens barrel so as to protrude rearward from the front-rear outer shape.
[0005]
In the electronic camera of Patent Document 1, the LCD display unit is disposed on the back side of the lens barrel. However, since the CCD FPC and the imaging board are protruded as described above, the LCD display unit is provided. Must be arranged above the area where the CCD FPC and the imaging substrate are arranged. Therefore, even if the thickness of the camera can be reduced, the height of the camera in the vertical direction is increased by the dimensions of the FPC for CCD and the imaging substrate, and the LCD display is moved upward. Interference with the flash unit and the operation switch unit also occurs.
[0006]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problem, and a camera capable of further reducing the thickness and size without causing a dead space with respect to the arrangement of each electrical component around the lens barrel. The purpose is to provide.
[0007]
[Means for Solving the Problems]
The camera according to claim 1 of the present invention has a liquid crystal display panel disposed on the rear surface of the camera and substantially the entire surface of the liquid crystal display panel, and has a thick portion at one end to a thin portion at the other end, and the thickness is small. A display unit comprising a light guide plate formed so as to change and an illumination light source arranged on the thick portion side of the light guide plate; and a display unit arranged close to the light guide plate and along the first optical axis. A substantially rectangular parallelepiped lens barrel, comprising: a reflecting optical member for reflecting incident subject light along a second optical axis intersecting the first optical axis; and an optical system including a plurality of lens groups. And an imaging element arranged at one end of the lens barrel in the second optical axis direction on a plane orthogonal to the second optical axis and configured to capture an image formed by the optical system. The light guide plate has a thin portion disposed on the image sensor side.
[0008]
A camera according to a second aspect of the present invention is the camera according to the first aspect, wherein the camera is disposed in a plane substantially perpendicular to the second optical axis so as to protrude more toward the light guide plate than the outer shape of the lens barrel. And an image sensor electric board on which the image sensor is mounted.
[0009]
A camera according to a third aspect of the present invention is the camera according to the second aspect, further comprising an electric board unit disposed on a side of the lens barrel, the electric board for the image sensor, and the electric board unit. A flexible printed circuit board for connecting an image sensor for connection, wherein the flexible printed circuit board for connecting an image sensor is connected to the flexible printed circuit board through an insertion passage formed between the light guide plate and the lens barrel. Connected to the board unit.
[0010]
The camera according to a fourth aspect of the present invention is the camera according to the first to third aspects, further comprising: an operation member operated by a user; switch means for detecting an operation state of the operation member; A switch substrate on which means is disposed, at least a part of the display unit is disposed behind the electric substrate unit, and the switch substrate is disposed above the display unit; The liquid crystal display panel and the illumination light source are connected to the electric board unit via the switch board.
[0011]
A camera according to a fifth aspect of the present invention is the camera according to the fourth aspect, wherein a part of the switch board is located above the electric board unit.
[0012]
In a camera according to a sixth aspect of the present invention, in the camera according to the fourth aspect, the switch board is located behind the electric board unit.
[0013]
The camera according to a seventh aspect of the present invention is the camera according to the fourth to sixth aspects, further comprising an exterior member that covers at least a part of the outside of the camera, wherein the display unit, the operation member, and the switch board are provided. Is attached to the exterior member.
[0014]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is an exploded perspective view of an electronic camera according to an embodiment of the present invention.
[0015]
In the following description, as shown in FIG. 1, the direction along the first optical axis O1, which is the incident direction of the subject light beam, is defined as the Z direction, and the Z (+) direction on the subject side of the electronic camera is defined as the forward direction. The Z (-) direction on the camera rear side is defined as the rear. The vertical direction in the direction perpendicular to the Z direction is defined as the Y direction, the Y (+) direction is defined as the upward direction, and the Y (-) direction is defined as the downward direction. The left-right direction perpendicular to the Z direction is defined as the X direction, the X (+) direction is defined as the right direction, and the X (-) direction is defined as the left direction when the camera is viewed from the subject side.
[0016]
As shown in FIG. 1, the electronic camera 1 of the present embodiment is a so-called digital camera, which has a front cover 2 and a rear cover 3 as exterior members, and is housed in the front cover 2 and the rear cover 3. A lens barrel 10, an electric board unit 5, a power supply unit 6, a strobe unit 7, a strobe charging capacitor 8, a LCD unit 9 as a display unit, and a switch board 58 Become.
[0017]
The front cover 2 is provided with a photographing window 2a and a strobe light emitting window 2b on a front portion thereof for taking in a subject light flux projecting slightly upward.
