CN108873676B - Control method of smart watch - Google Patents

Abstract

The invention discloses a control method of an intelligent watch, wherein the intelligent watch comprises a dial structure and a watchband connected with the dial structure, the dial structure comprises a watchcase, a shooting device and a driving mechanism, a mainboard is arranged in the watchcase, and the watchcase comprises a first end; the shooting device is arranged in the watch case and is electrically connected with the mainboard, the shooting device is provided with a first shooting posture and a second shooting posture, and a first shooting direction of the first shooting posture and a second shooting direction of the second shooting posture form a certain angle; the driving mechanism is arranged in the watchcase, is electrically connected with the mainboard and is fixedly connected with the shooting device, and the method comprises the following steps: the main board controls the driving mechanism to drive the shooting device to switch between the first shooting posture and the second shooting posture, so that the shooting device obtains different shooting angles. By implementing the method of the embodiment of the invention, the mainboard can be used for driving the shooting device to rotate by controlling the rotation of the driving mechanism, so that the shooting device can obtain different shooting angles, and different shooting requirements of users are met.

Description

Control method of smart watch

Technical Field

The invention relates to the technical field of intelligent wearable equipment, in particular to a control method of an intelligent watch.

Background

Along with the rapid development of science and technology, the function of intelligence wrist-watch is more and more complete, not only possesses the time display function of traditional wrist-watch, can also realize functions such as communication, location and shooting.

At present, most intelligent wrist-watch is when setting up the camera on the market, and in order to realize its function of shooing, set up the camera inside intelligent wrist-watch usually, fixed camera is in the inside position of intelligent wrist-watch to inject the shooting region of camera, make the camera shoot towards a direction all the time.

However, when a user needs to use the camera to realize different functions (for example, self-shooting, code scanning, shooting the surrounding environment or video call), since the shooting direction of the camera is fixed and the shooting angle is very limited, the user can only rotate the arm or take off the smart watch to adjust the shooting direction of the camera when realizing the above functions, which is troublesome to operate and not high in user experience.

Disclosure of Invention

The embodiment of the invention discloses a control method of an intelligent watch, which is convenient to operate, wider in shooting range and beneficial to improving the use experience of a user without manually changing the shooting angle of the user.

In order to achieve the above object, the embodiment of the invention discloses a control method of a smart watch,

the intelligent watch comprises a watch face structure and a watchband connected with the watch face structure, wherein the watch face structure comprises

The watch comprises a watch shell, a first end and a second end, wherein an accommodating cavity is formed inside the watch shell, a mainboard is arranged in the accommodating cavity, and the watch shell comprises the first end;

the shooting device is arranged at the first end of the watch case and is electrically connected with the mainboard, the shooting device has a first shooting posture and a second shooting posture, and a first shooting direction of the first shooting posture and a second shooting direction of the second shooting posture form a certain angle; and

the driving mechanism is arranged at the first end of the watch case and is electrically connected with the main board, and the driving mechanism is fixedly connected with the shooting device; the method comprises the following steps:

the main board controls the driving mechanism to drive the shooting device to switch between the first shooting posture and the second shooting posture, so that the shooting device obtains different shooting angles.

The watch comprises a watchcase and watchband connecting parts, wherein the watchband connecting parts are arranged at two ends of the watchcase and are close to the bottom of the watchcase, and the watchband is connected with the watchband connecting parts.

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

the main board controls the driving mechanism to drive the shooting device to switch between the first shooting posture and the second shooting posture, so that the shooting device obtains different shooting angles, and the method comprises the following steps:

the main board detects real-time shooting operation triggered by a user aiming at the shooting device, and determines a shooting angle corresponding to the real-time shooting operation from a corresponding relation between the shooting operation obtained in advance and the shooting angle of the shooting device;

the main board determines the target number of turns and the rotating direction of the driving mechanism required to rotate according to the shooting angle corresponding to the real-time shooting operation, and controls the driving mechanism to rotate along the rotating direction until the number of turns of the driving mechanism reaches the target number of turns, so that the shooting angle of the shooting device reaches the shooting angle corresponding to the real-time shooting operation.

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

the mainboard detects the real-time shooting operation that the user triggered to the shooting device, includes:

the main board detects touch operation triggered by a user at a preset touch position on a touch screen of the smart watch; or,

the mainboard detects the pressing operation triggered by a user aiming at a preset physical key arranged on the watch case; or,

the main board detects the pressing operation of a user on a certain position on the watch case, and a pressure sensor is arranged at the certain position; or,

the main board detects the knocking operation of a user on a certain position on the watchcase, and a pressure sensor and a vibration sensor are arranged at the certain position.

As an alternative implementation, in an embodiment of the invention, the method further comprises

The main board obtains the current imaging content of the shooting device and judges whether the current imaging content is matched with the target imaging content;

and when the judgment result is negative, the main board controls the driving mechanism to drive the shooting device to rotate until the current imaging content is matched with the target imaging content.

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

the main board controls the driving mechanism to drive the shooting device to rotate until the current imaging content is matched with the target imaging content, and the method comprises the following steps:

the main board determines the same imaging content of the current imaging content and the target imaging content;

the main board judges the distance values of the center position of the same imaging content from the boundary of the current imaging content in four preset directions to obtain four distance values;

the main board determines the target rotation direction of the shooting device according to the four distance values, and controls the driving mechanism to drive the shooting device to rotate towards the target rotation direction until the current imaging content is matched with the target imaging content.

