CN110133992B - Shooting direction adjustable intelligent watch - Google Patents

Abstract

The invention discloses an intelligent watch with an adjustable shooting direction, which comprises a bracket, an intelligent host and a watchband, wherein the intelligent host is provided with a shooting device, the intelligent host is connected with the bracket and can rotate relative to the bracket to form a certain angle so as to enable the shooting device to obtain different shooting directions, and the watchband is connected with the bracket. According to the intelligent watch provided by the embodiment of the invention, the design of the support is increased, and the intelligent host is connected with the support and can rotate relative to the support to form a certain angle, so that the shooting device arranged on the intelligent host can obtain different shooting directions according to the rotation of the intelligent host relative to the support. Like this, when the user need realize the shooting function of different directions through shooting device, need not to rotate the arm again manually or pick up the intelligent wrist-watch off, but can realize through adjusting the rotation angle of intelligent host computer relative support, not only need not the simple operation, greatly improved user's use experience nature moreover.

Description

Shooting direction adjustable intelligent watch

Technical Field

The invention relates to the technical field of intelligent watches, in particular to an intelligent watch with an adjustable shooting direction.

Background

Currently, with the development of technology, functions of the smart watch are increasingly perfect. In order to meet different demands of users, the intelligent watch not only has the functions of communication, short-distance transmission and timing positioning, but also can realize the shooting function.

However, most smart watches on the market at present are usually provided with a single camera, then when the smart watch is worn on the hand, the camera usually has only an upward shooting angle, and when a user uses the camera to realize the functions of self-shooting, code scanning or shooting the surrounding environment, the user can only aim the camera at a shot object by rotating an arm, or the smart watch is not worn by removing the smart watch and the smart watch is held on the hand so that the camera is aimed at the shot object. The mode is inconvenient to use, and the same posture is kept for a long time, so that the user is easy to feel tired of arms, and the user experience is poor.

Disclosure of Invention

The embodiment of the invention discloses an intelligent watch with an adjustable shooting direction, which can realize adjustment of shooting angles without manually rotating an arm or removing the watch by a user, is convenient to operate, and is beneficial to improving the use experience of the user.

To achieve the above object, an embodiment of the present invention discloses a smart watch with an adjustable shooting direction, which includes

A bracket;

the intelligent host is provided with a shooting device, and is connected with the bracket and can rotate relative to the bracket to form a certain angle so as to enable the shooting device to obtain different shooting directions; and

and the watchband is connected to the bracket.

As an alternative embodiment, in an embodiment of the present invention, the bracket includes two first opposite sides and two opposite ends, and the two first opposite sides are provided with main body connection parts;

the intelligent host machine comprises a support, a main body connecting part, a sliding rail, a sliding mechanism and a sliding mechanism, wherein the sliding rail is arranged on two second opposite sides of the intelligent host machine, the main body connecting part is connected with the sliding rail in a matched manner, so that the intelligent host machine can slide between a first position and a second position relative to the support, and when the intelligent host machine slides to the second position, the intelligent host machine can overturn relative to the main body connecting part of the support, so that the intelligent host machine can overturn from a first posture to a second posture, wherein the first posture is a state that the intelligent host machine is overlapped on the support, and the second posture is a state that the intelligent host machine forms a certain angle relative to the support;

The watchband is connected to two opposite ends of the bracket.

As an optional implementation manner, in an embodiment of the present invention, the photographing device includes a first photographing device and/or a second photographing device.

As an alternative embodiment, in an embodiment of the invention,

the shooting device comprises a first shooting device and a second shooting device;

the intelligent host is provided with a display screen, a first shooting device is arranged on the front surface of the intelligent host, and a second shooting device is arranged on the back surface of the intelligent host;

when the intelligent host is in the first posture, the shooting direction of the first shooting device is a first shooting direction, and the shooting direction of the second shooting device is a third shooting direction;

when the intelligent host is in the second posture, the shooting direction of the first shooting device is a second shooting direction, and the shooting direction of the second shooting device is a fourth shooting direction;

the first shooting direction, the second shooting direction, the third shooting direction and the fourth shooting direction are different directions.

As an optional implementation manner, in an embodiment of the present invention, when the smart host slides between the first position and the second position relative to the support, the back surface of the smart host is disposed towards the support, the front surface is provided with a first shooting window, the back surface is provided with a second shooting window, the first shooting device realizes framing through the first shooting window, and the second shooting device realizes framing through the second shooting window.

As an optional implementation manner, in an embodiment of the present invention, the position of the first photographing device at the front surface is set corresponding to the position of the second photographing device at the back surface or not.

As an alternative embodiment, in an embodiment of the present invention, the main body connection part includes:

a support portion provided on the first opposite side of the bracket; and

the shaft connection part is connected to the end part of the supporting part, and is clamped and connected in the corresponding sliding rail.

The shaft connection part is connected with the corresponding sliding rail in a matched mode.

As an optional implementation manner, in an embodiment of the present invention, a distance between an axis of the shaft connection portion and a bottom of the bracket is a first distance, and a distance between the axis of the shaft connection portion and an edge of the smart host is a second distance; wherein,,

When the intelligent host is at the first position, the second distance is larger than the first distance, and the intelligent host is in the first gesture;

and when the intelligent host is at the second position, the second distance is smaller than or equal to the first distance, and the intelligent host can be overturned from the first gesture to the second gesture.

In an alternative embodiment of the present invention, a first elastic restoring member is disposed on the sliding rail, and the first elastic restoring member is configured to be connected to the main body connection portion, so that the first elastic restoring member provides a force for keeping the smart host in the first position.

As an optional implementation manner, in an embodiment of the present invention, when the intelligent host is located at the first position, the shaft connection part is clamped and shaft-connected to a central position of the corresponding slide rail or a central position adjacent to the slide rail; when the intelligent host is located at the second position, the shaft connection part is clamped and connected with the end part of the corresponding sliding rail in a shaft connection mode.

