CN114237022A - Dial plate and intelligent wearing equipment - Google Patents

Abstract

The invention relates to the technical field of wearable equipment, and particularly discloses a dial plate and intelligent wearable equipment, wherein the dial plate comprises a chassis, a dial plate main body and a transmission mechanism, a mounting groove with a notch is formed in the chassis, the dial plate main body is movably connected to the chassis and can cover the notch of the mounting groove, the transmission mechanism is connected to the chassis and is connected with the dial plate main body, the transmission mechanism is arranged in the mounting groove and can drive the dial plate main body to move towards or away from the chassis, and the dial plate main body can be separated from the chassis when moving away from the chassis. The dial plate provided by the invention has high flexibility in use and is more convenient for a wearer to use.

Description

Dial plate and intelligent wearing equipment

Technical Field

The invention relates to the technical field of wearable equipment, in particular to a dial and intelligent wearable equipment.

Background

At present, the function of intelligent wearing equipment is more and more abundant, for example, functions such as video, shoot can be realized on intelligent wearing equipment completely. However, for the wearable smart wearable device at ordinary times, for example, a watch worn on a wrist often needs to lift an arm high enough to align a camera with a shooting object during video or shooting, which is very inconvenient.

Disclosure of Invention

The main object of the present invention is to provide a dial intended to increase the flexibility of use of the dial.

To achieve the above object, the present invention provides a dial plate including:

a base plate formed with a mounting groove having a notch;

the dial plate main body is movably connected to the chassis and can cover the notch of the mounting groove; and

the transmission mechanism is connected to the chassis and connected with the dial plate main body, the transmission mechanism is arranged in the mounting groove and can drive the dial plate main body to face or deviate from the chassis to move, and the dial plate main body can be separated from the chassis when deviating from the chassis to move.

Optionally, the transmission mechanism is provided with a transmission arm, the transmission arm comprising:

the first arm body is hinged to the chassis; and

the dial plate comprises a first arm body, one end of the first arm body is hinged to the dial plate body, and the dial plate body is connected to one end, deviating from the first arm body, of the second arm body.

Optionally, the first arm body is provided with a guide groove, the guide groove is arranged along the extending direction of the first arm body, the transmission mechanism further comprises a connecting piece, and the connecting piece comprises:

the rotating rod is rotatably connected to the second arm body;

the connecting rod is connected with the rotating rod; and

the guide rod is connected to one end, deviating from the dwang, of the connecting rod and is inserted into the guide groove, and the guide rod can move along the guide groove when the first arm body and the second arm body rotate relatively.

Optionally, two transmission arms are arranged, the two transmission arms are arranged at intervals, and the connecting rod is arranged between the two transmission arms;

two opposite ends of the guide rod are respectively connected with the first arm bodies of the two transmission arms and movably inserted into a guide groove formed by the first arm bodies;

the two opposite ends of the rotating rod are respectively connected with the second arm bodies of the two transmission arms in a rotating mode.

Optionally, the guide groove penetrates through two opposite surfaces of the first arm, two opposite ends of the guide rod are respectively protruded from two opposite surfaces of the two first arms, and two opposite ends of the rotating rod are respectively protruded from two opposite surfaces of the two second arms;

the connecting piece still includes two at least stiffeners, wherein two the stiffener is located two respectively the both sides that the driving arm carried on the back mutually, one the opposite both ends of stiffener connect respectively in the guide bar with the dwang is located the tip with one side of driving arm.

Optionally, the transmission mechanism further comprises a first driving assembly, and the first driving assembly is connected with the guide rod and can drive the guide rod to move back and forth along the guide groove.

Optionally, the connecting member further includes a connecting body connected to the guide rod, and the first driving assembly includes:

the first driving piece is rotatably connected to the chassis; and

the ball screw is connected with the first driving piece and can be driven by the first driving piece to rotate, and the connecting main body is sleeved on the ball screw and can reciprocate along the length direction of the ball screw.

Optionally, the transmission mechanism further includes a second driving assembly, and the second driving assembly is mounted in the chassis and can drive the first arm body to rotate relative to the chassis;

and/or the dial plate further comprises a rotating mechanism, the rotating mechanism comprises a connecting structure and a supporting platform, the connecting structure is hinged to one end, away from the first arm body, of the second arm body, the supporting platform is connected to the connecting structure and can rotate relative to the second arm body along with the connecting structure, and the dial plate main body is connected to one side, away from the connecting structure, of the supporting platform;

and/or a rotary driving piece is arranged at one end of the second arm body, which is far away from the first arm body, and the rotary driving piece is connected with the dial plate main body and can drive the dial plate main body to rotate along the circumferential direction;

and/or the dial plate main body is detachably connected to the second arm body.