As an alternative implementation, in an embodiment of the invention, the first shooting direction of the first shooting attitude is a direction of the shooting device toward a touch surface of the case, and the second shooting direction of the second shooting attitude is a direction of the shooting device toward a side of the case.

As an alternative implementation manner, in an embodiment of the present invention, the first end is provided with a groove communicated with the receiving cavity of the watch case, the photographing device is disposed in the groove, the driving mechanism is disposed in the groove or the receiving cavity, and the driving mechanism drives the photographing device to rotate in the groove.

Further, the first end is provided with a bracket, the bracket is provided with the groove, and the bracket is integrally formed at the first end of the watch case; or the bracket is embedded in the first end of the watch case.

As an optional implementation manner, in an embodiment of the present invention, the driving mechanism is disposed in the groove, the driving mechanism includes a driving shaft, the driving shaft is fixedly connected to the shooting device, the dial structure further includes a rotation fixing assembly, the rotation fixing assembly is disposed in the hollow portion and is located at an end of the shooting device far away from the driving shaft of the driving mechanism, and the shooting device is coupled to the rotation fixing assembly.

Furthermore, the rotation fixing component comprises a first fixing element and a rotation connecting piece fixedly arranged on the first fixing element, and the rotation connecting piece is coupled with one end of the shooting device, which is far away from the driving shaft.

Furthermore, the shooting device comprises a bearing base and a camera, the bearing base comprises two second opposite ends and an upper surface with an opening, the camera is arranged in the bearing base, and the camera is arranged towards the opening of the upper surface;

the two second opposite ends are respectively provided with a first connecting part and a second connecting part, the first connecting part is fixedly connected with the driving shaft of the driving mechanism, and the second connecting part is coupled with the rotary connecting piece of the rotary fixing component.

Furthermore, the shooting device comprises a bearing base and a camera, wherein the bearing base comprises an upper surface with an opening and two second opposite ends, the camera is arranged in the bearing base, and the camera is arranged towards the opening on the upper surface;

the two second opposite ends are respectively provided with a first connecting part and a second connecting part, the first connecting part is fixedly connected with the driving shaft of the driving mechanism, and the second connecting part is coupled with the rotary connecting piece of the rotary fixing component.

Furthermore, the first connecting portion is a through hole provided at one of the second opposite ends, the second connecting portion is a connecting shaft provided at the other second opposite end, and a retaining ring is provided on the connecting shaft.

Furthermore, the bearing base comprises a base shell and a base upper cover with the opening, the camera is arranged in the base shell, and the base upper cover is connected with the base shell.

Furthermore, a through groove communicated with the accommodating cavity is formed in one side wall of the base shell, and the flexible circuit board of the camera extends into the accommodating cavity from the through groove and is electrically connected with the main board arranged in the accommodating cavity.

As an alternative implementation manner, in an embodiment of the present invention, the groove includes two opposite inner wall surfaces, one of the inner wall surfaces is provided with a first fixing groove, the other inner wall surface of the hollow portion is provided with a second fixing groove, the first fixing groove is communicated with the hollow portion, the driving mechanism is clamped in the first fixing groove, the driving shaft of the driving mechanism is arranged from the first fixing groove toward the shooting device and is fixedly connected to the shooting device, and the rotation fixing component is clamped in the second fixing groove.

As an alternative implementation manner, in an embodiment of the present invention, the first end of the watch case is provided with a first shooting window and a second shooting window, the shooting device is disposed toward the first shooting window in the first shooting posture, and the shooting device is disposed toward the second shooting window in the second shooting posture.

Further, the first shooting window comprises a first opening arranged at the first end and a first lens arranged at the first opening, the second shooting window comprises a second opening arranged at the first end and a second lens arranged at the second opening, the first lens is sealed at the first opening, and the second lens is sealed at the second opening.

Still further, first opening and second opening are the notch cuttype opening, first opening includes first step face, the second opening includes the second step face, first lens bond in first opening the first step face, the second lens bond in the second opening the second step face.

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

according to the control method of the intelligent watch, the mainboard is used for controlling the driving mechanism to drive the shooting device to switch between the first shooting posture and the second shooting posture, and different shooting angles can be obtained by the shooting device due to the switching of the shooting postures of the shooting device. The control method of the embodiment of the invention has simple control mode, can quickly realize the adjustment of the shooting angle of the shooting device, does not need the manual adjustment of the position of the dial plate structure or the manual adjustment of the dial plate structure, has simple operation mode and high user experience.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used 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 it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a smart watch according to an embodiment of the present invention;

fig. 2 is an exploded view of a dial structure according to an embodiment of the present invention;

figure 3 is an exploded view of a watch case according to one embodiment of the present invention;

figure 4 is a schematic structural view of a watch case according to an embodiment of the invention;

fig. 5 is a schematic view of the internal structure of a dial structure disclosed in the first embodiment of the present invention;

FIG. 6 is an internal view of a camera in a first photographing orientation according to an embodiment of the present invention;

FIG. 7 is an internal view of a camera in a second photographing orientation according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a driving mechanism disclosed in the first embodiment of the present invention;

FIG. 9 is a schematic view of a disclosed rotating fixture assembly according to an embodiment of the present invention;

FIG. 10 is a schematic structural diagram of a camera according to an embodiment of the present disclosure;

fig. 11 is a flowchart of a control method of a smart watch according to a second embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "center", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate an orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meanings of these terms in the present invention can be understood by those skilled in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can 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 meanings of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The technical solution of the present invention will be further described with reference to the following embodiments and the accompanying drawings.

