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, assembly and electronic equipment

Technical Field

The present disclosure relates to an electronic device having a lens element, a display device having a display that displays a captured image obtained by the electronic device capturing with the lens element, a stand that holds the electronic device and the display device, a holding device having the stand, and an assembly having the display device and the holding device.

Background

Self-photographing is generally performed using an electronic device (typically a smart phone) having a lens element.

Prior art literature

Patent literature

Patent document 1: japanese patent application laid-open No. 2015-165314

Disclosure of Invention

The smart phone has a display and a lens element on one principal surface and a lens element on the other principal surface as its back surface, but no display. The performance of a lens element disposed on the same major face as a display is lower than that of a lens element disposed on the same major face without a display. Since self-photographing is performed while viewing the display, a low-performance lens element provided on the same main surface as the display is generally used. On the other hand, it is possible to anticipate the existence of a user who desires to use a high-performance lens element even when self-photographing is performed.

In view of the above, an object of the present disclosure is to facilitate photographing such as self-photographing using a high-performance lens element of an electronic device provided on a main surface without a display.

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

An electronic device holding unit that holds an electronic device having a 1 st main surface and a2 nd main surface that is a back surface of the 1 st main surface, the 1 st main surface having a 1 st lens element; and

And a display device holding unit that holds a display device having a3 rd main surface and the 4 th main surface that is a back surface of the 3 rd main surface, the 3 rd 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, and the display device communicates with the electronic device to display a captured image obtained by capturing the electronic device using the 1 st lens element on the 1 st display.

Thereby, the 1 st display of the display device and the 1 st lens element of the electronic device are exposed in the same direction. Thus, the user can perform self-photographing using the 1 st lens element of the electronic device while viewing the 1 st display of the display device.

The display device holding unit may move the display device in a1 st direction, which is two directions parallel to the 1 st main surface of the electronic device and approaching or separating from the 1 st lens element, and fix the display device in a step-free position in the 1 st direction.

Thus, the display device can be fixed at a desired position of the user according to the size of the electronic device, the position of the 1 st lens element, and the user's demand.

The display device may further include:

a1 st guide portion provided on the 4 th main surface; and

A1 st fixing part, the 1 st fixing part is arranged on the 1 st guiding part,

The display device holding section has:

A2 nd guide portion that engages with the 1 st guide portion of the display device to guide movement of the display device in the 1 st direction; and

And a2 nd fixing portion that cooperates with the 1 st fixing portion of the display device to fix engagement between the 1 st guide portion and the 2 nd guide portion.

Thereby, the display device holding section moves the display device in two directions approaching or separating from the 1 st lens element.

The 1 st guide portion of the display device may be a convex portion protruding from the 4 th main surface of the display device, the convex portion having a rectangular 1 st guide surface having a pair of long sides extending in the 1 st direction, having a pair of short sides extending in a2 nd direction, the 2 nd direction being a direction orthogonal to the 1 st direction and parallel to the 4 th main surface,

The 2 nd guide of the display device holding portion is a recess that accommodates the convex portion of the display device, the recess having: a2 nd guide surface with which the 1 st guide surface of the convex portion contacts when the convex portion is accommodated; and a pair of restricting portions that face the pair of long sides of the convex portion and sandwich the convex portion, the pair of restricting portions restricting movement of the convex portion in the 2 nd direction and guiding movement of the display device in the 1 st direction.

Since the 1 st guide portion as the convex portion can be accommodated in the 2 nd guide portion as the concave portion in a state of being fitted in a nested manner, the protruding amount of the display device can be minimized, and it is excellent in design and physically stable.

The display device may have a stopper portion provided in the vicinity of one of the pair of short sides of the 1 st guide surface in the 1 st direction, protruding from the 4 th main surface more than the convex portion,

The depth of the recess 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 recess, thereby restricting movement of the display device in the 1 st direction.

Thus, the 2 nd guide portion restricts (blocks) the movement of the display device in the 1 st direction by restricting the intrusion of the stopper portion into the 2 nd guide portion as the recess portion, preventing the falling off of the display device.

The 1 st fixing portion of the display device may be a1 st adsorbing portion provided on the 1 st guide surface,

The 2 nd fixing portion of the display device holding portion is a 2 nd adsorbing portion provided on the 2 nd guide surface and adsorbed to the 1 st adsorbing portion.

Since the adsorption does not require a mechanical fixing mechanism, the device is excellent in design, and mechanical vibration and the like do not occur during fixing, and the device does not affect the display device or a control unit in the electronic device.

The 1 st adsorbing portion and the 2 nd adsorbing portion may be magnetically adsorbed.

By magnetic attraction, the display device can be fixed at a position without steps.

The electronic device holding unit may hold a pair of side surfaces of the electronic device in the 2 nd direction, the pair of side surfaces of the electronic device being connected to the 1 st main surface and the 2 nd main surface and facing the 2 nd direction.

By holding the electronic device in the 2 nd direction (the direction including the component of the perpendicular line at the time of performing self-photographing), the stability of the electronic device is good.

The electronic device holding unit may include:

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

And a movable clamping portion having a movable clamping surface that supports the other side surface of the pair of side surfaces, the distance in the 2 nd direction from the fixed clamping surface being variable.

Because the distance is variable, the electronic device can be safely held regardless of the size of the electronic device.

The fixed clamping surface and the movable clamping surface may be inclined in a direction orthogonal to the 1 st main surface so that a distance in the 2 nd direction becomes longer as the 1 st main surface approaches the opposing mounting surface.

Thus, the electronic device is stably fixed regardless of the thickness difference of the electronic device itself or the thickness difference of the electronic device depending on the presence or absence of the cover and the case.

The electronic device holding portion may have a biasing portion that biases the movable clamping portion with respect to the fixed clamping portion,

The urging portion urges the movable clamping portion in the 2 nd direction, so that positions of the movable clamping portion and the fixed clamping portion are fixed, and the fixed clamping surface and the movable clamping surface sandwich the pair of side surfaces of the electronic apparatus.

Thus, when the fixed clamping surface and the movable clamping surface clamp the electronic device in the 2 nd direction, the urging portion urges the movable clamping portion so as to shorten the distance in the 2 nd direction relative to the fixed clamping portion, and the pair of long side surfaces of the electronic device move so as to slide on the inclined surfaces of the fixed clamping surface and the movable clamping surface, and the 1 st main surface of the electronic device is pressed against the installation surface. Thus, the 1 st main surface of the electronic device is pressed against the installation surface and is stably fixed, regardless of the thickness difference of the electronic device itself or the thickness difference of the electronic device due to the presence or absence of the cover or the case.

The fixed clamping part may have a fixed clamping body which is hollow and has an open end at one end,

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

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

This prevents the fingers from being pinched, and the internal structure is not exposed, so that the design is excellent.

