JP2024011342A - Electronic view finder device and imaging apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently dissipate heat from a display module while preventing expansion of an apparatus.

SOLUTION: A display module 52 has a control board 523 having a display unit 521 mounted thereon, and a flexible substrate 524 electrically connected with the control board 523. A thermally conductive sheet metal member 59 is composed of a flat plate part 591, a flat plate part 592, and two relay parts 593 connecting the flat plate parts to each other. The flat plate part 591 is thermally coupled to the control board 523. The flat plate part 592 is thermally coupled to a slide part 61 of a hinge unit 6 and is not in contact with the display unit 521. The flexible substrate 524 is inserted between the flat plate part 591 and the flat plate part 592.

SELECTED DRAWING: Figure 7

COPYRIGHT: (C)2024,JPO&INPIT

Description

The present invention relates to an electronic viewfinder device and an imaging device.

2. Description of the Related Art Conventionally, electronic viewfinder devices installed in imaging devices and the like have been known. Some electronic viewfinder devices are designed to be rotatable in a tilt direction after an eyepiece is pulled out from a storage section within an imaging device (Patent Document 1).

In recent years, there has been a demand for electronic viewfinder devices to be equipped with large display modules in order to improve visibility. In addition, there is a demand for smaller imaging devices even though they are equipped with large display modules. On the other hand, since the power consumption of the display module is increasing as the definition of photographed images becomes higher, it is necessary to consider cooling the display module.

JP2019-179947A

However, in the imaging device of Patent Document 1, an air cooling duct is provided near the electronic viewfinder device in order to cool the display module, which leads to an increase in the size of the imaging device.

An object of the present invention is to provide an electronic viewfinder device that can efficiently dissipate heat from a display module while suppressing expansion of the device.

In order to achieve the above object, an electronic viewfinder device of the present invention includes a display module including a control board, a display unit mounted on the control board, and a flexible board electrically connected to the control board. , a first heat conductive member including a first heat dissipation part, a second heat dissipation part, and a connecting part connecting the first heat dissipation part and the second heat dissipation part, and a second heat conduction member. The first heat radiating part is thermally coupled to the control board, and the second heat radiating part is thermally coupled to the second heat conductive member and is not in contact with the display unit. , the flexible substrate is inserted between the first heat radiating section and the second heat radiating section.

According to the present invention, efficient heat dissipation of the display module can be achieved while suppressing the expansion of the device.

FIG. 1 is a schematic cross-sectional view of an imaging device to which an electronic viewfinder device is applied. FIG. 2 is an external perspective view of the imaging device and a perspective view of the vicinity of a power switch. FIG. 3 is a perspective view of the finder unit in a stored state, a pulled out state, and a tilted state. FIG. 3 is a partial cross-sectional view of the imaging device in which the finder unit is in a stored state, a pulled out state, and a tilted state. FIG. 3 is a longitudinal cross-sectional view of the finder section. It is a perspective view of a display module. FIG. 2 is an exploded perspective view of a part of the hinge unit and a finder section, and a vertical cross-sectional view of the vicinity of the display module. They are a perspective view, a rear side view, and an enlarged perspective view of a cable holding part of the imaging device with a cable connected thereto.

Embodiments of the present invention will be described below with reference to the drawings.

FIGS. 1A, 1B, and 1C are schematic cross-sectional views of an imaging device to which an electronic viewfinder device according to an embodiment of the present invention is applied. This imaging device 1 is, for example, a video camera.

The imaging device main body 1a of the imaging device 1 is provided with an electronic viewfinder unit 50 (hereinafter referred to as finder unit 50) as an electronic viewfinder device. The finder unit 50 includes a hinge unit 6 and a finder section 5. The finder unit 50 can transition between a stored state (storage position) and a pulled-out state (drawn-out position), and can also transition from the pulled-out state to a tilted state (tilted position) by rotating. FIGS. 1A, 1B, and 1C show a stored state, a pulled-out state, and a tilted state, respectively.

Hereinafter, the directions of each part will be referred to with reference to the X, Y, and Z coordinate axes. For convenience, in a direction parallel to the center of the optical axis of the lens 2, the subject side is referred to as the front, and the finder unit 50 side is referred to as the rear. Therefore, for example, in FIGS. 1(a) to 1(c), the +Y direction is upward and the +Z direction is forward. The +X direction is to the left as viewed from the photographer.