Since the control method of the smart watch of the embodiment of the invention is realized based on the structural design of the smart watch, the structural design of the smart watch is preferentially explained.

Example one

Referring to fig. 1 to fig. 3, an embodiment of the invention discloses an intelligent watch, which includes a watch band connected to a watch face structure 100. The dial structure 100 includes a case 1, a camera 2, and a driving mechanism 3. A housing cavity 1a is formed inside the watch case 1, a main board (not shown) is arranged in the housing cavity 1a, and the watch case 1 comprises a first end 1 b. The shooting device 2 is arranged at the first end 1b and is electrically connected with the main board, the shooting device 2 comprises a first shooting posture and a second shooting posture, and a first shooting direction of the first shooting posture and a second shooting direction of the second shooting posture form a certain angle. The driving mechanism 3 is arranged at the first end 1b of the watch case 1 and is electrically connected with the mainboard, and the driving mechanism 3 is fixedly connected with the shooting device 2. The main board is used for controlling the driving mechanism 3 to drive the shooting device 2 to switch between the first shooting attitude 11 and the second shooting attitude 12 so that the shooting device 2 obtains different shooting angles.

Among other things, this dial structure 100 can be applied to the smart watch and act as the host computer of the smart watch. The main board of the dial plate structure 100 can be used as the main board of the host of the smart watch. It can be seen that the dial structure 100 may further include a touch screen 4, and the touch screen 4 is disposed on the upper surface of the dial, forms a touch surface 111, and covers the opening of the accommodating cavity 1 a.

By adopting the mode of arranging the shooting device 2 on the first end 1b of the watch case 1, the corner position of the watch case 1 can be fully utilized, the shooting visual angle of the shooting device 2 is prevented from being shielded by an arm, meanwhile, the touch area of the watch case 1 can be prevented from being occupied, and the dial plate structure 100 is ensured to have a sufficient touch area.

In the present embodiment, the first photographing posture may be a posture when the photographing device is directed toward the touch surface 111 of the case, and the second photographing posture may be a posture when the photographing device is directed toward the side 112 of the case. That is, the first photographing direction of the first photographing posture is a direction in which the photographing device 2 faces the touch surface 111 of the wristwatch case 1, and the second photographing direction of the second photographing posture is a direction in which the photographing device faces a side surface 112 of the wristwatch case. Specifically, a certain angle formed between the first photographing direction of the second photographing posture and the second photographing direction of the second photographing posture may be 0 ° to 135 °. Preferably, the certain angle is 45 °, 90 °, 120 °, 135 °, or the like. Thus, the side 112 of the case 1 may be the side of the touch surface 111 of the case 1 that forms an angle of approximately 90 ° with the touch surface 111. Further, the driving mechanism driving the photographing device 2 to switch between the first photographing posture and the second photographing posture may include: the photographing device has a first photographing posture, a second photographing posture, and a posture between the first photographing posture and the second photographing. For example, the photographing device 2 is in a first photographing posture when facing the touch surface 111 of the case 1; when the shooting device 2 faces the side 112 of the watchcase 1, the shooting device is in a second shooting posture; when the photographing device 2 is deviated from the touch surface 111 of the wristwatch case 1 and deviated from the side 112 of the wristwatch case 1, the photographing device 2 may be in any one posture between the first photographing posture and the second photographing posture.

In the present embodiment, both ends of the case 1 of the dial structure 100 are provided with the band attachment portions 101, and the band attachment portions 101 are provided adjacent to the bottom of the case 1, and the band is attached to the band attachment portions 101. Preferably, the band attachment portion 101 may be a case ear provided on the case 1.

In the present embodiment, as shown in fig. 3 and 4, case 1 may be a plastic case or a metal case, and case 1 may be a square case. Specifically, the wristwatch case 1 may include a main case 1c having the housing cavity 1a, and a lower cover 1d covering a lower portion of the main case 1 c.

In the present embodiment, in order to improve the waterproof effect of the camera 2, a groove 13a communicating with the receiving cavity 1a is provided at the first end 1b of the watch case 1, the camera 2 can be disposed in the groove 13a, and the driving mechanism 3 can be disposed in the receiving cavity 1a or the groove 13a, so as to drive the camera 2 to rotate in the groove 13 a. Specifically, first end 1b of case 1 is an end of case 1 in its own longitudinal direction, and groove 13a may be a square groove.

The adoption sets up the mode in recess 13a with shooting device 2, has replaced the mode of externally setting up shooting device 2 at watchcase 1 outside, not only can effectively avoid shooting device 2 the condition that the collision damaged appears, because of locating shooting device 2 in recess 13a simultaneously, the accessible seals recess 13a to make inside the unable infiltration recess 13a of outside water and effectively improve shooting device 2's water-proof effects.

Further, a hollow bracket 13 is provided at first end 1b of case 1, and bracket 13 is provided with groove 13a as described above. Specifically, the bracket 13 may be integrally formed with the first end 1b of the wristwatch case 1, so as to save the manufacturing process and reduce the manufacturing cost. It will be appreciated that in other embodiments, the bracket 13 may also be embedded in the first end 1b of the watch case 1. The method specifically comprises the following steps: a slot is arranged on the first end 1b of the watch case 1, and the bracket 13 is embedded in the slot on the first end 1 b.

