CN118119889A - Bracket, holding device, display device, assembly and electronic equipment - Google Patents

Abstract

To facilitate photographing such as self-photographing by using a high-performance lens element of an electronic device provided on a main surface without a display. [ solution ] A bracket is provided with: an electronic device holding unit that holds an electronic device having a1 st main surface and a 2 nd main surface that is a back surface of the 1 st main surface, the 1 st main surface having a1 st lens element; and a display device holding unit that holds a display device having a 3rd main surface and the 4 th main surface that is a back surface of the 3rd main surface, the 3rd main surface having a1 st display, such that the 1 st main surface is opposed to the 4 th main surface and the 1 st lens element is exposed, the display device being configured to communicate with the electronic device, and such that a captured image obtained by capturing the electronic device using the 1 st lens element is displayed on the 1 st display.

Description

Bracket, holding device, display device, component and electronic device

Technical Field

The present disclosure relates to an electronic device having a lens element, a display device having a display that displays an image captured by the electronic device using the lens element, a bracket for holding the electronic device and the display device, a holding device having the bracket, and an assembly having the display device and the holding device.

Background technique

Selfies are generally taken using an electronic device having a lens element, typically a smartphone.

Prior art literature

Patent Literature

Patent Document 1: Japanese Patent Application Publication No. 2015-165314

Summary of the invention

A smartphone has a display and a lens element on one main surface, and has a lens element but no display on the other main surface which is the back surface. The performance of a lens element provided on the same main surface as the display is lower than the performance of a lens element provided on the main surface without a display. Since selfies are taken while viewing the display, low-performance lens elements provided on the same main surface as the display are generally used. On the other hand, it is foreseeable that there are users who want to use high-performance lens elements when taking selfies.

In view of the above circumstances, an object of the present disclosure is to facilitate self-portrait or other photography using a high-performance lens element provided on a main surface of an electronic device without a display.

A stent according to one embodiment of the present disclosure includes:

an electronic device holding portion that holds an electronic device having a first principal surface and a second principal surface that is a back surface of the first principal surface, wherein the first principal surface has a first lens element; and

A display device holding portion holds a display device in a manner that the first principal surface and the fourth principal surface are opposite to each other and the first lens element is exposed, the display device having a third principal surface and the fourth principal surface which is the back side of the third principal surface, the third principal surface having a first display, and the display device communicates with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display.

Thus, the first display of the display device and the first lens element of the electronic device are exposed in the same direction. Thus, the user can take a selfie using the first lens element of the electronic device while viewing the first display of the display device.

The display device holding portion can also move the display device in a first direction, which is two directions parallel to the first main surface of the electronic device and close to or away from the first lens element, and fix the display device in a step-free position in the first direction.

Thus, the display device can be fixed at a position desired by the user according to the size of the electronic device, the position of the first lens element, and the needs of the user.

The display device may also have:

a first guide portion provided on the fourth main surface; and

a first fixing portion, the first fixing portion being provided on the first guide portion,

The display device holding unit comprises:

a second guide portion engaged with the first guide portion of the display device to guide movement of the display device in the first direction; and

A second fixing portion cooperates with the first fixing portion of the display device to fix the engagement between the first guide portion and the second guide portion.

Thus, the display device holding section moves the display device in two directions approaching or moving away from the first lens element.

The first guide portion of the display device may be a convex portion protruding from the fourth main surface of the display device, the convex portion having a rectangular first guide surface, the rectangular first guide surface having a pair of long sides extending in the first direction and a pair of short sides extending in a second direction, the second direction being a direction orthogonal to the first direction and parallel to the fourth main surface,

The second guide portion of the display device holding portion is a recessed portion that accommodates the convex portion of the display device, and the recessed portion has: a second guide surface, with which the first guide surface of the convex portion contacts when accommodating the convex portion; and a pair of limiting portions, which are opposite to the pair of long sides of the convex portion and clamp the convex portion, and the pair of limiting portions limit the movement of the convex portion in the second direction and guide the movement of the display device in the first direction.

Since the first guide portion as a convex portion can be accommodated in a nested and closely fitted state in the second guide portion as a concave portion, the protrusion amount of the display device can be minimized, and the display device is excellent in design and physically stable.

The display device may include a stopper, which is provided on one of the pair of short sides of the first guide surface in the vicinity of the first direction and protrudes further from the fourth main surface than the convex portion.

The depth of the recessed portion of the display device holding portion is shorter than the protruding height of the stopper portion of the display device, and the stopper portion is restricted from intruding into the recessed portion, thereby restricting the movement of the display device in the first direction.

Thus, the second guide portion restricts (blocks) the intrusion of the stopper portion into the second guide portion as the recessed portion, thereby restricting the movement of the display device in the first direction and preventing the display device from falling off.

The first fixing portion of the display device may be a first adsorption portion provided on the first guide surface.

The second fixing portion of the display device holding portion is a second adsorption portion provided on the second guide surface and adsorbed to the first adsorption portion.

Adsorption eliminates the need for a mechanical fixing mechanism, and therefore is excellent in design. No mechanical vibration occurs during fixation, and there is no influence on the control unit inside the display device or electronic device.

The first attraction portion and the second attraction portion may be attracted magnetically.

Through magnetic adsorption, the display device can be fixed in a step-free position.

The electronic device holding portion may hold a pair of side surfaces of the electronic device in the second direction, the pair of side surfaces of the electronic device connecting the first main surface and the second main surface and facing the second direction.

By holding the electronic device in the second direction (a direction including a component of a vertical line when taking a selfie), the stability of the electronic device is improved.

The electronic device holding unit may also include:

a fixed clamping portion having a fixed clamping surface that supports one of the pair of side surfaces; and

The movable clamping portion includes a movable clamping surface that supports the other side surface of the pair of side surfaces and is variable in distance from the fixed clamping surface in the second direction.

Since the distance is variable, the electronic device can be securely held regardless of the size of the electronic device.

The fixed clamping surface and the movable clamping surface may be inclined in a direction perpendicular to the first main surface such that the distance in the second direction increases as the first main surface approaches the opposing installation surface.

As a result, the electronic device is stably fixed regardless of the difference in thickness of the electronic device itself or the difference in thickness of the electronic device caused by the presence or absence of a cover or a housing.

The electronic device holding portion may include a force applying portion that applies force to the movable clamping portion relative to the fixed clamping portion.

The urging portion urges the movable clamp portion in the second direction, so that the positions of the movable clamp portion and the fixed clamp portion are fixed, and the fixed clamp surface and the movable clamp surface clamp the pair of side surfaces of the electronic device.

Thus, when the fixed clamping surface and the movable clamping surface clamp the electronic device in the second direction, the force applying portion applies force to the movable clamping portion in a manner of shortening the distance in the second direction relative to the fixed clamping portion, so that the pair of long side surfaces of the electronic device moves in a manner of sliding on the inclined surfaces of the fixed clamping surface and the movable clamping surface, and the first main surface of the electronic device is pressed against the setting surface. Thus, regardless of the thickness difference of the electronic device itself or the thickness difference of the electronic device caused by the presence or absence of a cover or a housing, the first main surface of the electronic device is pressed against the setting surface and stably fixed.