As an optional implementation manner, in an embodiment of the present invention, the smart watch further includes an auxiliary sliding piece disposed on the sliding rail, the auxiliary sliding piece is disposed to be connected with the first elastic reset piece, the auxiliary sliding piece is provided with a sliding groove disposed along an extending direction of the sliding rail, and the shaft connection portion is clamped and is shaft-connected in the sliding groove of the auxiliary sliding piece.

As an alternative implementation manner, in an embodiment of the present invention, the bracket includes a bracket body and a bottom plate, the bracket body is a hollow frame structure, the bracket body is provided with the main body connection portion, the bottom plate is disposed in the hollow portion of the bracket body, and the bottom plate extends from one opposite end to the other opposite end of the bracket body.

Further, the bottom plate comprises two third opposite sides, and a space is reserved between the two third opposite sides and the two first opposite sides of the bracket body.

As an alternative implementation manner, in an embodiment of the present invention, a first baffle is disposed on at least one of the first opposite sides of the stand body, and the first baffle extends obliquely upward from the at least one first opposite side, and is configured to shield the smart host when the smart host is located at the first position relative to the stand body, so as to keep the smart host at the first position.

As an optional implementation manner, in an embodiment of the present invention, the smart watch further includes a second elastic reset element, where the second elastic reset element is configured to be connected to the shaft connection portion, and the second elastic reset element is configured to provide an acting force that the smart host rotates to the certain angle relative to the bracket and keeps the smart host at the certain angle.

As an alternative embodiment, in an embodiment of the present invention, the two opposite ends of the bracket are provided with a band connecting portion, and the band is connected to the band connecting portions of the two opposite ends.

Compared with the prior art, the embodiment of the invention has the following beneficial effects:

according to the intelligent watch with the adjustable shooting direction, the intelligent host is connected with the support and can rotate relative to the support to form a certain angle by adding the design of the support, so that the shooting device arranged on the intelligent host can obtain different shooting directions according to the rotation of the intelligent host relative to the support. Like this, when the user need realize the shooting function of different directions through shooting device, need not to rotate the arm again manually or pick up the intelligent wrist-watch off, but can realize through adjusting the rotation angle of intelligent host computer relative support, not only need not the simple operation, greatly improved user's use experience nature moreover.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a configuration of an intelligent host according to an embodiment of the present invention when the intelligent host is located at a first position;

FIG. 2 is a schematic view of a structure of a stent according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a smart host according to an embodiment of the present invention when the smart host slides to a second position;

FIG. 4 is an exploded view of FIG. 3 (omitting the wristband and bracket);

FIG. 5 is an explanatory diagram of a first distance and a second distance according to an embodiment of the present invention;

FIG. 6 is a schematic view of an intelligent host according to an embodiment of the present invention at an angle to a support;

fig. 7 is a schematic view of the structure of another view of fig. 6.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal" and the like indicate an azimuth or a positional relationship based on that shown in the drawings. These terms are only used to better describe the present invention and its embodiments and are not intended to limit the scope of the indicated devices, elements or components to the particular orientations or to configure and operate in the particular orientations.

Also, some of the terms described above may be used to indicate other meanings in addition to orientation or positional relationships, for example, the term "upper" may also be used to indicate some sort of attachment or connection in some cases. The specific meaning of these terms in the present invention will be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "mounted," "configured," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; may be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements, or components. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish between different devices, elements, or components (the particular species and configurations may be the same or different), and are not used to indicate or imply the relative importance and number of devices, elements, or components indicated. Unless otherwise indicated, the meaning of "a plurality" is two or more.

The technical scheme of the invention will be further described with reference to the examples and the accompanying drawings.

Referring to fig. 1, 3 and 6, an embodiment of the invention discloses a smart watch 100 with an adjustable shooting direction, which comprises a bracket 10, a smart host 20 and a watchband 30, wherein the smart host 20 is provided with a shooting device, the smart host 20 is connected with the bracket 10 and can rotate relative to the bracket 10 to form a certain angle, so that the shooting device can obtain different shooting directions, and the watchband 30 is connected with the bracket 10.

In this embodiment, the smart host 20 is used as a host of the smart watch 100, and includes not only a main board disposed inside, a touch screen and/or a display screen for realizing touch and display functions, a battery for powering the main board and the touch screen and the display screen, a communication device (e.g., a wireless communication device, a bluetooth communication device, an infrared communication device, etc.) for realizing a communication function of the smart host 20, a sensor (e.g., a gravity sensor, an acceleration sensor, a distance sensor, a barometric sensor, an ultraviolet detector, a play water detection and identification module) for realizing a detection function of the smart host 20, a heart rate detector for realizing a detection function of the heart rate of the user, a timer for realizing a timing function of the smart host 20, an imaging module for realizing a photographing function of the smart host 20, a component for identifying the identity of the user, such as a fingerprint module, a face identification module, a microphone for realizing audio input and/or output, a speaker, etc. It should be appreciated that each device and each functional module are disposed inside the intelligent host 20 and electrically connected to the motherboard, and the control of the devices and the functional modules is realized through the motherboard, so as to control the devices and the functional modules to realize corresponding functions.

Therefore, the smart host 20 according to the embodiment of the present invention is different from the dial of the conventional wristwatch, which can only realize the functions of time display, timing, etc.

Referring to fig. 1 to 3, in the present embodiment, the bracket 10 includes two first opposite sides 11 and two opposite ends 12, the two first opposite sides 11 are provided with main body connecting portions 11a, the two second opposite sides 21 of the smart host 20 are provided with sliding rails 21a, and the main body connecting portions 11a are cooperatively connected with the sliding rails 21a, so that the smart host 20 can slide between a first position and a second position relative to the bracket 10.

The opposite sides mean opposite sides, and the opposite ends 12 mean opposite ends.

Specifically, as shown in fig. 1, the smart host 20 being located at the first position means that: the smart host 20 is stacked above the stand 10 and approximately covers the upper surface of the stand 10. And the smart host 20 being in the second position means that: the smart host 20 slides a distance relative to the support 10 such that the smart host 20 is positioned with a gap between one of the opposite ends 12 of the support 10 (as shown in fig. 3).

