CN212521001U - Wearable device based on three-dimensional motion sensor and biological recognition - Google Patents

Abstract

The utility model discloses a wearable equipment based on three-dimensional motion sensor and biological identification, this wearable equipment based on three-dimensional motion sensor and biological identification include the dial plate, and the watchband is connected in the relative both ends of dial plate for be fixed in human specific part with the dial plate. The dial plate is provided with a motion sensor and a biological recognition module, the motion sensor is used for detecting and collecting data of postures and motion states when a user wears the dial plate, and the biological recognition module is used for detecting identity information of the user and recording and generating motion data information corresponding to the identity information of the user. The display screen is rotationally connected to the dial plate and is in communication connection with the motion sensor and the biological recognition module, and the display screen can display motion data and identity information of a user for the user to refer to. The utility model discloses a wearable equipment overall structure is more compact based on three-dimensional motion sensor and biological identification, and space utilization is higher, and the volume is littleer.

Description

Wearable device based on three-dimensional motion sensor and biological recognition

Technical Field

The utility model relates to a biological identification and intelligent Mobile terminal technical field, in particular to wearable equipment based on three-dimensional motion sensor and biological identification.

Background

With the rapid development and maturity of mobile internet and intelligent mobile terminal technology, intelligent wearing equipment represented by smart watches, smart bracelets, smart glasses, smart rings, smart earphones and the like begins to be widely popularized and commercialized due to its powerful functionality, portability and practicability.

In the correlation technique, set up fingerprint identification module or face identification module on the wearing equipment and need occupy a large amount of spaces of dial plate, can only reduce the occupation ratio of screen at this moment in order to obtain less volume, or enlarge the volume of wearing equipment in order to obtain better display effect.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a wearable equipment based on three-dimensional motion sensor and biological identification, when aiming at reducing the wearable equipment volume based on three-dimensional motion sensor and biological identification, obtain the display effect of preferred.

In order to achieve the above object, the utility model provides a wearable equipment based on three-dimensional motion sensor and biological identification, include:

a dial plate;

the watchband is connected to two ends of the dial plate;

the motion sensor and the biological recognition module are arranged on the dial plate, the motion sensor is in communication connection with the biological recognition module, and the biological recognition module forms a biological recognition area on the dial plate; and

the display screen is rotationally connected with the dial plate, is in communication connection with the motion sensor and the biological identification module, and rotates relative to the dial plate to expose or hide the biological identification area.

Optionally, the display screen includes a body and a rotary damper, the rotary damper is disposed on a side of the dial plate, the body is connected to the rotary damper, and the body rotates relative to the dial plate.

Optionally, a clamping protrusion is arranged on one side of the body, which is away from the rotary damper, and a clamping hole is arranged on the surface of one side of the dial plate, which faces the display screen;

the body hides the biological identification area, and the clamping convex is clamped in the clamping hole.

Optionally, the wearable device based on the three-dimensional motion sensor and the biometric identification includes a power source, the power source is disposed on the watchband, and the power source is electrically connected to the display screen, the motion sensor, and the biometric identification module.

Optionally, the watch band includes a watch band body and a cover plate, the watch band body is connected to two opposite ends of the watch plate and is provided with the accommodating cavity, one end of the accommodating cavity is open, and the cover plate is detachably covered on the open end of the accommodating cavity.

Optionally, the edge of one side of the cover plate is hinged to the watchband body, the edge of the other side of the cover plate is provided with an elastic buckle, the watchband body is provided with a buckle hole, the cover plate covers the opening end of the accommodating cavity, and the elastic buckle is elastically buckled in the buckle hole.

Optionally, the watchband body is further provided with a clasp position, and the clasp position corresponds to the elastic clasp.

Optionally, the watchband body is further provided with a plurality of air holes penetrating through two opposite surfaces of the watchband body.

Optionally, the watch band body includes a first band body and a second band body, the first band body is connected to one end of the dial plate, the second band body is connected to an end portion of the dial plate deviating from the first band body, and the second band body is detachably connected to the first band body.