[0018]
In the rear cover 3, a two-stage operation release button 26, a power switch button 27a, and a mode setting button 27b are inserted into the button openings 3b, 3c, 3d as operation members operated by the user on the upper surface thereof. You. An LCD opening window 3a is provided on the back of the rear cover 3. A transparent plate 4 as a transparent member is adhered to the rear side of the LCD opening window 3a, and the transparent plate 4 forms an LCD window.
[0019]
The lens barrel 10 disposed in the front cover 2 has a front surface along the X, Y plane when the camera is mounted, has a longitudinal direction in the Y direction, and has a relatively thin thickness in the Z direction. It has a rectangular parallelepiped outer shape, and an inclined surface 31c (FIG. 3) is formed on an upper portion thereof, and a prism 33 (bending) of a reflection optical member for taking in a subject light beam along the first optical axis O1 (Z direction). A first holding member 31 which is a frame member in which the optical system is formed) and a fixed frame 32 which is a frame member in which the first holding member is connected and fixed and in which the photographic lens system is stored. I have.
[0020]
In the lens barrel 10, the subject light flux in the direction of the first optical axis O <b> 1 captured by the prism 33 is reflected in the direction of the second optical axis O <b> 2 and stored in the fixed frame 32 (described later). The image is formed on the image forming surface of the CCD 55 serving as an image pickup device through the interface, and is converted into an image pickup signal of a subject image. The details of the internal structure of the lens barrel 10 will be described later.
[0021]
The above-mentioned CCD 55 is mounted on a CCD board 56 which is an electric board for an image sensor arranged below the fixed frame 32. The CCD substrate 56 is connected to a CCD connection FPC 57 which is a flexible printed circuit board (hereinafter, referred to as FPC) for connecting an image pickup device. The CCD connecting FPC 57 is connected to a control main board 18 described later.
[0022]
The electric board unit 5 includes a main board 18 and a sub board 19 which are two control electric boards on which respective control elements of an electric circuit of an electronic camera described later are mounted. The boards 19 are connected and connected by a flexible printed board (hereinafter, referred to as FPC) 22, and are housed in the front cover 2 in a two-layered state.
[0023]
A connector 18a to which a CCD connection FPC 57 is connected and a connector 18b to which a switch board connection FPC 23 is connected are mounted on the main board 18 in addition to a control circuit electrical component described later.
[0024]
A recording media slot 21 is mounted outside the sub-board 19, and the media slot 21 is connected to the main board 18 via a connection FPC 22.
[0025]
The power supply unit 6 includes a battery case 11 and a camera power supply battery 12 housed in the battery case 11, has a plane extending in the XY plane, and has a rectangular parallelepiped shape having a relatively small thickness in the Z direction. .
[0026]
The strobe unit 7 includes a strobe main body 13 and a strobe light emitting tube 14 supported inside a reflector of the strobe main body 13.
[0027]
The LCD unit 9 includes an LCD display panel 15 which is a liquid crystal display panel having a display surface along the X and Y planes, an LCD illumination light source 16 disposed above the LCD display panel 15 and extending in the X direction. A light guide plate 17 disposed below the light source 16 for LCD illumination and covering substantially the display surface side of the LCD display plate 15 opposite to the display surface.
[0028]
The LCD illumination light source 16 is constituted by a fluorescent discharge luminous tube or an LED chip, and has a connection FPC 59 b connected to the switch board 58 by a connector.
[0029]
The light guide plate 17 is a member whose thickness changes in the Y direction. The light guide plate 17 has a thick upper portion on the side of the LCD illumination light source 16 and a thinner lower portion.
[0030]
The LCD panel 15 is provided with a connection FPC 59a that is connected to the switch board 58 by a connector.
[0031]
On the switch board 58, a release switch 58d that is turned on / off by the release button 26 as a plurality of switch means, a power switch 58e that is turned on / off by the power switch button 27a, and an on / off operation by the mode setting button 27b A mode setting switch 58f to be executed is mounted. In addition to the connector 58a to which the connection FPC 23 is connected, the switch board 58 has a connector 58b to which a connection FPC 59a on the LCD panel 15 side is connected, and a connection FPC 59b to which the LCD illumination light source 16 is connected. Is mounted, and the switch board 58 also functions as a connection relay board for connecting the LCD unit 9 to the main board as described later. (FIG. 9).
[0032]
In a state in which the above-mentioned constituent units are accommodated in the front and rear covers 2 and 3, respectively, the lens barrel 10 is arranged in the center of the inside of the front cover 2, and the power supply unit 6 is located adjacent to the right side of the lens barrel 10. Is disposed, and the electric board unit 5 is disposed adjacent to the left side of the lens barrel 10. Further, the strobe unit 7 is fixed to the upper part of the power supply unit 6, and the strobe charging capacitor 8 is fixed in a state of entering from behind the strobe unit 7 to behind the upper inclined surface 31c of the lens barrel 10.
