JP2015005411A - Electronic apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To solve the following problem: although a battery is obliquely disposed with respect to a main substrate to materialize miniaturization, a space is narrowed by obliquely disposing the battery, and a spot where component parts are hard to disposed are produced.SOLUTION: This electronic apparatus is composed of the main substrate, a case for housing the battery disposed obliquely with respect to the main substrate, and a sheet metal including an elastic part to be attached to the housing case, and the metal sheet is disposed so as to be parallel with the housing case and to be overlapped therewith in the thickness direction thereof. A gap between the metal sheet and the main substrate gradually narrowed as it comes closer to the end of the substrate, and the sheet metal extends from the end of substrate where the gap becomes narrowest and includes the elastic part at the extended spot.

Description

  The present invention relates to a battery lid peripheral configuration of an electronic device.

  In recent years, electronic devices have various forms depending on their use and performance. For example, in the case of an imaging device, there are many cases in which shooting data is recorded on a memory card such as an SD card, and a battery storage unit or a replaceable memory card storage unit is configured in the housing of the imaging device. In addition, a battery having a built-in detachable battery or memory card is widely used.

  In particular, in the field of small-sized imaging devices, there are those in which members such as a lock mechanism, a release switch unit, an operation unit, an insertion unit, etc. are arranged efficiently by arranging the battery at an angle to reduce the size ( (See Patent Document 1).

JP 2006-78878

  However, in the imaging device in which the batteries are arranged obliquely as in the above-mentioned Patent Document 1, it is difficult to arrange the operation unit, the structure such as the substrate, particularly at the end, and a space that cannot be effectively used may be created. there were.

  A circuit board, a battery storage case disposed to be inclined with respect to the circuit board, a sheet metal attached to the battery storage case, and a lid portion of the battery storage case slidably movable with respect to the circuit board; The sheet metal and the circuit board are arranged so as to overlap with each other in the thickness direction, and the gap between the sheet metal and the circuit board gradually decreases as it approaches the end of the board, and the sheet metal extends beyond the end of the board where the gap becomes the smallest. The sheet metal includes an elastic portion at the extended portion, and the elastic portion generates a click force when the lid portion slides.

  According to the present invention, it is possible to effectively utilize a metal spring for opening and closing the battery lid in a space that cannot be effectively utilized that occurs when the battery is disposed obliquely.

External perspective view of imaging device External perspective view of imaging device External perspective view of imaging device Imager posture side view (Tripod base fixed) Imaging device posture side view External perspective view of imaging device (shooting condition) External perspective view of the imaging device (shooting state, selfie) External perspective view of imaging device (shooting condition) External perspective view of imaging device Imaging device system block diagram The perspective view which shows the front structure of a battery box unit Side view showing the side structure of the battery box unit Bottom view with batteries in the battery box unit Bottom view of main board Bottom view with main board and battery box unit assembled Sectional view in FIG. Detailed view in FIG. Detailed view in FIG. Top view of bottom cover Detailed view in FIG. 16 (a) The perspective view which shows the top | upper surface structure of a battery cover Perspective view from top view with bottom unit attached to battery box unit FIG. 18A is a perspective view of a slide state in which the battery cover is moved in the direction of the arrow γ. FIG. 18B is a perspective view of an opened state in which the battery cover is rotated in the direction of the arrow ε.

<First Embodiment>
Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the drawings by applying the present invention to a small and thin imaging apparatus. In the description of the present embodiment, directions indicated by arrows in FIG. 1 are defined as an X direction, a Y direction, and a Z direction, respectively. Further, in the imaging apparatus according to the present embodiment, the surface viewed from the lens (barrier) side (the surface viewed from the direction X in FIG. 1) is the front surface, the surface facing the front surface is the back surface, and the surface viewed from the right side with respect to the front surface is the right side. The surface viewed from the left side with respect to the front surface and the front surface is referred to as the left side surface, the surface viewed from the upper side with respect to the front surface is referred to as the top surface, and the surface viewed from the lower side with respect to the front surface is referred to as the bottom surface.