Optionally, the second belt body is provided with a plurality of connecting holes arranged at intervals, the first belt body is provided with a connecting protrusion, and the connecting protrusion can be embedded in any one of the connecting holes to connect the second belt body to the first belt body.

The utility model discloses wearable equipment based on three-dimensional motion sensor and biological identification includes the dial plate among the technical scheme, and the watchband is connected in the relative both ends of dial plate for be fixed in human specific part with the dial plate. The dial plate is provided with a motion sensor and a biological recognition module, the motion sensor is used for detecting and collecting data of postures and motion states when a user wears the dial plate, and the biological recognition module is used for detecting identity information of the user and recording and generating motion data information corresponding to the identity information of the user. The display screen is rotationally connected to the dial plate and is in communication connection with the motion sensor and the biological recognition module, and the display screen can display motion data and identity information of a user for the user to refer to.

In an embodiment, the display screen cover covers the dial plate, hides the biological identification area, rotates the display screen, and the display screen shows the biological identification area, and the user can discern and gather own identity information through the biological identification area, and then can associate identity information with motion state when wearing wearable equipment based on three-dimensional motion sensor and biological identification, or carry out activities such as safety verification and cash payment through the biological identification area. The utility model discloses in, rotate through the display screen and connect in the dial plate, the display screen shows or hides the biological identification region, and motion sensor and biological identification module all set up on the dial plate to do not occupy the plane space of dial plate, consequently the overall structure of the wearable equipment based on three-dimensional motion sensor and biological identification is more compact, and space utilization is higher, and the volume is littleer. Meanwhile, the size of the display screen is not limited by the set size of the biological recognition module, so that a better display effect can be obtained.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 diagram of an embodiment of the wearable device based on a three-dimensional motion sensor and biometric identification of the present invention, in which a display screen exposes a biometric identification area;

FIG. 2 is an enlarged view of a portion of FIG. 1 at A;

FIG. 3 is an exploded view of the wearable device based on three-dimensional motion sensor and biometric identification shown in FIG. 1;

fig. 4 is a schematic structural diagram of the wearable device based on the three-dimensional motion sensor and the biometric identification shown in fig. 1, in which the display screen hides the biometric identification area.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that all the directional indicators (such as upper, lower, 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 motion situation, etc. in a specific posture (as shown in the drawings), 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 implicit ly 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 technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 4, the present invention provides a wearable device 100 based on a three-dimensional motion sensor and biometric identification.

In the embodiment of the present invention, the wearable device 100 based on the three-dimensional motion sensor and the biometric recognition comprises

A dial 10;

a band 20, wherein the band 20 is connected with two ends of the dial 10;

the motion sensor 30 and the biometric identification module 40 are arranged on the dial 10, the motion sensor 30 and the biometric identification module 40 are connected with the biometric identification module 40 in a communication mode, and the biometric identification module 40 forms a biometric identification area 40a on the dial 10; and

a display screen 50, wherein the display screen 50 is rotatably connected to the dial 10 and is in communication with the motion sensor 30 and the biometric module 40, and the display screen 50 rotates relative to the dial 10 to expose or hide the biometric area 40 a.

Specifically, the dial 10 is a hollow casing structure and is formed with a mounting cavity, and the dial 10 may be made of a metal material or a plastic material. It can be understood that the dial 10 made of plastic material can be easily manufactured and produced, while the dial 10 made of metal material has better heat dissipation and wear resistance, which can greatly improve the service life of the wearable device 100 based on the three-dimensional motion sensor and the biological recognition. The band 20 is made of a silicone material so that it is comfortable for a user to wear the wearable device 100 based on the three-dimensional motion sensor and biometric recognition, and the band 20 is connected to opposite ends of the dial 10 by rivets. The motion sensor 30 and the biometric module 40 are disposed within the mounting cavity, and in this application, the motion sensor 30 includes, but is not limited to: passive infrared sensors, acceleration sensors, tilt sensors, vibration sensors, rotation sensors, by means of the motion sensors 30 described above, the wearable device 100 based on three-dimensional motion sensors and biometric recognition can recognize and acquire the wearer's motion state and motion-related tasks. The biometric module 40 is a fingerprint recognition system and/or a facial recognition system, which are disposed on the dial 10, and a biometric area 40a is formed on the dial 10, that is, in the biometric area 40a, the wearable device 100 based on the three-dimensional motion sensor and biometric recognition can collect the face and fingerprint of the user and associate the personal information with the motion state. Since the techniques of face recognition and fingerprint recognition are mature, they are not described in detail herein.