Optionally, a peripheral plate is arranged on one side of the chassis, where the mounting groove is formed, the peripheral plate is surrounded by the insertion groove, an inner surrounding plate is arranged on one side of the dial plate main body, which faces the chassis, and the peripheral plate is sleeved outside the inner surrounding plate;

or the chassis is provided with a second magnetic part, the dial plate main body is provided with a second magnetic part, and the second magnetic part is detachably adsorbed on the second magnetic part;

or, the groove lateral wall of mounting groove is equipped with one of spacing arch or spacing groove, the circumference surface of dial plate main part is equipped with one of spacing arch or spacing groove wherein the other, when dial plate main part lid closes the notch of mounting groove, spacing arch is inserted and is located the spacing inslot.

The invention also provides intelligent wearing equipment, which comprises a dial plate, wherein the dial plate comprises:

a base plate formed with an installation groove having a notch;

the dial plate main body is movably connected to the chassis and can cover the notch of the mounting groove; and

drive mechanism, drive mechanism connect in the chassis to be connected with the dial plate main part, drive mechanism locates in the mounting groove, and can drive the dial plate main part and move towards or deviate from the chassis, the dial plate main part can break away from the chassis when deviating from the chassis and moving.

The technical scheme of the invention provides a dial plate which comprises a chassis, a dial plate main body and a transmission mechanism, wherein the chassis is provided with an installation groove with a notch, the dial plate main body can cover the notch, and the transmission mechanism is arranged in the installation groove and can drive the dial plate main body to move towards or away from the chassis. The dial provided by the present application has two forms. The dial body can be connected with the chassis and covers the notch of the mounting groove when in use. When the person of wearing need use the functional structure in the dial plate main part to operate (for example, use the function of making a video recording to carry out operations such as video or shooting), can drive the dial plate main part through drive mechanism and move towards deviating from the chassis direction to make the dial plate main part break away from the chassis, drive mechanism can lift the dial plate main part promptly, thereby can reduce the person of wearing and need lift the wrist and lift the height of dial plate, and then improve person of wearing's use and experience. After the dial plate is used, the dial plate main body can be driven to move reversely through the transmission mechanism, so that the dial plate main body can return to the initial position to cover the notch of the mounting groove. The dial plate provided by the invention has higher flexibility in use and is more convenient for a wearer to use.

In addition, the mounting groove that the chassis formed still is convenient for drive mechanism's accomodating and arrangement for the structure of dial plate is more succinct, and occupation space is littleer, and still makes when daily use (when the dial plate main part does not break away from the chassis promptly) the structure of dial plate neatly, pleasing to the eye.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic structural view of an embodiment of the dial of the present invention;

FIG. 2 is a schematic structural view of the watch face shown in FIG. 1 with the chassis removed;

fig. 3 is a schematic view of the structure of the transmission mechanism in the dial shown in fig. 1.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Dial plate	33	First drive assembly
10	Chassis	34	Connecting piece
				10a	Mounting groove		341	Connecting body
11	Peripheral board	342	Rotating rod
				11a	Plug-in groove	343	Connecting rod
20	Dial plate main body	344	Guide rod
				21	Inner coaming	345	Reinforcing bar
30	Transmission mechanism	346	Switching pole
				31	Mounting seat	35	Second drive assembly
32	Transmission arm	40	Rotating mechanism
				321	First arm body	41	Connection structure
321a	Guide groove		42					Support table
				322	Second arm body	43	Rotary driving member

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

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.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the meaning of "and/or" appearing throughout is to include three juxtapositions, exemplified by "A and/or B," including either the A or B arrangement, or both A and B satisfied arrangement. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

At present, the function of intelligent wearing equipment is more and more abundant, for example, functions such as video, shoot can be realized on intelligent wearing equipment completely. However, for the intelligent wearable device worn on the wrist at ordinary times, in order to align the camera with the shooting object during video or shooting, it is very inconvenient to need to lift the arm at high height.

In order to solve the above problems, the present application provides a dial 100, referring to fig. 1 to 3.

In the embodiment of the present invention, the dial 100 includes a chassis 10, a dial main body 20, and a transmission mechanism 30, the chassis 10 is formed with a mounting groove 10a having a notch, the dial main body 20 is movably connected to the chassis 10 and can cover the notch of the mounting groove 10a, the transmission mechanism 30 is connected to the chassis 10 and is connected to the dial main body 20, the transmission mechanism 30 is disposed in the mounting groove 10a and can drive the dial main body 20 to move toward or away from the chassis 10, and the dial main body 20 can be separated from the chassis 10 when moving away from the chassis 10.