(Explanation of an external perspective view of the imaging device)
FIG. 1 is a perspective view seen from the front representing mainly the top surface configuration of the imaging apparatus, FIG. 2 is a perspective view seen from the back representing mainly the top surface configuration of the imaging apparatus, and FIG. It is the perspective view seen from the back showing a bottom face composition. The function of each element shown in the external perspective view will be briefly described with reference to this drawing.

  1 to 3, reference numeral 1 denotes a front unit disposed on the front side of the imaging apparatus, and reference numeral 100 denotes an external appearance of the front unit 1, which is a metal front cover that covers the imaging apparatus front side and the imaging apparatus top side. , 101 and 102 are arranged on the front side of the imaging apparatus, and a microphone L and a microphone R and 103 for converting an input audio signal into an electric signal are barriers for protecting a lens unit arranged inside the imaging apparatus, 104. Is arranged on the left side of the image pickup apparatus, opens and closes the barrier 103 when the photographer slides, and turns on / off the power supply of the image pickup apparatus, and 105 turns on / off the power supply of the image pickup apparatus. It is a power LED window formed of a transparent member that guides the light from the light emitting unit disposed inside the main body to emit light according to the OFF state.

  A speaker unit 106 transmits sound output from a speaker disposed inside the front cover 100 to the outside through a hole formed on the top surface side of the front cover 100, and 2 indicates a top surface of the imaging apparatus in a stored state. The display unit 200 is arranged on the side, the display unit 200 is configured by an LCD or the like for displaying captured images and playback images, and 201 is arranged on the surface of the display unit 200 to enable operation input by the user touching. The touch panel unit 3 is a bottom unit disposed on the bottom side of the imaging apparatus, and 300 is a bottom cover that is an exterior cover that covers the bottom side of the imaging apparatus in the bottom unit 3.

  301 is disposed on the right side surface of the bottom cover 300 and emits light from a light emitting unit disposed inside the main body that emits light when a card-like recording medium and a main body control unit (described later) of the imaging apparatus are communicating with each other. An access LED window formed of a transparent member that guides the external appearance, 302 is a playback knob that is placed on the left side surface of the bottom cover 300 and shifts to a playback mode when operated, and 303 is a bottom surface of the bottom cover 300 A stand unit arranged on the side, 304 is a battery cover arranged on the back side of the bottom cover 300 and configured to be openable and closable with respect to the imaging apparatus, and 305 is formed on the back side of the left and right side surfaces of the bottom cover 300. It is a strap hole for attaching a strap.

  Reference numeral 306 denotes a tripod base having a female screw portion that is arranged on the bottom surface side of the image pickup apparatus and is fastened to a tripod screw. Reference numeral 4 denotes a release knob for taking an image by being arranged and operated on the right side surface side of the image pickup apparatus. A card cover arranged on the right side of the imaging device and configured to be openable / closable with respect to the imaging device main body, and a jack 6 arranged on the left side of the imaging device and configured to be capable of opening / closing with respect to the imaging device main body. A lid 11 represents a battery box unit including a battery box for storing batteries, a battery lock lever for holding batteries, and the like.

(Attitude of imaging device)
FIG. 4A shows the orientation of the imaging apparatus when the imaging apparatus is attached to a tripod, and FIG. 4B shows the orientation of the imaging apparatus when the imaging apparatus is placed on the ground (a flat surface such as a floor or a desk). Are respectively shown in the right side view of the imaging apparatus.

  4 (a) and 4 (b), U is a tripod base, two-dot chain line T in the figure is a tripod base U and a ground plane on the bottom of the imaging device, and straight line G is a ground plane on the ground and the bottom of the imaging device. Respectively. In addition, an alternate long and short dash line in the figure indicates a photographing optical axis direction of the imaging apparatus.