[0033]
On the other hand, the LCD unit 9 is fixedly arranged inside the rear cover 3 with the display surface of the LCD panel 15 facing the opening 3a. At the same time, the switch board 58 is fixedly arranged at the upper left position of the LCD unit 9 inside the rear cover 3 and at the upper rear position of the electric board unit 5.
[0034]
The front cover 2 containing the lens barrel 10, the electric board unit 5, and the power supply unit 6 is combined with the rear cover 3 to which the LCD unit 9 and the switch board 58 are fixed, and the connection FPC 23 is connected to the switch board 58. The electronic camera 1 is completed by being electrically and mechanically integrated by being connected to the upper connector 58a and further fastened with screws.
[0035]
In the retracted state, the entrance opening of the prism 33 of the lens barrel 10 is located facing the shooting window 2a of the front cover 2, and the light emitting unit of the strobe unit 7 faces the rear of the strobe light emitting window 2b. To position. Further, the LCD display panel 15 of the LCD unit 9 is located to face the LCD opening 3a of the rear cover 3.
Further details of the storage state in the front and rear covers will be described later with reference to FIG.
[0036]
Here, an electric circuit of the electronic camera 1 of the present embodiment will be described with reference to a block configuration diagram of FIG.
The electronic camera 1 of the present embodiment has a built-in CPU 170 as a control means, and the CPU 170 controls all control elements of the electronic camera 1. First, an image of a subject that has passed through the photographing optical system 111 is converted into an electric signal by the CCD 55 serving as an image sensor under the control of the CPU 170. The electric signal converted by the CCD 55 is converted into an analog image signal by the imaging circuit 113, and then converted into a digital image signal by the A / D conversion circuit 114.
[0037]
The digital image signal is recorded via an interface (I / F) 121 on a recording media card (memory card) 120 as a recording medium such as a removable flash memory card or a smart memory card as an external memory. Is done. Note that the recording media card 120 is detachable from the media slot 21.
[0038]
Further, the electric circuit of the electronic camera 1 is provided with a built-in memory 130 and an image processing circuit 140 having a high processing speed. For the built-in memory 130, for example, a random access memory (RAM) or the like is applied. It is used as a working memory in processing or as a high-speed buffer of a temporary image storage unit. The image processing circuit 140 performs processes such as conversion into RGB signals, conversion of the number of pixels, data compression and decompression based on the image data digitized by the A / D conversion circuit 114.
[0039]
Further, the electronic camera 1 is equipped with the above-mentioned image display LCD display panel 15 (liquid crystal display device). The LCD display panel 15 is used to check images recorded on the memory card 120 and to take images. The image of the subject to be displayed is displayed. The image displayed on the LCD display board 15 is an image that is temporarily converted into a video image by the video output circuit 152 and then displayed after the image information from the built-in memory 130 is temporarily loaded into the video memory 151. Further, the video output circuit 152 can output a video image to an external display device via a video output external terminal 153.
[0040]
The CPU 170 captures a shooting start signal of the release switch 58d by operating the release button 26, captures an image with the CCD 55, and sets various modes of the mode setting switch 58f which is the operation unit 173 by operating the mode setting button 27b. Capture the signal and set the shooting mode. The setting mode is displayed on the mode LCD 172. Further, based on the control of the CPU 170, when the light quantity at the time of imaging the subject is insufficient, the strobe light emitting tube 14 of the strobe unit 7 is turned on, and strobe shooting is performed.
[0041]
Further, the CPU 170 is connected via a driver 171 to first and second stepping motors 53 and 54 which are lens driving sources for performing focusing driving and zoom driving of the photographing optical system. Is
[0042]
The CPU 170 is connected to a subject light quantity adjusting device, which is an ND filter solenoid 51 for driving the ND filter unit 47 and a shutter solenoid 52 for driving the shutter unit 48 via a driver 171. Then, the light amount adjustment drive by the solenoid is performed.
[0043]
Further, the CPU 170 is connected to photoreflectors (hereinafter, referred to as PR) 86, 87, which are detection means for detecting a reset position of the advancing / retreating movement of the photographing optical system. A reset position is detected when the photographing optical system 111 is reset.
[0044]
The external interface (external I / F) 161 is connected to the external input / output terminal 160 and inputs and outputs data to and from external devices. For example, a personal computer or the like is connected to the external input / output terminal 160, and the image in the memory card 120 is transferred to the personal computer or the like, and image data is taken in from the personal computer or the like.
