CN219435232U - Wearable device - Google Patents

Abstract

The embodiment of the application provides a wearable device, including main part, conductive connection spare, give birth to ear and area body, the main part includes the metal frame, and the outer fringe of metal frame is provided with the table ear, and the installation through-hole has been seted up to the table ear, and the table ear is the conductor, and conductive connection spare is connected in the table ear. The ear is a conductor, the end part of the ear is inserted in the mounting through hole and is contacted with the conductive connecting piece, so that the ear is electrically conducted with the metal frame, and the belt body is connected with the ear. The metal frame of main part can be as the radiator of antenna, and the area body is connected with the table ear through giving birth to the tip of ear, because the tip and the conductive connection piece contact of giving birth to the ear, and then make giving birth to the ear all the time through conductive connection piece, table ear and metal frame electricity switch on, the equivalent electric length of the metal frame of as the radiator remains stable like this for the radio frequency performance of antenna remains stable.

Description

Wearable device

Technical Field

The application relates to the field of electronic products, in particular to wearable equipment.

Background

With the development of intelligent hardware, the hardware has more and more powerful functions. Traditional electronic products can have more functions by inheriting intelligent hardware. For example, some wearable devices are currently on the market that can be worn on the limb of a user, pet, or other animal, such as a smartwatch, smartband collar, smartcollar, or the like. The wearable devices have the functions of the traditional intelligent devices, and also have the communication function and can receive and transmit radio frequency signals.

The wearable device generally includes a main body for carrying the electronic component and a belt body for wearing by a user, the belt body being connected to a housing of the main body through a connection member. And an antenna is required for realizing the communication function. In the prior art, in order to save space, the antenna is usually designed on the housing of the main body, for example, the antenna is laser-irradiated onto the housing of the main body through an LDS (Laser Direct Structuring, laser direct structuring technology) process.

In order to ensure stable connection, the connecting piece is usually made of metal, but along with the shaking of the belt body and the main body in the wearing process, the metal connecting piece can be in short contact with the antenna, so that the radio frequency performance of the antenna is unstable.

Disclosure of Invention

An object of the present application is to provide a wearable device to improve the above technical problems.

The embodiment of the application provides a wearable device, including main part, conductive connection spare, give birth to ear and area body, the main part includes the metal frame, and the outer fringe of metal frame is provided with the table ear, and the installation through-hole has been seted up to the table ear, and the table ear is the conductor, and conductive connection spare is connected in the table ear. The ear is a conductor, the end part of the ear is inserted in the mounting through hole and is contacted with the conductive connecting piece, so that the ear is electrically conducted with the metal frame, and the belt body is connected with the ear.

The wearable equipment that this embodiment provided, the metal frame of main part can be as the radiator of antenna, and the area body is connected through giving birth to ear and table ear, because the tip and the conductive connection piece contact of giving birth to the ear, and then make giving birth to the ear all the time through conductive connection piece, table ear and metal frame electricity switch on, the equivalent electric length of the metal frame of as the radiator remains stable like this for the radio frequency performance of antenna remains stable.

These and other aspects of the present application will be more readily apparent from the following description of the embodiments.

Drawings

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

Fig. 1 is a schematic structural diagram of a wearable device according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of another wearable device shown in an embodiment of the present application.

Fig. 3 is a partially disassembled structural schematic diagram of a main body in a wearable device according to an embodiment of the present application.

Fig. 4 is a schematic diagram of a split structure of a metal frame and a raw ear in a wearable device according to an embodiment of the present application.

Fig. 5 is a schematic structural diagram of a middle ear in a wearable device according to an embodiment of the present application.

Fig. 6 is a schematic structural diagram of an ear-growing device in a wearable apparatus according to an embodiment of the present application.

Fig. 7 is a schematic structural diagram of a conductive connecting piece in a wearable device according to an embodiment of the present application.

Fig. 8 is a schematic cross-sectional view illustrating assembly of a conductive tab and a raw ear in a wearable device according to an embodiment of the present application.

Fig. 9 is a schematic structural view of a conductive connecting piece in another wearable device according to an embodiment of the present application.

Fig. 10 is a schematic cross-sectional view of another wearable device according to an embodiment of the present application when a lug is assembled with a conductive connecting piece.

Fig. 11 is a schematic cross-sectional structure of still another wearable device according to an embodiment of the present application when a raw ear is assembled with a conductive connecting piece.

Detailed Description

The following description of the embodiments of the present application will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all, of the embodiments of the present application. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments herein without making any inventive effort, are intended to be within the scope of the present application.

In the prior wearable device, taking a smart watch as an example, in order to improve the radiation performance of an antenna and save the space in a dial, the dial is generally arranged in a metal frame form, the metal frame is used as a radiator of the antenna, and radio frequency current can be excited by the metal frame in the radio frequency signal receiving and transmitting process.