The utility model discloses well display screen 50 rotates to be connected in dial plate 10, and display screen 50 passes through the terminal line to be connected with motion sensor 30 and the communication of biological identification module 40, and display screen 50 is used for showing user's motion data and identity information to supply the user to survey and refer to.

In an embodiment, the display screen 50 covers the dial 10, the biometric area 40a is hidden, the display screen 50 is rotated, the display screen 50 exposes the biometric area 40a, and a user can identify and collect identity information of the user through the biometric area 40a, and then can associate the identity information with a motion state when wearing the wearable device 100 based on the three-dimensional motion sensor and biometric identification, or perform activities such as security verification and cash payment through the biometric area 40 a. The utility model discloses in, rotate through display screen 50 and connect in dial plate 10, display screen 50 shows or hides the regional 40a of biological identification, and motion sensor 30 and biological identification module 40 all set up on dial plate 10 to do not occupy the plane space of dial plate 10, consequently, the overall structure of wearable equipment 100 based on three-dimensional motion sensor and biological identification is more compact, and space utilization is higher, and the volume is littleer. Meanwhile, the size of the display screen 50 is not limited by the setting size of the biometric identification module 40, so that a better display effect can be obtained.

In an embodiment of the present invention, the display screen 50 includes a body 51 and a rotary damper 52, the rotary damper 52 is disposed on one side of the dial 10, the body 51 connect to the rotary damper 52, the body 51 for the dial 10 rotates.

Specifically, the whole rectangle that is of body 51 of display screen 50, the area of display screen 50 is greater than or equal to the area of biological identification area 40a at least, and rotary damper 52 fixed connection is in the edge of dial plate 10 one side, and the edge of display screen 50 one side is connected in rotary damper 52, and display screen 50 deviates from being equipped with three card protruding 511 in succession of rotary damper 52 one side, and dial plate 10 is equipped with three card hole 10a corresponding to three card protruding 511. By providing the rotary damper 52, the body 51 of the display screen 50 can rotate relative to the dial 10, the display screen 50 covers the biological recognition area 40a, and the three protrusions 511 are respectively embedded in the three fastening holes 10 a.

In this application, make the body 51 of display screen 50 comparatively gentle for the rotation of dial plate 10 through setting up rotary damper 52, and then make the user open or close feeling of display screen 50 better. Meanwhile, the body 51 is embedded in the clamping hole 10a through the clamping protrusion 511, the upper side of the biological recognition area 40a can be stably covered, and after the biological recognition area 40a is hidden, the structure is simple, and the opening and closing operations of the body 51 are simple.

In an embodiment of the present invention, the wearable device 100 based on the three-dimensional motion sensor and the biometric identification includes the power source 60, the power source 60 is disposed on the watch band 20, the power source 60 is electrically connected to the display screen 50, the motion sensor 30 and the biometric identification module 40.

Referring to fig. 2 again, specifically, the power supply 60 is a polymer lithium battery, the watch band 20 includes a watch band body 21 and a cover plate 22, the watch band body 21 is connected to two opposite ends of the watch face 10 by rivets, the outward facing surface of the watch band body 21 is recessed inward to form a containing cavity 21a, the edge of one side of the cover plate 22 is rotatably connected to the watch band body 21 through a rotating shaft, the edge of one side of the cover plate 22 away from the rotating shaft is detachably connected to the watch band body 21, the cover plate 22 rotates relative to the watch band body 21 and covers the open end of the containing cavity 21a, and the power supply 60 is contained in the containing cavity 21a and is connected to the display screen 50, the motion sensor 30 and the.