The fixing clamping part may also include a fixing clamping body, which is hollow and has an open end.

The movable clamping part has a movable clamping body, which is accommodated in the fixed clamping body when the electronic device is not held, and is exposed from the fixed clamping body when the electronic device is held.

The movable clamp body has a cover portion that covers the inside of the movable clamp body to prevent exposure when the movable clamp body is exposed from the fixed clamp body.

This prevents fingers from being pinched and prevents internal structures from being exposed, thereby providing an excellent design.

The holder may include a microphone attachment portion capable of attaching a microphone device capable of communicating with the electronic device at a position that does not interfere with the first lens element when the electronic device holding portion holds the electronic device.

This prevents the microphone device from becoming an obstacle and causing vignetting in the captured image.

The bracket can also have:

A first mounting portion is a mounting portion for a support body to which the bracket is mounted.

Thus, the user can operate the input device while holding the support body, and can take a selfie using the first lens element of the electronic device while viewing the first display of the display device.

The second main surface of the electronic device may also have:

a second lens element having a lower performance than the first lens element; and

A second display that displays a captured image captured by the electronic device using the first lens element or the second lens element.

Generally, regarding a smartphone as an electronic device, the performance of a second lens element provided on the same second principal surface as the second display is lower than the performance of a first lens element provided on the first principal surface without a display. Since selfies are taken while viewing the display, a low-performance second lens element provided on the same second principal surface as the second display is generally used. On the other hand, according to this embodiment, the user's expectation of using a high-performance first lens element even when taking selfies can be met.

The electronic device may also have:

Antenna; and

The first control unit displays a warning on the first display of the display device when it is detected that the magnetism of the first fixing portion of the display device interferes with the antenna and/or an obstacle interferes with the viewing angle of the first lens element.

Since the warning is displayed on the first display of the display device instead of the second display of the electronic device, the warning can be notified to the user who is taking a selfie while viewing the first display.

A holding device according to one embodiment of the present disclosure includes a bracket and a support body, wherein the bracket has:

An electronic device holding portion that holds an electronic device having a first principal surface and a second principal surface that is a back surface of the first principal surface, wherein the first principal surface has a first lens element;

a display device holding portion, the display device holding portion holding a display device in a manner that the first principal surface and the fourth principal surface are opposed to each other and the first lens element is exposed, the display device having a third principal surface and the fourth principal surface as a back side of the third principal surface, the third principal surface having a first display, the display device communicating with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display; and

The first installation part,

The support body has a second mounting portion, and the first mounting portion of the bracket is mounted on the second mounting portion.

The support may also have:

input device; and

A second control unit controls the electronic device according to an input to the input device by a user.

A display device according to one embodiment of the present disclosure,

The display device has a third main surface and a fourth main surface as the back side of the third main surface, the third main surface has a first display, the display device communicates with an electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display, the electronic device has a first main surface and a second main surface as the back side of the first main surface, the first main surface has the first lens element,

The display device is held by a display device holding portion of a holder with the first principal surface facing the fourth principal surface and the first lens element exposed. The holder has an electronic device holding portion that holds the electronic device and the display device holding portion.

A component according to one embodiment of the present disclosure includes a display device and a holding device.

The display device has a third main surface and a fourth main surface as the back side of the third main surface, the third main surface has a first display, the display device communicates with an electronic device so that an image captured by the electronic device using a first lens element is displayed on the first display, the electronic device has a first main surface and a second main surface as the back side of the first main surface, the first main surface has the first lens element;

The holding device comprises a bracket and a support body, wherein the bracket comprises: an electronic device holding portion, the electronic device holding portion holding the electronic device; a display device holding portion, the display device holding portion holding the display device in a manner that the first main surface and the fourth main surface are opposite to each other and the first lens element is exposed; and a first mounting portion,

The support body has a second mounting portion, and the first mounting portion of the bracket is mounted on the second mounting portion.

An electronic device according to one embodiment of the present disclosure,

The electronic device has a first main surface and a second main surface which is the back side of the first main surface, wherein the first main surface has a first lens element.

The electronic device is held by an electronic device holding portion of a bracket, the bracket comprising: the electronic device holding portion, the electronic device holding portion holding the electronic device; and a display device holding portion, the display device holding portion holding a display device in a manner that the first principal surface and the fourth principal surface are opposite to each other and the first lens element is exposed, the display device comprising a third principal surface and the fourth principal surface as the back side of the third principal surface, the third principal surface having a first display, the display device communicating with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display,

The electronic device has:

Antenna; and

The first control unit displays a warning on the first display of the display device when it is detected that the magnetism of the display device interferes with the antenna and/or an obstacle interferes with the viewing angle of the first lens element.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view showing a state in which a holding device according to an embodiment of the present disclosure holds an electronic device and a display device.

FIG. 2 is a perspective view showing an electronic device.

FIG. 3 is a perspective view showing a display device.

FIG. 4 is a six-sided diagram showing a display device.

FIG. 5 is a perspective view showing a bracket.

FIG. 6 is a six-sided view showing the bracket.

FIG. 7 is a six-view diagram showing a state where the holding device holds the electronic device and the display device.

FIG. 8 is a diagram showing a state where an electronic device is mounted on the electronic device holding portion of the stand.

FIG. 9 is a diagram showing a state where an electronic device is mounted on the electronic device holding portion of the stand.

FIG. 10 is a diagram showing a state where an electronic device is mounted on the electronic device holding portion of the stand.

FIG. 11 is a diagram showing a state in which a display device is mounted on a display device holding portion of a stand.

FIG. 12 is a diagram showing a state in which a display device is mounted on a display device holding portion of a stand.

FIG. 13 is a perspective view showing a state where the bracket is mounted on a support body.

FIG. 14 is a perspective view showing a state where the bracket is mounted on a support body.

FIG. 15 is a perspective view showing a state where a microphone is mounted on a bracket.

FIG. 16 is a perspective view showing a state where a microphone is mounted on a bracket.