Further, in order to enable the smart host 20 to slide relative to the support 10 and ensure that the sliding direction thereof can be along the set direction, the sliding rails 21a on the two second opposite sides 21 of the smart host 20 may be formed by a bar-shaped sliding groove provided on the second opposite sides 21, and meanwhile, if the overall shape of the smart host 20 is approximately cuboid, the sliding rails 21a are extended along the length direction of the smart host 20.

Further, since the main body connecting portion 11a is cooperatively connected with the sliding rail 21a, in order to realize the sliding of the smart host 20 relative to the bracket 10, the main body connecting portion 11a can be realized in the sliding rail 21a and slide along the extending direction of the sliding rail 21a, so that the position of the smart host 20 relative to the bracket 10 is changed, and the second position is obtained.

In this embodiment, when the smart host 20 can slide to the second position relative to the bracket 10, the main body connecting portion 11a of the bracket 10 automatically turns (i.e. rotates), so that the smart host 20 turns from the first posture to the second posture. Specifically, the first posture is a state in which the smart host 20 is stacked on the stand 10, and the second posture is a state in which the smart host 20 is at an angle with respect to the stand 10 (as shown in fig. 6).

It is understood that the smart host 20 has the first posture when the smart host 20 is in the first position, and the smart host 20 has the second posture when the smart host 20 is in the second position. Therefore, the angle of the intelligent host 20 relative to the bracket 10 can be changed, and at the moment, the angle of the screen positioned on the intelligent host 20 relative to the bracket 10 is also changed, so that the screen of the intelligent host 20 can be more aligned to the user.

It should be noted that, in the present embodiment, when the smart host 20 slides relative to the bracket 10 at the first position and the second position, the sliding direction is the direction in which the opposite end 12 of the bracket 10 for connecting the watchband 30 is located, that is, the extending direction of the sliding rail 21a on the smart host 20 should be set towards the wearing direction of the watchband 30.

Preferably, the certain angle may be 0 to 180 °, for example, the first angle may be 30 °, 45 °, 60 °, 75 °, 90 °, 120 °, 135 °, 150 °, 165 °, and most preferably, the first angle is 90 °, and then the smart host 20 is disposed upright with respect to the stand 10, that is, the screen on the smart host 20 is also disposed upright with respect to the stand 10, so that a user may conveniently operate or view the screen.

As shown in fig. 1, 3, 6 and 7, the smart host 20 may include a front surface 20a and a back surface 20b opposite to the front surface 20a, where the front surface 20a is a surface of the smart host 20 on which a display screen is disposed, and the back surface 20b is a surface of the smart host 20 facing away from the front surface 20 a. The first posture of the smart host 20 is that the smart host 20 is stacked on the support 10, and the second posture is that the smart host 20 forms a certain angle with respect to the support 10. The state of being stacked on the stand 10 means: the back surface 20b of the smart host 20 is approximately in a state of being attached to the upper surface of the stand 10.

In this embodiment, the photographing device may be disposed inside the smart host 20, and in order to meet different photographing requirements of users, the photographing device may include a first photographing device 23 and a second photographing device 24. That is, the smart watch of the present invention is a smart watch with two cameras, and because the smart host 20 can rotate relative to the support 10, the shooting direction of the first shooting device 23 and the shooting direction of the second shooting device 24 can correspondingly change along with the smart host 20 in the process of rotating the smart host 20, so that the user does not need to rotate the arm by himself, and can obtain different shooting directions by only adjusting the rotation angle of the smart host 20 relative to the support 10, and the operation is more convenient.

Further, since the smart watch is a smart watch with two cameras, the positions of the first photographing device 23 and the second photographing device 24 need to be reasonably set so as to meet photographing habits of users.

As an alternative embodiment, a first photographing window may be provided on the front surface 20a of the smart host 20, and a second photographing window may be provided on the rear surface 20b of the smart host, the first photographing device 23 being aligned with the first photographing window, and the second photographing device 24 being aligned with the second photographing window, i.e., the first photographing device 23 may realize a view through the first photographing window, and the second photographing device 24 may realize a view through the second photographing window. It can be seen that, with this arrangement, the first camera 23 may be a front camera and the second camera 24 may be a rear camera.

Specifically, for the smart host 20 of the present embodiment, the smart host 20 has a dual camera with the upper surface being the forward direction and the lower surface being the backward direction, and the dual camera is arranged in tandem. Thus, when the smart host 20 is in the first posture with respect to the stand 10, since the first photographing device is directed in the forward direction and the second photographing device is directed in the backward direction, the first photographing device can be used to photograph a scene in the forward direction. Since the smart watch is worn on the arm of the user, when the smart host 20 is in the first posture relative to the stand 10, the second photographing device cannot photograph the scene that the user wants to photograph due to the shielding of the arm wearing surface. Based on the above, the intelligent main machine can be slid and turned to the second posture relative to the support, at the moment, the intelligent main machine is not overlapped on the bearing support any more, at the moment, even if a user wears the intelligent watch, the second shooting device is not blocked by the arm wearing surface, and the second shooting device can be applied to shooting as well. Therefore, the purpose of sliding and overturning the intelligent host relative to the bracket to the second posture is to realize different shooting demands of users, and the second shooting device is further added on the basis of the original single shooting device, so that after the intelligent host slides and overturns relative to the bracket, different shooting demands of the users can be respectively realized by the double shooting devices. In fact, when a user wears the intelligent watch to shoot, the functions of scene shooting, code scanning and the like in the forward direction can be realized through the first shooting device, and the functions of self-shooting, video call and the like of the user can be realized through the second shooting device, so that the intelligent host provided with the double shooting devices can meet different shooting requirements of the user in different occasions and different scenes, and the use experience of the user on the intelligent watch can be greatly improved.