  As shown in FIG. 4A, the imaging apparatus can be attached to the tripod by engaging the tripod screw portion of the tripod base U with the tripod base 306. As can be seen from FIG. 4A, when the imaging apparatus is attached to a tripod, the optical axis direction represented by the alternate long and short dash line and the installation surface T are substantially parallel. When the tripod is attached, the photographer takes this posture so that the photographer tilts the tripod pedestal while referring to the level on the tripod side, and the posture of the imager is integrated with the tripod pedestal. The shooting angle can be adjusted satisfactorily by operating.

  On the other hand, in FIG. 4B, it can be seen that the straight line G representing the ground contact surface when the imaging apparatus is placed on the ground has a predetermined angle with the optical axis direction represented by the alternate long and short dash line. This is realized by inclining (hip-up) the bottom surface of the main body of the imaging apparatus toward the imaging optical axis as it goes to the back side (in the imaging apparatus according to the present embodiment, 5% with respect to the optical axis). With a slope of °). By adopting such a posture, it is possible to reduce a region where the ground appears in the photographed image when photographing with the imaging device placed on the ground, and to obtain a good photographed image.

(Explanation of shooting mode when movable element is movable)
FIG. 5 to FIG. 8 show a state in which shooting is performed after operating each movable element in the imaging apparatus. Also, a description will be given regarding the shooting mode in this state.

  FIG. 5 is a perspective view showing a state in which the barrier 103 is operated from the state of FIG. 1 and the display unit 2 and the stand unit 303 are opened by a predetermined amount. In FIG. 5, 7 is a lens unit composed of a plurality of lens groups for obtaining optical information of a subject, 202 is a hinge unit for attaching the display unit 2 to the main body of the imaging apparatus so as to be rotatable, and 203 is a hinge unit. A first rotation axis that rotates about 202 is indicated by a one-dot chain line, and 204 indicates a top cover that is fastened to the hinge portion 202 and fixed to the imaging apparatus main body.

(Explanation of operations when shooting images)
When the photographer slides the barrier power supply knob 104, the barrier 103 is housed inside the imaging apparatus main body. When the barrier 103 is in the open state, the lens unit 7 is exposed to the front side of the imaging apparatus as shown in FIG. In the lens unit 7 having the optical lens group, optical information is incident from a subject, and the optical information is imaged on a sensor unit (not shown). The imaged optical information is converted into electrical information (image information) by the sensor unit and transmitted to the sensor substrate unit. The image information transmitted to the sensor substrate unit is transmitted to the display unit 2, and the image information is displayed to the photographer by the display unit 200 configured by, for example, an LCD.

(Description of display unit)
As shown in FIG. 5, the display unit 2 is configured to be rotatable with respect to the imaging apparatus main body. The movable posture of the display unit 2 will be described with reference to FIG. The hinge part 202 is fastened to the image pickup apparatus main body by a fastening part (not shown) on the back side inside the main body. Further, the hinge portion 202 has a second rotation shaft (not shown) in the vicinity of the fastening portion, and enables the display unit 2 to be rotated relative to the imaging apparatus main body. Thus, by rotating the display unit 2, the photographer can adjust the position of the display unit 2 to a position where the display content can be easily seen (FIG. 5 shows the display unit 2 with respect to the imaging apparatus main body). The position rotated by 30 ° around the second rotation axis). In this imaging apparatus, the display unit 2 is configured to be able to rotate by approximately 90 ° with respect to the imaging apparatus main body.

  FIG. 6 shows a state in which the display unit 2 is further rotated with respect to the imaging apparatus main body from the state of FIG. The display unit 200 is rotated 180 degrees and the display unit 200 faces the front side of the imaging apparatus. As can be seen from this figure, in this state, the lens unit 7 and the display unit 200 face in the same direction. For this reason, when taking a picture while the photographer is on the lens side (self-shooting), it is possible to take a picture while confirming the photographed image photographed by the lens unit 7 on the display unit 200, so It is possible to take a picture.