[0045]
Further, power from the battery 12 of the power supply unit 6 is supplied to each control element of the electronic camera 1 via the power supply unit 180 and driven. The battery 12 can be charged under the control of the power supply unit 180.
[0046]
The main electrical components described in the drawing frame of the electric board unit 5 shown in the block diagram of FIG. 2 are mounted on the main board 18 and the sub-board 19 of the electric board unit 5 described above. I do.
[0047]
Next, regarding the configuration of the lens barrel 10, FIG. 3 which is an exploded perspective view of the lens barrel, FIG. 4 which is a cross-sectional view along the XY plane of the lens barrel, and CC shown in FIG. This will be described with reference to FIG.
[0048]
The lens barrel 10 includes a first group frame 31 as a first holding frame and a fixed frame 32 as a frame member as shown in FIGS. Is a prism 33 of a reflection optical member, a first lens group 34, an ND filter unit 47 as a light amount adjusting means, a ND filter rotary solenoid (hereinafter, referred to as a solenoid) 51 as a filter driving source, and a shutter. A shutter solenoid 52, which is a driving source (sector driving source), is built in.
[0049]
Inside the fixed frame 32, a support sheet 78 with an ND filter protection sheet 79 having a central opening 78a on the opening 32a side of the fixed frame 32 so as to face the ND filter unit 47, and an optical axis O2. Along the state, a zoom lens group held by a shutter unit 48, which is a light amount adjusting means (shutter means), and a second group frame 38, which is a second holding frame (a first movable holding frame) which can move forward and backward below the shutter unit 48. A second group lens 35, and a third group lens 36 of a zoom and focus lens group held by a third group frame 39 which is a third holding frame (second movable holding frame) that can move forward and backward. The fourth group lens 37 held by the lower opening 32b of the fixed frame 32 and the CCD 55 of the image pickup device mounted on the CCD substrate 56 and located at the image forming position of the subject light flux are arranged in order. Note that, as shown in FIG. 7, the CCD 55 and the CCD substrate 56 disposed below the lens barrel 10 have a flat portion along the direction orthogonal to the second optical axis O2 behind the fixed frame 32 ( (Z (−) direction).
[0050]
Further, as a member provided inside the fixed frame 32, a suspension shaft 41 and a rotation stop shaft 42, both ends of which are fixed to the right and left along the second optical axis O 2 (that is, the Y direction), are fixed to the fixed frame 32. A first step motor 53 serving as a first lens drive source constituting a motor unit for driving the zoom lens to move the second group frame 38 forward and backward, and for driving a zoom and a focus driving the third group frame 39 forward and backward. A second step motor 54 serving as a second lens drive source constituting the motor unit, and a compression spring 46 inserted between the second group frame 38 and the third group frame 39 are further incorporated. An opening 32g is formed on the rear side of the fixing frame 32 for assembling components, and a fixing lid 89 (FIG. 7) made of a metal plate is attached and fixed to the opening 32g. An FPC (not shown) on which the PRs 86 and 87 to be inserted into the sensor openings 32h and 32i are mounted is disposed on the front side of the fixed frame 32.
[0051]
The first holding frame 31 has an outer shape including a left rectangular parallelepiped outer shape portion and a triangular prism-shaped outer shape portion along the X direction having an inclined surface 31c along the outer shape of the prism 33 on a part of the right back surface. The prism 33, the first lens group 34, the ND filter unit 47, the solenoids 51 and 52, etc. are housed, and are fastened and connected to the upper side of the fixed frame 32 by screws with screw insertion holes 31f and screw screw holes 32f. You.
[0052]
The prism 33 is inserted into and fixed to the front opening of the first group frame 31. The subject light beam incident along the optical axis O1 is bent at an angle of 90 ° by the prism 33, and reflected toward the lower opening 31b along the second optical axis O2 (Y direction).
[0053]
The first group lens 34 is inserted and held below the lower opening 31 b of the first group frame 31.
[0054]
The ND filter unit 47 is incorporated on the lower surface side of the first group frame 31 and is movable in a direction substantially perpendicular to an optical axis plane including the optical axis O1 and the optical axis O2 in order to adjust the amount of subject light. Has an ND filter.
[0055]
The ND filter solenoid 51 and the shutter solenoid 52 are arranged in a united state on the left side of the prism 33 in the first group frame 31 in parallel along the first optical axis O1. The ND filter solenoid 51 drives the ND filter via its output shaft. On the other hand, a shutter drive arm 71, which is a driving force transmitting member, is fixed to an output shaft of the shutter solenoid 52, and a sector of a shutter unit 48, which will be described later, is driven by a shaft portion 72 fixed to the shutter drive arm 71. Is done.