Image information of the subject incident through the lens 2 forms an image on the image sensor 31 . The image sensor 31 converts the image information into electrical information and transfers it to the substrate 41 via the flexible substrate 32. The board 41 performs operations such as sending the electrical information sent from the image sensor 31 to the recording section 42 and recording it, after performing necessary processing. The board 41 performs necessary processing on the electrical information sent from the image sensor 31 and the information recorded in the recording section 42, and then sends it to the finder section 5 to display an image.

The finder section 5 is attached to a hinge unit 6. As shown in FIGS. 1(b) and 1(c), the user can pull out the finder unit 5 and use it, or after pulling it out, rotate (tilt) it upward (+Y side) to use it.

The imaging device main body 1a includes a power supply terminal 71 to which a power cable for external power supply is connected, a signal output terminal 72 for transmitting image information to an external display device, and an audio signal for transmitting audio signals to headphones, external speakers, etc. A terminal section such as a headphone terminal 73 is provided.

FIGS. 2(a) to 2(c) are external perspective views of the imaging device 1. FIG. 2(d) is a perspective view of the vicinity of the power switch 14.

A finder section 5 and a battery 13 are arranged on the back surface (-Z side surface) of the imaging device main body 1a. The battery 13 is removably attached to a battery storage section (not shown). The finder section 5 is arranged on the +Y side of the battery 13.

A power switch 14 (FIG. 2(c)) is provided at the top of the imaging device main body 1a. As shown in FIG. 2(d), the power switch 14 can be switched between an on position 141, an off position 142, and a playback position 143. When the power switch 14 is switched to the on position 141, the imaging device 1 is powered on and starts driving. Light ray information of the object that enters through the lens 2 and forms an image on the image sensor 31 (FIG. 1(a)) is converted into electrical information, and after necessary processing, is transmitted to the finder section 5 and displayed as an image. When the power switch 14 is switched to the off position 142, the power to the imaging device 1 is cut off and the operation stops.

A recording start button 15 (recording start operator) (FIG. 2(b)) is further arranged on the back side of the imaging device main body 1a. When the recording start button 15 is pressed while the imaging device 1 is being driven, the imaging device 1 starts recording to the recording unit 42 (FIG. 1(a)). When the recording start button 15 is pressed again, the imaging device 1 stops recording to the recording unit 42. On the back surface of the imaging device main body 1a, a headphone terminal 73 is arranged on the opposite side (+X side) of the recording start button 15 with the finder section 5 and battery 13 in between (FIG. 2(c)). Further, a large display section 16, which is a rotatable display device, is provided on the +X side side of the imaging device main body 1a. The cable holding portion 8 will be described later with reference to FIGS. 8(a) to 8(d).

3A, 3B, and 3C are perspective views of the finder unit 50 in a stored state, a pulled out state, and a tilted state, respectively. The hinge unit 6 includes a fixed part 62 and a sliding part 61 (second heat conductive member) (see also FIG. 7(b)). The fixed part 62 and the sliding part 61 are made of a highly thermally conductive member. The fixing portion 62 is fixed to the imaging device main body 1a. The finder section 5 is fixed to the sliding section 61 and moves integrally with the sliding section 61.

The sliding part 61 is slidable and rotatable relative to the fixed part 62. First, the sliding part 61 is slidable in the Z direction with respect to the fixed part 62. As a result, the finder section 5, together with the sliding section 61, transitions between the storage position and the pull-out position. Moreover, the sliding part 61 can be rotated (tilted) relative to the fixed part 62 from the pulled-out state to the +Y side. As a result, the finder section 5 is tilted together with the sliding section 61 from the drawn-out position. Since this tilt direction is on the side opposite to the side where the battery 13 is arranged in the vertical direction, the finder section 5 does not interfere with the battery 13. In the finder section 5, images are displayed in the pulled out state and the tilted state.

FIGS. 4A, 4B, and 4C are partial cross-sectional views of the imaging device 1 in which the finder unit 50 is in a stored state, a pulled out state, and a tilted state, respectively. The sliding section 61 and finder section 5 in the stored state are pulled out in the -Z direction from the opening 17 provided on the back surface of the imaging device 1.

A groove shape 51 (recess) is formed in the upper part of the finder unit 50. By providing the groove shape 51, interference with the imaging device main body 1a (particularly the edge 171 of the opening 17) is avoided when the sliding portion 61 and the finder portion 5 are tilted in the extended state.