(Description of stand unit)
FIG. 7 is a perspective view when the state of FIG. 5 is viewed from the bottom side. The movable posture of the stand unit 303 will be described with reference to FIG. The stand unit 303 is configured to be rotatable with respect to the imaging apparatus main body. The stand unit 303 is fastened to the imaging apparatus main body by a fastening portion (not shown) on the back side inside the main body. The stand unit 303 has a stand rotation shaft (not shown) in the vicinity of the fastening portion, and allows the stand unit 303 to rotate relative to the image pickup apparatus main body (in this figure, the stand unit 303 is rotated by 45 ° with respect to the image pickup apparatus main body. Moved position). The bottom cover 300 is provided with a stand recess 307. The stand recess 307 has a concave shape that is substantially the same shape as the stand 303, and accommodates the stand unit 303 in the imaging apparatus main body.

  FIG. 8 shows a state of taking an image with the imaging device placed on the ground (a flat surface such as a floor or a desk) in the state of FIG. An alternate long and short dash line in the figure indicates the direction of the photographing optical axis of the imaging apparatus. As shown in the figure, the imaging apparatus is found to be in contact with the ground by a straight line G between the distal end of the stand unit 303 rotated relative to the imaging apparatus body and the back side of the bottom surface of the imaging apparatus body. . At this time, the optical axis direction indicated by the one-dot chain line and the ground plane G are inclined by a predetermined amount.

  As described above, when shooting is performed with the imaging apparatus placed on the ground, the shooting angle can be freely adjusted by rotating the stand unit 303 with respect to the imaging apparatus main body. In addition, by using the stand unit 303, the photographer can adjust the region where the ground appears in the photographed image.

  The detailed structures of the display unit 2 and the stand unit 303 are not directly related to the contents of the present application, and thus detailed description thereof is omitted.

(Explanation of imaging device system block diagram)
FIG. 9 shows a system block diagram of the imaging apparatus. The internal operation system of the imaging apparatus will be briefly described with reference to this drawing. In addition, in this figure, the same code | symbol is attached | subjected to the component similar to another figure, and illustration is abbreviate | omitted.

  In FIG. 9, the lens unit 7 and the sensor unit 8 depicted on the left side of the drawing are collectively referred to as a lens unit unit. As described above, the optical information incident on the lens unit 7 having the optical lens group is received by the sensor unit 8, and the optical information is converted into electrical information (image information) by the photoelectric conversion function of the sensor unit 8.

  The main body depicted in the center of the figure has a main substrate 90. The main body control unit 10 of the main board 90 is provided with information processing represented by input / output of image / audio information, image processing such as compression / conversion, recording / playback processing such as recording / reproduction, etc. on the main board 90. This is performed while communicating with the memory 1007. The light emitting unit 1001 emits light from each LED element, is guided by the power LED window 105 and the access LED window 301 formed of a transparent material, and is exposed to the appearance so as to be visible to the photographer. The power supply unit 1002 can obtain power from an external power supply via a battery or an external power cable. The electric power obtained from each power supply unit 1002 is transmitted to the main body control unit 10.

  The power transmitted to the main body control unit 10 is converted into a voltage suitable for each driving element by the main body control unit 10 and then transmitted to each driving element as a power source for each driving element. When an external connection cable is connected to each external connection terminal unit, the external connection terminal unit 1003 detects the connection and transmits a detection signal to the main body control unit 10. The main body control unit 10 controls input / output of image information according to the connected external connection cable.

  The wireless communication unit 1004 is not related to the present invention, and details are not clearly described, but information communication can be performed wirelessly with an external wireless device through a wireless module. When recording an image, the main body control unit 10 transmits the image information to the external storage device unit 1005 and records the captured image on an external recording medium (such as a micro SD card). As elements corresponding to the operation unit 1006, for example, the release knob 4 and the reproduction knob 302 correspond. When each operation unit is operated, operation information is transmitted to the main body control unit 10. The main body control unit 10 switches the mode to the image recording or playback mode based on this operation information.