Further, the bracket 13 may be provided to protrude from the first end 1b in order to reinforce the structural strength of the first opposite end 1 b. The method specifically comprises the following steps: the upper surface of the bracket 13 is arranged to protrude from the upper surface of the watch case 1, and the side surface of the bracket 13 is arranged to protrude from the side surface 112 of the watch case 1.

Further, the bracket 13 includes a first portion 131 and a second portion 132 connected to the first portion 131 to form the certain angle, wherein the groove 13a is formed between the second portion 132 and the first portion 131. Specifically, first portion 131 is provided projecting from the upper surface of case 1, and second portion 132 is provided projecting from side surface 112 of case 1. And since watch case 1 is a square case, the angle between second portion 132 and first portion 131 is 90 °. That is, when the photographing device 2 is in the first photographing posture, the photographing device 2 is disposed toward the first part 131, and when the photographing device is in the second photographing posture, the photographing device 2 is disposed toward the second part 132.

In the present embodiment, the first end 1b of the wristwatch case 1 is provided with a first photographing window 113 and a second photographing window 114, the photographing device 2 is disposed toward the first photographing window 113 in the first photographing posture, and the photographing device 2 is disposed toward the second photographing window 114 in the second photographing posture. Specifically, the first photographing window 113 is provided on the first portion 131 of the bracket 13, and the second photographing window 114 is provided on the second portion 132 of the bracket.

Further, the first photographing window 113 includes a first opening 113a and a first lens 113b, the second photographing window 114 includes a second opening 114a and a second lens 114b, the first opening 113a is disposed on the first portion 131, the first lens 113b is disposed on the first opening 113a and covers the first opening 113a, the second opening 114a is disposed on the second portion 132, and the second lens 114b is disposed on the second opening 114a and covers the second opening 114 a. In this way, the photographing device 2 can align the periphery of the dial structure 100, the external scenery or scenery with the first lens 113b or the second lens 114b at the time of photographing, thereby realizing photographing.

In addition, the first lens 113b and the second lens 114b are used for respectively covering the first opening 113a and the second opening 114a, so that dust, impurities and external water can be effectively prevented from entering the accommodating cavity 1a through the first opening 113a and the second opening 114a, and the problem that the shooting device 2 and the main board have operation faults is caused.

Further, the first opening 113a and the second opening 114a are both communicated with the groove 13a, so that the photographing device 2 can rotate in the groove 13a and between the first opening 113a and the second opening 114a, thereby obtaining different photographing angles and avoiding the shielding of the photographing view angle.

Specifically, the first opening 113a and the second opening 114a may be stepped openings, the first opening 113a includes a first stepped surface (not shown), the second opening 114a includes a second stepped surface (not shown), the first lens 113b is adhered to the first stepped surface of the first opening 113a, and the second lens 114b is adhered to the second stepped surface of the second opening 114a, so as to close the first opening 113a and the second opening 114 a. Preferably, the first lens 113b is adhered to the first step surface of the first opening 113a by waterproof thermal adhesive, and the second lens 114b is adhered to the second step surface of the second opening 114a by waterproof thermal adhesive, so that the first lens 113b and the second lens 114b can be tightly matched with the bracket 13, thereby further preventing external water from permeating through the joints of the first lens 113b, the second lens 114b, the first step surface and the second step surface, and improving the waterproof effect of the dial plate structure 100. It is understood that in other embodiments, the first lens 113b and the second lens 114b can be adhered to the first step surface and the second step surface by glue, foam glue, etc.

In this embodiment, in order to protect the first lens 113b and the second lens 114b on the support 13, the dial structure 100 further includes a protection frame 6, and the protection frame 6 is sleeved outside the support 13. Specifically, the protection frame 6 may be a metal protection frame 6, and the protection frame 6 may be formed on the outer surface of the bracket 13 by a secondary injection molding method, so as to protect the bracket 13 and prevent the first lens 113b and the second lens 114b from being damaged when the lens falls.

Further, the protection frame 6 may be matched to the structure of the support 13 in order to avoid blocking the shooting area of the shooting device 2. That is, the protection frame 6 is provided with a through groove 6a at a position corresponding to each of the first lens 113b and the second lens 114 b.

Referring to fig. 4 to 7, in the present embodiment, the camera 2 and the driving mechanism 3 are disposed in the recess 13a of the bracket 13, so that the camera 2 can be switched between the first photographing posture 11 and the second photographing posture 12 to obtain different photographing angles. Of course, in other embodiments, drive mechanism 3 may also be disposed within a receiving cavity of case 1.

Further, the groove 13a of the bracket 13 includes two opposite inner wall surfaces, one of the inner wall surfaces is provided with a first fixing groove (not shown), the other inner wall surface is provided with a second fixing groove (not shown), and both the first fixing groove and the second fixing groove are communicated with the groove 13 a. That is to say, the two inner wall surfaces that set up relatively in recess 13a are equipped with the opening and towards first fixed slot and the second fixed slot of this recess 13a, this actuating mechanism 3 card is located this first fixed slot, and actuating mechanism 3 includes drive shaft 3a, and actuating mechanism 3's drive shaft 3a sets up and fixed connection in this shooting device 2 towards the shooting device 2 that is located recess 13a from this first fixed slot to realize being connected of actuating mechanism 3 and shooting device 2, and then realize driving shooting device 2 through actuating mechanism 3 and rotate.

Preferably, to further achieve the fixing of the drive mechanism 3 in the recess 13a, the drive mechanism 3 may be fixedly attached to the bottom of the watch case by means of a fixing plate and screws. Further, the driving mechanism 3 may be a stepping motor, and the driving shaft 3a is a motor rotation shaft of the stepping motor.