[0056]
The second group frame 38 has an opening 38a in the upper center, two guide holes 38c penetrating along the Y direction, a rotation stop notch 38g on the opposite side of the guide hole 38c, a lead screw insertion notch 38d, and the like. have. In the second group frame 38, in addition to the second group lens 35 serving as a zoom lens, the shutter unit 48 is disposed on the upper surface on the opening 38a side. The second group frame 38 is movably supported along the optical axis O2 by a suspension shaft 41 and a rotation stop shaft 42 which are slidably fitted in the guide holes 38c and the notches 38g, respectively.
[0057]
The shutter unit 48 has two sectors, which are two shielding members that can be opened and closed in a direction orthogonal to the optical axis plane including the optical axis O1 and the optical axis O2. The opening and closing are driven by the sector drive lever 43 driven by the shaft portion 72 of FIG.
[0058]
The third group frame 39 has two guide holes 39b penetrating along the Y direction, a rotation stop notch 39c facing the guide hole 39b, and a lead screw insertion notch 39d. Is mounted with a third group lens 36 serving as a zoom and focus lens.
[0059]
The first step motor 53 is provided with a lead screw shaft 81 as an output shaft and a bearing portion for supporting a lead screw shaft 83 as another shaft. Further, the second step motor 54 is provided with a lead screw shaft 83 as an output shaft and a bearing portion for supporting the lead screw shaft 83 as another shaft.
[0060]
The first and second step motors 53 and 54 are positioned by positioning pins 32 p inside the left side wall 32 k (the right side in FIG. 3) of the fixed frame 32 via the motor mounting plate 85, and are screwed by screws 49. Fixedly supported. That is, the first and second step motors 53 and 54 are located on the left side (the right side in FIG. 3) of the position where the second and third group frames 38 and 39 of the fixed frame 32 are provided, and The lead screw shafts are mounted below and above a linear region parallel to the optical axis O2 under the position 52, with the lead screw shafts facing each other. In the step motor mounting support state, the first step motor 53 is positioned below with the lead screw shaft 81 facing upward, and the second step motor 54 is positioned with the lead screw shaft 83 facing downward.
[0061]
Accordingly, the lead screw shafts 81 and 83 are arranged in a state parallel to the optical axis plane including the optical axis O1 and the optical axis O2 and in a state parallel to the optical axis O2 when the step motors 53 and 54 are mounted. You. The lead screw shafts 81 and 83 are arranged in parallel in the optical axis O1 direction. Further, the solenoids 51 and 52 and the step motors 53 and 54 are arranged on one linear region parallel to the side of the optical axis O2.
[0062]
A second group frame drive nut 82 is screwed and fitted to the lead screw shaft 81, and a third group frame drive nut 84 is screwed and fitted to the lead screw shaft 83. The upper surface 38h of the notch 38d of the second group frame 38, which is inserted across the lead screw shaft 81, comes into contact with the lower surface of the screwed second group frame driving nut 82 by the urging force of the compression spring 46, and moves upward. It is urged to. The lower surface 39h of the cutout 39d of the third group frame 39 inserted across the lead screw shaft 83 abuts on the upper surface of the screwed third group frame drive nut 84 by the urging force of the compression spring 46. It is urged downward. In this way, the second and third group frames 38 and 39 are driven forward and backward by the movement of the drive nuts 82 and 84, and the play of the drive nuts 82 and 84 and the lead screw shafts 81 and 83 is shifted in one direction. Sent.
[0063]
Accordingly, when the lead screw shaft 81 is rotated by the step motor 53, the second group frame 38 is driven forward and backward between the wide position (reset position) and the tele position along the optical axis O2 via the second group frame drive nut 82. You. Similarly, when the lead screw shaft 83 is rotated by the step motor 54, the third group frame 39 is driven forward and backward between the wide position (reset position) and the tele position along the optical axis O2 via the third group frame drive nut 84. You. During the reset processing operation of the step motors 53 and 54, the second group frame 38 and the third group frame 39 move in the reset direction and reach the reset positions. When the reset positions are reached, the PRs 86 and 87 (FIG. 2) reach the reset positions. Is detected.
[0064]
Next, the arrangement of the constituent units in the front and rear covers 2 and 3 of the electronic camera 1 of the present embodiment will be described in detail with reference to FIGS.