  In FIG. 9, the display unit part 2 drawn on the right side of the figure has a panel substrate part. The panel substrate unit is electrically connected to the main body control unit 10 and is configured to be able to transmit information to and from the main body control unit. For example, image information captured by the lens unit unit is transmitted to the main body control unit, and after the image processing is performed by the main body control unit, the main body control unit transmits the image information to the panel substrate unit. The panel substrate unit performs image processing on the received image information, and then transmits the image information to the display unit 200 to display the captured image for the user. Also, operation information operated by the photographer from the touch panel unit 201 is transmitted to the panel substrate unit, and is transmitted from the panel substrate unit to the main body control unit. The main body control unit controls each component according to the operation information.

(Battery box configuration)
FIG. 10 is a perspective view showing the top surface configuration of the battery box unit 11, and FIG. 11 is a side view showing the left side configuration viewed from the left side surface of the battery box unit 11. The structure of the battery box unit 11 is demonstrated using this figure.

  The battery box unit 11 includes a battery box 110 for storing the battery, a battery discharge spring (not shown) for discharging the battery, a back sheet metal 111 constituting one surface of the unit, a battery lock lever 112 for holding the battery, and a battery lock lever 112. A battery lock spring 113 that urges the battery in a direction and a battery shaft 114 that is supported by the battery lock lever 112 and supported by the battery are provided.

  Further, the battery box 110 has a contact surface 1101 that comes into contact with the claw portion of the battery lid when the battery lid, which will be described later, is closed, a slide rail 1102 that guides the battery lid 304 when the battery lid slides, and a main board that will be described later. A terminal fitting portion 1103 for holding the mounted battery terminal 900 is provided, and the back metal plate 111 is provided with a click portion 1111 for generating a click force when the battery lid 304 is slid. The battery box 110 is a resin component, and the back sheet metal 111 is a metal sheet metal member. For this reason, the back sheet metal 111 can be made sufficiently thin with respect to the thickness of the battery box 110.

  FIG. 12 is a view when seen from the bottom side of the battery box unit 11 with the battery 12 inserted. A method for holding and discharging the battery 12 inserted in the battery box unit 11 will be described with reference to this drawing.

  The battery lock lever 112 and the battery lock spring 113 are pivotally supported by the battery shaft 114. The battery shaft 114 is inserted into a round hole provided in the battery box 110 and incorporated into the battery box 110. At this time, the battery lock lever 112 is urged in the direction of the arrow α by the battery lock spring 113. Thereby, the battery 12 is locked to the battery lock lever 112 and is held with respect to the battery box 110.

  When discharging the battery 12, the battery lock lever 112 is operated in the direction opposite to the arrow α direction shown in FIG. Then, the lock of the battery lock lever 112 is released, and the battery 12 biased by the battery discharge spring is discharged in the arrow β direction.

(Description of power supply unit mounting structure)
FIG. 13 is a view of the main board portion 9 as seen from the bottom surface side of the imaging device. In addition, FIG. 14 illustrates a state when the battery box unit 11 is incorporated in the imaging apparatus as viewed from the bottom side of the imaging apparatus. The relationship between the battery terminal 900 and the battery terminal fitting portion 1103 when the battery box unit 11 is incorporated into the main board portion 9 will be described with reference to FIG. In addition, the same code | symbol is attached | subjected to the component similar to a previous figure, and illustration is abbreviate | omitted.

  The main board portion 9 represents a main board 90, a main board holder 91 that holds the main board 90, and a tripod base 306. The battery terminal 900 is surface-mounted on the main board 90. The battery terminal 900 is configured to be movable in the mounting surface direction by a predetermined amount while being mounted on the main board 90 (floating structure). When the battery box 110 is assembled, the battery terminal fitting portion 1103 of the battery box 110 is fitted with the battery terminal 900, and the position of the battery terminal 900 with respect to the battery box 110 is determined.