The dial 100 may have a function of photographing, real-time video, or video playing, for example, when the dial 100 has a function of photographing or real-time video, the dial 100 may be provided with a photographing module, and the photographing module may be provided in the dial body 20. The shape of the chassis 10 and the dial body 20 may be square, circular or other shapes, and may be specifically set according to actual requirements, and is not further limited herein.

It is understood that the transmission mechanism 30 may be a telescopic rod or a folding arm, etc. to drive the dial main body 20 to move towards or away from the dial main body 20 by telescopic folding of the transmission mechanism 30, i.e., to raise or lower the dial main body 20 relative to the dial 100. The dial 100 provided by the present application can drive the transmission mechanism 30 to move through a manual driving manner or an automatic driving manner, so that the transmission mechanism 30 can drive the dial main body 20 to move towards or away from the chassis 10. When the transmission mechanism 30 is manually driven, the wearer can drive the transmission mechanism 30 by holding the dial main body 20 and stretching the dial main body 20 relative to the chassis 10. When the transmission mechanism 30 is automatically driven, the transmission mechanism 30 can be driven to automatically expand or fold through a starting mode such as a mechanical key or a touch screen key.

The technical scheme of the invention provides a dial 100, the dial 100 comprises a chassis 10, a dial main body 20 and a transmission mechanism 30, the chassis 10 is provided with a mounting groove 10a with a notch, the dial main body 20 can cover the notch, and the transmission mechanism 30 is arranged in the mounting groove 10a and can drive the dial main body 20 to move towards or away from the chassis 10. The present application provides a dial 100 having two configurations. The dial main body 20 may be coupled to the chassis 10 in normal use and cover the notch of the mounting groove 10 a. When the person of wearing needs to use the functional structure on the dial plate main part 20 to operate (for example, use the function of making a video recording to carry out operations such as video or shooting), can drive dial plate main part 20 through drive mechanism 30 and move towards deviating from chassis 10 direction to make dial plate main part 20 break away from chassis 10, drive mechanism 30 can lift dial plate main part 20 promptly, thereby can reduce the required wrist of lifting of the person of wearing and lift the height of dial plate, and then improve person of wearing's use and experience. After the use, the dial main body 20 can be driven to move reversely through the transmission mechanism 30, so that the dial main body 20 can return to the initial position to cover the notch of the mounting groove 10 a. The dial 100 provided by the invention has higher flexibility in use and is more convenient for a wearer to use.

In addition, the mounting groove 10a formed by the chassis 10 is also convenient for the transmission mechanism 30 to store and arrange, so that the structure of the dial plate 100 is simpler, the occupied space is smaller, and the structure of the dial plate 100 is neater and more beautiful in daily use (namely, when the dial plate main body 20 is not separated from the chassis 10).

Referring to fig. 1, in an embodiment of the present application, the transmission mechanism 30 is provided with a transmission arm 32, the transmission arm 32 includes a first arm 321 and a second arm 322, the first arm 321 is hinged to the chassis 10, one end of the second arm 322 is hinged to the first arm 321, and the dial main body 20 is connected to one end of the second arm 322 away from the first arm 321.

It is understood that providing the transmission mechanism 30 as the foldable transmission arm 32 can reduce the thickness of the dial 100, compared to providing the transmission mechanism 30 as a telescopic rod. Moreover, the design of the transmission arm 32 enables the thickness of the end part of the second arm 322 connected with the dial main body 20 to be unchanged when the dial main body 20 is separated from the chassis 10, so that the supporting strength of the transmission mechanism 30 on the dial main body 20 and the connection stability of the transmission mechanism 30 and the dial main body 20 can be ensured.

Referring to fig. 2, in an embodiment of the present application, the first arm 321 is provided with a guide groove 321a, the guide groove 321a is disposed along an extending direction of the first arm 321, the transmission mechanism 30 further includes a connecting member 34, the connecting member 34 includes a rotating rod 342, a connecting rod 343, and a guide rod 344, the rotating rod 342 is rotatably connected to the second arm 322, the connecting rod 343 is connected to the rotating rod 342, the guide rod 344 is connected to an end of the connecting rod 343 away from the rotating rod 342 and is inserted into the guide groove 321a, and the guide rod 344 can move along the guide groove 321a when the first arm 321 and the second arm 322 rotate relatively.