FIG. 5 is a cross-sectional view taken along line AA of FIG. 1 and shows an arrangement of each component unit in the electronic camera on an XZ cross section. FIG. 6 is a cross-sectional view taken along line BB of FIG. 5 and shows a vertical cross-section of the arrangement around the electric board unit, the LCD unit, and the switch board. FIG. 7 is a cross-sectional view taken along line CC of FIG. 5 and shows a vertical cross-section of the arrangement around the lens barrel and the LCD unit. FIG. 8 is a cross-sectional view taken along the line DD of FIG. 5 and shows a vertical cross-section of the arrangement around the power supply unit, the LCD unit, and the strobe unit. FIG. 9 is an enlarged view of a portion E in FIG. 6 and shows an arrangement around a switch substrate portion. FIG. 10 is a diagram showing a comparison between the case of the electronic camera of the present embodiment and the case of the conventional electronic camera regarding the space occupied around the lens barrel and the LCD unit.
[0065]
In the electronic camera 1 of the present embodiment, as shown in FIG. 5, a lens barrel 10 is arranged at the center on the side of the front cover 2 on the XZ section, and an electric board unit 5 and a power supply unit 6 are arranged on the left and right sides thereof. Have been. The LCD unit 9 is disposed behind the area covering the power supply unit 6, the lens barrel 10, and a part of the electric board unit 5, at a location facing the opening 3 a of the rear cover 3.
[0066]
The thickness of the power supply unit 6, the lens barrel 10, and the electric board unit 5 in the Z direction, that is, the thickness of the occupied space has substantially the same dimensions (FIG. 5). Further, the occupied area on the XY plane of the LCD display panel 15 of the LCD unit 9 is an area obtained by adding a part of the Z-direction projection surface of the electric board unit 5 to the Z-direction projection surface of the battery unit 6 and the lens barrel 10. Become. The height of the lens barrel 10 excluding the inclined surface 31c, the height of the power supply unit 6 and the height of the LCD unit 9 in the Y direction are substantially equal.
[0067]
On the other hand, the arrangement of the electric board unit 5 and the LCD unit 9 on the YZ section is as shown in FIG. 6, which is a sectional view taken along the line BB of FIG. 5, and FIG. A switch board 58 is arranged above the unit 9 and obliquely behind the electric board unit, and the switch groups 58d, 58e, 58f of the switch board 58 are located immediately below the release buttons 26, 27a, 27b. Each switch group is mounted on the switch board 58 as described above, and the switch board 58 also functions as a relay board for the LCD unit 6.
[0068]
That is, when the switch board 58 and the main board 18 are connected by the connection FPC 23 via the connector 58a provided on the switch board 58, the release switch 58d, the power switch 58e, and the mode setting switch on the switch board 58 are provided. 58f is naturally connected to the main board 18 side. At the same time, signal lines and drive power lines of the LCD panel 15 and the LCD illumination light source 16 connected via the connection FPCs 59a and 59b are connected to the main substrate 18 using the switch substrate 58 as a relay substrate.
[0069]
Accordingly, a long connection FPC for connecting the LCD display board 15 of the LCD unit 9, the LCD illumination light source 16 and the main board 18 becomes unnecessary, and at the same time, the LCD display board 15, the LCD illumination light source 16 and the switch board 58 The connection FPCs 59a and 59b for connecting the switch substrate 58 and the connection FPC 23 for connecting the switch board 58 and the main board 18 are also shortened. Therefore, there is less danger of damaging those FPCs, and connection work can be easily performed. Also, since the connection FPC is shortened, each signal is less likely to be affected by noise. Furthermore, at the time of assembly, the LCD unit 9 and the switch board 58 can be unitized and assembled. At the same time, since there is no member disposed above the main board 18 and the sub-board 19 of the electric board unit 5, the area of the electric board can be sufficiently increased. Further, since the LCD unit 9 and the switch board 58 are integrally assembled on the rear cover 3 side, it is extremely easy to separate the lens barrel 10, the power supply unit 6, and the electric board unit 5 on the front cover 2 side. Repair workability is improved.
[0070]
The arrangement of the lens barrel 10 and the LCD unit 9 on the YZ section is shown in FIG. 7 which is a sectional view taken along the line CC of FIG. 5 (the lens barrel section shows the section FF of FIG. 4). The LCD unit 9 is disposed behind the lens barrel 10 as described above. In the LCD unit 9, the LCD illumination light source 16 is disposed above and the LCD panel 15 is disposed on the rear side. The light guide plate 17 is placed in close contact with the front surface of the LCD display plate 15 with the thicker side facing the LCD illumination light source 16 and the thinner side facing down. The lower part of the LCD unit 9 is retracted rearward. The protruding portions of the CCD 55 and the CCD substrate 56 below the lens barrel 10 are positioned at the rearwardly retracted portion. In this state, the lower surface of the CCD substrate 56 and the lower surface of the LCD unit 9 are substantially flush with each other, and there is no dead space on the bottom surfaces of the front cover 2 and the rear cover 3. Further, the CCD board 56 and the main board 18 are provided in the FPC insertion path S1 in the gap formed between the rear surface of the lens barrel 10 and the LCD panel 15 above the projections of the CCD 55 and the CCD board 56. The FPC 57 for CCD connection which connects the.