(Symbol Description)

100: holding device; 200: electronic device; 210: first main surface; 211: first lens element; 211A: telephoto lens element; 211B: conventional lens element; 211C: ultra-wide-angle lens element; 220: second main surface; 230: long side; 231: button; 240: long side; 250: short side; 260: short side; 261: port; 300: display device; 310: third main surface; 311: 1st display; 320: 4th main surface; 321: 1st guide portion; 322: 1st guide surface; 327: stopper; 328: 1st fixing portion; 329: tripod socket; 330: long side; 350: short side; 351: screen on/off switch; 352: flip button; 353: brightness control button; 360: short side; 361: microphone socket; 362: charging port; 363: input port; 400 : Cable; 500: Bracket; 510: Electronic device holding portion; 511: Fixed clamping portion; 512: Fixed clamping clamping body; 513: Fixed clamping surface; 514: Back surface; 517: Setting surface; 518: Fixed clamping body; 519: Open end; 520: Display device holding portion; 521: Second guide portion; 522: Second fixing portion; 523: Second guide surface; 524: Limiting portion; 530: Microphone attachment portion; 53 1: accessory socket; 532: microphone jack; 540: first mounting portion; 551: movable clamping portion; 552: movable clamping clamping body; 553: movable clamping surface; 556: cover portion; 558: movable clamping body; 600: support body; 610: input device; 620: leg; 630: second mounting portion; 631: mounting wheel; 632: mounting screw; 700: microphone device; 710: foot; 720: locking button.

Detailed ways

Hereinafter, embodiments of the present disclosure will be described with reference to the drawings.

1. Overview of the holding device

FIG. 1 is a perspective view showing a state in which a holding device according to an embodiment of the present disclosure holds an electronic device and a display device.

The holding device 100 includes a bracket 500 and a support body 600 on which the bracket 500 is mounted.

The bracket 500 holds the electronic device 200 and the display device 300 .

As shown in the figure, the support body 600 can close the legs 620 and be used as a handle for the user to hold, or can open the legs 620 and be used as a tripod (not shown). The support body 600 has an input device 610 and a second control unit (not shown). The input device 610 is provided on the support body 600, and includes a still image shooting button, a dynamic image shooting button, a lock button, etc. The second control unit is a control circuit built into the frame of the support body 600, and communicates with the electronic device 200 (for example, wireless communication), and controls the electronic device 200 according to the user's input to the input device 610.

The electronic device 200 and the display device 300 are connected via a cable 400. The cable 400 transmits image data, audio data, control signals, and the like from the electronic device 200 to the display device 300 in accordance with standards such as HDMI (registered trademark).

The electronic device 200 is typically a smart phone. The electronic device 200 has a built-in first control unit (not shown), which controls various parts of the electronic device 200. The electronic device 200 can be naked or can be equipped with a cover or a housing (not shown). One or more first lens elements 211 are provided on the first main surface 210 of the electronic device 200, but no display is provided. The captured image (which can be a static image or a dynamic image, the same below) obtained by shooting the electronic device 200 using the first lens element 211 is sent to the display device 300 via the cable 400.

A first display 311 is provided on the third main surface 310 of the display device 300 . The display device 300 communicates with the electronic device 200 via the cable 400 , receives an image captured by the electronic device 200 using the first lens element 211 , and displays the image on the first display 311 .

The holding device 100 holds the electronic device 200 and the display device 300 in a manner such that the first principal surface 210 of the electronic device 200 faces the fourth principal surface 320 of the display device 300, which is the back side of the third principal surface 310, and the first lens element 211 is exposed. Thus, the first display element 311 of the display device 300 and the first lens element 211 of the electronic device 200 are exposed in the same direction.

Thus, the user can operate the input device 610 while holding the support body 600 , and can take a selfie using the first lens element 211 of the electronic device 200 while viewing the first display 311 of the display device 300 .

Generally, in a smartphone as an electronic device 200, the performance of the second lens element 222 (FIG. 7) provided on the same second principal surface 220 as the second display 221 is lower than the performance of the first lens element 211 provided on the first principal surface 210 without a display. Since selfies are taken while viewing the display, the low-performance second lens element 222 provided on the same second principal surface 220 as the second display 221 is generally used. On the other hand, according to the present embodiment, the user's expectation of using the high-performance first lens element 211 can be met even when taking selfies.

2. Electronic devices

FIG. 2 is a perspective view showing an electronic device.

The electronic device 200 has a rectangular first main surface 210 and a second main surface 220. The second main surface 220 is the back of the first main surface 210 and has the same shape as the first main surface 210. The electronic device 200 also has a pair of long side surfaces 230 and 240 connecting the first main surface 210 and the second main surface 220 and a pair of short side surfaces 250 and 260 connecting the first main surface 210 and the second main surface 220. The pair of long side surfaces 230 and 240 connect the long sides of the rectangular first main surface 210 and the second main surface 220. The pair of short side surfaces 250 and 260 connect the short sides of the rectangular first main surface 210 and the second main surface 220. The frame of the electronic device 200 is composed of the first main surface 210 and the second main surface 220, the pair of long side surfaces 230 and 240, and the pair of short side surfaces 250 and 260.

Hereinafter, the long side direction of the first principal surface 210 and the second principal surface 220 of the rectangle is referred to as the X direction (first direction), and the short side direction is referred to as the Y direction (second direction). The direction orthogonal to the X direction and the Y direction, that is, the opposite direction of the first principal surface 210 and the second principal surface 220 is referred to as the Z direction (third direction). In this specification, "rectangle" includes not only a quadrilateral with four right angles, but also a quadrilateral with four right angles with arcs (R). When describing other shapes, in addition to the shapes in the literal sense, substantially the same shapes such as shapes with arcs (R) at the corners are also included.

The first principal surface 210 has one or more first lens elements 211. In this example, the first principal surface 210 includes three first lens elements 211. The three first lens elements 211 are a telephoto lens element 211A, a regular lens element 211B, and an ultra-wide-angle lens element 211C. The telephoto lens element 211A, the regular lens element 211B, and the ultra-wide-angle lens element 211C are arranged in a row in the X direction from the inner side of the first principal surface 210 toward one short side surface 260 in this order. Hereinafter, when the telephoto lens element 211A, the regular lens element 211B, and the ultra-wide-angle lens element 211C are not distinguished, they are simply referred to as the first lens element 211 (singular form). The first principal surface 210 does not have a display.

The second main surface 220 has a second lens element 222 and a second display 221 (FIG. 7) such as an LCD display on the entire surface. The second lens element 222 has lower performance than the first lens element 211. The second display 221 is a touch panel that displays a captured image obtained by the electronic device 200 using the first lens element 211 or the second lens element 222.

A plurality of buttons 231, such as a power button, a camera button, a volume button, and a voice assistant start button, are provided on one long side surface 230. Some buttons 231 (such as the power button and the camera button) protrude from the long side surface 230 in the Y direction. Another part of the buttons 231 is flat relative to the long side surface 230 or is recessed in the Y direction.

One short side surface 260 has a port 261 into which the cable 400 is inserted. An antenna (not shown) is built in the vicinity of one short side surface 260 and inside the electronic device 200.

3. Display device

Fig. 3 is a perspective view showing a display device. Fig. 4 is a six-sided view showing a display device.