The rotating rod 342 can extend along the rotating shaft direction of the first arm 321 and the second arm 322, and the connecting rod 343 is convenient for connecting and driving the first arm 321 and the second arm 322 by the rotating rod 342. The rotating rod 342 is rotatably connected to the second arm 322, so that the connecting member 34 can be prevented from being locked, and the first arm 321 and the second arm 322 cannot rotate relatively to drive the dial main body 20 to move. The guide bar 344 is movable along the extending direction of the guide groove 321a to guide the movement of the connecting member 34, so as to ensure the accuracy of the moving direction of the connecting member 34, and further ensure the stability of the relative rotation of the first arm 321 and the second arm 322. In the present embodiment, when the transmission arm 32 moves to drive the dial main body 20, the first arm 321 and the second arm 322 rotate relatively. At this time, the guide rod 344 moves along the guide groove 321a, and the guide rod 344 and the rotating rod 342 can act on the first arm 321 and the second arm 322 respectively under the driving of the connecting rod 343, so that the relative rotation of the first arm 321 and the second arm 322 is more labor-saving. In addition, the connecting piece 34 can also strengthen the stability of the connection between the first arm 321 and the second arm 322, and the guide groove 321a can guide the movement of the guide rod 344, so that the balance and stability of the relative rotation between the first arm 321 and the second arm 322 can be ensured, and the reliability of the movement of the dial plate 20 driven by the transmission mechanism 30 can be ensured.

The rotating rod 342 can be spaced from the rotating shafts of the first arm 321 and the second arm 322 in the extending direction of the second arm 322, and is disposed at an end of the second arm 322 away from the first arm 321, as shown in fig. 2. Thus, the space of the mounting groove 10a for accommodating the rotation of the second arm 322 can be reduced, and the effect of further reducing the thickness of the dial 100 can be achieved.

In order to enhance the connection strength between the connecting member 34 and the actuator arm 32 and improve the stability of the connection between the connecting member 34 and the actuator arm 32, referring to fig. 2 and 3, in an exemplary embodiment of the present application, two actuator arms 32 are provided, the two actuator arms 32 are arranged at intervals, and the connecting rod 343 is disposed between the two actuator arms 32; two opposite ends of the guide bar 344 are respectively connected with the first arm 321 of the two transmission arms 32 and movably inserted into a guide groove 321a formed by the first arm 321; opposite ends of the rotating rod 342 are rotatably connected to the second arm bodies 322 of the two transmission arms 32, respectively.

It can be understood that such an arrangement can further improve the accuracy of the movement guidance of the guide rod 344 and the reliability of the movement of the dial main body 20 driven by the transmission arm 32. Simultaneously, when being equipped with two driving arms 32, can also strengthen the structural strength of driving arm 32 to can increase driving arm 32 to the supporting effect of dial plate main part 20, dial plate main part 20 drops with driving arm 32 when preventing that dial plate main part 20 breaks away from chassis 10.

Referring to fig. 2, in an embodiment of the present application, the guide groove 321a is disposed through two opposite surfaces of the first arm 321, two opposite ends of the guide rod 344 are respectively protruded from two opposite surfaces of the first arm 321, and two opposite ends of the rotating rod 342 are respectively protruded from two opposite surfaces of the second arm 322; the connecting member 34 further includes at least two reinforcing rods 345, wherein the two reinforcing rods 345 are respectively disposed on opposite sides of the two driving arms 32, and opposite ends of one reinforcing rod 345 are respectively connected to the ends of the guiding rod 344 and the rotating rod 342 located on the same side of the driving arms 32.

It can be understood that the reinforcing rod 345 not only can reinforce the structural strength of the connecting member 34, but also can further improve the stability of the relative rotation of the first arm 321 and the second arm 322, so as to improve the smoothness of the movement of the dial main body 20 driven by the transmission arm 32. The reinforcing rods 345 provided on opposite sides of the transmission arm 32 can further limit the fixing of the guide rod 344 and the rotation rod 342, can prevent the rotation rod 342 from being separated from the second arm 322, and can prevent the guide rod 344 from being separated from the guide groove 321 a.

In order to make the dial 100 provided by the present application more intelligent, in the present embodiment, the transmission mechanism 30 adopts an automatic driving mode. Referring to fig. 2, in an embodiment of the present application, the transmission mechanism 30 further includes a first driving assembly 33, and the first driving assembly 33 is connected to the guide rod 344 and can drive the guide rod 344 to reciprocate along the guide groove 321 a.