The cradle may be provided with 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 1 st lens element when the electronic device is held by the electronic device holding portion.

Thereby, the microphone apparatus is suppressed from becoming an obstacle and vignetting occurs in the captured image.

The stent may further comprise:

and a1 st mounting portion for mounting the support body to which the bracket is mounted.

Thus, the user can perform self-timer shooting using the 1 st lens element of the electronic device while viewing the 1 st display of the display device while holding the support and operating the input device.

The 2 nd main surface of the electronic device may include:

a2 nd lens element, the 2 nd lens element having a lower performance than the 1 st lens element; and

And a2 nd display that displays a captured image obtained by the electronic device captured using the 1 st lens element or the 2 nd lens element.

In general, regarding a smartphone as an electronic device, the performance of a 2 nd lens element provided on the same 2 nd main surface as that of a 2 nd display is lower than that of a1 st lens element provided on a1 st main surface without the display. Since self-photographing is performed while viewing the display, a low-performance 2 nd lens element provided on the same 2 nd main surface as the 2 nd display is generally used. On the other hand, according to the present embodiment, the user can meet the expectation that the 1 st lens element having high performance is used even when self-photographing is performed.

The electronic device may further include:

An antenna; and

And a1 st control section that displays a warning on the 1 st display of the display device when it is detected that the magnetism of the 1 st fixing section of the display device interferes with the antenna and/or that the obstacle interferes with the angle of view of the 1 st lens element.

Since the warning is displayed on the 1 st display of the display device, not on the 2 nd display of the electronic device, the warning can be notified to the user who performs self-timer while viewing the 1 st display.

A holding device according to an aspect of the present disclosure includes a holder and a support body, the holder including:

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;

A display device holding unit that holds a display device having a3 rd main surface and a4 th main surface that is a back surface of the 3 rd main surface, the 3 rd 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, and the display device communicates with the electronic device to display a captured image obtained by the electronic device capturing with the 1 st lens element on the 1 st display; and

A1 st mounting portion, which is provided with a first mounting portion,

The support body has a2 nd mounting portion, and the 1 st mounting portion of the bracket is mounted to the 2 nd mounting portion.

The support may have:

An input device; and

And a2 nd control unit that controls the electronic device in accordance with an input from a user to the input device.

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

The display device has a 3 rd main surface and a 4 th main surface which is a back surface of the 3 rd main surface, the 3 rd main surface has a 1 st display, the display device communicates with an electronic device to cause a captured image obtained by the electronic device captured using the 1 st lens element to be displayed on the 1 st display, the electronic device has a 1 st main surface and a 2 nd main surface which is a back surface of the 1 st main surface, the 1 st main surface has the 1 st lens element,

The display device is held by a display device holding portion of a stand having an electronic device holding portion for holding the electronic device and the display device holding portion, such that the 1 st main surface is opposed to the 4 th main surface and the 1 st lens element is exposed.

An assembly according to one embodiment of the present disclosure includes a display device and a holding device,

The display device has a3 rd main surface and a 4 th main surface which is a back surface of the 3 rd main surface, the 3 rd main surface has a 1 st display, the display device communicates with an electronic device to cause a captured image obtained by capturing the electronic device with a 1 st lens element to be displayed on the 1 st display, the electronic device has a 1 st main surface and a2 nd main surface which is a back surface of the 1 st main surface, the 1 st main surface has the 1 st lens element;

The holding device has a bracket and a support body, the bracket having: an electronic device holding unit that holds the electronic device; a display device holding unit that holds the display device such that the 1 st main surface and the 4 th main surface face each other and the 1 st lens element is exposed; a1 st mounting portion for mounting the electronic device thereon,

The support body has a2 nd mounting portion, and the 1 st mounting portion of the bracket is mounted to the 2 nd mounting portion.

An embodiment of the present disclosure relates to an electronic device,

The electronic device has a1 st main surface and a2 nd main surface as a back surface of the 1 st main surface, the 1 st main surface having a1 st lens element,

The electronic device is held by an electronic device holding part of a bracket, and the bracket comprises: the electronic device holding unit holds an electronic device; and a display device holding unit that holds a display device having a 3 rd main surface and the 4 th main surface that is a back surface of the 3 rd main surface, the 3 rd main surface having a1 st display, so 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 cause a captured image obtained by capturing the electronic device using the 1 st lens element to be displayed on the 1 st display,

The electronic device is provided with:

An antenna; and

And a1 st control unit that displays a warning on the 1 st display of the display device when it is detected that the magnetic properties of the display device interfere with the antenna and/or that the barrier interfere with the angle of view of the 1 st lens element.

Drawings

Fig. 1 is a perspective view illustrating 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 apparatus.

Fig. 3 is a perspective view illustrating a display device.

Fig. 4 is a 6-plane view showing a display device.

Fig. 5 is a perspective view showing the bracket.

Fig. 6 is a 6-sided view showing the bracket.

Fig. 7 is a 6-plane view showing a state in which the holding device holds the electronic device and the display device.

Fig. 8 is a diagram showing a case where an electronic device is mounted on the electronic device holding portion of the cradle.

Fig. 9 is a diagram showing a case where an electronic device is mounted on the electronic device holding portion of the cradle.

Fig. 10 is a diagram showing a case where an electronic device is mounted on the electronic device holding portion of the cradle.

Fig. 11 is a diagram showing a case where a display device is mounted on a display device holding portion of a stand.

Fig. 12 is a diagram showing a case where a display device is mounted on a display device holding portion of a stand.

Fig. 13 is a perspective view showing a state in which the bracket is mounted to the support body.

Fig. 14 is a perspective view showing a state in which the bracket is mounted to the support body.

Fig. 15 is a perspective view showing a case where a microphone is mounted to a stand.

Fig. 16 is a perspective view showing a case where a microphone is mounted to a stand.

(Symbol description)

100: A holding device; 200: an electronic device; 210: a1 st main surface; 211: 1 st lens element; 211A: a telephoto lens element; 211B: a conventional lens element; 211C: an ultra-wide angle lens element; 220: a2 nd main surface; 230: long sides; 231: a key; 240: long sides; 250: a short side; 260: a short side; 261: a port; 300: a display device; 310: a3 rd main surface; 311: a1 st display; 320: a4 th main surface; 321: a1 st guide part; 322: a1 st guide surface; 327: a stopper; 328: a1 st fixing part; 329: tripod jack; 330: long sides; 350: a short side; 351: a screen on/off switch; 352: a flip button; 353: a brightness control button; 360: a short side; 361: a microphone jack; 362: a charging port; 363: an input port; 400: a cable; 500: a bracket; 510: an electronic device holding unit; 511: a fixed clamping part; 512: fixing and clamping the clamping body; 513: fixing the clamping surface; 514: a back surface; 517: a setting surface; 518: a fixed clamping body; 519: an open end; 520: a display device holding section; 521: a2 nd guide part; 522: a2 nd fixing part; 523: a2 nd guide surface; 524: a restriction portion; 530: a microphone attachment portion; 531: an accessory socket; 532: a microphone jack; 540: a1 st mounting part; 551: a movable clamping part; 552: a movable clamping body; 553: a movable clamping surface; 556: a cover section; 558: a movable clamp body; 600: a support body; 610: an input device; 620: a leg portion; 630: a2 nd mounting part; 631: a mounting wheel; 632: installing a screw; 700: a microphone device; 710: a foot; 720: a locking button.