The display device 300 has a rectangular third main surface 310 and a fourth main surface 320. The fourth main surface 320 is the back of the third main surface 310 and has the same shape as the third main surface 310. The display device 300 also has a pair of long side surfaces 330 and 340 connecting the third main surface 310 and the fourth main surface 320 and a pair of short side surfaces 350 and 360 connecting the third main surface 310 and the fourth main surface 320. The pair of long side surfaces 330 and 340 connect the long sides of the rectangular third main surface 310 and the fourth main surface 320. The pair of short side surfaces 350 and 360 connect the short sides of the rectangular third main surface 310 and the fourth main surface 320. The frame of the display device 300 is composed of the third main surface 310 and the fourth main surface 320, the pair of long side surfaces 330 and 340, and the pair of short side surfaces 350 and 360.

The third main surface 310 has a first display 311 on the entire surface. The first display 311 is, for example, an LCD display.

The fourth main surface 320 has a first guide portion 321. The fourth main surface 320 is provided with the first guide portion 321, a stopper portion 327, and a tripod socket 329.

The first guide portion 321 is a convex portion protruding in the Z direction from the fourth main surface 320. The first guide portion 321 as a convex portion has a rectangular first guide surface 322. The rectangular first guide surface 322 has a pair of long sides 323 and 324 extending in the X direction and a pair of short sides 325 and 326 extending in the Y direction.

The stopper 327 is provided near one short side 325 of the first guide surface 322 in the X direction, and protrudes further from the fourth main surface 320 in the Z direction than the first guide portion 321 as a convex portion. In addition, another stopper 327 may be provided near the other short side 326 of the first guide surface 322 in the X direction.

The first fixing portion 328 is provided on the first guide surface 322 of the first guide portion 321. The first fixing portion 328 may be exposed on the surface of the first guide surface 322, or may be built in behind the first guide surface 322. The first fixing portion 328 is provided on substantially the entire area of the first guide surface 322 in the X direction, and is provided at least in the area opposite to the second fixing portion 522 (described later) of the display device holding portion 520 of the bracket 500 in the Y direction. The first fixing portion 328 may also be provided on substantially the entire area of the first guide surface 322 in the Y direction. The first fixing portion 328 is, for example, a first adsorption portion, which is magnetically adsorbed to the second fixing portion 522 (described later) of the display device holding portion 520 of the bracket 500. The first fixing portion 328 is, for example, an iron plate. In contrast, the first fixing portion 328 may be a mechanism that is mechanically fixed to the second fixing portion 522 (described later).

A screen on/off switch 351, a flip button 352, and a brightness control button 353 are provided on one short side 350. A microphone jack 361, a charging port 362, and an input port 363 are provided on the other short side 360. A pair of long sides 330, 340 do not have the above switches, buttons, jacks, and ports, and are flat surfaces. Thus, when the display device 300 is set in a manner that the Y direction is perpendicular to the horizontal plane, it is difficult for rain and dust to penetrate into the switches, buttons, jacks, and ports 351, 352, 353, 361, 362, 363.

4. Bracket

Fig. 5 is a perspective view showing a bracket. Fig. 6 is a six-sided view showing a bracket. Fig. 7 is a six-sided view showing a state where a holding device holds an electronic device and a display device (corresponding to the perspective view of Fig. 1 ).

The stand 500 includes an electronic device holding portion 510 for holding the electronic device 200 , a display device holding portion 520 provided on the back side of the electronic device holding portion 510 and holding the display device 300 , a microphone attachment portion 530 , and a first mounting portion 540 .

(1) Electronic equipment holding unit

The electronic device holding portion 510 includes a fixed clamp portion 511 and a movable clamp portion 551 .

The fixed clamping part 511 has a fixed clamping body 518 and a fixed clamping clamping body 512. The fixed clamping body 518 has a long side in the Y direction and a short side in the X direction. The fixed clamping body 518 is a hollow frame, and one end in the Y direction is an open end 519. The fixed clamping clamping body 512 is provided at the other end of the fixed clamping body 518 in the Y direction. The fixed clamping clamping body 512 extends in an L shape in the Z direction from one end of the fixed clamping body 518 in the Y direction. The fixed clamping body 518 has a setting surface 517. The setting surface 517 is a surface opposite to the first main surface 210 (the main surface on which the display is provided) of the electronic device 200 in the Z direction. The fixed clamping clamping body 512 has a fixed clamping surface 513. The fixed clamping surface 513 is a surface opposite to the movable clamping surface 553 (described later) of the movable clamping part 551 in the Y direction. The fixed clamping surface 513 supports one of the long side surfaces 230 and 240 of the electronic device 200 (the side surface without the plurality of buttons 231 ).

The movable clamping portion 551 has a movable clamping body 558 (Figure 7) and a movable clamping clamping body 552. The movable clamping body 558 has a long side in the Y direction and a short side in the X direction. The movable clamping clamping body 552 is provided at the other end of the movable clamping body 558 in the Y direction. The movable clamping clamping body 552 extends in an L shape in the Z direction from one end of the movable clamping body 558 in the Y direction. The movable clamping clamping body 552 has a movable clamping surface 553. The movable clamping surface 553 is a surface opposite to the fixed clamping surface 513 of the fixed clamping portion 511 in the Y direction. The movable clamping surface 553 supports the other long side surface 230 (the side surface having multiple buttons 231) of the pair of long side surfaces 230, 240 of the electronic device 200. The position of the movable clamping portion 551 is preferably adjusted to a position where the movable clamping surface 553 does not interfere with the button 231 protruding from the long side surface 230 .

The movable clamping body 558 is accommodated in the interior of the fixed clamping body 518 which is a hollow frame from the open end 519 of the fixed clamping body 518. Since the movable clamping body 558 is accommodated in the fixed clamping body 518 when the electronic device 200 is not held, it is excellent in design (Figures 5 and 6), and is exposed from the open end 519 of the fixed clamping body 518 when the electronic device 200 is held (Figure 7). The movable clamping body 558 has a cover portion 556 (Figure 7). The cover portion 556 constitutes the surface of the movable clamping body 558 on the opposite side of the extended side of the movable clamping clamping body 552 in the Z direction. When the movable clamping body 558 is exposed from the open end 519 of the fixed clamping body 518, the cover portion 556 covers the inside of the movable clamping portion 551 to prevent exposure. As a result, fingers are prevented from being pinched and internal structures are not exposed, so it is excellent in design.

The electronic device holding portion 510 has a force-applying portion (not shown) that applies force to the movable clamping portion 551 in a manner that shortens the distance in the Y direction relative to the fixed clamping portion 511. The force-applying portion is accommodated inside the fixed clamping body 518, which is a hollow frame. The force-applying portion is, for example, an elastic body such as a spring. The distance of the movable clamping surface 553 relative to the fixed clamping surface 513 in the Y direction is variable. The force-applying portion applies force to the movable clamping portion 551 in the Y direction, so that the positions of the movable clamping portion 551 and the fixed clamping portion 511 are fixed, and the fixed clamping surface 513 and the movable clamping surface 553 clamp a pair of long side surfaces 230 and 240 of the electronic device 200 in the Y direction. By clamping the electronic device 200 in the Y direction (the direction including the component of the vertical line when taking a selfie) instead of clamping in the X direction, the stability of the electronic device 200 is good. Since the distance between the movable clamping surface 553 and the fixed clamping surface 513 is variable, the electronic device 200 can be securely held regardless of the size of the electronic device 200 .