By providing the first fixing groove on one of the inner wall surfaces of the groove 13a and by clamping the driving mechanism 3 in the first fixing groove, the driving mechanism 3 can be positioned and fixed in the groove 13a, which is advantageous for assembling the dial structure 100.

Further, initially, as shown in fig. 5, the photographing device 2 is located in the first photographing posture 11, and the photographing device 2 is disposed toward the first lens 113b, when the user needs to adjust the photographing angle of the photographing device 2, the driving mechanism 3 can drive the photographing device 2 to rotate, at this time, the photographing device 2 can rotate from the first photographing posture 11 to be located in the second photographing posture 12, and is disposed toward the second lens 114b (as shown in fig. 6), that is, the adjustment of the photographing angle of the photographing device 2 is achieved.

Therefore, the driving mechanism 3 drives the shooting device 2 to adjust and change the shooting angle, so that the requirements of users on different shooting angles can be met, the user does not need to rotate the arm, and the user experience is high.

Referring to fig. 1, 8 to 9, in order to position and mount the camera 2 in the recess 13a of the bracket 13, the dial structure 100 further includes a rotation fixing component 7, the rotation fixing component 7 is disposed in the recess 13a of the bracket 13 and is located at an end of the camera 2 away from the driving shaft 3a of the driving mechanism 3, and the camera 2 is coupled to the rotation fixing component 7. Specifically, the rotation fixing component 7 is clamped in the second fixing groove, and it should be understood that the rotation fixing component 7, the shooting device 2 and the driving shaft 3a of the driving mechanism 3 are arranged in the groove 13a approximately along the same straight line, so that the installation is convenient, and the driving of the driving mechanism 3 to the shooting device 2 is facilitated.

Further, the rotation fixing assembly 7 includes a first fixing element 7a and a rotation connecting member 7b fixedly disposed on the first fixing element 7a, the first fixing element 7a is clamped in the second fixing groove, and the rotation connecting member 7b is coupled to an end of the photographing device 2 away from the driving shaft 3 a. Specifically, the first fixing element 7a is an approximately L-shaped strip plate, and includes a horizontal portion 71 and a vertical portion 72, wherein the horizontal portion 71 is fixed to the watch case 1 by a screw, the vertical portion 72 is clamped in the second fixing groove, the rotating connecting member 7b is fixed to the vertical portion 72, and in order not to damage the photographing device 2, the rotating connecting member 7b plays a role in buffering and protecting the photographing device 2, and can be a C-shaped silicon elastic sheet.

By adopting the mode of coupling the shooting device 2 and the rotating connecting piece 7b, the rotating motion of the shooting device 2 can be realized, meanwhile, the rotating connecting piece 7b can be used for supporting and buffering the shooting device 2, and in addition, the positioning and installation of the shooting device 2 in the groove 13a can be facilitated.

In this embodiment, the photographing device 2 includes a carrying base 2a and a camera 2b, the carrying base 2a includes an upper surface having an opening and two second opposite ends 22, the camera 2b is disposed in the carrying base 2a, and the camera 2b is disposed toward the opening of the upper surface. The two second opposite ends 22 are respectively provided with a first connecting portion 22a and a second connecting portion 22b, the first connecting portion 22a is fixedly connected with the driving shaft 3a of the driving mechanism 3, and the second connecting portion 22b is coupled with the rotary connecting member 7b of the rotary fixing component 7. Specifically, the bearing base 2a is a square base, and the two second opposite ends 22 are two ends of the bearing base 2a along the length direction thereof. In the initial case, the upper surface of the carrying base 2a is set toward the shooting direction in the first shooting attitude 11, so that the camera 2b on the carrying base 2a is also set toward the shooting direction in the first shooting attitude 11.

Further, the carrying base 2a includes a base housing 23 and a base upper cover 24 having the opening, and the upper surface is an upper surface of the base upper cover 24. The camera 2b is disposed in the base housing 23, and the base upper cover 24 is connected to the base housing 23.

The adoption is located camera 2b in base housing 23 to the mode of taking a view of camera 2b through the opening of base upper cover 24 and keeping away the blank design, when satisfying camera 2 b's the frame of looking a view, still usable base housing 23 plays the guard action to camera 2b, avoids camera 2b to appear the condition of damaging.

Furthermore, in order to connect the camera 2b with the motherboard located in the accommodating cavity 1a, a groove 23a communicated with the accommodating cavity 1a is formed in a side wall of the base housing 23, and the flexible circuit board of the camera 2b can extend into the accommodating cavity 1a from the groove 23a and is electrically connected with the motherboard located in the accommodating cavity 1a, so that the electrical connection and control between the motherboard and the camera 2b are realized.

Furthermore, the first connecting portion 22a is a through hole and a C-shaped gasket provided at one of the second opposite ends 22, and the driving shaft 3a of the driving mechanism 3 is inserted into the through hole and fixed by the C-shaped gasket, so as to fix the driving shaft 3a and the first connecting portion 22 a. The second connecting portion 22b is a connecting shaft disposed at the other second opposite end 22, the connecting shaft is provided with a retaining ring, the connecting shaft is disposed through the rotating connecting member 7b and is connected to the rotating connecting member through the retaining ring, so that the second connecting portion 22b is coupled to the rotating connecting member 7 b.