Detailed Description

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

1. Outline of holding device

Fig. 1 is a perspective view illustrating 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 has a bracket 500 and a support body 600 to which the bracket 500 is attached.

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

As shown, the support body 600 may be used as a grip for a user to hold by closing the leg 620, or may be used as a tripod by opening the leg 620 (not shown). The support 600 includes an input device 610 and a 2 nd control unit (not shown). The input device 610 is provided on the support 600 and includes a still image capturing button, a moving image capturing button, a lock button, and the like. The 2 nd control unit is a control circuit built in the housing of the support body 600, and communicates (for example, wirelessly) with the electronic apparatus 200 to control the electronic apparatus 200 according to an input from the user to the input device 610.

The electronic device 200 and the display device 300 are connected by a cable 400. The cable 400 transmits image data, sound data, control signals, and the like from the electronic apparatus 200 to the display apparatus 300 according to standards such as HDMI (registered trademark).

The electronic device 200 is typically a smart phone. The electronic apparatus 200 incorporates a1 st control unit (not shown), and the 1 st control unit controls each part of the electronic apparatus 200. The electronic device 200 may be exposed, or a cover or a case (not shown) may be attached. 1 st lens element 211 is provided on 1 st main surface 210 of electronic device 200, but no display is provided. A captured image (which may be a still image or a moving image) obtained by capturing the electronic apparatus 200 with the 1 st lens element 211 is transmitted to the display apparatus 300 via the cable 400.

A1 st display 311 is provided on the 3 rd main surface 310 of the display device 300. The display device 300 communicates with the electronic device 200 via the cable 400, and the 1 st display 311 displays a captured image captured by the electronic device 200 using the 1 st lens element 211.

The holding device 100 holds the electronic apparatus 200 and the display apparatus 300 such that the 1 st main surface 210 of the electronic apparatus 200 faces the 4 th main surface 320 of the display apparatus 300, which is the back surface of the 3 rd main surface 310, and the 1 st lens element 211 is exposed. Thereby, the 1 st display 311 of the display device 300 and the 1 st lens element 211 of the electronic device 200 are exposed in the same direction.

Thus, the user can perform self-photographing using the 1 st lens element 211 of the electronic apparatus 200 while viewing the 1 st display 311 of the display apparatus 300 while holding the support 600 and operating the input device 610.

In general, in a smartphone as the electronic device 200, the performance of the 2 nd lens element 222 (fig. 7) provided on the same 2 nd main surface 220 as the 2 nd display 221 is lower than the performance of the 1 st lens element 211 provided on the 1 st main surface 210 without the display. Since self-photographing is performed while viewing the display, a low-performance 2 nd lens element 222 provided on the same 2 nd main surface 220 as the 2 nd display 221 is generally used. On the other hand, according to the present embodiment, the user can expect to use the 1 st lens element 211 with high performance even when performing self-photographing.

2. Electronic equipment

Fig. 2 is a perspective view showing an electronic apparatus.

The electronic device 200 has a rectangular 1 st main surface 210 and a2 nd main surface 220. The 2 nd main surface 220 is the back surface of the 1 st main surface 210, and has the same shape as the 1 st main surface 210. The electronic device 200 also has a pair of long sides 230, 240 connecting the 1 st main face 210 and the 2 nd main face 220 and a pair of short sides 250, 260 connecting the 1 st main face 210 and the 2 nd main face 220. A pair of long side surfaces 230, 240 connect long sides of the rectangular 1 st main surface 210 and 2 nd main surface 220 to each other. A pair of short side surfaces 250, 260 connect the short sides of the rectangular 1 st main surface 210 and 2 nd main surface 220 to each other. The 1 st main surface 210 and the 2 nd main surface 220, the pair of long side surfaces 230 and 240, and the pair of short side surfaces 250 and 260 constitute a housing of the electronic device 200.

Hereinafter, the longitudinal direction of the rectangular 1 st main surface 210 and 2 nd main surface 220 is referred to as the X direction (1 st direction) and the short direction is referred to as the Y direction (2 nd direction). The direction orthogonal to the X direction and the Y direction, that is, the opposing direction of the 1 st main surface 210 and the 2 nd main surface 220 is referred to as the Z direction (3 rd direction). In this specification, "rectangle" includes, in addition to four squares having 4 right angles, four squares having 4 right angles with circular arcs (R). In describing other shapes, substantially the same shape such as a shape with an arc (R) at a corner is included in addition to a shape in a literal sense.

The 1 st main surface 210 has 1 or more 1 st lens elements 211. In this example, the 1 st main surface 210 includes 31 st lens elements 211. The 31 st lens elements 211 are a telephoto lens element 211A, a normal lens element 211B, and an ultra-wide angle lens element 211C. The telephoto lens element 211A, the normal lens element 211B, and the ultra-wide angle lens element 211C are aligned in the X direction from the inner side of the 1 st main surface 210 toward one short side surface 260 in this order. Hereinafter, when the telephoto lens element 211A, the normal lens element 211B, and the ultra-wide angle lens element 211C are not distinguished, they are simply referred to as 1 st lens element 211 (singular form). The 1 st main face 210 has no display.

The 2 nd main surface 220 has a2 nd lens element 222, a2 nd display 221 such as an LCD display of the entire surface (fig. 7). Lens element 2 222 has lower performance than lens element 1 211. The 2 nd display 221 is a touch panel, and displays a captured image obtained by capturing the electronic device 200 using the 1 st lens element 211 or the 2 nd lens element 222.

In one long side 230, there are a plurality of keys 231 such as a power key, a camera key, a volume key, a voice-assisted start key, etc. A portion of keys 231 (e.g., power key, camera key) protrude from long side 230 in the Y-direction. The other part of the keys 231 is flat or recessed in the Y-direction with respect to the long side 230.

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

3. Display apparatus

Fig. 3 is a perspective view illustrating a display device. Fig. 4 is a 6-plane view showing a display device.