The dial plate and the watchband are connected through the watch ear and the raw ear, specifically, set up raw ear on the dial plate, the watchband is connected the watch ear, and the both ends of watch ear are embedded into the raw ear hole on raw ear, in order to be convenient for assemble and the activity of the watchband of being convenient for, the aperture of raw ear hole can be slightly bigger, the in-process of watchband activity, the contact can appear between raw ear and the watch ear, the condition of non-contact. When the metal frame is excited, excitation current is formed on the raw ear, the raw ear is not contacted with the watch ear, when the metal frame is excited, the excitation current is not formed on the raw ear, the equivalent electric lengths of the antenna in two states are different, so that the radiation performance of the antenna can be fluctuated, and the fluctuation between the raw ear and the watch ear is frequent due to the fact that the watchband is rocked in the process of rocking, and therefore the performance influence of the fluctuation on the antenna is large.

Based on this, the inventors of the present application have proposed the wearable device of the embodiments of the present application in an effort to ameliorate the above-described drawbacks. Embodiments of the present application are described in detail below with reference to the accompanying drawings.

Examples

As shown in fig. 1, the present embodiment provides a wearable device 10, where the wearable device 10 may be adapted to be worn on a limb of a user, or may be adapted to be worn on a limb of a pet or animal, and is not limited herein. For example, the wearable device 10 includes, but is not limited to, a smart bracelet, a smart watch, and the like. The wearable device 10 of the present embodiment will be described taking a smart watch as an example.

With continued reference to fig. 1, the wearable device 10 includes a main body 100 and a belt body 200, where the main body 100 may be used to provide a man-machine interaction device such as a display 300, and the belt body 200 is connected to the main body 100 and is mainly used for wearing by a user. In this embodiment, the main body 100 is a dial, the opposite ends of the main body 100 form the first connecting portion 101 and the second connecting portion 102, the band 200 is a watchband, in one embodiment, the band 200 may be a band-shaped structure with elasticity, and the two ends of the band 200 are respectively connected with the first connecting portion 101 and the second connecting portion 102, so that the user wears the band 200 with elasticity when wearing the band. In another embodiment, referring to fig. 2, the belt body 200 includes a first belt body 201 and a second belt body 202, wherein one end of the first belt body 201 is connected to the first connecting portion 101, one end of the second belt body 202 is connected to the second connecting portion 102, and one end of the first belt body 201 away from the first connecting portion 101 is detachably connected to one end of the second belt body 202 away from the second connecting portion 102, so as to be detached by a user when wearing the belt. For example, an end of the first belt 201 away from the first connection portion 101 is detachably connected to an end of the second belt 202 away from the second connection portion 102 by a buckle 203.

Referring to fig. 3, the main body 100 includes a metal frame 110, and the metal frame 110 encloses a housing cavity 103, and various components including, but not limited to, various sensors, speakers, microphones, etc. may be disposed in the housing cavity 103. The main body 100 may further include a middle plate 130, a rear cover (not shown), and a display screen 300, the middle plate 130 being disposed in the receiving chamber 103 and connected to the metal bezel 110, the middle plate 130 may be used to carry various elements, the rear cover may be assembled on one side of the metal bezel 110, the display screen 300 may be assembled on the other side of the metal bezel 110, and the rear cover and the display screen 300 may close the receiving chamber 103. The metal frame 110 may be made of, for example, magnesium aluminum alloy, or other metal materials, which is not limited in this embodiment.

The main body 100 further includes an antenna, the metal frame 110 is used as a radiator of the antenna, where the whole metal frame 110 may be used as a radiator of the antenna, one or more breaks may be formed on the metal frame 110 to separate the metal frame 110 into one or more radiators, which is not limited herein, and the breaks may be filled with a non-metal material, such as plastic, etc. The radiator is used to radiate radio frequency signals when the antenna is in operation, and it is understood that in various embodiments, the radiator may radiate one or more of a communication signal, a WiFi signal, a GPS signal, a bluetooth signal, etc., where the communication signal may be a 3G, 4G, 5G signal, etc., and is not limited herein. The antenna may be various antenna structures such as an FPC antenna and an LDS antenna, and this embodiment is not limited thereto.

In this embodiment, referring to fig. 3 and 4 together, the connection manner between the band 200 and the main body 100 is that the tab 120 and the raw ear 500 are connected, specifically, the first connection portion 101 and the second connection portion 102 of the main body 100 are both provided with the tab 120, the tab 120 is a conductor and is connected to the metal frame 110, for example, the tab 120 may be made of the same material as the metal frame 110 and may be integrally formed with the metal frame 110, and of course, the tab 120 may also be connected to the metal frame 110 by welding or other manners.