According to the dial structure 100 provided by the first embodiment of the present invention, the shooting device 2 is disposed in the support 13, and the first lens 113b and the second lens 114b are bonded to the first opening 113a and the second opening 114a of the support 13, so that the first shooting posture 11 and the second shooting posture 12 are formed on the first lens 113b and the second lens 114b, which is not only beneficial to the waterproof design of the shooting device 2, but also makes the overall structure of the dial compact.

In addition, adopt 3 drive of actuating mechanism to shoot device 2 and rotate the mode that obtains different shooting angles between first shooting gesture 11 and second shooting gesture 12, not only can realize different shooting angles through a camera 2b, equipment cost is low and occupation space is few, and still need not user manual adjustment and shoot the angle, satisfy user's different shooting demands, user use experience nature is high.

Example two

The second embodiment of the invention discloses a control method of an intelligent watch, and the intelligent watch can be the intelligent watch of the first embodiment. Specifically, the method comprises the following steps:

201. the main board controls the driving mechanism to drive the shooting device to rotate between the first shooting posture and the second shooting posture, so that the shooting device can obtain different shooting angles.

That is, the rotation of the photographing device is driven by the main board control driving mechanism, so that the photographing device can obtain different photographing angles according to the difference of the angle and the position of the rotation.

Further, the step 201 specifically includes:

the method comprises the steps that a main board detects real-time shooting operation triggered by a user aiming at a shooting device, and determines a shooting angle corresponding to the real-time shooting operation from a corresponding relation between the shooting operation and a shooting angle of the shooting device, wherein the corresponding relation is acquired in advance;

the main board determines the target number of turns and the rotating direction of the driving mechanism required to rotate according to the shooting angle corresponding to the real-time shooting operation, and controls the driving mechanism to rotate along the rotating direction until the number of turns of the driving mechanism reaches the target number of turns, so that the shooting angle of the shooting device reaches the shooting angle corresponding to the real-time shooting operation.

Wherein the photographing apparatus can achieve different photographing effects and photographing requirements by switching from the first photographing posture and the second photographing posture.

As an optional implementation manner, the detecting, by the main board, the real-time shooting operation triggered by the user for the shooting device may include: the mainboard detects the real-time shooting operation that the user triggered to predetermine the touch position on the touch-sensitive screen of smart watch. Specifically, the preset touch position on the touch screen may be a position where an icon of the shooting device on the touch screen is located. That is, when the main board detects that the user touches an icon of the shooting device on the touch screen, the shooting angle corresponding to the moment can be determined by determining the corresponding relationship between the preset acquired shooting operation and the shooting angle of the shooting device. For example, when the main board detects that the user touches an icon of the camera, it can be determined through the touch operation that the camera should enter a shooting function (self-shooting or shooting the surrounding environment), so as to control the driving mechanism to rotate to a corresponding angle, and further execute the corresponding shooting function. It is understood that in other embodiments, the predetermined touch position on the touch screen may also be a position of other application icons (e.g., WeChat, Payment treasure, etc. application icons) on the touch screen that can be launched or entered into the camera and touch the scan function via the application icons.

Therefore, the main board detects that the real-time shooting operation triggered by the user to the shooting device is not only an operation which can be directly triggered to the shooting device, but also an operation of the shooting device triggered by other application icons.

As another optional implementation, the detecting, by the main board, a real-time shooting operation triggered by a user for the shooting device may further include: the main board detects a pressing operation of a user to a certain position on the watch case, and the certain position is provided with a pressure sensor. In particular, the certain position on the watch case may be the position of a key of the photographing device. It will be appreciated that the location on the case may also be the location of a button that triggers an application (e.g., a swipe function in WeChat, Payment Bao) that is initiated by the camera.

Further, the pressure sensor is arranged to sense the pressing force of the user, for example, the pressing force value of the user may be set to be compared with a preset pressure value, and if the pressing force value of the user is greater than or equal to the preset pressure value, it may be considered that the user has triggered the key of the photographing device, so as to start the photographing device.

The pressure sensor is adopted to detect the pressure value at a certain position of the watchcase in real time, so that the condition that a user presses carelessly or mistakenly (the pressure value is smaller than a preset pressure value) can be eliminated, and the accuracy of executing user operation is improved.

As another optional implementation, the detecting, by the main board, a real-time shooting operation triggered by a user for the shooting device may further include: the mainboard detects the operation of knocking of user to a certain position on the watchcase, and this certain position department is provided with pressure sensor and vibration sensor. In particular, the certain position on the watch case may be the position of a key of the photographing device. Alternatively, the position on the watch case may be the position of a button that triggers an application (e.g., WeChat, Scan in Payment Bao) that is initiated by the camera.

Further, the pressure sensor is arranged to sense the pressing force of the user, and the vibration sensor is arranged to sense the knocking force of the user, for example, the pressing force value of the user can be set to be compared with a preset pressure value, the knocking force value of the user can be set to be compared with a preset vibration value, if the pressing force value of the user is greater than or equal to the preset pressure value, and meanwhile, the knocking force value of the user is greater than or equal to the preset vibration value, the user can be considered to trigger the key of the shooting device, and the shooting device is started.

The pressure sensor is adopted to detect the pressure value at a certain position of the watchcase in real time, and the vibration sensor is adopted to detect the knocking force of the user in real time, so that the condition that the user knocks carelessly or mistakenly (the pressure value is smaller than a preset pressure value and the vibration value is smaller than a preset vibration value) can be eliminated, and the accuracy of executing user operation is improved.