The fixed clamping surface 513 and the movable clamping surface 553 are inclined in a direction perpendicular to the first main surface 210 in such a manner that the distance in the Y direction becomes longer as they approach the setting surface 517. In other words, the distance in the Y direction of the fixed clamping surface 513 and the movable clamping surface 553 extending in the Z direction is widest on the side close to the setting surface 517 and narrowest on the side away from the setting surface 517. Thus, when the fixed clamping surface 513 and the movable clamping surface 553 clamp the electronic device 200 in the Y direction, the force applying portion applies force to the movable clamping portion 551 in such a manner that the distance in the Y direction is shortened relative to the fixed clamping portion 511, so that the pair of long side surfaces 230 and 240 of the electronic device 200 moves in such a manner that they slide on the inclined surfaces of the fixed clamping surface 513 and the movable clamping surface 553 in the Z direction, and the first main surface 210 of the electronic device 200 is pressed against the setting surface 517 in the Z direction. Therefore, regardless of the thickness difference of the electronic device 200 itself in the Z direction or the thickness difference of the electronic device 200 in the Z direction caused by the presence or absence of a cover or a shell, the first main surface 210 of the electronic device 200 is pressed against the setting surface 517 in the Z direction and stably fixed.

8 , 9 , and 10 are diagrams showing a state where an electronic device is mounted on the electronic device holding portion of the stand.

The position of the movable clamping part 551 is positioned relative to a long side surface 230 (a side surface having a plurality of buttons 231) of the electronic device 200. At this time, the movable clamping surface 553 is positioned in such a way that it does not interfere with the buttons 231, 231 (e.g., a camera button, a power button) (FIG. 8) protruding from the long side surface 230. On the long side surface 230 of the electronic device 200, the movable clamping surface 553 of the movable clamping part 551 to which the force is applied is pushed up in the Y direction (FIG. 9). The other long side surface 240 of the electronic device 200 is made to fit the fixed clamping surface 513 of the fixed clamping part 511 (FIG. 10). Thus, the force applying part applies force to the movable clamping part 551 in the Y direction, so that the positions of the movable clamping part 551 and the fixed clamping part 511 are fixed, and the fixed clamping surface 513 and the movable clamping surface 553 clamp a pair of long side surfaces 230, 240 of the electronic device 200 in the Y direction.

(2) Display device holding unit

The display device holding portion 520 is provided on the back side of the electronic device holding portion 510, specifically, on the back side 514 of the fixing clamp body 518. The display device holding portion 520 holds the display device 300 in a manner such that the first principal surface 210 of the electronic device 200 faces the fourth principal surface 320 of the display device 300 and the first lens element 211 is exposed. The display device holding portion 520 includes a second guide portion 521 and a second fixing portion 522.

The second guide portion 521 is a recessed portion depressed in the Z direction from the back surface 514 of the fixed clamping body 518. The second guide portion 521 as a recessed portion accommodates the first guide portion 321 as a convex portion of the display device 300. The second guide portion 521 has a rectangular second guide surface 523. The rectangular second guide surface 523 has a pair of sides extending in the X direction and a pair of sides extending in the Y direction. The second guide portion 521 has a pair of limiting portions 524, 525. The pair of limiting portions 524, 525 is equivalent to a pair of sides extending in the X direction of the rectangular second guide surface 523. The depth of the second guide portion 521 as a recessed portion in the Z direction is approximately equal to the protruding height of the first guide portion 321 as a convex portion in the Z direction. Therefore, when the first guide portion 321 as a convex portion is accommodated in the second guide portion 521 as a concave portion, the first guide surface 322 of the first guide portion 321 as a convex portion contacts the second guide surface 523 of the second guide portion 521 as a concave portion. Since the first guide portion 321 as a convex portion can be accommodated in the second guide portion 521 as a concave portion in a nested and fitted state, the protrusion amount of the display device 300 in the Z direction can be minimized, which is excellent in design and physically stable. A pair of limiting portions 524, 525 are opposite to a pair of long sides 323, 324 of the first guide portion 321 as a convex portion, and clamp the first guide portion 321 as a convex portion. The pair of limiting portions 524, 525 limit the movement of the first guide portion 321 as a convex portion in the Y direction and guide the movement of the display device 300 in the X direction. Thus, the second guide portion 521 engages with the first guide portion 321 provided on the fourth main surface 320 of the display device 300, and guides the movement of the display device 300 in the X direction. In this way, the display device holding portion 520 enables the display device 300 to move in two directions of the X direction approaching or moving away from the first lens element 211. On the other hand, the depth of the second guide portion 521 as a recess in the Z direction is shorter than the protruding height of the stopper 327 of the display device 300 in the Z direction. Thus, the second guide portion 521 restricts (blocks) the intrusion of the stopper 327 into the second guide portion 521 as a recess, thereby restricting the movement of the display device 300 in the X direction and preventing the display device 300 from falling off. As a modification, by using the second guide portion 521 as a convex portion and the first guide portion 321 as a concave portion instead of the second guide portion 521 as a concave portion and the first guide portion 321 as a convex portion, the protrusion amount of the display device 300 in the Z direction can be minimized, thereby being excellent in design and physically stable.

The second fixing portion 522 is provided on the second guide surface 523 of the second guide portion 521. The second fixing portion 522 may be exposed on the surface of the second guide surface 523, or may be built-in behind the second guide surface 523 as in this example. The second fixing portion 522 is provided on substantially the entire area of the second guide surface 523 in the X direction, and is provided in an area opposite to at least a portion of the first fixing portion 328 of the display device 300 in the Y direction. The second fixing portion 522 may also be provided on substantially the entire area of the second guide surface 523 in the Y direction. The second fixing portion 522 is, for example, a second adsorption portion, which is magnetically adsorbed to the first fixing portion 328 of the display device 300. The second fixing portion 522 is, for example, a magnet. In contrast, the second fixing portion 522 may be a mechanism that is mechanically fixed to the first fixing portion 328. The second fixing portion 522 cooperates with the first fixing portion 328 of the first guide portion 321 provided on the display device 300 to fix the engagement between the first guide portion 321 and the second guide portion 521. The second fixing portion 522 is magnetically adsorbed to the first fixing portion 328 of the display device 300, so that the display device 300 can be fixed in a step-free position in the X direction. In addition, if the magnetism is too strong, it cannot slide in the X direction, and if the magnetism is too weak, it cannot play a fixing role. Therefore, the strength of the magnetism is determined in consideration of the balance. Thus, the display device 300 can be fixed in the X direction position desired by the user according to the size of the electronic device 200, the position of the first lens element 221, and the needs of the user. In addition, no mechanical fixing mechanism is required, so it is excellent in design, no mechanical vibration occurs during fixing, and no influence is exerted on the control unit inside the display device 300 or the electronic device 200.