[0071]
Further, the arrangement of the power supply unit 6, the LCD unit 9 and the strobe unit 7 on the YZ section is performed in a state where the power supply unit 6 and the LCD unit 9 are overlapped as shown in FIG. A strobe unit 7 having a strobe light-emitting tube 14 and a reflector 13a is disposed above the strobe light-emitting tube 14 and the reflector 13a. Further, a strobe charging capacitor 8 is arranged above the LCD unit 9 and in a space having a trapezoidal cross section along the X direction formed behind the upper inclined surface 31c of the lens barrel from the rear area of the strobe unit 7.
[0072]
By adopting the arrangement of the constituent unit members as described above, the lower surfaces of the lens barrel 10 and the LCD unit 9 are positioned substantially on the same plane, and the date space of the lower surfaces of the front cover 2 and the rear cover 3 is adjusted. In addition, a small gap between the lens barrel 10 and the LCD unit 9 is inserted through the FPC 57 for CCD connection so that the gap is effectively used. It is arranged in a space formed by the lens barrel 10 and the LCD unit 16. By adopting such an arrangement, the thickness of the electronic camera 1 of the present embodiment in the Z direction can be set to be thinner, and the height of the electronic camera 1 in the vertical direction can be suppressed. Can be realized.
[0073]
When the arrangement of the electronic camera 1 of the present embodiment around the lens barrel on the YZ plane is compared with that of the conventional electronic camera, as shown in the arrangement diagram of FIG. It is necessary to dispose the LCD unit 9 'above the lens barrel 10' having a height L by an offset amount .DELTA.L so as to avoid projecting parts around the CCD 55 and the CCD substrate 56 below the lower part. Therefore, in this conventional electronic camera, the height in the Y direction of the camera has to be increased by the above-described offset amount ΔL due to the upward displacement of the LCD unit 9 ′ instead of increasing the thickness in the Z direction.
[0074]
On the other hand, in the electronic camera 1 of the present embodiment, as shown in FIG. 10, the protruding portion around the CCD 55 below the lens barrel 10 is positioned at a thin portion below the LCD unit 9 so that the LCD unit 9 The lens barrel 10 and the LCD unit 9 are arranged close to each other without offsetting upward. Therefore, it is possible to simultaneously reduce the size and thickness of the electronic camera without increasing the thickness in the Z direction and without increasing the height in the Y direction. Further, it is not necessary to shift the LCD unit 9 upward, and by arranging the switch substrate 58 which is also a relay substrate for the LCD unit 9 in the space S2 formed above the LCD unit 9, the upper empty space is efficiently used. be able to. At the same time, the work of storing the connection FPCs 59a, 59b and the like around the switch board 58 becomes easy, and noise generation is suppressed by shortening the length of the connection FPC.
[0075]
On the other hand, the LCD unit 9 and the switch board 58 on the rear cover 3 side are easily separated from the lens barrel 10, the power supply unit 6, and the electric board unit 5 on the front cover 2 side. The performance is improved.
[0076]
As a modified example of the arrangement of the switch board 58 of the electronic camera 1, a camera in which the switch board is arranged on an XZ plane extending over the LCD unit 9 and the electric board unit 5 can be proposed. In this modification, the mounting area of the switch board can be increased.
[0077]
【The invention's effect】
According to the camera according to claim 1 or 2 of the present invention, as described above, the display unit and the lens mirror are arranged by arranging the thin side of the light guide plate on the side of the image sensor which is the side where the lens barrel projects. The cylinder can be arranged close to the camera, and the camera can be reduced in size.
[0078]
According to the camera according to the third aspect of the present invention, in addition to the effect of the camera according to the second aspect, a connection for connecting the image pickup element and the electric board unit using a gap between the light guide plate and the lens barrel. By inserting the FPC, it is possible to further reduce the size of the camera, especially the thickness of the camera.