The display device 300 has a rectangular 3 rd main face 310 and a 4 th main face 320. The 4 th main surface 320 is a rear surface of the 3 rd main surface 310, and has the same shape as the 3 rd main surface 310. The display device 300 also has a pair of long sides 330, 340 connecting the 3 rd and 4 th major faces 310, 320 and a pair of short sides 350, 360 connecting the 3 rd and 4 th major faces 310, 320. A pair of long side surfaces 330, 340 connect long sides of the rectangular 3 rd main surface 310 and 4 th main surface 320 to each other. A pair of short side surfaces 350, 360 connects the short sides of the rectangular 3 rd main surface 310 and 4 th main surface 320 to each other. The 3 rd and 4 th main surfaces 310 and 320, the pair of long side surfaces 330 and 340, and the pair of short side surfaces 350 and 360 constitute a housing of the display device 300.

The 3 rd main surface 310 has a1 st display 311 on the entire surface. The 1 st display 311 is, for example, an LCD display.

The 4 th main surface 320 has a 1 st guide portion 321. The 4 th main surface 320 is provided with a 1 st guide portion 321, a stopper portion 327, and a tripod insertion hole 329.

The 1 st guide 321 is a convex portion protruding from the 4 th main surface 320 in the Z direction. The 1 st guide portion 321 as a convex portion has a rectangular 1 st guide surface 322. The rectangular 1 st guide surface 322 has a pair of long sides 323, 324 extending in the X direction and a pair of short sides 325, 326 extending in the Y direction.

The stopper 327 is provided near the first short side 325 of the 1 st guide surface 322 in the X direction, and protrudes in the Z direction from the 4 th main surface 320 as compared with the 1 st guide 321 which is a convex portion. In addition, another stopper 327 may be provided near the other short side 326 of the 1 st guide surface 322 in the X direction.

The 1 st guide surface 322 of the 1 st guide 321 is provided with a 1 st fixing portion 328. The 1 st fixing portion 328 may be exposed on the surface of the 1 st guide surface 322 or may be built in the back of the 1 st guide surface 322. The 1 st fixing portion 328 is provided in substantially the entire region of the 1 st guide surface 322 in the X direction, and is provided at least in a region facing a 2 nd fixing portion 522 (described later) of the display device holding portion 520 of the stand 500 in the Y direction. The 1 st fixing portion 328 may be provided in substantially the entire region of the 1 st guide surface 322 in the Y direction. The 1 st fixing portion 328 is, for example, a 1 st adsorbing portion, and magnetically adsorbs to a 2 nd fixing portion 522 (described later) of the display device holding portion 520 of the stand 500. The 1 st fixing portion 328 is an iron plate, for example. In contrast, the 1 st fixing portion 328 may be mechanically fixed to the 2 nd 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. The pair of long sides 330, 340 are flat surfaces without the switches, buttons, jacks, and ports described above. Thus, when the display device 300 is disposed in such a manner that the Y direction is perpendicular to the horizontal plane, rainwater and dust hardly intrude into the respective switches, buttons, jacks, and ports 351, 352, 353, 361, 362, 363.

4. Support frame

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

The bracket 500 has: an electronic device holding unit 510 that holds the electronic device 200; a display device holding part 520 provided on the back surface of the electronic device holding part 510 and holding the display device 300; microphone attachment 530 and 1 st mounting 540.

(1) Electronic equipment holding part

The electronic device holding portion 510 has a fixed clamping portion 511 and a movable clamping portion 551.

The fixed clamping portion 511 has a fixed clamping body 518 and a fixed 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 fixing clamp body 518 is a hollow frame, and one end in the Y direction is an open end 519. At the other end of the fixed clamping body 518 in the Y direction, a fixed clamping body 512 is provided. The fixed clamping body 512 protrudes 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 mounting surface 517 is a surface facing the 1 st main surface 210 (the main surface on which the display is mounted) of the electronic device 200 in the Z direction. The stationary clamping body 512 has a stationary clamping surface 513. The fixed clamp surface 513 is a surface facing a movable clamp surface 553 (described below) of the movable clamp portion 551 in the Y direction. The fixed clamping surface 513 supports one long side 240 (side without a plurality of keys 231) of the pair of long sides 230, 240 of the electronic device 200.

The movable clamp 551 has a movable clamp body 558 (fig. 7) and a movable clamp holder 552. The movable clamp body 558 has a long side in the Y direction and a short side in the X direction. A movable clamp body 552 is provided at the other end of the movable clamp body 558 in the Y direction. The movable clamp body 552 protrudes in an L-shape in the Z-direction from one end of the movable clamp body 558 in the Y-direction. The movable clamping body 552 has a movable clamping surface 553. The movable clamping surface 553 is a surface facing 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 230 (side having a plurality of keys 231) of the pair of long sides 230, 240 of the electronic apparatus 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 key 231 protruding from the long side 230.

The movable clamp body 558 is accommodated inside the fixed clamp body 518 as a hollow frame from the open end 519 of the fixed clamp body 518. Since the movable clamp body 558 is accommodated in the fixed clamp body 518 when the electronic device 200 is not held, it is excellent in design (fig. 5 and 6) and is exposed from the open end 519 of the fixed clamp body 518 when the electronic device 200 is held (fig. 7). The movable clamp body 558 has a cover 556 (fig. 7). The cover 556 constitutes a surface of the movable clamp body 558 opposite to the projecting side of the movable clamp body 552 in the Z direction. When the movable clamp body 558 is exposed from the open end 519 of the fixed clamp body 518, the cover 556 covers the interior of the movable clamp portion 551 to prevent exposure. This prevents the fingers from being pinched, and the internal structure is not exposed, so that the design is excellent.

The electronic device holding portion 510 includes a biasing portion (not shown) that biases the movable clamp portion 551 so as to shorten the distance in the Y direction with respect to the fixed clamp portion 511. The urging portion is accommodated in the fixing clamp body 518 as a hollow frame. The urging portion is an elastic body such as a spring. The distance of the movable clamping surface 553 in the Y direction relative to the fixed clamping surface 513 is variable. The urging portion urges the movable clamp 551 in the Y direction, so that the positions of the movable clamp 551 and the fixed clamp 511 are fixed, and the fixed clamp surface 513 and the movable clamp surface 553 sandwich the pair of long side surfaces 230, 240 of the electronic apparatus 200 in the Y direction. By holding the electronic apparatus 200 in the Y direction (the direction including the component of the perpendicular line at the time of performing self-photographing) instead of holding in the X direction, the stability of the electronic apparatus 200 is good. Since the distance of the movable clamping surface 553 with respect to the fixed clamping surface 513 is variable, the electronic apparatus 200 can be safely held regardless of the size of the electronic apparatus 200.