Further, in order to ensure that the photographing angles of the first photographing device 23 and the second photographing device 24 are not blocked, a hollow cylindrical boss having an upward opening may be convexly provided on the front surface 20a, and at the same time, the cylindrical boss should be in communication with the inside of the smart host 20, and the first photographing device 23 may be disposed in the hollow portion of the cylindrical boss and realize framing through the first opening of the cylindrical boss. In order to prevent external water from entering the intelligent host 20 from the first opening of the cylindrical boss, which may cause damage to the internal electronic components, a first lens may be disposed on the first opening of the cylindrical boss, and the first photographing device 23 may also achieve framing through the first lens. It can be seen that the first photographing window 211 can be formed by combining the first opening of the cylindrical boss with the first lens.

In the case of the second photographing device 24, since the second photographing device 24 is disposed on the back surface 20b of the smart host 20, in order to prevent the second photographing window from being possibly rubbed with the stand 10 when the smart host 20 is in the first state (i.e., the smart host 20 is stacked on the stand 10) and thus the photographing view of the second photographing device 24 is affected, the back surface 20b may be slightly recessed inward relative to other positions at the position of the second photographing device 24, then a second opening is formed at this position, and a second lens is disposed on the second opening, and the second photographing device 24 may realize the view through the second lens. Therefore, the second shooting window is formed by combining the second opening and the second lens arranged in the second opening.

Preferably, in order to more reasonably arrange the first camera 23 and the second camera 24, the position of the first camera 23 on the front surface 20a should be set corresponding to the position of the second camera 24 on the rear surface 20 b.

As another alternative embodiment, the front surface 20a is provided with a first photographing window, and the second photographing window may be disposed on a first side surface of the smart host 20, and the first side surface is disposed at an angle to the front surface 20 a. The first camera 23 is aligned with the first camera view setting and the second camera 24 is aligned with the second camera view setting. Specifically, since the front surface 20a is a surface of the smart host 20 provided with a display screen, the first photographing device 23 can still be used as a front camera, and the second photographing device 24 can be used as a rear camera. Preferably, when the housing of the smart host 20 is a square housing, then the angle between the first side and the front face 20a is 90 °.

In the present embodiment, since the smart host 20 is slidable between the first position and the second position relative to the stand 10, and when slid to the second position, the smart host 20 can be turned over relative to the main body connection portion of the stand 10, so that the smart host 20 is turned over from the first posture to the second posture, for the first photographing device 23 and the second photographing device 24, when the smart host is in the first posture, the photographing direction of the first photographing device 23 is the first photographing direction X1, and the photographing direction of the second photographing device 24 is the third photographing direction X3; when the intelligent host is in the second posture, the shooting direction of the first shooting device is a second shooting direction X2, and the shooting direction of the second shooting device is a fourth shooting direction X4; the first shooting direction X1, the second shooting direction X2, the third shooting direction X3, and the fourth shooting direction X4 are different directions. That is, when the smart host 20 rotates with respect to the cradle 10 and is switched between the first posture and the second posture, the first photographing device 23 may be switched between the first photographing direction X1 and the second photographing direction X2, and the second photographing device 24 may be switched between the third photographing direction X3 and the fourth photographing direction X4. The first shooting direction X1 and the second shooting direction X2 are different in direction, and the third shooting direction X3 and the fourth shooting direction X4 are different in direction.

Specifically, when the smart host 20 is located in the first posture (when the smart host 20 may be located in the first position and the second position with respect to the stand 10) with respect to the stand 10, the first photographing device 23 may have the first photographing direction X1, and the second photographing device 24 may have the third photographing direction X3; when the smart host 20 is located in the second posture (the smart host 20 turns over relative to the main body connection portion) relative to the stand 10, the first photographing device 23 may have a second photographing direction X2, and the second photographing device 24 may have a fourth photographing direction X4. When the smart host 20 is in the second posture relative to the bracket 10, a certain angle is formed between the smart host 20 and the bracket 10, so that a first angle is formed between the first shooting direction X1 and the second shooting direction X2, a second angle is formed between the third shooting direction X3 and the fourth shooting direction X4, and the second angle may be the same as or different from the first angle.

Further, since the first photographing device 23 is disposed towards the front 20a of the smart host 20 and is a front camera, the second photographing device 24 is disposed towards the back 20b of the smart host 20 and is a rear camera, when the smart host 20 is in the first posture, the first photographing direction X1 of the first photographing device 23 is the direction towards the front 20a of the smart host 20 (i.e. the direction upwards in the paper plane as shown in fig. 1), and the third photographing direction X3 of the second photographing device 24 is the direction towards the back 20b of the smart host 20, so that the user cannot view the second photographing device 24 at this time, and the second photographing device 24 is blocked by the stand 10. As can be seen, when the smart host 20 is in the first posture, the first shooting direction X1 is opposite to the third shooting direction X3, and the first shooting direction X1 is used as the main shooting camera.

When the smart host 20 is in the second posture, taking an example that the smart host 20 turns over 90 ° relative to the main body connection portion of the bracket 10, the first photographing device 23 is switched from the first photographing direction X1 to the second photographing direction X2, the second photographing device 24 is switched from the third photographing direction X3 to the fourth photographing direction X4, at this time, the angle between the second photographing direction X2 and the first photographing direction X1 is 90 ° (as shown in fig. 6), and the angle between the fourth photographing direction X4 and the third photographing direction X3 is 90 ° (at this time, the second photographing device 24 is far away from the bracket 10 and is no longer shielded by the bracket 10) (as shown in fig. 7).

It can be known that when the smart host 20 is turned from the first posture to the second posture, the second photographing device 24 is blocked by the bracket 10 and is converted to be far away from the bracket 10 and form a certain angle with the bracket 10, at this time, both the first photographing device 23 and the second photographing device 24 can be used as the main photographing camera, depending on the photographing requirement of the user. For example, the second camera 23 may be aimed at when the user wants to perform a self-timer, video call, and the first camera 24 may be aimed at when the user wants to perform shooting of the surrounding environment or perform other shooting operations.