(Arrangement structure of battery and main board)
FIG. 15A is a cross-sectional view taken along the alternate long and short dash line AA in FIG. 14 and viewed from the right side in the drawing. FIG. 15A is a cross-sectional view showing a state where the battery 12 is stored in the battery box 110. 14 is a line passing through the center of the battery terminal 900, the battery terminal 900 is displayed in this cross-sectional view. 15B is a detailed view of a circle B portion in FIG. 15A, and FIG. 15C is a detailed view of a circle C portion in FIG. 15A. The arrangement of the main board portion 9 and the battery box unit 11 will be described with reference to FIG.

  As shown in FIG. 15A, the battery terminal 900 is mounted perpendicular to the main board 90. On the other hand, the battery box 110 is disposed at a predetermined angle with respect to the mounting surface of the main substrate 90 (this image pickup apparatus has a 5 ° inclination). For this reason, the battery 12 is housed in the battery box 110 while being inclined at a predetermined angle with respect to the battery terminal 900. The inclination of the battery 12 is inclined in a direction approaching the main substrate 90 as it proceeds to the back side of the imaging device.

  In this figure, h, which is a range indicated by black triangles, is a triangle of a range formed by the back sheet metal 111 inclined with respect to the main substrate 90 and the mounting surface of the main substrate 90. Electrical components can be mounted on the main board 90 even at the edge of the board where the distance between the main board 90 and the back sheet metal 111 is the smallest.

  As shown in FIG. 15B, in a state where the battery 12 is inclined with respect to the battery terminal 900, the battery terminal portion 121 of the battery 12 and the terminal contact portion 9001 of the battery terminal 900 abut, and the battery 12 is connected to the main board 90. Is fed.

  As shown in FIG. 15C, the battery box 110 is tilted in the direction approaching the main board 90, so that the battery box 110 and the main board 90 interfere with each other at a certain point. In order to avoid this interference, the main substrate 90 is cut at a predetermined position represented by a dotted line in the drawing.

  A portion where the main substrate 90 is cut has a narrow space in the substrate thickness direction (Y direction), and becomes a dead space where a structure cannot be disposed. In this embodiment, as shown in FIG. 15A, the click portion 1111 formed integrally with the back sheet metal 111 is normally used to effectively utilize the place where the structure cannot be arranged. As described above, since the back sheet metal is formed of a thin material such as metal, it can be arranged even in a small space.

(Description of bottom cover and battery cover configuration)
16A is a perspective view seen from the top surface of the bottom cover 300, FIG. 16B is a detailed view of a circle D portion in FIG. 16A, and FIG. 17 is a perspective view seen from the top surface of the battery cover 304. FIG. The detailed configurations of the bottom cover 300 and the battery cover 304 that mainly configure the bottom unit 3 will be described with reference to this drawing.

  The bottom cover 300 is provided with a rotating shaft 3000 that engages with the battery cover 304, and a slide groove 3001 and a rotation holding groove 3002 are provided around the rotating shaft 3000.

  The battery cover 304 is provided with arm portions 3040 on both the left and right sides. The arm portion 3040 has a shaft hole portion 3041 having a long hole shape, a slide groove 3001 of the bottom cover 300, and a posture holding convex portion 3042 that engages with the rotation holding groove 3002. Click contact portion 3043 that outputs a click force when sliding the battery lid 304, a stopper portion 3044 that abuts the battery box unit 11 when the lid is opened in the rotation direction, and closes by contacting the battery box unit 11. It is comprised by the nail | claw part 3045 holding the attitude | position of a state. When the battery lid 304 is in the open posture, the posture holding convex portion 3043 is engaged with the rotation holding groove 3002 and has a role of holding the posture. Although not shown, the posture holding convex portion 3042, the rotation shaft 3000, the slide groove 3001, and the rotation holding groove 3002 are provided symmetrically.

  The battery cover 304 is supported by the bottom cover 300 so as to be slidable and rotatable by fitting the rotating shaft 3000 of the bottom cover 300 and the shaft hole 3041 of the battery cover 304.