FIG. 5 is a longitudinal cross-sectional view of the finder section 5. As shown in FIG. The finder section 5 has a built-in display module 52. FIGS. 6A and 6B are perspective views of the display module 52.

The display module 52 displays images sent from the image sensor 31 (FIG. 1(a)) and images recorded in the recording unit 42 (FIG. 1(a)). The lens unit 53 has a built-in lens (not shown), and forms an image displayed on the display module 52 at a predetermined position. The user can view the image through the eyepiece window 54.

As shown in FIGS. 6A and 6B, the display module 52 includes a display unit 521, a control board 523, and a flexible board 524. A control board 523 is arranged at the bottom of the recessed part of the box-shaped display unit 521. That is, the display unit 521 is mounted on the control board 523. Display unit 521 includes a display section 522 on which images are displayed. A flexible board 524 is attached to the control board 523, and the flexible board 524 is electrically connected to the control board 523. The flexible board 524 is drawn out from the control board 523 toward the −Y side. The control board 523 performs signal communication with the board 41 (FIG. 1(a)) through the flexible board 524.

Note that a relay board may be provided between the control board 523 and the board 41. The control board 523 is a heat generating component that consumes a lot of power, and a mechanism for cooling the display module 52 is required to keep the temperature below a predetermined value.

FIG. 7A is an exploded perspective view of a portion of the hinge unit 6 and the finder section 5. FIG. FIG. 7(b) is a longitudinal cross-sectional view of the vicinity of the display module 52. First, the holding structure of the display module 52 within the finder section 5 will be explained.

In addition to the display module 52, the finder section 5 includes a module holder 55 (accommodating member), a sheet metal member 57 (holding member), a thermally conductive sheet metal member 59, an elastic member 56, etc. as main components. The display unit 521 of the display module 52 is stored in a storage space included in the module holder 55.

The thermally conductive sheet metal member 59 (first heat conductive member) includes a flat plate portion 591 (first heat radiating portion), a flat plate portion 592 (second heat radiating portion), and two relay portions 593 (connecting portions). An annular portion 59x is formed by connecting both ends of the flat plate portion 591 and both ends of the flat plate portion 592 with two relay portions 593.

The flat plate portion 592 of the thermally conductive sheet metal member 59 is crimped and fixed to the sliding portion 61 of the hinge unit 6 via a thermally conductive elastic member 582 (second thermally conductive elastic member). Therefore, the flat plate portion 592 is thermally stably coupled to the sliding portion 61 via the thermally conductive elastic member 582.

Regarding the Z direction, the flat plate portion 591 of the thermally conductive sheet metal member 59 moves the control board 523 to the module holder 55 side, that is, -Z via the thermally conductive elastic member 581 (first thermally conductive elastic member). It is biased towards the side. As a result, the control board 523 comes into contact with the restriction surface 552 (+Z side surface) in the storage space of the module holder 55, and its position is restricted. Further, the flat plate portion 591 of the heat conductive sheet metal member 59 is thermally stably coupled to the control board 523 via the heat conductive elastic member 581. Therefore, the heat generated by the control board 523 is transmitted to the flat plate part 591 and is carried to the flat plate part 592 through the relay part 593.

In addition, regarding the Y direction, the flat plate portion 571 of the sheet metal member 57 presses the pressed surface 525 (-Y side surface) of the display unit 521 of the display module 52 to the bottom surface 551 side of the module holder 55, that is, It is biased towards the +Y side. Thereby, the display unit 521 of the display module 52 comes into contact with the bottom surface 551 in the storage space of the module holder 55. Moreover, as a result of ensuring a gap between the flat plate part 592 and the pressed surface 525 of the display unit 521, a non-contact state between the flat plate part 592 and the display unit 521 is ensured.

Since there is a gap in the Y direction between the flat plate part 592 and the flat plate part 571, the heat transmitted from the relay part 593 to the flat plate part 592 is transferred to the sliding part 61 of the hinge unit 6 without returning to the display unit 521. Heat is transferred and diffused.

The flexible board 524 pulled out from the control board 523 and connected to the board 41 passes through the annular portion 59x on its way. That is, when viewed from the X direction, the flexible substrate 524 is inserted between the flat plate part 591 and the flat plate part 592 (FIG. 7(b)). This eliminates the need for the flexible substrate 524 to pass outside the thermally conductive sheet metal member 59 in order to avoid the thermally conductive sheet metal member 59, which is a heat dissipation route, thereby suppressing the expansion of the device.