Referring to fig. 1 and 2, in this embodiment, the stand 10 not only can be used to carry the smart host 20 when the smart host 20 is located at the first position and the second position, but also can isolate the smart host 20 from the wrist of the user when the user wears the smart watch 100, so that when the shell of the smart host 20 is a metal shell, the stand 10 can effectively isolate devices located inside the smart host 20 and heat dissipated to the shell when the functional module operates, thereby avoiding scalding the user. It will be appreciated that the bracket 10 may be preferably made of a non-metallic material.

As an alternative embodiment, the stand 10 may include a stand body 10a and a bottom plate 10b, the stand body 10a is a hollow frame structure, the stand body 10a is provided with the main body connection portion 11a, the bottom plate 10b is disposed in the hollow portion of the stand body 10a, and the bottom plate 10b extends from one of opposite ends 12 to the other opposite end 12 of the stand body 10 a. Specifically, the bracket body 10a is a square bracket 10 matched with the external shape of the intelligent host 20, so that the bracket body 10a can be effectively ensured to bear the intelligent host 20. The bracket body 10a is designed to be a hollow frame structure, so that the weight of the bracket body 10a can be effectively reduced, and the overall weight of the smart watch 100 can be reduced.

Further, the bottom plate 10b is a square plate matching the external shape of the smart host 20, and the bottom plate 10b includes two third opposite sides 101, and a space 101a is provided between the two third opposite sides 101 and the two first opposite sides 11 of the bracket body 10 a. That is, the bottom plate 10b does not completely cover the hollow portion of the holder body 10a, but has a space 101a at a position of the holder body 10a adjacent to the two first opposite sides 11 thereof, which is also to reduce the overall weight of the smart watch 100. Specifically, the two third opposite sides 101 of the bottom plate 10b are disposed corresponding to the two first opposite sides 11 of the bracket body 10a, and preferably, the bottom plate 10b may be integrally formed with the bracket body 10a in order to provide the bracket 10 with overall uniformity.

Further, in order to enable the stand 10 to function as a current position maintaining means for the smart host 20 when the smart host 20 is located at the first position, the at least one first opposite side 11 of the stand body 10a is provided with a first baffle 11b, and the first baffle 11b extends obliquely upward from the at least one first opposite side 11 of the stand body 10a for shielding the smart host 20 when the smart host 20 is located at the first position relative to the stand body 10a so as to maintain the smart host 20 at the first position. Specifically, in order to avoid affecting the connection between the main body connection portion 11a of the bracket body 10a and the slide rail 21a of the smart host 20, the highest position of the first baffle 11b should be located near the bottom of the smart host 20 when the smart host 20 is blocked by the first baffle 11 b. Preferably, the two first opposite sides 11 of the bracket body 10a are provided with the first baffle 11b, and the first baffle 11b should be integrally formed with the bracket body 10a such that the first baffle 11b is integrally formed with the bracket body 10 a.

In this embodiment, in order to further maintain the state that the smart host 20 is located at the first position, a second baffle 12a is disposed on one of the opposite ends 12 of the stand body 10a, the second baffle 12a also extends obliquely upward from the bottom of the stand body 10a, and when the second baffle 12a shields the smart host 20, the highest position of the second baffle 12a should be located adjacent to the bottom of the smart host 20, so as to avoid shielding the screen of the smart host 20.

Further, to facilitate sliding of the smart host 20 relative to the support body 10a in the first position to the second position, the other opposite end 12 of the support body 10a should not be provided with any shielding barrier to ensure that the smart host 20 can slide relative to the support body 10a without being shielded.

As another alternative embodiment, the bracket may also include a bottom plate and a first baffle, the bottom plate may include the two first opposite sides and the two opposite ends, the first baffle is disposed on at least one first opposite side, and the first baffle extends obliquely upward from the at least one first opposite side for shielding the smart host when the smart host is located at the first position relative to the bottom plate, so as to keep the smart host at the first position. Specifically, the bottom plate is a complete plate, i.e. the bottom plate is not hollowed out. When the smart host is in the first position, the smart host completely covers the backplane. At this time, the contact of intelligent host computer and user's wrist skin is effectively kept apart to the accessible bottom plate to avoid the inside device of intelligent host computer to generate heat when the operation scald user. It is understood that the first baffle may be disposed on both of the two first opposite sides, and a space for placing the smart host is formed between the first baffle and the bottom plate.

In this embodiment, the main body connecting portion 11a includes a supporting portion 111 and a shaft portion 112, the supporting portion 111 is disposed on the first opposite side 11 of the bracket 10, the shaft portion 112 is connected to an end portion of the supporting portion 111, and the shaft portion 112 is cooperatively connected with the corresponding sliding rail 21a, that is, the shaft portion 112 is clamped and shaft-connected in the corresponding sliding rail 21 a. Specifically, the support portion 111 is integrally formed on the support body 10a, and extends from the support body 10a to the first baffle 11b and finally extends to the position of the sliding rail 21a of the intelligent host 20, the end portion of the support portion 111 is provided with a first shaft connection hole 111a, the shaft connection portion 112 is a rotating shaft connected to the first shaft connection hole 111a of the support portion 111, and the shaft connection portion 112 is clamped in and is connected to the sliding rail 21a in a shaft connection manner, so that sliding relative to the sliding rail 21a is realized, and the intelligent host 20 is enabled to change in position.

Further, in order to facilitate the mating connection between the shaft connection portion 112 and the sliding rail 21a, a connection shaft 212 may be disposed in the sliding rail 21a, the connection shaft 212 is slidably connected to the sliding rail 21a, and a second shaft connection hole (not labeled) is disposed on the connection shaft 212, and the shaft connection portion 112 is clamped and connected to the second shaft connection hole of the connection shaft 212, so as to achieve the mating connection between the shaft connection portion and the connection shaft 212, and further achieve the mating connection between the shaft connection portion 112 and the sliding rail 21 a. Specifically, during the sliding of the shaft connection portion 112 in the sliding rail 21a, since the shaft connection portion 112 is cooperatively connected with the connection shaft 212, the connection shaft 212 is also driven by the shaft connection portion 112 to slide in the sliding rail 21 a.