The fixed clamp surface 513 and the movable clamp surface 553 are inclined in a direction orthogonal to the 1 st main surface 210 so that the distance in the Y direction becomes longer as the installation surface 517 is approached. In other words, the distances of the fixed clamping surface 513 and the movable clamping surface 553 projecting in the Z direction in the Y direction are widest on the side closer to the setting surface 517 and narrowest on the side farther from the setting surface 517. Thus, when the fixed clamping surface 513 and the movable clamping surface 553 clamp the electronic apparatus 200 in the Y direction, the urging portion urges the movable clamping portion 551 so as to shorten the distance in the Y direction relative to the fixed clamping portion 511, and thereby the pair of long side surfaces 230, 240 of the electronic apparatus 200 moves so as to slide in the Z direction on the inclined surfaces of the fixed clamping surface 513 and the movable clamping surface 553, and the 1 st principal surface 210 of the electronic apparatus 200 is pressed to the setting surface 517 in the Z direction. Thus, the 1 st main surface 210 of the electronic device 200 is pressed against the setting surface 517 in the Z direction and is stably fixed, regardless of the difference in thickness of the electronic device 200 itself in the Z direction or the difference in thickness of the electronic device 200 in the Z direction due to the presence or absence of the cover or the case.

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

The position of the movable clamp 551 is positioned with respect to one long side 230 (side having a plurality of keys 231) of the electronic device 200. At this time, the movable clamp surface 553 is positioned so as not to interfere with the keys 231, 231 (e.g., camera key, power key) protruding from the long side surface 230 (fig. 8). The movable clamping surface 553 (fig. 9) of the movable clamping portion 551 biased by the biasing portion is pushed up in the Y direction on the long side surface 230 of the electronic device 200. The other long side 240 of the electronic device 200 is fitted to the fixed clamping surface 513 (fig. 10) of the fixed clamping portion 511. Thereby, the urging portion urges the movable clamp 551 in the Y direction, so that the positions of the movable clamp 551 and the fixed clamp 511 are fixed, and the fixed clamp surface 513 and the movable clamp surface 553 sandwich the pair of long side surfaces 230, 240 of the electronic apparatus 200 in the Y direction.

(2) Display device holding part

The display device holding portion 520 is provided on the back surface of the electronic device holding portion 510, specifically, on the back surface 514 of the fixing clamp body 518. The display device holding unit 520 holds the display device 300 such that the 1 st main surface 210 of the electronic device 200 faces the 4 th main surface 320 of the display device 300 and the 1 st lens element 211 is exposed. The display device holding portion 520 has a2 nd guide portion 521 and a2 nd fixing portion 522.

The 2 nd guide 521 is a concave portion recessed in the Z direction from the back surface 514 of the fixed clamp body 518. The 2 nd guide 521 as a concave portion accommodates the 1 st guide 321 as a convex portion of the display apparatus 300. The 2 nd guide 521 has a rectangular 2 nd guide surface 523. The rectangular 2 nd guide surface 523 has a pair of sides extending in the X direction and a pair of sides extending in the Y direction. The 2 nd guide 521 has a pair of restricting portions 524, 525. The pair of restricting portions 524 and 525 corresponds to a pair of sides extending in the X direction on the rectangular 2 nd guide surface 523. The depth of the 2 nd guide 521 as a concave portion in the Z direction is substantially equal to the protruding height of the 1 st guide 321 as a convex portion in the Z direction. Therefore, when the 1 st guide portion 321 as the convex portion is accommodated in the 2 nd guide portion 521 as the concave portion, the 1 st guide surface 322 of the 1 st guide portion 321 as the convex portion is in contact with the 2 nd guide surface 523 of the 2 nd guide portion 521 as the concave portion. Since the 1 st guide portion 321 as a convex portion can be accommodated in the 2 nd guide portion 521 as a concave portion in a state of being fitted in a nested manner, the protruding amount of the display device 300 in the Z direction can be minimized, and it is excellent in design and physically stable. The pair of restricting portions 524 and 525 faces the pair of long sides 323 and 324 of the 1 st guide portion 321 as the convex portion, sandwiching the 1 st guide portion 321 as the convex portion. The pair of restricting portions 524, 525 restricts movement of the 1 st guide portion 321 as a convex portion in the Y direction, and guides movement of the display device 300 in the X direction. Thus, the 2 nd guide 521 engages with the 1 st guide 321 provided on the 4 th 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 section 520 moves the display device 300 in two directions approaching or separating from the X direction of the 1 st lens element 211. On the other hand, the depth of the 2 nd guide 521 as the concave portion in the Z direction is shorter than the protruding height of the stopper 327 of the display device 300 in the Z direction. Thereby, the 2 nd guide 521 restricts (blocks) the intrusion of the stopper 327 into the 2 nd guide 521 as a recess, thereby restricting the movement of the display device 300 in the X direction and preventing the falling-off of the display device 300. As a modification, instead of the 2 nd guide 521 as a concave portion and the 1 st guide 321 as a convex portion, the 2 nd guide 521 as a convex portion and the 1 st guide 321 as a concave portion are used, and the projecting amount of the display device 300 in the Z direction can be minimized, so that it is excellent in design and physically stable.

The 2 nd fixing portion 522 is provided on the 2 nd guide surface 523 of the 2 nd guide portion 521. The 2 nd fixing portion 522 may be exposed on the surface of the 2 nd guide surface 523 or may be disposed behind the 2 nd guide surface 523 as in the present example. The 2 nd fixing portion 522 is provided in substantially the entire region of the 2 nd guide surface 523 in the X direction, and is provided in a region facing at least a part of the 1 st fixing portion 328 of the display device 300 in the Y direction. The 2 nd fixing portion 522 may be provided in substantially the entire region of the 2 nd guide surface 523 in the Y direction. The 2 nd fixing portion 522 is, for example, a 2 nd adsorbing portion, and is magnetically adsorbed to the 1 st fixing portion 328 of the display device 300. The 2 nd fixing portion 522 is, for example, a magnet. In contrast, the 2 nd fixing portion 522 may be a mechanism mechanically fixed to the 1 st fixing portion 328. The 2 nd fixing portion 522 cooperates with the 1 st fixing portion 328 provided in the 1 st guide portion 321 of the display device 300 to fix the engagement of the 1 st guide portion 321 and the 2 nd guide portion 521. The 2 nd fixing portion 522 is magnetically attracted to the 1 st fixing portion 328 of the display apparatus 300, thereby being capable of fixing the display apparatus 300 at a step-free position in the X direction. Further, if the magnetism is too strong, it cannot slip in the X direction, and if the magnetism is too weak, it cannot play a role of fixation, and therefore, the strength of the magnetism is determined in consideration of the balance thereof. Thus, the display device 300 can be fixed at the X-direction position desired by the user according to the size of the electronic device 200, the position of the 1 st lens element 221, and the user's demand. Further, since a mechanical fixing mechanism is not required, the display device 300 and the control section inside the electronic device 200 are not affected by mechanical vibration or the like generated during fixing because the display device is excellent in design.