11 and 12 are diagrams showing a state where a display device is mounted on a display device holding portion of a stand.

The first guide portion 321 of the display device 300, which is a convex portion, is accommodated in the second guide portion 521 of the display device holding portion 520, which is a concave portion, in a nested state, so that the first guide surface 322 of the first guide portion 321 of the display device 300 is in contact with the second guide surface 523 of the second guide portion 521 of the display device holding portion 520 ( FIG. 11 ). The display device 300 is slid in the X direction in a state where the second guide surface 523 of the display device holding portion 520 and the first guide surface 322 of the display device 300 are magnetically attracted to each other, thereby adjusting the position of the display device 300 in the X direction ( FIG. 12 ).

A stopper 327 is provided on the fourth principal surface 320 of the display device 300. The stopper 327 can restrict the display device 300 from moving in a direction approaching the first lens element 211, but cannot restrict the display device 300 from moving in a direction away from the first lens element 211. Therefore, it is preferable to adjust so that one end of the display device 300 (the side provided with the stopper 327) protrudes from the display device 300 in the X direction and does not fall off from the display device holding portion 520. If one end of the display device 300 in the X direction protrudes from the display device 300 in the X direction (the left direction in FIG. 12), the magnetism of the first fixing portion 328 (iron plate) of the display device 300 may interfere with the antenna built into the electronic device 200, causing communication failure. On the other hand, if the other end of the display device 300 in the X direction is too close to the first lens element 211 (the right direction in FIG. 12) and interferes with the field angle of the first lens element 211, the display device 300 may become an obstacle and vignetting may occur in the captured image.

(3) First mounting section

13 and 14 are perspective views showing a state where the bracket is attached to a support body.

The first mounting portion 540 of the bracket 500 is a tripod socket (FIG. 6). On the other hand, the support body 600 has a second mounting portion 630. The second mounting portion 630 has a mounting wheel 631 and a mounting screw 632. The mounting screw 632 of the support body 600 is inserted into the first mounting portion 540 of the bracket 500 (FIG. 13), and the mounting wheel 631 is rotated and tightened in this state (FIG. 14), thereby fixing the first mounting portion 540 of the bracket 500 to the second mounting portion 630 of the support body 600. The specific structure of the first mounting portion 540 and the second mounting portion 630 is not limited to the above structure, and any structure can be used as long as the first mounting portion 540 can be fixedly mounted to the second mounting portion 630.

(4) Microphone mounting part

15 and 16 are perspective views showing a state where a microphone is mounted on a bracket.

The microphone attachment portion 530 can attach the microphone device 700 that can communicate with the electronic device 200 to the electronic device holding portion 510 so as not to interfere with the first lens element 211 when the electronic device holding portion 510 holds the electronic device 200. This prevents the microphone device 700 from becoming an obstacle and causing vignetting in the captured image.

The microphone attachment portion 530 includes an accessory shoe 531 and a microphone jack 532. The accessory shoe 531 is open at one end in the Z direction and has a concave shape. The microphone jack 532 is provided on the bottom surface of the accessory shoe 531.

The foot 710 of the microphone device 700 is inserted from the open end of the accessory shoe 531 (FIG. 15), and the locking button 720 of the microphone device 700 is rotated and tightened (FIG. 16), thereby fixing the foot 710 of the microphone device 700 to the accessory shoe 531 of the microphone attachment portion 530. The microphone device 700 is connected to the microphone jack 361 of the display device 300, for example, through a cable (not shown). The microphone device 700 may be a stereo microphone as shown in the figure, or may be a wireless microphone (not shown).

5. The first control unit of an electronic device

The electronic device 200 has a built-in first control unit (not shown), which controls various parts of the electronic device 200. In the first control unit, the CPU loads the information processing program recorded in the ROM into the RAM and executes it. For example, when it is detected that the magnetism of the first adsorption part of the display device 300 interferes with the antenna, and/or an obstacle (such as the display device 300, the microphone device 700) interferes with the field of view of the first lens element 211, the first control unit displays a warning on the first display 311 of the display device 300 via the cable 400. In other words, since the first control unit displays the warning on the first display 311 of the display device 300 instead of displaying the warning on the second display 221 (Figure 7) of the electronic device 200, it is possible to notify the warning to the user who is taking a selfie while viewing the first display 311. In addition, for example, when a sharp drop in communication speed is detected in the electronic device 200, it can be determined that interference with the antenna has occurred. The antenna is used for transmitting and receiving wireless communications such as LTE (Long Term Evolution), NR (New Radio), Wi-Fi (registered trademark), and Bluetooth (registered trademark). In addition, for example, when the electronic device 200 detects that a portion of the display device 300 or the microphone device 700 is reflected in one end of the captured image using image recognition technology, it can be determined that the field of view of the lens element 211 is disturbed.

The present disclosure may have the following configurations.

(1) A bracket, comprising:

an electronic device holding portion that holds an electronic device having a first principal surface and a second principal surface that is a back surface of the first principal surface, wherein the first principal surface has a first lens element; and

A display device holding portion holds a display device in a manner that the first principal surface and the fourth principal surface are opposite to each other and the first lens element is exposed, the display device having a third principal surface and the fourth principal surface which is the back side of the third principal surface, the third principal surface having a first display, and the display device communicates with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display.

(2) The stent according to (1) above, wherein:

The display device holding unit:

moving the display device in a first direction, the first direction being parallel to the first principal surface of the electronic device and being close to or away from the first lens element,

The display device is fixed in the first direction at a position without a step.

(3) The stent according to (1) or (2) above, wherein:

The display device comprises:

a first guide portion provided on the fourth main surface; and

a first fixing portion, the first fixing portion being provided on the first guide portion,

The display device holding unit comprises:

a second guide portion engaged with the first guide portion of the display device to guide movement of the display device in the first direction; and

A second fixing portion cooperates with the first fixing portion of the display device to fix the engagement between the first guide portion and the second guide portion.

(4) The stent according to (3) above, wherein:

The first guide portion of the display device is a convex portion protruding from the fourth main surface of the display device, the convex portion has a rectangular first guide surface, the rectangular first guide surface has a pair of long sides extending in the first direction and a pair of short sides extending in a second direction, the second direction is a direction orthogonal to the first direction and parallel to the fourth main surface,

The second guide portion of the display device holding portion is a recessed portion that accommodates the convex portion of the display device, and the recessed portion has: a second guide surface, with which the first guide surface of the convex portion contacts when accommodating the convex portion; and a pair of limiting portions, which are opposite to the pair of long sides of the convex portion and clamp the convex portion, and the pair of limiting portions limit the movement of the convex portion in the second direction and guide the movement of the display device in the first direction.