When the first driving assembly 33 drives the guide rod 344 to reciprocate along the guide groove 321a, the connecting member 34 applies a pushing or pulling force to the second arm 322, so that the second arm 322 can rotate relative to the first arm 321 in a direction away from the chassis 10, so that the driving arm 32 is gradually unfolded. Simultaneously, the second arm body 322 will exert reaction force to first arm body 321 to can drive first arm body 321 and can be relative mount pad 31 chassis 10, with further expansion driving arm 32, make driving arm 32 can lift dial plate main part 20, and then can reduce the lifting height that the person of wearing can reduce the arm when the video or shoot the use, promote user experience. Similarly, when the dial main body 20 is retracted, the first driving assembly 33 can drive the connecting member 34 to move in the opposite direction through the guiding rod 344, so as to apply a pulling force or a pushing force to the second arm 322, so that the second arm 322 rotates toward the first arm 321, and drives the first arm 321 to rotate in the opposite direction relative to the chassis 10, so as to fold the driving arm 32.

It will be appreciated that the first drive assembly 33 may be movably connected to the chassis 10 to prevent the structure from jamming and failing to drive the movement of the dial body 20.

The first driving assembly 33 may be a driving element such as a pneumatic cylinder or a motor screw structure. In order to improve the stability of the first driving assembly 33 when driving the connecting member 34 to move, referring to fig. 2, in an exemplary embodiment of the present application, the connecting member 34 further includes a connecting body 341, the connecting body 341 is connected to the guide rod 344, the first driving assembly 33 includes a first driving member rotatably connected to the chassis 10 and a ball screw connected to the first driving member and capable of being driven to rotate by the first driving member, and the connecting body 341 is sleeved on the ball screw and capable of reciprocating along the length direction of the ball screw.

It can be understood that when the connecting body 341 is driven by the first driving assembly 33 to move, the guiding rod 344, the connecting rod 343, and the rotating rod 342 can be driven to move together, and a pushing or pulling force can be applied to the second arm 322 connected to the rotating rod 342 through the connecting rod 343 to drive the second arm 322 to rotate relative to the first arm 321, so as to expand or collapse the driving arm 32, thereby achieving the effect of lifting or retracting the dial body 20 relative to the chassis 10. Compared with the cylinder driving, the connecting body 341 is sleeved on the ball screw to move and drive, so that the connection stability between the connecting piece 34 and the first driving assembly 33 can be improved, the accuracy of the moving direction of the connecting body 341 can be ensured, and the stability of the first driving assembly 33 in driving the first arm body 321 and the second arm body 322 to rotate relatively through the connecting piece 34 can be ensured.

The guide rods 344 may be directly coupled to the connection body 341 or may be protrusively provided at opposite sides of the connection body 341 toward the first arm body 321. In this embodiment, in order to reinforce the connection strength between the connecting body 341 and the guide rod 344, the guide rod 344 may be connected to the connecting body 341 by the adapter rod 346, and the adapter rod 346 may be provided in plurality, and the adapter rods 346 may be provided at intervals along the extending direction of the guide rod 344. The adapting rod 346 may extend toward the connecting rod 343, so as to improve the connection strength between the guiding rod 344 and the connecting body 341, reduce the length of the connecting rod 343, reduce the possibility of the connecting rod 343 breaking during the process of driving the second arm 322 to rotate relative to the first arm 321, and further improve the reliability of the connecting piece 34 driving the second arm 322 to rotate.

Referring to fig. 1 or fig. 2, in an example embodiment of the present application, the dial 100 may further include a mounting seat 31, the mounting seat 31 is connected to the chassis 10 and disposed in the mounting groove 10a, an end of the first arm 321 away from the second arm 322 is hinged to the mounting seat 31, and the first driving element is disposed in the mounting seat 31.

It will be appreciated that the mounting seat 31 is adapted to be coupled to the chassis 10 to mount the first drive assembly 33 in the mounting slot 10 a. The first driver is provided in the mount base 31, so that the integration of the dial 100 can be improved. In this embodiment, since the guide rod 344 is inserted in the guide groove 321a, when the first arm 321 rotates, the first driving component 33 can be driven by the connecting component 34 to rotate synchronously relative to the mounting seat 31, so as to avoid the locking of the connecting component 34 and the transmission arm 32 caused by the fixing of the first driving component.

In order to simplify the structure of the dial 100 and further improve the integration of the dial 100, the mounting seat 31 may be provided with a controller, and the controller may receive a driving signal to control the driving of the first driving assembly 33, so that the first driving assembly 33 can drive the connecting member 34 to move. Wherein, drive signal can send to the controller through wired transmission or wireless transmission's mode, for example, the dial plate main part can be through modes such as bluetooth, infrared remote control or serial ports and controller signal connection.