As shown in fig. 3 and 5, further, the distance between the axis of the shaft connection portion 112 and the bottom of the bracket 10 is a first distance L1, and the distance between the axis of the shaft connection portion 112 and the edge of the smart host 20 is a second distance L2, where, in the first position, the second distance L2 is greater than the first distance L1, and at this time, the smart host 20 is in the first posture (as shown in (a) of fig. 5); in the second position, the second distance L2 is smaller than or equal to the first distance L1, and the smart host 20 can be turned from the first posture to the second posture (as shown in fig. 5 (b)). Specifically, the first distance L1 is a distance from the axis of the shaft portion 112 to the bottom of the bracket body 10a, and the second distance L2 is a distance from the axis of the shaft portion 112 to an edge of the smart host 20 (the edge is an edge of the smart host 20 where the smart host 20 turns over).

In this embodiment, in order to maintain the state of the smart host 20 when the smart host 20 is located at the first position, to avoid a position change, the sliding rail 21a is provided with a first elastic restoring member 211, and the first elastic restoring member 211 is configured to be connected to the main body connecting portion 11a, so that the first elastic restoring member 211 provides a force for maintaining the smart host 20 at the first position. Preferably, the first elastic restoring member 211 is a gas spring disposed on the sliding rail 21 a. One end of the first elastic restoring element 211 is connected to one end of the sliding rail 21a, and the other end of the first elastic restoring element 211 is connected to the shaft portion 112 of the main body connecting portion 11a, when the intelligent host 20 is located at the first position, the first elastic restoring element 211 is located in its natural state (i.e. in an un-stretched or un-compressed state). At this time, the smart host 20 is substantially maintained at the first position without sliding relative to the second position due to the elastic force of the first elastic restoring member 211. It will be appreciated that in other embodiments, the first resilient return member 211 may also be a spring.

Preferably, when the first elastic restoring member 211 is in its natural state, an end of the first elastic restoring member connected to the shaft portion 112 of the main body connecting portion 11a is located at a position substantially in the middle of the slide rail 21a or near the middle of the slide rail 21 a. As can be seen, when the smart host 20 is located at the first position, the shaft portion 112 of the main body connecting portion 11a is located at a position substantially in the middle of the sliding rail 21a or near the middle of the sliding rail 21 a. Similarly, when the shaft portion 112 of the main body connecting portion 11a slides relative to the slide rail 21a to the second position of the smart host 20, the shaft portion 112 of the main body connecting portion 11a is substantially abutted against an end position of the slide rail 21a (the end position is a position far from an end of the slide rail 21a connected to the first elastic restoring member 211).

It should be appreciated that, keeping the smart host 20 in the first position means: so that the smart host 20 is substantially fixed in the first position and does not slide toward the second position.

Further, when the shaft connection portion 112 moves relative to the sliding rail 21a, the first elastic restoring member 211 moves along the direction of the sliding rail 21a until moving to the end position of the sliding rail 21a due to the tensile force of the shaft connection portion 112, at this time, the shaft connection portion 112 stops sliding due to the contact between the shaft connection portion 112 and the end position of the sliding rail 21a, and the smart host 20 reaches the second position and turns over, so that the smart host 20 turns over from the first posture to the second posture, i.e. the smart host 20 forms an angle relative to the bracket body 10 a.

In this embodiment, in order to make the current position of the smart host 20 unchanged when the smart host 20 is in the second position, the smart watch 100 further includes a second elastic reset element 40, where the second elastic reset element 40 is configured to be connected to the shaft portion 112 of the main body connecting portion 11a, so as to provide the force for rotating the smart host 20 to the certain angle relative to the stand body 10 and maintaining the smart host 20 at the certain angle. Specifically, the second elastic restoring member 40 may be disposed on the connection shaft 212, and then the connection of the second elastic restoring member 40 to the shaft coupling portion is achieved through the connection shaft 212 and the shaft coupling portion. When the shaft connection portion 112 slides in the sliding rail 21a to the second position of the smart host 20, the second elastic restoring member 40 can provide the elastic force to enable the smart host 20 to turn over relative to the support body 10a, and provide the force for keeping the smart host 20 at the certain angle after the smart host 20 turns over.

As an alternative embodiment, the second elastic restoring member 40 may be a C-shaped elastic piece, which is sleeved on the connecting shaft 212, and when the shaft connection portion 112 drives the smart host 20 to slide to the second position, the C-shaped elastic piece may provide elastic force to force the smart host 20 to turn over relative to the support body 10a, and meanwhile, after the smart host 20 turns over, the second elastic restoring member 40 may further provide acting force to keep the smart host 20 in the current turning state (i.e. the smart host 20 is at the certain angle relative to the support body 10 a). It can be seen that, in either the first position or the second position, the smart host 20 can provide the force of the present position through the first elastic restoring member 211 and the second elastic restoring member 40, respectively.

As an alternative embodiment, the second elastic restoring member 40 may be a torsion spring. When the second elastic restoring member 40 is a torsion spring, one end of the second elastic restoring member 40 may be connected to the first elastic restoring member 211, and the other end of the second elastic restoring member 40 may be connected to the connecting shaft 212. When the shaft portion 112 slides to the second position, the second elastic restoring member 40 provides a tensile force such that the first elastic restoring member 211 is stretched, thereby assisting the sliding of the shaft portion 112. In addition, the design of the torsion spring is selected, so that when the shaft connection portion 112 slides to the end portion of the sliding rail 21a, that is, when the intelligent host 20 is located at the second position, the intelligent host 20 turns over to a certain angle relative to the support body 10a, the torsion spring can provide torsion force to enable the intelligent host 20 to turn over more reliably relative to the support body 10a, and meanwhile, the torsion spring can also be utilized to maintain the turning state of the intelligent host 20 relative to the support body 10 a.