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

The 1 st guide 321 as a convex portion of the display device 300 is accommodated in the 2 nd guide 521 as a concave portion of the display device holding portion 520 in a state of being fitted in a nested manner, and the 1 st guide surface 322 of the 1 st guide 321 of the display device 300 is brought into contact with the 2 nd guide surface 523 of the 2 nd guide 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 2 nd guide surface 523 of the display device holding portion 520 and the 1 st guide surface 322 of the display device 300 are magnetically attracted, thereby adjusting the position of the display device 300 in the X direction (fig. 12).

A stopper 327 is provided on the 4 th main surface 320 of the display device 300. The stopper 327 can restrict the movement of the display device 300 in a direction approaching the 1 st lens element 211, but cannot restrict the movement of the display device 300 in a direction separating from the 1 st lens element 211. Therefore, it is preferable to adjust so that one end (the side where the stopper 327 is provided) of the display device 300 protrudes from the display device 300 in the X direction, not to come 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 (left direction of fig. 12), the magnetism of the 1 st fixing portion 328 (iron plate) of the display device 300 may interfere with the antenna built in the electronic device 200, causing a communication failure. On the other hand, if the other end of the display device 300 in the X direction is too close to the 1 st lens element 211 (right direction in fig. 12) to interfere with the angle of view of the 1 st lens element 211, the display device 300 may become an obstacle to vignetting in the captured image.

(3) 1 St mounting portion

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

The 1st mounting portion 540 of the bracket 500 is a tripod socket (fig. 6). On the other hand, the support body 600 has a2 nd mounting portion 630. The 2 nd 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 1st mounting portion 540 (fig. 13) of the bracket 500, and the mounting wheel 631 is rotated and tightened (fig. 14) in this state, thereby fixedly mounting the 1st mounting portion 540 of the bracket 500 to the 2 nd mounting portion 630 of the support body 600. The specific structure of the 1st mounting portion 540 and the 2 nd mounting portion 630 is not limited to the above, and any structure may be used as long as the 1st mounting portion 540 can be fixedly mounted to the 2 nd mounting portion 630.

(4) Microphone attachment

Fig. 15 and 16 are perspective views showing a case where a microphone is mounted to a stand.

The microphone attachment portion 530 is capable of attaching the microphone device 700 capable of communicating with the electronic device 200 to the position where the 1 st lens element 211 is not disturbed when the electronic device 200 is held by the electronic device holding portion 510. Thereby, the microphone apparatus 700 is suppressed from becoming an obstacle and vignetting occurs in the captured image.

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

The foot 710 of the microphone apparatus 700 is inserted from the open end of the accessory socket 531 (fig. 15), and the locking button 720 of the microphone apparatus 700 is rotated and screwed down (fig. 16), thereby fixedly mounting the foot 710 of the microphone apparatus 700 to the accessory socket 531 of the microphone attachment part 530. The microphone device 700 is connected to the microphone jack 361 of the display device 300, for example, by a cable (not shown). The microphone apparatus 700 may be a stereo microphone as shown in the figure or may be a wireless microphone (not shown).

5. No. 1 control unit of electronic device

The electronic apparatus 200 incorporates a1 st control unit (not shown), and the 1 st control unit controls each part of the electronic apparatus 200. In the 1 st control section, the CPU loads and executes an information processing program recorded in the ROM into the RAM. For example, when it is detected that the magnetism of the 1 st suction part of the display device 300 interferes with the antenna, and/or that the obstacle (e.g., the display device 300, the microphone device 700) interferes with the angle of view of the 1 st lens element 211, the 1 st control part displays a warning on the 1 st display 311 of the display device 300 via the cable 400. In other words, since the 1 st control section displays the warning on the 1 st display 311 of the display device 300, instead of displaying the warning on the 2 nd display 221 (fig. 7) of the electronic device 200, it is possible to notify the warning to the user who performs self-timer while viewing the 1 st display 311. Further, for example, when a sudden decrease in communication speed is detected in the electronic apparatus 200, it can be determined that interference has occurred with the antenna. The antenna is used for transmission and reception of wireless communication such as LTE (Long Term Evolution ), NR (New Radio), wi-Fi (registered trademark), and Bluetooth (registered trademark). Further, for example, when the electronic device 200 detects that a part of the display device 300 and the microphone device 700 is reflected on one end of the captured image using the image recognition technology, it can be determined that the interference occurs with the angle of view of the lens element 211.

The present disclosure may have the following configurations.

(1) A stent, the stent comprising:

An electronic device holding unit that holds an electronic device having a 1 st main surface and a2 nd main surface that is a back surface of the 1 st main surface, the 1 st main surface having a 1 st lens element; and

And a display device holding unit that holds a display device having a3 rd main surface and the 4 th main surface that is a back surface of the 3 rd main surface, the 3 rd 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, and the display device communicates with the electronic device to display a captured image obtained by capturing the electronic device using the 1 st lens element on the 1 st display.

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

The display device holding section:

Moving the display device in a1 st direction, the 1 st direction being two directions parallel to the 1 st main surface of the electronic device and approaching or separating from the 1 st lens element,

The display device is fixed in a step-free position in the 1 st direction.

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

The display device has:

a1 st guide portion provided on the 4 th main surface; and

A1 st fixing part, the 1 st fixing part is arranged on the 1 st guiding part,

The display device holding section has:

A2 nd guide portion that engages with the 1 st guide portion of the display device to guide movement of the display device in the 1 st direction; and

And a2 nd fixing portion that cooperates with the 1 st fixing portion of the display device to fix engagement between the 1 st guide portion and the 2 nd guide portion.

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

The 1 st guide portion of the display device is a convex portion protruding from the 4 th main surface of the display device, the convex portion having a rectangular 1 st guide surface having a pair of long sides extending in the 1 st direction and having a pair of short sides extending in a2 nd direction, the 2 nd direction being a direction orthogonal to the 1 st direction and parallel to the 4 th main surface,

The 2 nd guide of the display device holding portion is a recess that accommodates the convex portion of the display device, the recess having: a2 nd guide surface with which the 1 st guide surface of the convex portion contacts when the convex portion is accommodated; and a pair of restricting portions that face the pair of long sides of the convex portion and sandwich the convex portion, the pair of restricting portions restricting movement of the convex portion in the 2 nd direction and guiding movement of the display device in the 1 st direction.

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

The display device has a stopper portion provided in the vicinity of one of the pair of short sides of the 1 st guide surface in the 1 st direction, protruding from the 4 th main surface more than the convex portion,

The depth of the recess 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 recess, thereby restricting movement of the display device in the 1 st direction.