As described above, the sliding portion 61 can transition between the stored state and the drawn-out state. Therefore, the finder section 5 including the flat plate section 592 can transition between the stored state and the drawn-out state by sliding integrally with the sliding section 61 relative to the imaging device main body 1a. In this state, it can be tilted by rotating together with the sliding portion 61.

Since the groove shape 51 (see also FIG. 4) for avoiding interference with the imaging device main body 1a is provided at a position adjacent to the storage space of the module holder 55, there is a restriction on the direction in which the flexible substrate 524 is pulled out. arise. However, by allowing the flexible substrate 524 to pass through the annular portion 59x, both cooling of the display unit 521 and miniaturization of the finder portion 5 are achieved.

Next, the cable holding structure will be explained.

FIGS. 8A and 8C are perspective views of the imaging device 1 to which the cable 9 is connected. FIG. 8(b) is an enlarged perspective view of the cable holding part 8. FIG. 8(d) is a rear side view of the imaging device 1 with the cable 9 connected.

The cable holding section 8 is arranged above the finder unit 50 (on the +Y side). The cable holding portion 8 includes a C-shaped portion 81, and the C-shaped portion 81 holds the cable 9. The C-shaped portion 81 is an arc-shaped portion with a central angle of 180° or more. The cable 9 is held by the cable holding part 8 by being inserted through the C-shaped part 81 with the tip end 91 inserted into the headphone terminal 73.

As shown in FIG. 8(a), the extending direction A of the portion of the cable 9 held by the cable holding portion 8 is approximately parallel to the X direction. An insertion/extraction direction B (extraction direction) of the cable 9 with respect to the headphone terminal 73 is approximately parallel to the Z direction. Therefore, the extension direction A and the insertion/extraction direction B are directions that intersect with each other, and particularly, directions that are substantially orthogonal to each other.

When the tip 91 of the cable 9 is connected to the headphone terminal 73 and the cable 9 is held by the cable holding part 8, when the user unintentionally pulls the cable 9, the pulling direction is mainly in the extension direction A (especially -X direction). Since the extension direction A and the insertion/extraction direction B intersect with each other, even if the user pulls the cable 9 unintentionally, the cable 9 is prevented from coming off from the headphone terminal 73.

Further, the cable 9 is pulled out through the cable holding section 8 not to the side where the large display section 16 is located (+X side) in the left-right direction but to the side where the recording start button 15 is located (-X side). Thereby, the recording operation can be performed without impairing the visibility of the large display section 16.

Further, the imaging device main body 1a is provided with a grip portion 19 so that the user's thumb can be easily placed near the recording start button 15 (FIG. 8(c)). Since the cable holding part 8 is arranged at a position where the cable 9 passes between the thumb and index finger when the user is holding the imaging device 1, the cable 9 does not interfere with the operation.

Further, the imaging device main body 1a has a convex portion 18. The convex portion 18 is adjacent to the cable holding portion 8 on the +Z side and protrudes outward (+Y side). That is, in the Y direction, the height of the convex portion 18 is higher than the height of the cable holding portion 8. Therefore, if an obstacle collides with the imaging device 1 when it is mounted on a tripod or a rig, etc., the convex portion 18 is often hit before the cable holder 8, so the cable holder 8 is protected. As a result, the cable 9 becomes difficult to detach from the cable holding part 8.

By arranging the cable holding section 8 as described above, the cable 9 can be routed so as not to interfere with photographing, and the cable 9 can be prevented from coming off.

According to this embodiment, in the display module 52, the thermally conductive sheet metal member 59 includes a flat plate part 591, a flat plate part 592, and two relay parts 593 connecting these parts. The flat plate portion 592 of the heat conductive sheet metal member 59 is thermally coupled to the sliding portion 61 of the hinge unit 6 and is not in contact with the display unit 521. A flexible substrate 524 electrically connected to a control board 523 on which a display unit 521 is mounted is inserted between a flat plate portion 591 and a flat plate portion 592 (particularly the annular portion 59x).

Therefore, the heat from the control board 523 is transmitted to the sliding part 61 of the hinge unit 6 via the flat plate part 591, the relay part 593, and the flat plate part 592, and is radiated, resulting in high cooling efficiency. On the other hand, the flexible board 524 does not need to be led out to avoid the heat radiation route from the control board 523, thereby avoiding an increase in the size of the device. Therefore, efficient heat dissipation of the display module 52 can be achieved while suppressing the expansion of the device.