(5) The stent according to (4) above, wherein:

The display device includes a stopper portion, which is provided on one of the pair of short sides of the first guide surface in the vicinity of the first direction and protrudes further from the fourth main surface than the convex portion.

The depth of the recessed portion of the display device holding portion is shorter than the protruding height of the stopper portion of the display device, and the stopper portion is restricted from intruding into the recessed portion, thereby restricting the movement of the display device in the first direction.

(6) The stent according to any one of (3) to (5) above, wherein:

The first fixing portion of the display device is a first adsorption portion provided on the first guide surface.

The second fixing portion of the display device holding portion is a second adsorption portion provided on the second guide surface and adsorbed to the first adsorption portion.

(7) The stent according to (6) above, wherein:

The first adsorption portion and the second adsorption portion are adsorbed magnetically.

(8) The stent according to any one of (1) to (7) above, wherein:

The electronic device holding portion holds a pair of side surfaces of the electronic device in the second direction, the pair of side surfaces of the electronic device connecting the first main surface and the second main surface and facing the second direction.

(9) The stent according to any one of (1) to (8) above, wherein:

The electronic device holding portion comprises:

a fixed clamping portion having a fixed clamping surface that supports one of the pair of side surfaces; and

The movable clamping portion includes a movable clamping surface that supports the other side surface of the pair of side surfaces and is variable in distance from the fixed clamping surface in the second direction.

(10) The stent according to (9) above, wherein:

The fixed clamping surface and the movable clamping surface are inclined in a direction perpendicular to the first main surface so that the distance in the second direction becomes longer as the first main surface approaches the opposing installation surface.

(11) The stent according to (9) or (10) above, wherein:

The electronic device holding portion has a force applying portion, which applies force to the movable clamping portion relative to the fixed clamping portion.

The urging portion urges the movable clamp portion in the second direction, so that the positions of the movable clamp portion and the fixed clamp portion are fixed, and the fixed clamp surface and the movable clamp surface clamp the pair of side surfaces of the electronic device.

(12) The stent according to any one of (9) to (11) above, wherein:

The fixing clamping part has a fixing clamping body, which is hollow and has an open end.

The movable clamping part has a movable clamping body, which is accommodated in the fixed clamping body when the electronic device is not held, and is exposed from the fixed clamping body when the electronic device is held.

The movable clamp body has a cover portion that covers the inside of the movable clamp body to prevent exposure when the movable clamp body is exposed from the fixed clamp body.

(13) The stent according to any one of (1) to (12) above, further comprising:

A microphone attachment portion is configured to attach a microphone device capable of communicating with the electronic device to a position that does not interfere with the first lens element when the electronic device holding portion holds the electronic device.

(14) The stent according to any one of (1) to (13) above, further comprising:

A first mounting portion is a mounting portion for a support body to which the bracket is mounted.

(15) The stent according to any one of (1) to (14) above, wherein:

The second main surface of the electronic device has:

a second lens element having a lower performance than the first lens element; and

A second display that displays a captured image captured by the electronic device using the first lens element or the second lens element.

(16) The stent according to (7) above, wherein:

The electronic device comprises:

Antenna; and

The first control unit displays a warning on the first display of the display device when it is detected that the magnetism of the first fixing portion of the display device interferes with the antenna and/or an obstacle interferes with the viewing angle of the first lens element.

(17) A holding device comprising a bracket and a support body,

The bracket has: an electronic device holding portion, the electronic device holding portion holds an electronic device, the electronic device has a first main surface and a second main surface as a back side of the first main surface, the first main surface has a first lens element;

a display device holding portion, the display device holding portion holding a display device in a manner that the first principal surface and the fourth principal surface are opposed to each other and the first lens element is exposed, the display device having a third principal surface and the fourth principal surface as a back side of the third principal surface, the third principal surface having a first display, the display device communicating with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display; and

The first installation part,

The support body has a second mounting portion, and the first mounting portion of the bracket is mounted on the second mounting portion.

(18) The holding device according to (17) above, wherein:

The support body has:

input device; and

A second control unit controls the electronic device according to an input to the input device by a user.

(19) A display device,

The display device has a third main surface and a fourth main surface as the back side of the third main surface, the third main surface has a first display, the display device communicates with an electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display, the electronic device has a first main surface and a second main surface as the back side of the first main surface, the first main surface has the first lens element,

The display device is held by a display device holding portion of a holder with the first principal surface facing the fourth principal surface and the first lens element exposed. The holder includes an electronic device holding portion that holds the electronic device and the display device holding portion.

(20) A component comprising a display device and a retaining device,

The display device has a third main surface and a fourth main surface as the back side of the third main surface, the third main surface has a first display, the display device communicates with an electronic device so that the electronic device displays an image captured by using the first lens element on the first display, the electronic device has a first main surface and a second main surface as the back side of the first main surface, the first main surface has the first lens element;

The holding device comprises a bracket and a supporting body.

The bracket comprises: an electronic device holding portion, the electronic device holding portion holding the electronic device; a display device holding portion, the display device holding portion holding the display device in a manner such that the first main surface and the fourth main surface face each other and the first lens element is exposed; and a first mounting portion,

The support body has a second mounting portion, and the first mounting portion of the bracket is mounted on the second mounting portion.

(21) An electronic device,

The electronic device has a first main surface and a second main surface which is the back side of the first main surface, wherein the first main surface has a first lens element.

The electronic device is held by an electronic device holding portion of a bracket, the bracket comprising: the electronic device holding portion, the electronic device holding portion holding the electronic device; and a display device holding portion, the display device holding portion holding a display device in a manner that the first principal surface and the fourth principal surface are opposite to each other and the first lens element is exposed, the display device comprising a third principal surface and the fourth principal surface as the back side of the third principal surface, the third principal surface having a first display, the display device communicating with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display,

The electronic device has:

Antenna; and

The first control unit displays a warning on the first display of the display device when it is detected that the magnetism of the display device interferes with the antenna and/or an obstacle interferes with the viewing angle of the first lens element.

Although the embodiments and modifications of the present technology have been described above, it is obvious that the present technology is not limited to the above-described embodiments, and various modifications can be made without departing from the gist of the present technology.