(Explanation of battery lid opening / closing operation)
FIG. 18A is a perspective view of the battery box unit 11 and the bottom unit 3 assembled, with the battery cover closed. FIG. 18B is a diagram showing a state in which the battery cover 304 is slid in the arrow γ direction from the battery cover closed state of FIG. FIG. 18C is a diagram of the battery lid open state in which the battery lid 304 is rotated in the direction of the arrow ε from the state of FIG. The opening operation of the battery cover 304 in a state where the bottom unit 3 and the battery box unit 11 are assembled together will be described with reference to FIG.

  When the battery cover 304 is in the closed state, the claw portion 3045 is held in contact with the contact surface 1101 of the battery box 110 as shown in FIG. When a force in the direction of the arrow γ is applied to the battery cover 304 from the closed state, the battery cover 304 slides and moves while the click portion 1111 of the back sheet metal 111 rides on the mountain shape of the click contact portion 3043.

  The battery cover 304 can be slid by moving within the range of the long hole of the shaft hole portion 3041 with which the rotary shaft 3000 provided in the bottom cover 300 is fitted. After sliding, the battery cover 304 is opened by rotating the stopper part 3044 of the battery cover 304 in the direction of the arrow ε about the rotation shaft 3000 to the battery box 110 so that the battery can be inserted and removed. It becomes.

  With the above configuration, in a small and thin imaging device, when the battery is arranged obliquely with respect to the main board, the spring for opening and closing the battery is provided in a space where it is difficult to arrange the structure at the end. It is possible to effectively utilize by arranging. Therefore, the image pickup apparatus can be downsized.

  Although the present invention has been described in detail based on preferred embodiments thereof, the present invention is not limited to these specific embodiments, and various forms within the scope of the present invention are also included in the present invention. included. A part of the above-described embodiments may be appropriately combined.

1 Front unit 100 Front cover 101 Microphone R
102 ... Mike L
103 Barrier 104 Barrier power knob 105 Power LED window 106 Speaker unit 2 Display unit 200 Display unit 201 Touch panel unit 202 Hinge unit 203 Second rotary shaft 204 Top cover 3 Bottom unit 300 Bottom cover 3000 Rotating shaft 3001 Slide groove 3002 Rotation holding groove 301 Access LED window 302 Regeneration knob 303 Stand unit 304 Battery cover 3040 ... Arm part 3041 ... Shaft hole part 3042 ... Posture holding convex part 3043 ... Click contact part 3044 ... Stopper part 3045 ... Claw part 305 ... Strap hole 306 ... Tripod base 307 ... Stand concave part 4 ... Release knob 5 ... Card cover 6 ... Jack cover 7 ... Lens part 8 ... Sensor part 9 ... Main Plate part 90 ... Main board 91 ... Main board holder 900 ... Battery terminal 9001 ... Terminal contact part 10 ... Main body control part 1001 ... Light emitting part 1002 ... Each power supply part 1003 ... External connection terminal part 1004 ... Wireless communication unit 1005 External storage device unit 1006 Operation unit 1007 Memory 11 Battery box unit 110 Battery box 1101 Contact surface 1102 Slide rail 1103 Battery terminal fitting unit 111 Back plate 1111 Click part 112 Battery lock lever 113 Battery lock spring 114 Battery shaft 12 Battery

Claims (1)

A circuit board, a battery storage case disposed to be inclined with respect to the circuit board, a sheet metal attached to the battery storage case, and a lid portion of the battery storage case slidably movable with respect to the circuit board; , Arranged so as to overlap the circuit board in the thickness direction,
The gap between the sheet metal and the circuit board gradually decreases as it approaches the end of the board, and the sheet metal extends beyond the end of the board where the gap becomes the smallest,
The sheet metal includes an elastic portion at the extended portion,
The electronic device according to claim 1, wherein the elastic portion generates a click force when the lid portion slides.