Further, since there is a gap between the flat plate part 592 and the flat plate part 571, the heat transmitted to the flat plate part 592 does not return to the display unit 521, so that the heat dissipation efficiency through the sliding part 61 of the hinge unit 6 is improved. expensive.

Furthermore, since the flat plate portion 592 and the sliding portion 61 are always thermally coupled, high heat dissipation efficiency can be ensured whether the finder unit 50 is in the stored state, pulled out state, or tilted state.

Further, since the annular portion 59x is formed by connecting the flat plate portion 591 and the flat plate portion 592 with the two relay portions 593, heat transfer efficiency is high. However, it is not essential that the annular portion 59x be formed. It is sufficient that the flat plate portion 591 and the flat plate portion 592 are thermally coupled, and for example, the annular portion 59x may be partially cut off.

Furthermore, since the direction in which the cable 9 is pulled out from the headphone terminal 73 and the extension direction A of the portion of the cable 9 held by the cable holding section 8 intersect, the cable 9 may be unintentionally pulled. Also, the cable 9 is difficult to pull out from the headphone terminal 73.

Although the headphone terminal 73 is illustrated as the connection destination of the cable 9 held by the cable holding section 8, the present invention is not limited thereto, and any terminal section for communicably connecting an external device may be used.

Note that, in this embodiment, the term "substantially" does not mean to exclude completely. For example, "substantially parallel" and "substantially orthogonal" include completely parallel and orthogonal, respectively.

Although the present invention has been described above in detail based on its preferred embodiments, the present invention is not limited to these specific embodiments, and the present invention may take various forms without departing from the gist of the present invention. included.

The disclosure of this embodiment includes the following configurations.
(Configuration 1)
a display module including a control board, a display unit mounted on the control board, and a flexible board electrically connected to the control board;
A first heat conductive member including a first heat radiating part, a second heat radiating part, and a connecting part connecting the first heat radiating part and the second heat radiating part;
a second thermally conductive member;
the first heat radiator is thermally coupled to the control board;
The second heat radiating part is thermally coupled to the second heat conductive member and is not in contact with the display unit,
The electronic viewfinder device is characterized in that the flexible substrate is inserted between the first heat radiating section and the second heat radiating section.
(Configuration 2)
In the first heat-conducting member, an annular portion is formed by the first heat radiating portion, the second heat radiating portion, and the two connecting portions, and the flexible substrate is inserted through the annular portion. The electronic viewfinder device according to configuration 1.
(Configuration 3)
a storage member that stores the display module;
a holding member;
The holding member biases the display module toward the storage member through an elastic member to ensure a gap between the second heat radiating section and the display unit, thereby ensuring a gap between the second heat radiating section and the display unit. 3. The electronic viewfinder device according to configuration 1 or 2, wherein the display unit and the display unit are not in contact with each other.
(Configuration 4)
comprising a storage member that stores the display module;
The first heat radiating section is characterized by being thermally coupled to the control board by urging the control board toward the storage member through a first thermally conductive elastic member. The electronic viewfinder device according to any one of Configurations 1 to 3.
(Configuration 5)
The electronic device according to any one of configurations 1 to 4, wherein the second heat radiating section is thermally coupled to the second heat conductive member via a second heat conductive elastic member. Viewfinder device.
(Configuration 6)
It has a fixing part that is fixed to the imaging device main body,
The second heat conductive member is slidable and rotatable with respect to the fixed part,
The second heat dissipation section can transition between a stored state and a drawn-out state by sliding integrally with the second heat-conducting member relative to the imaging device main body, and in the drawn-out state, 5. The electronic viewfinder device according to any one of configurations 1 to 4, wherein the electronic viewfinder device can be tilted by rotating together with the second heat conductive member.
(Configuration 7)
The electronic view according to configuration 6, characterized in that a recess is provided for avoiding interference with the imaging device main body when the second heat radiating section and the second heat conductive member are tilted in the drawn out state. Finder device.
(Configuration 8)
An imaging device comprising the electronic viewfinder device according to any one of Configurations 1 to 7 and an imaging device main body.
(Configuration 9)
The imaging device main body includes:
a terminal section for communicably connecting an external device;
a holding part that holds a cable connected to the terminal part,
9. The imaging device according to configuration 8, wherein a direction in which the cable is pulled out from the terminal portion and a direction in which a portion of the cable that is held by the holding portion intersects with each other.
(Configuration 10)
10. The imaging device according to configuration 9, wherein the holding section includes a C-shaped section, and the C-shaped section holds the cable.
(Configuration 11)
The imaging device main body has a recording start operator on a side opposite to the terminal section in the left-right direction,
11. The imaging device according to configuration 9 or 10, wherein the cable is pulled out through the holding portion toward the side where the recording start operator is located in the left-right direction.
(Configuration 12)
The imaging device main body has a display device on the same side as the terminal portion in the left-right direction,
12. The imaging device according to any one of configurations 9 to 11, wherein the cable is pulled out through the holding portion to a side opposite to the terminal portion in the left-right direction.
(Configuration 13)
13. The imaging device according to any one of configurations 9 to 12, wherein the imaging device main body has a convex portion adjacent to the holding portion and protruding outward from the holding portion.
(Configuration 14)
Any one of configurations 8 to 13, wherein the second heat dissipation section in the electronic viewfinder device is tiltable in the vertical direction to a side opposite to a side on which a battery is disposed in the main body of the imaging device. The imaging device described in section.