As still another alternative, the detecting, by the main board, the real-time shooting operation triggered by the user for the shooting device may include: the mainboard detects the pressing operation that the user triggered to the physical button that sets up on the watchcase. Specifically, the physical key may be a physical key of the photographing device. Alternatively, the physical key may be other physical keys that can trigger an application program started by the shooting device, such as a scanning function of WeChat, a scanning function of Payment treasure, and the like.

For example, different photographing functions realized by rotating the photographing device between different photographing regions will be specifically described in conjunction with the above-described case structure. Specifically, the example is given in which the camera is used for video and self-timer shooting in the first shooting posture, and the camera is used for shooting the surrounding environment and code scanning payment in the second shooting posture.

In the present embodiment, since the angle formed by the first photographing direction of the first photographing posture and the second photographing direction of the second photographing posture is 90 °, the rotational angle of the photographing device is 0 to 90 °. The real-time shooting operation triggered by the user for the shooting device may be: and the user clicks or touches a corresponding shooting button or shooting icon on the touch screen, selects a self-timer or rear camera option, or clicks or touches a corresponding WeChat or Paibao button or icon on the touch screen, and opens a video or scans a scan, and at the moment, the mainboard can open the shooting device according to the operation and determine the shooting angle.

The pre-acquired shooting operation may be a shooting operation stored in the main board in advance, for example, a shooting icon, a WeChat icon, a Paibao icon on the touch screen, and a video and scanning operation.

In this embodiment, the rotation direction of the driving mechanism may be a clockwise direction or a counterclockwise direction, because the photographing device is always rotated back and forth between the first photographing posture and the second photographing posture, and therefore, if the photographing device is in the first photographing posture, the direction in which the photographing device is rotated from the first photographing posture to the second photographing posture is a clockwise direction; if the shooting device is in the second shooting posture, the direction of the shooting device rotating from the second shooting posture to the first shooting posture is the anticlockwise direction.

For example, when the user touches a shooting icon on the touch screen and selects a self-shooting, if the shooting device is already in the first shooting posture at the moment, the main board can control the driving mechanism to have no need of action according to the position of the shooting device at the moment, and the user can align the shooting frame of the shooting device to the face or other positions, so that the self-shooting function is realized. And when a user touches the WeChat icon on the touch screen and triggers a scanning function, if the shooting device is still in the first shooting gesture at the moment, the mainboard can determine the shooting angle of the shooting device according to the operation and control the driving mechanism to rotate clockwise, so that the driving mechanism is utilized to drive the shooting device to rotate until the shooting device is converted into the second shooting gesture, and at the moment, the shooting device can perform scanning operation.

It should be noted that, in the above-described arrangement, the photographing operations performed by the photographing apparatus in the first photographing posture and in the second photographing posture may be set according to the usage habits of the user, for example, the photographing apparatus in the first photographing posture for implementing a self-photographing, video function, and the photographing apparatus in the second photographing posture for implementing a scan, photographing a surrounding scene, and/or a scenery function. And, in the initial case, can set up acquiescence shoot device in first shooting gesture or be in second shooting gesture, like this, when will realize above-mentioned function, it is more convenient fast.

In addition, after the driving mechanism drives the shooting device to rotate to the corresponding shooting angle, the shooting device can be located at the current posture (for example, the first shooting posture or the second shooting posture), and the shooting device is driven to continue to rotate through the driving mechanism again until the next shooting device is triggered to execute different shooting functions.

202. The method comprises the steps that a main board obtains current imaging content of a shooting device and judges whether the current imaging content is matched with target imaging content or not;

in this embodiment, when the main board determines in step 202 that the current imaging content is not matched with the target imaging content, step 203 is triggered to be executed; when the main board determines in step 202 that the current imaging content matches the target imaging content, the process is ended.

The current imaging content of the shooting device can include content shot by the shooting device at the current position, and the target imaging content can be content shot by shooting operation performed by the shooting device in a corresponding shooting area, for example, when the shooting device is in a first shooting posture for self-shooting operation, the target imaging content can be the face of a user wearing the smart watch; or when the shooting device is in the second shooting posture to perform scanning operation, the target imaging content can be a two-dimensional code, a bar code or the like.

203. And when the judgment result is negative, the main board controls the driving mechanism to drive the shooting device to rotate until the current imaging content is matched with the target imaging content.

In this embodiment, the controlling the driving mechanism by the main board to drive the camera to rotate until the current imaging content matches the target content includes:

the main board determines the same imaging content of the current imaging content and the target imaging content, and judges the distance values of the center position of the same imaging content from the boundary of the current imaging content in four preset directions to obtain four distance values;

the main board determines the target rotation direction of the shooting device according to the four distance values, and controls the driving mechanism to drive the shooting device to rotate towards the target rotation direction until the current imaging content is matched with the target imaging content.

For example, if the frame of the camera is a square frame, the distance values in the four vertical directions to the frame based on the center of the same imaging content (the center may be the center of the square frame or set eccentrically to the center of the square frame) are the four distance values. Alternatively, if the photographing frame of the photographing apparatus is a circular frame, the distance values in the four vertical directions to the photographing frame based on the center of the same imaged content (the center may be the center of the circular frame or set eccentrically to the center of the circular frame) are the four distance values.

The target rotation direction may be clockwise or counterclockwise.

The rotation position of the shooting device can be effectively corrected by judging the matching between the current imaging content and the target imaging content of the shooting device, the position where the shooting device stops rotating is ensured to be a target shooting area, and the imaging effect of the shooting device is further ensured.