In order to further improve the efficiency of the driving transmission arm 32 for stretching and retracting, the stress of the connecting piece 34 and the first driving component 33 is reduced, and the reliability of the transmission structure for driving the dial plate main body 20 to move is improved. Referring to fig. 2, in an embodiment of the present application, the transmission mechanism 30 further includes a second driving assembly 35, and the second driving assembly 35 is installed in the chassis 10 and can drive the first arm 321 to rotate relative to the chassis 10.

It can be understood that the second driving assembly 35 can be a motor or a rotary cylinder, etc., and it is sufficient to drive the first arm 321 to rotate relative to the chassis 10. In order to further improve the integration of the structure and reduce the volume of the dial 100, the second driving assembly 35 may also be provided in the mounting seat and monitored by a controller provided in the mounting seat 31, and the first arm is hinged on the side of the mounting seat 31. When the first driving assembly 33 drives the connecting member 34 to move away from the mounting seat 31, the second driving assembly 35 can simultaneously drive the first arm 321 to rotate relative to the mounting seat 31 in a direction away from the chassis 10, so as to unfold the transmission arm 32, thereby achieving the effect of lifting the dial main body 20. Similarly, when the first driving assembly 33 drives the connecting member 34 to move toward the mounting seat 31 to retract the dial main body 20, the second driving assembly 35 may drive the first arm 321 to rotate relative to the mounting seat 31 toward the chassis 10 to return to the initial position. When the second driving assembly 35 drives the first arm 321 to rotate in the forward and reverse directions relative to the mounting seat 31, the first arm 321 can actively rotate relative to the second arm 322 under the action of the second driving assembly 35 while the connecting member 34 acts on the second arm 322, so as to reduce the force required by the connecting member 34 to act on the second arm 322, and thus reduce the requirements on structural strength and performance of the connecting member 34 and the first driving assembly 33.

In order to further improve the flexibility of use of the dial 100, the convenience of use of the dial 100 is improved. Referring to fig. 2, in an exemplary embodiment of the present application, the dial 100 further includes a rotating mechanism 40, the rotating mechanism 40 includes a connecting structure 41 and a supporting platform 42, the connecting structure 41 is hinged to an end platform of the second arm 322 facing away from the first arm 321, the supporting platform 42 is connected to the connecting structure 41 and can rotate with the connecting structure 41 relative to the second arm 322, and the dial body 20 is connected to a side of the supporting platform 42 facing away from the connecting structure 41.

It can be understood that, because the connection structure 41 is hinged to the second arm 322, the connection structure 41 can drive the dial main body 20 to rotate relative to the second arm 322 through the saddle 42, and the rotation axis of the connection structure 41 rotating relative to the second arm 322 can extend in the same direction as the rotation axes of the first arm 321 and the second arm 322, so that not only the connection strength of the two second arms 322 can be enhanced, but also the stability of the transmission arm 32 for supporting the dial main body 20 can be improved.

In order to further enhance the flexibility of use of the dial 100 and ensure that the dial body 20 can be rotated by more angles, the saddle 42 and the dial body 20 can also be rotated relative to the connecting structure 41 in the circumferential direction of the dial body 20. It will be appreciated that the rotatable connection 41 of the pallet 42 and the connection 41 may be of a manually or automatically driven type. When the rotating mechanism 40 is driven manually, that is, the connecting structure 41 is provided with a rotating shaft connected with the pallet 42, at this time, the wearer can stir the dial main body 20 or the pallet 42, so that the dial main body 20 can rotate along the circumferential direction of the dial main body 20 together with the pallet 42 relative to the connecting structure 41 through the rotating shaft.

Of course, in order to enhance the flexibility of the dial 100 and enhance the intelligence of the dial 100, referring to fig. 2, in an exemplary embodiment of the present application, an end of the second arm 322 away from the first arm 321 may further be provided with a rotary driving member 43, and the rotary driving member 43 is connected to the dial body 20 and can drive the dial body 20 to rotate in the circumferential direction. The rotary driving member 43 can be directly hinged to the second arm 322 to drive the dial plate main body 20 to rotate. Also for improving the connection strength between the rotation driving member 43 and the transmission arm 32, the rotation driving member 43 is embedded in the connection structure 41 or is clamped in the connection structure, and the rotation driving member 43 can be connected with the saddle 42, so that the rotation driving member 43 can drive the saddle 42 and drive the dial main body 20 to rotate along the circumferential direction of the dial main body 20. It will be appreciated that when the rotation mechanism 40 is of the automatic drive type, the rotation drive 43 may also be monitored by a controller located within the mounting block 31.