Referring to fig. 1 and 4, in this embodiment, the smart watch 100 further includes an auxiliary sliding piece 5 disposed on the sliding rail 21a, the auxiliary sliding piece 5 is configured to be connected to the first elastic restoring member 211, the auxiliary sliding piece 5 is provided with a sliding slot disposed along the extending direction of the sliding rail 21a, and the auxiliary sliding piece of the shaft connection portion is clamped and shaft-connected in the sliding slot 51 of the auxiliary sliding piece 5. Specifically, the auxiliary slide 5 is used for supplementing the stretching stroke of the first elastic restoring member 211, because: as can be seen from the above, when the smart host 20 is located at the first position, the shaft connection portion 112 is located at the middle position of the sliding rail 21a, and the first elastic restoring member 211 of the present invention is preferably a gas spring, one end of the gas spring is fixedly connected to the sliding rail 21a, the other end of the gas spring is connected to the shaft connection portion 112, the gas spring is elongated under the tensile force of the shaft connection portion 112 during the sliding process of the shaft connection portion 112, and during the sliding process, the shaft connection portion 112 may not slide smoothly to the end position of the sliding rail 21a and abut against the end position due to the reaction of the gas spring because the sliding stroke of the shaft connection portion 112 exceeds the self-stretching stroke of the gas spring, i.e. the smart host 20 may not slide to the second position. Therefore, in order to ensure that the shaft connection portion 112 can slide smoothly to the end position of the sliding rail 21a and abut against the end position, the embodiment of the invention increases the design of the auxiliary sliding vane 5, the auxiliary sliding vane 5 includes a start end 52 and a tail end 53, the start end 52 of the auxiliary sliding vane 5 is connected with the other end of the gas spring, the tail end 53 of the auxiliary sliding vane 5 is near to the end position of the sliding rail 21a, and the sliding groove 51 of the auxiliary sliding vane 5 is communicated with the sliding rail 21a, so that the shaft connection portion 112 can slide in the sliding groove 51 of the auxiliary sliding vane 5, and further, under the auxiliary action of the auxiliary sliding vane 5, the shaft connection portion 112 can slide smoothly to the end position of the sliding rail 21 a.

It should be noted that the auxiliary sliding vane 5 is provided to compensate for the shortage of the stroke of the gas spring, so that the auxiliary sliding vane 5 may not be provided if a gas spring with a larger stroke is selected. Similarly, if the first elastic restoring member 211 is a tension spring, and the tension spring has a sufficient tension length, the auxiliary sliding vane 5 may not be disposed at this time.

In addition, the position of the shaft connection portion 112 may be adjusted to replace the auxiliary slide 5, for example, when the smart host 20 is located at the first position, the shaft connection portion 112 may be disposed closer to the end portion of the slide rail 21a, and in this case, if a gas spring is used, the sliding stroke of the shaft connection portion 112 is shortened, so that the stroke of the gas spring may meet the requirement, and in this case, the auxiliary slide 5 may not be disposed.

As shown in fig. 1, 3 and 6, the sliding and turning process of the smart host 20 is specifically as follows:

first, the smart host 20 is stacked on the bracket body 10a and located at a first position, at this time, the smart host 20 is in a first posture, a first shooting direction of the first shooting device 23 of the smart host 20 faces directly above the bracket body 10a, and the shaft connection portion 112 is located at a middle position of the slide rail 21 a. When the smart host 20 is pushed to slide along the end position of the sliding rail 21a, the first elastic restoring member 211 is connected with the shaft portion 112 at this time, so that the first elastic restoring member 211 also slides along the end position of the sliding rail 21a under the driving of the shaft portion 112 in the sliding process of the shaft portion 112 until the shaft portion 112 abuts against the end position of the sliding rail 21a, and at this time, the smart host 20 is located at the second position. Because the shaft connection portion 112 is further connected with the slide rail 21a in a shaft manner, when the intelligent host 20 is turned over relative to the bracket body 10a under the action of the elastic force of the second elastic reset member 40, at this time, the intelligent host 20 is in the second posture, the intelligent host 20 forms an angle of approximately 90 ° relative to the bracket body 10a, the first photographing direction of the first photographing device 23 of the intelligent host 20 is switched to the second photographing direction, and the second photographing direction of the second photographing device 24 of the intelligent host 20 is also switched to the fourth photographing direction from the third photographing direction, at the same time, the second elastic reset member 40 provides an acting force on the shaft connection portion 112 for keeping the intelligent host 20 at the current position (i.e. the second position), and at this time, the user can use the first photographing device 23 and the second photographing device 24 to realize photographing functions in different photographing directions.

When the user wants the intelligent host 20 to return to the first position, the intelligent host 20 can be pushed to rotate relative to the bracket body 10a, at this time, the intelligent host 20 can quickly return to the first position due to the elastic acting force of the first elastic reset piece 211, so that the intelligent host 20 is overlapped on the bracket body 10a again, at this time, the second shooting device 24 is switched from the fourth shooting direction to the third shooting direction, the first shooting device 23 is switched from the second shooting direction to the first shooting direction, and at this time, the user can use the first shooting device 23 to realize the shooting function.

Referring again to fig. 2 and 4, in the present embodiment, the opposite ends 12 of the bracket body 10a are provided with band connecting portions 12b, and the band 30 is connected to the band connecting portions 12b of the opposite ends 12. Specifically, the watchband connecting portion 12b is a cylindrical boss disposed on an end portion of the bracket body 10a, and the cylindrical boss is hollow, and the watchband 30 can be disposed through the hollow portion of the cylindrical boss by a rotating shaft, so as to realize the shaft connection between the watchband 30 and the watchband connecting portion 12b.

According to the intelligent watch with the adjustable shooting direction, the intelligent host is connected with the support and can rotate relative to the support to form a certain angle by adding the design of the support, so that the shooting device arranged on the intelligent host can obtain different shooting directions according to the rotation of the intelligent host relative to the support. Like this, when the user need realize the shooting function of different directions through shooting device, need not to rotate the arm again manually or pick up the intelligent wrist-watch off, but can realize through adjusting the rotation angle of intelligent host computer relative support, not only need not the simple operation, greatly improved user's use experience nature moreover.