[0079]
According to the camera according to claims 4 to 6 of the present invention, in addition to the effects of the cameras according to claims 1 to 3, the display unit is further connected to the display unit via the switch substrate disposed on the opposite side to the image sensor. Since the electric board unit is connected, the number of boards dedicated for relaying to directly connect to the electric board unit can be reduced, and the mounting area of the electric board unit can be increased. Further, since the switch board is disposed above the display unit, the distance between the two is short, the connection is easy, the assemblability is improved, and the generation of noise is suppressed.
[0080]
According to the camera of the seventh aspect of the present invention, in addition to the effects of the cameras of the fourth to sixth aspects, the display unit, the operation member, and the switch board are further attached to the single exterior member. This facilitates the connection between the display unit and the switch substrate. Further, by simply disconnecting the connection between the switch board and the electric board, the exterior member side can be separated from the camera side and the electrical connection can be cut off, so that the workability at the time of assembly or repair is improved.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of an electronic camera according to an embodiment of the present invention.
FIG. 2 is a block diagram of an electric circuit of the electronic camera of FIG. 1;
FIG. 3 is an exploded perspective view of the lens barrel of the electronic camera of FIG. 1 as viewed from the rear side.
FIG. 4 is a longitudinal sectional view of a lens barrel of the electronic camera of FIG. 1;
FIG. 5 is a cross-sectional view taken along line AA of FIG. 1, showing an arrangement of a cross section of the electronic camera.
FIG. 6 is a sectional view taken along the line BB of FIG. 5;
FIG. 7 is a sectional view taken along the line CC of FIG. 5;
FIG. 8 is a sectional view taken along line DD of FIG. 5;
FIG. 9 is an enlarged view of a portion E in FIG. 6;
FIG. 10 shows a comparison between the occupied space around the lens barrel and the LCD unit in the electronic camera of FIG. 1 and the occupied space around the lens barrel and the LCD unit of the conventional electronic camera. FIG.
[Explanation of symbols]
3. Rear cover (exterior member)
5 Electric board unit
9… LCD unit (display unit)
10. Lens barrel
15 LCD display panel (liquid crystal display panel)
16… Light source for LCD illumination (light source for illumination)
17 Light guide plate
26 ... release button (operation member)
27a ... Power switch button (operation member)
27b: Mode setting button (operation member)
33… Prism (reflective optical member)
35 ... 2 group lens
(Lens group, optical system)
36 ... 3 group lens
(Lens group, optical system)
55… CCD (imaging device)
56… CCD substrate (imaging device substrate)
57… FPC for CCD connection
(Flexible printed circuit board for image sensor connection)
58… Switch board
58d: Release switch (switch means)
58e: Power switch (switch means)
58f: Mode setting switch (switch means)
O1... First optical axis
O2: second optical axis

Claims (7)

A liquid crystal display panel disposed on the back of the camera, and a light guide plate disposed over substantially the entire surface of the liquid crystal display panel, having a thick portion at one end to a thin portion at the other end, and formed so as to change its thickness. A display unit comprising: a light source for illumination arranged on the thick portion side of the light guide plate;
A plurality of reflective optical members disposed in proximity to the light guide plate and configured to reflect subject light incident along a first optical axis along a second optical axis intersecting the first optical axis; An optical system consisting of a lens group and a substantially rectangular parallelepiped lens barrel,
An image pickup element arranged at one end of the lens barrel in the second optical axis direction on a plane orthogonal to the second optical axis, and for capturing an image formed by the optical system;
Wherein the thin portion of the light guide plate is disposed on the image sensor side. An image sensor electric board on which the image sensor is mounted is provided so as to protrude from the outer shape of the lens barrel toward the light guide plate in a plane substantially orthogonal to the second optical axis. The camera according to claim 1, wherein: An electric board unit arranged on the side of the lens barrel,
An image sensor connection flexible printed circuit board for connecting the image sensor electric board and the electric board unit,
3. The flexible printed circuit board for connecting an image pickup device is connected to the electric circuit board unit through an insertion passage formed between the light guide plate and the lens barrel. Camera according to. An operation member operated by a user,
Switch means for detecting an operation state of the operation member,
A switch substrate on which the switch means is arranged;
Wherein at least a part of the display unit is arranged behind the electric board unit, the switch board is arranged above the display unit, and the liquid crystal display panel and the illumination light source are The camera according to claim 1, wherein the camera is connected to the electric board unit via a switch board. The camera according to claim 4, wherein a part of the switch board is located above the electric board unit. The camera according to claim 4, wherein the switch board is located behind the electric board unit. 7. The camera according to claim 4, further comprising an exterior member that covers at least a part of the exterior of the camera, wherein the display unit, the operation member, and the switch board are attached to the exterior member.

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