Referring to fig. 2, in an embodiment of the present application, the dial main body 20 is detachably attached to the second arm body 322. Detachably connecting the dial plate main body 20 to the second arm body 322 facilitates maintenance and replacement of the dial plate main body 20, and can reduce the maintenance cost of the dial plate 100.

It is understood that, for the convenience of the connection installation, the dial plate main body 20 may be detachably connected to the saddle 42, wherein, the dial plate main body 20 may be detachably connected to the saddle 42 by means of clamping or screwing. In the embodiment of the present application, in order to improve the efficiency and convenience of attaching and detaching the dial main body 20 and the pallet 42, the dial 100 and the pallet 42 are connected by magnetic attraction. For example, one side of the saddle 42 facing the dial plate main body 20 is provided with a first magnetic attraction part, one side of the dial plate main body 20 facing the saddle 42 is provided with a first magnetic attraction part, and the first magnetic attraction part is detachably attracted to the first magnetic attraction part. Wherein, first magnetism is inhaled piece and can be through welding or mode fixed connection that bonds such as hot melt adhesive, double faced adhesive tape in the tray, can set up magnet or can be equipped with the metal sheet that is used for first magnetism to inhale the piece absorption in the bottom of dial plate main part 20 towards saddle 42 to form first magnetism and inhale the portion. Similarly, the first magnetic part can be disposed on the dial main body 20, and the first magnetic part can be formed on the saddle 42.

In order to improve the stability of the connection with the chassis 10 when the dial plate main body 20 covers the notch of the mounting groove 10a, the dial plate main body 20 and the chassis 10 may be further connected by a snap structure, a spline structure, a magnet, or the like.

For example, referring to fig. 1, in an embodiment of the present application, a peripheral plate 11 is disposed on a side of the chassis 10 forming the mounting groove 10a, the peripheral plate 11 encloses and forms the insertion groove 11a, an inner surrounding plate 21 is disposed on a side of the dial body 20 facing the chassis 10, and the peripheral plate 11 is sleeved outside the inner surrounding plate 21. In this embodiment, when the dial plate main body 20 covers the notch of the mounting groove 10a, one end of the inner enclosing plate 21, which is away from the dial plate main body 20, may abut against the bottom wall of the insertion groove 11a, and the outer enclosing plate 11 may be just sleeved outside the inner enclosing plate 21, so as to prevent the dial plate main body 20 from moving or shaking relative to the chassis 10 without external force. Similarly, in other embodiments, the inner peripheral plate 21 may be disposed on the chassis 10, and the outer peripheral plate 11 may be disposed on the dial main body 20, which is not further limited herein.

Or, in an embodiment of the present application, the side wall of the mounting groove 10a is provided with one of a limiting protrusion or a limiting groove, the circumferential surface of the dial main body 20 is provided with the other of the limiting protrusion or the limiting groove, and when the dial main body 20 covers the notch of the mounting groove 10a, the limiting protrusion is inserted into the limiting groove. In this embodiment, the cross-sectional area of the dial main body 20 may be smaller than the cross-sectional area of the chassis 10, and the dial main body 20 may be directly inserted into the mounting groove 10a and the limiting protrusion may be inserted into the limiting groove when inserted. In order to further improve the stability of the connection between the dial plate body 20 and the chassis 10, the limit protrusion and the limit groove may be provided around the circumference of the chassis 10 or the dial plate body 20.

Still alternatively, in an embodiment of the present application, the chassis 10 is provided with a second magnetic attraction member, and the dial main body 20 is provided with a second magnetic attraction portion, and the second magnetic attraction member is detachably attracted to the second magnetic attraction portion. In this embodiment, the magnetic connection mode can make the connection between the chassis 10 and the dial main body 20 more secure, and further prevent the dial 100 from separating from the chassis 10 during normal use. In order to reduce the power of the first driving assembly 33 and the second driving assembly 35 driving the transmission arm 32 to move so as to separate the dial main body 20 from the chassis 10, the second magnetic part and the second magnetic part may be electromagnets, and when the dial main body 20 covers the notch of the mounting groove 10a, the electromagnets may be energized to integrally connect the dial main body 20 and the chassis 10. When the dial plate main body 20 needs to be separated from the chassis 10, the electric circuit where the electromagnet is located can be disconnected, so that the dial plate main body 20 can be easily separated from the chassis 10.