It should be appreciated that, the intelligent watch with the adjustable shooting direction in the embodiment of the invention realizes the rotation of the intelligent host relative to the bracket mainly by automatically turning when the intelligent host slides to the second position, so that the intelligent host turns to be automatically turned, the traditional mode that the watch can only be manually turned by a user when the watch dial is turned relative to the watchband is broken through, the operation is simpler, the whole turning process does not need excessive participation of the user, the interaction feeling of automatic control is given to the user, and the use experience of the user is better.

In addition, through setting up first elasticity reset piece and be used for providing the effort that keeps intelligent host computer to be located the first position between slide rail and coupling portion to make intelligent host computer when being located the first position, can firmly keep current position unchanged.

The smart watch with the adjustable shooting direction disclosed by the embodiment of the invention is described in detail, and specific examples are applied to explain the principle and the implementation mode of the invention, and the description of the above embodiment is only used for helping to understand the core idea of the smart watch of the invention; meanwhile, as those skilled in the art will have variations in the specific embodiments and application scope in accordance with the ideas of the present invention, the present description should not be construed as limiting the present invention in view of the above.

Claims (11)

1. Shooting direction adjustable intelligent wrist-watch, its characterized in that includes

A bracket;

the intelligent host is provided with a shooting device, and is connected with the bracket and can rotate relative to the bracket to form a certain angle so as to enable the shooting device to obtain different shooting directions; and

a wristband, the wristband being attached to the bracket;

the bracket comprises two first opposite sides and two opposite ends, wherein the two first opposite sides are provided with main body connecting parts;

the intelligent host machine comprises a support, a main body connecting part, a sliding rail, a sliding mechanism and a sliding mechanism, wherein the sliding rail is arranged on two second opposite sides of the intelligent host machine, the main body connecting part is connected with the sliding rail in a matched manner, so that the intelligent host machine can slide between a first position and a second position relative to the support, and when the intelligent host machine slides to the second position, the intelligent host machine can overturn relative to the main body connecting part of the support, so that the intelligent host machine can overturn from a first posture to a second posture, wherein the first posture is a state that the intelligent host machine is overlapped on the support, and the second posture is a state that the intelligent host machine forms a certain angle relative to the support;

the watchband is connected to two opposite ends of the bracket;

The main body connecting part comprises a supporting part and a shaft connecting part, the supporting part is arranged on the first opposite side of the bracket, the shaft connecting part is connected to the end part of the supporting part, and the shaft connecting part is clamped and connected in the corresponding sliding rail in a shaft way;

the intelligent host is characterized in that a first elastic reset piece is arranged on the sliding rail, one end of the first elastic reset piece is connected to one end of the sliding rail, and the other end of the first elastic reset piece is connected with the shaft connection part, so that the first elastic reset piece provides acting force for keeping the intelligent host at the first position;

the intelligent watch further comprises an auxiliary sliding sheet arranged on the sliding rail, the auxiliary sliding sheet is arranged to be connected with the first elastic reset piece, the auxiliary sliding sheet is provided with a sliding groove arranged along the extending direction of the sliding rail, and the shaft connection part is clamped and connected with the auxiliary sliding sheet in the sliding groove.

2. The smart watch of claim 1, wherein the camera comprises a first camera and/or a second camera.

3. The smart watch of claim 1, wherein the camera comprises a first camera and a second camera;

The intelligent host is provided with a display screen, the front surface of the display screen is provided with a display screen, the other surface opposite to the front surface is provided with a back surface, the first shooting device is arranged on the front surface of the intelligent host, and the second shooting device is arranged on the back surface of the intelligent host;

when the intelligent host is in the first posture, the shooting direction of the first shooting device is a first shooting direction, and the shooting direction of the second shooting device is a third shooting direction;

when the intelligent host is in the second posture, the shooting direction of the first shooting device is a second shooting direction, and the shooting direction of the second shooting device is a fourth shooting direction;

the first shooting direction, the second shooting direction, the third shooting direction and the fourth shooting direction are different directions.

4. The smart watch of claim 3, wherein the back of the smart host is configured to face the support when the smart host slides between the first position and the second position relative to the support, the front is configured with a first photographing window, the back is configured with a second photographing window, the first photographing device is configured to view a view through the first photographing window, and the second photographing device is configured to view a view through the second photographing window.

5. The smart watch of claim 3, wherein the position of the first camera at the front face is set to correspond to the position of the second camera at the back face or not.

6. The smart watch of claim 1, wherein a distance between an axis of the shaft portion and a bottom of the bracket is a first distance, and a distance between an axis of the shaft portion and an edge of the smart host is a second distance; wherein,,

when the intelligent host is at the first position, the second distance is larger than the first distance, and the intelligent host is in the first gesture;

and when the intelligent host is at the second position, the second distance is smaller than or equal to the first distance, and the intelligent host can be overturned from the first gesture to the second gesture.

7. The smart watch of claim 1, wherein when the smart host is in the first position, the shaft portion is clamped and shaft-connected to a central position of the corresponding slide rail or a central position adjacent to the slide rail; when the intelligent host is located at the second position, the shaft connection part is clamped and connected with the end part of the corresponding sliding rail in a shaft connection mode.

8. The smart watch of any one of claims 1 to 7, wherein the stand comprises a stand body and a bottom plate, the stand body is of a hollow frame structure, the stand body is provided with the main body connecting portion, the bottom plate is arranged in the hollow portion of the stand body, and the bottom plate extends from one opposite end to the other opposite end of the stand body.

9. The smart watch of claim 8, wherein a first baffle is provided on at least one of the first opposing sides of the cradle body, the first baffle extending obliquely upward from the at least one first opposing side, the first baffle for shielding the smart host when the smart host is in the first position relative to the cradle body to retain the smart host in the first position.

10. The smart watch of claim 1, further comprising a second elastic return member configured to be coupled to the shaft, the second elastic return member configured to provide a force to rotate the smart host relative to the support to the angle and maintain the smart host at the angle.

11. The smart watch according to any one of claims 1 to 7, wherein the opposite ends of the bracket are provided with wristband connections, the wristband being connected to the wristband connections of the opposite ends.