52 Display module 59 Heat conductive sheet metal member 61 Sliding part 521 Display unit 523 Control board 524 Flexible board 591, 592 Flat plate part 593 Relay part

Claims (14)

a display module including a control board, a display unit mounted on the control board, and a flexible board electrically connected to the control board;
A first heat conductive member including a first heat radiating part, a second heat radiating part, and a connecting part connecting the first heat radiating part and the second heat radiating part;
a second thermally conductive member;
the first heat radiator is thermally coupled to the control board;
The second heat radiating part is thermally coupled to the second heat conductive member and is not in contact with the display unit,
The electronic viewfinder device is characterized in that the flexible substrate is inserted between the first heat radiating section and the second heat radiating section. In the first heat-conducting member, an annular portion is formed by the first heat radiating portion, the second heat radiating portion, and the two connecting portions, and the flexible substrate is inserted through the annular portion. The electronic viewfinder device according to claim 1. a storage member that stores the display module;
a holding member;
The holding member biases the display module toward the storage member through an elastic member to ensure a gap between the second heat radiating section and the display unit, thereby ensuring a gap between the second heat radiating section and the display unit. 2. The electronic viewfinder device according to claim 1, wherein the portion and the display unit are not in contact with each other. comprising a storage member that stores the display module;
The first heat radiating section is characterized by being thermally coupled to the control board by urging the control board toward the storage member through a first thermally conductive elastic member. The electronic viewfinder device according to claim 1. The electronic viewfinder device according to claim 1, wherein the second heat radiating section is thermally coupled to the second heat conductive member via a second heat conductive elastic member. It has a fixing part that is fixed to the imaging device main body,
The second heat conductive member is slidable and rotatable with respect to the fixed part,
The second heat dissipation section can transition between a stored state and a drawn-out state by sliding integrally with the second heat-conducting member relative to the imaging device main body, and in the drawn-out state, The electronic viewfinder device according to claim 1, wherein the electronic viewfinder device can be tilted by rotating together with the second heat conductive member. 7. The electronic device according to claim 6, further comprising a recessed portion for avoiding interference with the imaging device main body when the second heat radiating portion and the second heat conductive member are tilted in the drawn-out state. Viewfinder device. An imaging device comprising the electronic viewfinder device according to claim 1 and an imaging device main body. The imaging device main body includes:
a terminal section for communicably connecting an external device;
a holding part that holds a cable connected to the terminal part,
9. The imaging device according to claim 8, wherein a direction in which the cable is pulled out from the terminal portion and a direction in which a portion of the cable that is held by the holding portion intersects with each other. The imaging device according to claim 9, wherein the holding section includes a C-shaped section, and the C-shaped section holds the cable. The imaging device main body has a recording start operator on a side opposite to the terminal section in the left-right direction,
10. The imaging device according to claim 9, wherein the cable is pulled out through the holding portion toward the side where the recording start operator is located in the left-right direction. The imaging device main body has a display device on the same side as the terminal portion in the left-right direction,
The imaging device according to claim 9, wherein the cable is pulled out through the holding portion to a side opposite to the terminal portion in the left-right direction. The imaging device according to claim 9, wherein the imaging device main body has a convex portion adjacent to the holding portion and protruding outward from the holding portion. The imaging device according to claim 8, wherein the second heat dissipation section in the electronic viewfinder device is tiltable in the vertical direction to a side opposite to a side of the imaging device main body on which a battery is disposed. .

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