Therefore, by implementing the method of the second embodiment of the invention, the mainboard can be used for driving the shooting device to rotate by controlling the rotation of the driving mechanism, so that the shooting device can obtain different shooting angles, different shooting requirements of users can be met, and meanwhile, the mainboard can be used for correcting the rotating position and the rotating angle of the shooting device in real time, so that a target shooting area at the position where the shooting device stops rotating is ensured, and the imaging effect of the shooting device is ensured.

The control method of the smart watch disclosed in the embodiment of the present invention is described in detail above, and the principle and the implementation manner of the present invention are explained in this document by applying specific examples, and the description of the above embodiment is only used to help understanding the core idea of the control method of the smart watch of the present invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present invention.

Claims (10)

1. The control method of the intelligent watch is characterized in that the intelligent watch comprises a watch face structure and a watch band connected with the watch face structure, and the watch face structure comprises

The watch comprises a watch shell, wherein an accommodating cavity is formed in the watch shell, a mainboard is arranged in the accommodating cavity, the watch shell comprises a first end, the first end is provided with a hollow bracket, the upper surface of the bracket is convexly arranged on the upper surface of the watch shell, and the side surface of the bracket is convexly arranged on the side surface of the watch shell;

the shooting device is arranged in the hollow part of the bracket and is electrically connected with the main board, the shooting device has a first shooting posture and a second shooting posture, and a first shooting direction of the first shooting posture and a second shooting direction of the second shooting posture form a certain angle; and

the driving mechanism is arranged in the hollow part of the bracket and is electrically connected with the main board, and the driving mechanism is fixedly connected with the shooting device; the method comprises the following steps:

the main board controls the driving mechanism to drive the shooting device to switch between the first shooting posture and the second shooting posture, so that the shooting device obtains different shooting angles.

2. The method of claim 1, wherein the main board controlling the driving mechanism to drive the camera to switch between the first shooting attitude and the second shooting attitude so that the camera obtains different shooting angles comprises:

the main board detects real-time shooting operation triggered by a user aiming at the shooting device, and determines a shooting angle corresponding to the real-time shooting operation from a corresponding relation between the shooting operation obtained in advance and the shooting angle of the shooting device;

the main board determines the target number of turns and the rotating direction of the driving mechanism required to rotate according to the shooting angle corresponding to the real-time shooting operation, and controls the driving mechanism to rotate along the rotating direction until the number of turns of the driving mechanism reaches the target number of turns, so that the shooting angle of the shooting device reaches the shooting angle corresponding to the real-time shooting operation.

3. The method of claim 2, wherein the mainboard detects a real-time shooting operation triggered by a user for the shooting device, and comprises:

the main board detects touch operation triggered by a user at a preset touch position on a touch screen of the smart watch; or,

the mainboard detects the pressing operation triggered by a user aiming at a preset physical key arranged on the watch case; or,

the main board detects the pressing operation of a user on a certain position on the watch case, and a pressure sensor is arranged at the certain position; or,

the main board detects the knocking operation of a user on a certain position on the watchcase, and a pressure sensor and a vibration sensor are arranged at the certain position.

4. The method according to claim 1 or 2, characterized in that the method further comprises

The main board obtains the current imaging content of the shooting device and judges whether the current imaging content is matched with the target imaging content;

and when the judgment result is negative, the main board controls the driving mechanism to drive the shooting device to rotate until the current imaging content is matched with the target imaging content.

5. The method of claim 4, wherein the main board controlling the driving mechanism to drive the camera to rotate until the current imaging content matches the target imaging content comprises:

the main board determines the same imaging content of the current imaging content and the target imaging content;

the main board judges the distance values of the center position of the same imaging content from the boundary of the current imaging content in four preset directions to obtain four distance values;

the main board determines the target rotation direction of the shooting device according to the four distance values, and controls the driving mechanism to drive the shooting device to rotate towards the target rotation direction until the current imaging content is matched with the target imaging content.

6. The method of claim 1, wherein the first photographing direction of the first photographing posture is a direction of the photographing device toward a touch surface of the case, and the second photographing direction of the second photographing posture is a direction of the photographing device toward a side of the case.

7. The method of claim 1 or 6, wherein the first end is provided with a recess communicating with the receiving cavity of the watch case, the camera is provided in the recess, and the driving mechanism is provided in the recess or the receiving cavity, the driving mechanism driving the camera to rotate in the recess.

8. The method of claim 7, wherein the driving mechanism is disposed in the recess, the driving mechanism includes a driving shaft fixedly connected to the camera, the dial structure further includes a rotation fixing member disposed in the hollow portion and located at an end of the camera remote from the driving shaft of the driving mechanism, the camera being coupled to the rotation fixing member.

9. The method of claim 8, wherein the recess comprises two opposite inner wall surfaces, one of the inner wall surfaces is provided with a first fixing groove, the other inner wall surface of the hollow portion is provided with a second fixing groove, the first fixing groove is communicated with the hollow portion, the driving mechanism is clamped in the first fixing groove, the driving shaft of the driving mechanism is arranged from the first fixing groove towards the shooting device and fixedly connected to the shooting device, and the rotation fixing component is clamped in the second fixing groove.

10. A method according to any one of claims 1 to 3, wherein the first end of the watch case is provided with a first and a second camera window, the camera being arranged towards the first camera window in the first camera position and towards the second camera window in the second camera position.

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