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

The 1 st fixing part of the display device is a1 st adsorbing part arranged on the 1 st guiding surface,

The 2 nd fixing portion of the display device holding portion is a 2 nd adsorbing portion provided on the 2 nd guide surface and adsorbed to the 1 st adsorbing portion.

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

The 1 st adsorption part and the 2 nd adsorption part are magnetically adsorbed.

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

The electronic device holding unit holds a pair of side surfaces of the electronic device in the 2 nd direction, and the pair of side surfaces of the electronic device are connected to the 1 st main surface and the 2 nd main surface and are opposed to the 2 nd direction.

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

The electronic device holding section includes:

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

And a movable clamping portion having a movable clamping surface that supports the other side surface of the pair of side surfaces, the distance in the 2 nd direction from the fixed clamping surface being variable.

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

The fixed clamping surface and the movable clamping surface are inclined in a direction orthogonal to the 1 st main surface so that a distance in the 2 nd direction becomes longer as the 1 st main surface approaches the opposing installation surface.

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

The electronic device holding portion has a biasing portion that biases the movable clamping portion with respect to the fixed clamping portion,

The urging portion urges the movable clamping portion in the 2 nd direction, so that positions of the movable clamping portion and the fixed clamping portion are fixed, and the fixed clamping surface and the movable clamping surface sandwich the pair of side surfaces of the electronic apparatus.

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

The fixed clamping part is provided with a fixed clamping main body which is hollow and has one end which is an open end,

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

The movable clamp body has a cover portion that covers an 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 the above (1) to (12), further comprising:

a microphone attaching portion capable of attaching a microphone device capable of communicating with the electronic device to a position that does not interfere with the 1 st lens element when the electronic device is held by the electronic device holding portion.

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

and a1 st mounting portion for mounting the support body to which the bracket is mounted.

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

The 2 nd main surface of the electronic device has:

a2 nd lens element, the 2 nd lens element having a lower performance than the 1 st lens element; and

And a2 nd display that displays a captured image obtained by the electronic device captured using the 1 st lens element or the 2 nd lens element.

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

The electronic device has:

An antenna; and

And a1 st control section that displays a warning on the 1 st display of the display device when it is detected that the magnetism of the 1 st fixing section of the display device interferes with the antenna and/or that the obstacle interferes with the angle of view of the 1 st lens element.

(17) A holding device includes a holder and a support body,

The bracket has: an electronic device holding unit that holds an electronic device having a1 st main surface and a2 nd main surface that is a back surface of the 1 st main surface, the 1 st main surface having a1 st lens element;

A display device holding unit that holds a display device having a3 rd main surface and a4 th main surface that is a back surface of the 3 rd main surface, the 3 rd 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, and the display device communicates with the electronic device to display a captured image obtained by the electronic device capturing with the 1 st lens element on the 1 st display; and

A1 st mounting portion, which is provided with a first mounting portion,

The support body has a2 nd mounting portion, and the 1 st mounting portion of the bracket is mounted to the 2 nd mounting portion.

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

The support body has:

An input device; and

And a2 nd control unit that controls the electronic device in accordance with an input from a user to the input device.

(19) A display device for a display device, which comprises a display panel,

The display device has a 3 rd main surface and a 4 th main surface which is a back surface of the 3 rd main surface, the 3 rd main surface has a 1 st display, the display device communicates with an electronic device to cause a captured image obtained by the electronic device captured using the 1 st lens element to be displayed on the 1 st display, the electronic device has a 1 st main surface and a 2 nd main surface which is a back surface of the 1 st main surface, the 1 st main surface has the 1 st lens element,

The display device is held by a display device holding portion of a stand having an electronic device holding portion for holding the electronic device and the display device holding portion, such that the 1 st main surface is opposed to the 4 th main surface and the 1 st lens element is exposed.

(20) An assembly is provided with a display device and a holding means,

The display device has a 3 rd main surface and a 4 th main surface which is a back surface of the 3 rd main surface, the 3 rd main surface has a 1 st display, the display device communicates with an electronic device to cause a captured image obtained by the electronic device capturing with the 1 st lens element to be displayed on the 1 st display, the electronic device has a 1 st main surface and a 2 nd main surface which is a back surface of the 1 st main surface, the 1 st main surface has the 1 st lens element;

the holding device is provided with a bracket and a supporting body,

The bracket has: an electronic device holding unit that holds the electronic device; a display device holding unit that holds the display device such that the 1 st main surface and the 4 th main surface face each other and the 1 st lens element is exposed; a1 st mounting portion for mounting the electronic device thereon,

The support body has a2 nd mounting portion, and the 1 st mounting portion of the bracket is mounted to the 2 nd mounting portion.

(21) An electronic device is provided, which comprises a first electronic device,

The electronic device has a1 st main surface and a2 nd main surface as a back surface of the 1 st main surface, the 1 st main surface having a1 st lens element,

The electronic device is held by an electronic device holding part of a bracket, and the bracket comprises: the electronic device holding unit holds an electronic device; and a display device holding unit that holds a display device having a 3 rd main surface and the 4 th main surface that is a back surface of the 3 rd main surface, the 3 rd main surface having a1 st display, so 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 cause a captured image obtained by capturing the electronic device using the 1 st lens element to be displayed on the 1 st display,

The electronic device is provided with:

An antenna; and

And a1 st control unit that displays a warning on the 1 st display of the display device when it is detected that the magnetic properties of the display device interfere with the antenna and/or that the barrier interfere with the angle of view of the 1 st lens element.

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

Claims (21)

1. A stent, the stent comprising:

An electronic device holding unit that holds an electronic device having a 1 st main surface and a2 nd main surface that is a back surface of the 1 st main surface, the 1 st main surface having a 1 st lens element; and

And a display device holding unit that holds a display device having a3 rd main surface and the 4 th main surface that is a back surface of the 3 rd main surface, the 3 rd 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, and the display device communicates with the electronic device to display a captured image obtained by capturing the electronic device using the 1 st lens element on the 1 st display.

2. The stent of claim 1, wherein,

The display device holding section:

Moving the display device in a1 st direction, the 1 st direction being two directions parallel to the 1 st main surface of the electronic device and approaching or separating from the 1 st lens element,

The display device is fixed in a step-free position in the 1 st direction.

3. The stent of claim 1, wherein,

The display device has:

a1 st guide portion provided on the 4 th main surface; and

A1 st fixing part, the 1 st fixing part is arranged on the 1 st guiding part,

The display device holding section has:

A2 nd guide portion that engages with the 1 st guide portion of the display device to guide movement of the display device in the 1 st direction; and

And a2 nd fixing portion that cooperates with the 1 st fixing portion of the display device to fix engagement between the 1 st guide portion and the 2 nd guide portion.