Claims (21)

1. A bracket, comprising: an electronic device holding portion that holds an electronic device having a first principal surface and a second principal surface that is a back surface of the first principal surface, wherein the first principal surface has a first lens element; and A display device holding portion holds a display device in a manner that the first principal surface and the fourth principal surface are opposite to each other and the first lens element is exposed, the display device having a third principal surface and the fourth principal surface which is the back side of the third principal surface, the third principal surface having a first display, and the display device communicates with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display. 2. The bracket according to claim 1, wherein: The display device holding unit: moving the display device in a first direction, the first direction being parallel to the first principal surface of the electronic device and being close to or away from the first lens element, The display device is fixed in the first direction at a position without a step. 3. The bracket according to claim 1, wherein: The display device comprises: a first guide portion provided on the fourth main surface; and a first fixing portion, the first fixing portion being provided on the first guide portion, The display device holding unit comprises: a second guide portion engaged with the first guide portion of the display device to guide movement of the display device in the first direction; and A second fixing portion cooperates with the first fixing portion of the display device to fix the engagement between the first guide portion and the second guide portion. 4. The bracket according to claim 3, wherein: The first guide portion of the display device is a convex portion protruding from the fourth main surface of the display device, the convex portion has a rectangular first guide surface, the rectangular first guide surface has a pair of long sides extending in the first direction and a pair of short sides extending in a second direction, the second direction is a direction orthogonal to the first direction and parallel to the fourth main surface, The second guide portion of the display device holding portion is a recessed portion that accommodates the convex portion of the display device, and the recessed portion has: a second guide surface, with which the first guide surface of the convex portion contacts when accommodating the convex portion; and a pair of limiting portions, which are opposite to the pair of long sides of the convex portion and clamp the convex portion, and the pair of limiting portions limit the movement of the convex portion in the second direction and guide the movement of the display device in the first direction. 5. The bracket according to claim 4, wherein: The display device includes a stopper portion, which is provided on one of the pair of short sides of the first guide surface in the vicinity of the first direction and protrudes further from the fourth main surface than the convex portion. The depth of the recessed portion of the display device holding portion is shorter than the protruding height of the stopper portion of the display device, and the stopper portion is restricted from intruding into the recessed portion, thereby restricting the movement of the display device in the first direction. 6. The bracket according to claim 3, wherein: The first fixing portion of the display device is a first adsorption portion provided on the first guide surface. The second fixing portion of the display device holding portion is a second adsorption portion provided on the second guide surface and adsorbed to the first adsorption portion. 7. The bracket according to claim 6, wherein: The first adsorption portion and the second adsorption portion are adsorbed magnetically. 8. The bracket according to claim 1, wherein: The electronic device holding portion holds a pair of side surfaces of the electronic device in the second direction, the pair of side surfaces of the electronic device connecting the first main surface and the second main surface and facing the second direction. 9. The bracket according to claim 1, wherein: The electronic device holding portion comprises: a fixed clamping portion having a fixed clamping surface that supports one of the pair of side surfaces; and The movable clamping portion includes a movable clamping surface that supports the other side surface of the pair of side surfaces and is variable in distance from the fixed clamping surface in the second direction. 10. The bracket according to claim 9, wherein: The fixed clamping surface and the movable clamping surface are inclined in a direction perpendicular to the first main surface so that the distance in the second direction becomes longer as the first main surface approaches the opposing installation surface. 11. The bracket according to claim 9, wherein: The electronic device holding portion has a force applying portion, which applies force to the movable clamping portion relative to the fixed clamping portion. The urging portion urges the movable clamp portion in the second direction, so that the positions of the movable clamp portion and the fixed clamp portion are fixed, and the fixed clamp surface and the movable clamp surface clamp the pair of side surfaces of the electronic device. 12. The bracket according to claim 9, wherein: The fixing clamping part has a fixing clamping body, which is hollow and has an open end. The movable clamping part has a movable clamping body, which is accommodated in the fixed clamping body when the electronic device is not held, and is exposed from the fixed clamping body when the electronic device is held. The movable clamp body has a cover portion that covers the inside of the movable clamp body to prevent exposure when the movable clamp body is exposed from the fixed clamp body. 13. The bracket according to claim 1, further comprising: A microphone attachment portion is configured to attach a microphone device capable of communicating with the electronic device to a position that does not interfere with the first lens element when the electronic device holding portion holds the electronic device. 14. The bracket according to claim 1, further comprising: A first mounting portion is a mounting portion for a support body to which the bracket is mounted. 15. The bracket according to claim 1, wherein: The second main surface of the electronic device has: a second lens element having a lower performance than the first lens element; and A second display that displays a captured image captured by the electronic device using the first lens element or the second lens element. 16. The bracket according to claim 7, wherein: The electronic device comprises: Antenna; and The first control unit displays a warning on the first display of the display device when it is detected that the magnetism of the first fixing portion of the display device interferes with the antenna and/or an obstacle interferes with the viewing angle of the first lens element. 17. A holding device comprising a bracket and a support body, wherein the bracket has: An electronic device holding portion that holds an electronic device having a first principal surface and a second principal surface that is a back surface of the first principal surface, wherein the first principal surface has a first lens element; a display device holding portion, the display device holding portion holding a display device in a manner that the first principal surface and the fourth principal surface are opposed to each other and the first lens element is exposed, the display device having a third principal surface and the fourth principal surface as a back side of the third principal surface, the third principal surface having a first display, the display device communicating with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display; and The first installation part, The support body has a second mounting portion, and the first mounting portion of the bracket is mounted on the second mounting portion. 18. The holding device according to claim 17, wherein: The support body has: input device; and A second control unit controls the electronic device according to an input to the input device by a user. 19. A display device, The display device has a third main surface and a fourth main surface as the back side of the third main surface, the third main surface has a first display, the display device communicates with an electronic device so that an image captured by the electronic device using a first lens element is displayed on the first display, the electronic device has a first main surface and a second main surface as the back side of the first main surface, the first main surface has the first lens element, The display device is held by a display device holding portion of a holder with the first principal surface facing the fourth principal surface and the first lens element exposed. The holder includes an electronic device holding portion that holds the electronic device and the display device holding portion. 20. A component comprising a display device and a holding device, The display device has a third main surface and a fourth main surface as the back side of the third main surface, the third main surface has a first display, the display device communicates with an electronic device so that an image captured by the electronic device using a first lens element is displayed on the first display, the electronic device has a first main surface and a second main surface as the back side of the first main surface, the first main surface has the first lens element; The holding device comprises a bracket and a supporting body. The bracket comprises: an electronic device holding portion, the electronic device holding portion holding the electronic device; a display device holding portion, the display device holding portion holding the display device in a manner such that the first main surface and the fourth main surface face each other and the first lens element is exposed; and a first mounting portion, The support body has a second mounting portion, and the first mounting portion of the bracket is mounted on the second mounting portion. 21. An electronic device, The electronic device has a first main surface and a second main surface which is the back side of the first main surface, wherein the first main surface has a first lens element. The electronic device is held by an electronic device holding portion of a bracket, the bracket comprising: the electronic device holding portion, the electronic device holding portion holding the electronic device; and a display device holding portion, the display device holding portion holding a display device in a manner that the first principal surface and the fourth principal surface are opposite to each other and the first lens element is exposed, the display device comprising a third principal surface and the fourth principal surface as the back side of the third principal surface, the third principal surface having a first display, the display device communicating with the electronic device so that an image captured by the electronic device using the first lens element is displayed on the first display, The electronic device has: Antenna; and The first control unit displays a warning on the first display of the display device when it is detected that the magnetism of the display device interferes with the antenna and/or an obstacle interferes with the viewing angle of the first lens element.