It can be understood that, in general, the power supply 60 of the wearable device 100 based on the three-dimensional motion sensor and the biological recognition occupies most of the space thereof, and the power supply 60 is disposed in the accommodating cavity 21a of the watch band body 21, so that the power supply 60 is prevented from occupying the space of the watch face 10, and the space utilization rate of the wearable device 100 based on the three-dimensional motion sensor and the biological recognition is improved. Meanwhile, the cover plate 22 covers the opening end of the accommodating cavity 21a to seal the accommodating cavity 21a, so that cleanness in the accommodating cavity 21a can be kept, impurities are prevented from entering the mounting cavity to pollute the power supply 60, and the service life of the power supply 60 is prolonged.

In order to facilitate the user to open the cover plate 22, replace the power supply 60 or charge the power supply 60, in an embodiment of the present invention, the edge of the cover plate 22 on one side of the rotation axis is further provided with an elastic buckle 221, the elastic buckle 221 is in a "U" shape, the watchband body 21 is provided with a buckle hole 21b corresponding to the elastic buckle 221, after the cover plate 22 rotates relative to the watchband body 21 and covers the opening end of the accommodating cavity 21a, the elastic buckle 221 is elastically buckled in the buckle hole 21b of the watchband body 21, the outer side surface of the elastic buckle 221 abuts against the side wall of the buckle hole 21b, so the cover plate 22 is tightly covered on the opening end of the accommodating cavity 21 a. When the accommodating cavity 21a needs to be opened, only the end part of the elastic buckle 221 departing from the cover plate 22 needs to be pressed, the elastic buckle 221 generates elastic deformation and is far away from the hole side wall of the buckle hole 21b, and thus the cover plate 22 can be opened. In the application, the elastic buckle 221 is arranged at the edge of the cover plate 22, and the buckle hole 21b corresponding to the cover plate is arranged on the watchband body 21, so that the accommodating cavity 21a is convenient for a user to close or open.

Referring to fig. 2 again, in an embodiment of the present invention, the watchband body 21 is further provided with a clasp position 21c, and the clasp position 21c corresponds to the elastic clasp 221. Specifically, the clasp 21c is formed by the material shortage of the watchband body 21, that is, the part of the watchband body 21 corresponding to the clasp hole 21b is recessed downward to form the clasp 21c, and by providing the clasp 21c on the watchband body 21, when the elastic clasp 221 is clasped in the clasp hole 21b, the end of the elastic clasp 221 departing from the cover plate 22 protrudes out of the surface of the watchband body 21, so that the user can press the elastic clasp 221 conveniently, rotate the cover plate 22 and open the accommodating cavity 21 a.

In an embodiment of the present invention, the watch band body 21 includes a first band body 211 and a second band body 212, the first band body 211 is connected to one end of the watch dial 10, the second band body 212 is connected to the end of the watch dial 10 deviating from the first band body 211, the second band body 212 and the first band body 211 can be detached.

Specifically, the first band 211 and the second band 212 are made of a silicone material, and one end of each of the first band 211 and the second band 212 is connected to the opposite ends of the dial 10 by rivets, but the first band 211 and the second band 212 may also be integrally formed with the dial 10, so that the wearable device 100 based on the three-dimensional motion sensor and the biometric identification has a simpler structure, and the assembly process thereof in the production process can be reduced, thereby reducing the production cost. The end of the second band body 212 departing from the dial 10 is provided with a plurality of through connection holes 212a, the plurality of connection holes 212a are arranged at intervals along the extending direction of the second band body 212, and the end of the first band body 211 departing from the dial 10 is provided with a connection protrusion 2111. When the wearable device 100 based on the three-dimensional motion sensor and the biological recognition needs to be fixed on the wrist of the user, the connecting protrusion 2111 is inserted into one of the connecting holes 212a, and the outer side surface of the connecting protrusion 2111 abuts against the side wall of the connecting hole 212a, so that the first belt body 211 is connected to the second belt body 212, and the user can clamp the connecting protrusion 2111 into any connecting hole 212a through the plurality of connecting holes 212a arranged at intervals to adjust the tightness when the wearable device 100 based on the three-dimensional motion sensor and the biological recognition is worn on the wrist, thereby improving the use experience of the wearable device 100 based on the three-dimensional motion sensor and the biological recognition. Of course, the first strap 211 and the second strap 212 may be connected by a buckle, which is not limited in particular.