The invention further provides an intelligent wearable device, which comprises a dial plate, the specific structure of the dial plate refers to the above embodiments, and the intelligent wearable device adopts all the technical schemes of all the above embodiments, so that the intelligent wearable device at least has all the beneficial effects brought by the technical schemes of the above embodiments, and the details are not repeated herein. Wherein, intelligent wearing equipment can be smart machine such as wrist-watch, bracelet or pocket-watch. When intelligence wearing equipment is wrist strap equipment such as wrist-watch or bracelet, intelligence wearing equipment can also include the wrist strap.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A dial, characterized in that it comprises:

a base plate formed with a mounting groove having a notch;

the dial plate main body is movably connected to the chassis and can cover the notch of the mounting groove; and

the transmission mechanism is connected to the chassis and connected with the dial plate main body, the transmission mechanism is arranged in the mounting groove and can drive the dial plate main body to face or deviate from the chassis to move, and the dial plate main body can be separated from the chassis when deviating from the chassis to move.

2. The dial of claim 1, wherein the transmission mechanism is provided with a transmission arm comprising:

the first arm body is hinged to the chassis; and

the dial plate comprises a first arm body, one end of the first arm body is hinged to the dial plate body, and the dial plate body is connected to one end, deviating from the first arm body, of the second arm body.

3. The dial plate according to claim 2, wherein said first arm is provided with a guide groove provided along an extending direction of said first arm, said transmission mechanism further comprises a link member including:

the rotating rod is rotatably connected to the second arm body;

the connecting rod is connected with the rotating rod; and

the guide rod is connected to one end, deviating from the dwang, of the connecting rod and is inserted into the guide groove, and the guide rod can move along the guide groove when the first arm body and the second arm body rotate relatively.

4. The dial plate of claim 3, wherein there are two of said actuator arms, said two actuator arms being spaced apart from each other, said connecting rod being disposed between said two actuator arms;

two opposite ends of the guide rod are respectively connected with the first arm bodies of the two transmission arms and movably inserted into a guide groove formed by the first arm bodies;

the two opposite ends of the rotating rod are respectively connected with the second arm bodies of the two transmission arms in a rotating mode.

5. The dial plate according to claim 4, wherein said guide grooves are formed through opposite surfaces of said first arm, opposite ends of said guide bar are respectively projected from opposite surfaces of said first arms, and opposite ends of said rotation bar are respectively projected from opposite surfaces of said second arms;

the connecting piece still includes two at least stiffeners, wherein two the stiffener is located two respectively the both sides that the driving arm carried on the back mutually, one the opposite both ends of stiffener connect respectively in the guide bar with the dwang is located the tip with one side of driving arm.

6. The dial of claim 3, wherein the transmission mechanism further comprises a first driving assembly connected to the guide bar and capable of driving the guide bar to reciprocate along the guide groove.

7. The dial of claim 6, wherein the connector further comprises a connecting body connected to the guide bar, the first driving assembly comprising:

the first driving piece is rotatably connected to the chassis; and

the ball screw is connected with the first driving piece and can be driven by the first driving piece to rotate, and the connecting main body is sleeved on the ball screw and can reciprocate along the length direction of the ball screw.

8. The dial of claim 2, wherein said transmission mechanism further comprises a second drive assembly mounted within said chassis and capable of driving said first arm to rotate relative to said chassis;

and/or the dial plate rotating mechanism comprises a connecting structure and a supporting platform, the connecting structure is hinged to one end, away from the first arm body, of the second arm body, the supporting platform is connected to the connecting structure and can rotate relative to the second arm body along with the connecting structure, and the dial plate main body is connected to one side, away from the connecting structure, of the supporting platform;

and/or a rotary driving piece is arranged at one end of the second arm body, which is far away from the first arm body, and the rotary driving piece is connected with the dial plate main body and can drive the dial plate main body to rotate along the circumferential direction;

and/or the dial plate main body is detachably connected to the second arm body.

9. The dial plate according to any one of claims 1 to 8, wherein a side of said base plate forming said mounting groove is provided with a peripheral plate, said peripheral plate is surrounded by an insertion groove, a side of said dial plate body facing said base plate is provided with an inner shroud, said peripheral plate is sleeved outside said inner shroud;

or the chassis is provided with a second magnetic part, the dial plate main body is provided with a second magnetic part, and the second magnetic part is detachably adsorbed on the second magnetic part;

or, the groove lateral wall of mounting groove is equipped with one of spacing arch or spacing groove, the circumference surface of dial plate main part is equipped with one of spacing arch or spacing groove wherein the other, when dial plate main part lid closes the notch of mounting groove, spacing arch is inserted and is located the spacing inslot.

10. An intelligent wearable device, characterized in that the intelligent wearable device comprises the dial plate of any one of claims 1 to 9.

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