4. The stent of claim 3, wherein,

The 1 st guide portion of the display device is a convex portion protruding from the 4 th main surface of the display device, the convex portion having a rectangular 1 st guide surface having a pair of long sides extending in the 1 st direction and having a pair of short sides extending in a2 nd direction, the 2 nd direction being a direction orthogonal to the 1 st direction and parallel to the 4 th main surface,

The 2 nd guide of the display device holding portion is a recess that accommodates the convex portion of the display device, the recess having: a2 nd guide surface with which the 1 st guide surface of the convex portion contacts when the convex portion is accommodated; and a pair of restricting portions that face the pair of long sides of the convex portion and sandwich the convex portion, the pair of restricting portions restricting movement of the convex portion in the 2 nd direction and guiding movement of the display device in the 1 st direction.

5. The stent of claim 4, wherein,

The display device has a stopper portion provided in the vicinity of one of the pair of short sides of the 1 st guide surface in the 1 st direction, protruding from the 4 th main surface more than the convex portion,

The depth of the recess 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 recess, thereby restricting movement of the display device in the 1 st direction.

6. The stent of claim 3, wherein,

The 1 st fixing part of the display device is a1 st adsorbing part arranged on the 1 st guiding surface,

The 2 nd fixing portion of the display device holding portion is a 2 nd adsorbing portion provided on the 2 nd guide surface and adsorbed to the 1 st adsorbing portion.

7. The stent of claim 6, wherein,

The 1 st adsorption part and the 2 nd adsorption part are magnetically adsorbed.

8. The stent of claim 1, wherein,

The electronic device holding unit holds a pair of side surfaces of the electronic device in the 2 nd direction, and the pair of side surfaces of the electronic device are connected to the 1 st main surface and the 2 nd main surface and are opposed to the 2 nd direction.

9. The stent of claim 1, wherein,

The electronic device holding section includes:

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

And a movable clamping portion having a movable clamping surface that supports the other side surface of the pair of side surfaces, the distance in the 2 nd direction from the fixed clamping surface being variable.

10. The stent of claim 9, wherein,

The fixed clamping surface and the movable clamping surface are inclined in a direction orthogonal to the 1 st main surface so that a distance in the 2 nd direction becomes longer as the 1 st main surface approaches the opposing installation surface.

11. The stent of claim 9, wherein,

The electronic device holding portion has a biasing portion that biases the movable clamping portion with respect to the fixed clamping portion,

The urging portion urges the movable clamping portion in the 2 nd direction, so that positions of the movable clamping portion and the fixed clamping portion are fixed, and the fixed clamping surface and the movable clamping surface sandwich the pair of side surfaces of the electronic apparatus.

12. The stent of claim 9, wherein,

The fixed clamping part is provided with a fixed clamping main body which is hollow and has one end which is an open end,

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

The movable clamp body has a cover portion that covers an 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 claim 1, further comprising:

a microphone attaching portion capable of attaching a microphone device capable of communicating with the electronic device to a position that does not interfere with the 1 st lens element when the electronic device is held by the electronic device holding portion.

14. The stent according to claim 1, further comprising:

and a1 st mounting portion for mounting the support body to which the bracket is mounted.

15. The stent of claim 1, wherein,

The 2 nd main surface of the electronic device has:

a2 nd lens element, the 2 nd lens element having a lower performance than the 1 st lens element; and

And a2 nd display that displays a captured image obtained by the electronic device captured using the 1 st lens element or the 2 nd lens element.

16. The stent of claim 7, wherein,

The electronic device has:

An antenna; and

And a1 st control section that displays a warning on the 1 st display of the display device when it is detected that the magnetism of the 1 st fixing section of the display device interferes with the antenna and/or that the obstacle interferes with the angle of view of the 1 st lens element.

17. A holding device is provided with a bracket and a support body, wherein the 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;

A display device holding unit that holds a display device having a3 rd main surface and a4 th main surface that is a back surface of the 3 rd main surface, the 3 rd 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, and the display device communicates with the electronic device to display a captured image obtained by the electronic device capturing with the 1 st lens element on the 1 st display; and

A1 st mounting portion, which is provided with a first mounting portion,

The support body has a2 nd mounting portion, and the 1 st mounting portion of the bracket is mounted to the 2 nd mounting portion.

18. The holding device of claim 17, wherein,

The support body has:

An input device; and

And a2 nd control unit that controls the electronic device in accordance with an input from a user to the input device.

19. A display device for a display device, which comprises a display panel,

The display device has a3 rd main surface and a 4 th main surface which is a back surface of the 3 rd main surface, the 3 rd main surface has a 1 st display, the display device communicates with an electronic device to cause a captured image obtained by the electronic device captured using a 1 st lens element to be displayed on the 1 st display, the electronic device has a 1 st main surface and a2 nd main surface which is a back surface of the 1 st main surface, the 1 st main surface has the 1 st lens element,

The display device is held by a display device holding portion of a stand having an electronic device holding portion for holding the electronic device and the display device holding portion, such that the 1 st main surface is opposed to the 4 th main surface and the 1 st lens element is exposed.

20. An assembly is provided with a display device and a holding means,

The display device has a3 rd main surface and a 4 th main surface which is a back surface of the 3 rd main surface, the 3 rd main surface has a 1 st display, the display device communicates with an electronic device to cause a captured image obtained by capturing the electronic device with a 1 st lens element to be displayed on the 1 st display, the electronic device has a 1 st main surface and a2 nd main surface which is a back surface of the 1 st main surface, the 1 st main surface has the 1 st lens element;

the holding device is provided with a bracket and a supporting body,

The bracket has: an electronic device holding unit that holds the electronic device; a display device holding unit that holds the display device such that the 1 st main surface and the 4 th main surface face each other and the 1 st lens element is exposed; a1 st mounting portion for mounting the electronic device thereon,

The support body has a2 nd mounting portion, and the 1 st mounting portion of the bracket is mounted to the 2 nd mounting portion.

21. An electronic device is provided, which comprises a first electronic device,

The electronic device has a1 st main surface and a2 nd main surface as a back surface of the 1 st main surface, the 1 st main surface having a1 st lens element,

The electronic device is held by an electronic device holding part of a bracket, and the bracket comprises: the electronic device holding unit holds an electronic device; and a display device holding unit that holds a display device having a 3 rd main surface and the 4 th main surface that is a back surface of the 3 rd main surface, the 3 rd main surface having a1 st display, so 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 cause a captured image obtained by capturing the electronic device using the 1 st lens element to be displayed on the 1 st display,

The electronic device is provided with:

An antenna; and

And a1 st control unit that displays a warning on the 1 st display of the display device when it is detected that the magnetic properties of the display device interfere with the antenna and/or that the barrier interfere with the angle of view of the 1 st lens element.