In an embodiment of the present invention, the watchband body 21 further has a plurality of air holes 21d penetrating through two opposite surfaces thereof. Wherein, in this application, bleeder vent 21d sets up in first area body 211, and certainly bleeder vent 21d also can set up in the second area body 212, in this application, through set up bleeder vent 21d on first area body 211 or the second is whole, improve the comfort level that the user wore.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A wearable device based on three-dimensional motion sensor and biometric identification, comprising:

a dial plate;

the watchband is connected to two ends of the dial plate;

the motion sensor and the biological recognition module are arranged on the dial plate, the motion sensor is in communication connection with the biological recognition module, and the biological recognition module forms a biological recognition area on the dial plate; and

the display screen is rotationally connected with the dial plate, is in communication connection with the motion sensor and the biological identification module, and rotates relative to the dial plate to expose or hide the biological identification area.

2. The three-dimensional motion sensor and biometric-based wearable device of claim 1, wherein the display screen comprises a body and a rotational damper, the rotational damper being disposed on a side of the dial, the body being coupled to the rotational damper, the body rotating relative to the dial.

3. The wearable device based on three-dimensional motion sensor and biological recognition of claim 2, wherein a side of the body facing away from the rotary damper is provided with a clamping protrusion, and a surface of the dial facing the display screen is provided with a clamping hole;

the body hides the biological identification area, and the clamping convex is clamped in the clamping hole.

4. The wearable device based on three-dimensional motion sensor and biological recognition of any of claims 1-3, wherein the wearable device based on three-dimensional motion sensor and biological recognition comprises a power source, the power source is arranged on the watchband, and the power source is electrically connected with the display screen, the motion sensor and the biological recognition module.

5. The wearable device based on the three-dimensional motion sensor and the biological recognition as claimed in claim 4, wherein the watchband comprises a watchband body and a cover plate, the watchband body is connected to two opposite ends of the dial plate and is provided with a containing cavity, one end of the containing cavity is open, and the cover plate is detachably covered on the open end of the containing cavity.

6. The wearable device based on the three-dimensional motion sensor and the biological recognition as claimed in claim 5, wherein the cover plate is hinged to the watchband body at one side edge, and provided with a snap at the other side edge, the watchband body is provided with a snap hole, the cover plate covers the open end of the accommodating cavity, and the snap is elastically snapped in the snap hole.

7. The wearable device based on the three-dimensional motion sensor and the biological recognition as claimed in claim 6, wherein the watchband body is further provided with a clasp position, and the clasp position corresponds to the snap.

8. The wearable device based on three-dimensional motion sensor and biological recognition of claim 5, wherein the watchband body is further provided with a plurality of air holes penetrating through two opposite surfaces of the watchband body.

9. The wearable device based on three-dimensional motion sensor and biometric identification of claim 5, wherein the watchband body comprises a first band and a second band, the first band is connected to one end of the dial plate, the second band is connected to an end of the dial plate facing away from the first band, and the second band and the first band are detachably connected.

10. The wearable device based on three-dimensional motion sensor and biological recognition of claim 9, wherein the second band body is provided with a plurality of connecting holes at intervals, the first band body is provided with a connecting protrusion, and the connecting protrusion can be embedded in any one of the connecting holes to connect the second band body to the first band body.

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