Referring to fig. 5, the tab 120 includes a first tab 120 and a second tab 120 opposite to each other, where the first tab 120 and the second tab 120 are disposed at intervals, and the first tab 120 and the second tab 120 are both provided with a mounting through hole 125, and the mounting through hole 125 penetrates through the first tab 120 or the second tab 120, so that when the mounting through hole 125 is processed, processing can be performed from the outside of the first tab 120 or the outside of the second tab 120, which is more convenient, reduces manufacturing cost, and meanwhile, the processing precision can be improved, so that subsequent assembly is facilitated. The outer side of the first ear 120 refers to the side of the first ear 120 away from the second ear 120, and similarly, the outer side of the second ear 120 refers to the side of the second ear 120 away from the first ear 120. The processing efficiency is significantly improved compared to the prior art form in which the lug 120 needs to be perforated from the inside.

In some embodiments, the mounting through hole 125 formed in the first tab 120 and the mounting through hole 125 formed in the second tab 120 are coaxially disposed. By the arrangement mode, the raw lugs 500 can be smoothly assembled into the mounting through holes 125 when the raw lugs 500 are assembled later.

Referring to fig. 3 and 5, the main body 100 may further include a decorative shell 150, where the decorative shell 150 is assembled on the metal frame 110 and covers the mounting through hole 125, and by providing the decorative shell 150 to cover the mounting through hole 125, the main body 100 has a dustproof and waterproof effect on the mounting through hole 125, and also has a decorative effect, so that the main body 100 is more attractive. The decorative shell 150 may be made of various insulating materials to avoid the influence of the decorative shell 150 on the radio frequency receiving and transmitting effect of the antenna, in this embodiment, the decorative shell 150 is made of a ceramic material, and in other embodiments, the decorative shell 150 may be made of materials such as glass, plastic, etc., which is not limited herein.

Referring again to fig. 4, the wearable device 10 further includes a raw ear 500, where the raw ear 500 is a conductor, for example, the raw ear 500 may be made of a metal material. The ear 500 has a substantially rod-shaped structure, and the end portions of the ear 500 are inserted into the mounting through holes 125, and in this embodiment, the two end portions of the ear 500 are respectively inserted into the mounting through holes 125 of the first ear 120 and the mounting through holes 125 of the second ear 120, so as to realize the assembly of the ear 500 and the ear 120. Wherein the aperture of the mounting through-hole 125 is slightly larger than the diameter of the raw ear 500 so that the raw ear 500 can be rotated with respect to the watch ear 120.

Referring to fig. 6, the ear 500 includes a cylindrical body 510, a first sliding rod 520, a second sliding rod 530, and an elastic member 540, wherein the cylindrical body 510 is rod-shaped, an inner cavity 511 is formed in the cylindrical body, communication holes 513 are formed at two ends of the cylindrical body 510, the communication holes 513 are communicated with the inner cavity 511, and flanges 514 are formed at two ends of the cylindrical body 510, so that the aperture of the communication holes 513 is smaller than the inner diameter of the inner cavity 511. The first sliding rod 520 and the second sliding rod 530 are slidably disposed in the inner cavity 511, and the flange 514 can limit the first sliding rod 520 and the second sliding rod 530 to prevent the first sliding rod 520 and the second sliding rod 530 from sliding out of the inner cavity 511.

The first slide bar 520 is provided with a first probe 521, and an outer diameter of the first probe 521 is smaller than an outer diameter of the first slide bar 520 and an inner diameter of the communication hole 513. The second slide bar 530 is provided with a second probe 531, and an outer diameter of the second probe 531 is smaller than an outer diameter of the second slide bar 530 and an inner diameter of the communication hole 513. The elastic member 540 is disposed in the inner cavity 511 and abuts against the first sliding rod 520 and the second sliding rod 530, and the elastic member 540 is in a compressed state, so as to provide driving force for the first sliding rod 520 and the second sliding rod 530, so as to drive the first probe 521 and the second probe 531 to extend out of the cylinder 510 from the communication hole, at this time, the first sliding rod 520 and the second sliding rod 530 abut against the flanges 514 at two ends of the cylinder 510, the first probe 521 can be inserted into the mounting through hole 125 of the first tab 120, and the second probe 531 can be inserted into the mounting through hole 125 of the second tab 120, so as to form an assembly with the tab 120. The elastic member 540 may be a spring, an elastic rubber, or the like, and is not limited herein.

In the assembly, the first and second probes 521 and 531 are pressed into the inner cavity 511 by pressing the first and second slide bars 520 and 530, and then released in correspondence with the mounting through holes 125. When disassembly is required, the first probe 521 or the second probe 531 is driven from the side of the mounting hole 125 by another tool, so that the first probe 521 and the second probe 531 are pressed into the cavity 511 and taken out.

In other embodiments, the first sliding rod 520 may be disposed on the raw ear 500, where the end of the cylinder 510 may be disposed in a fixed structure, the second probe 531 is disposed on the end of the cylinder 510 and is always fixed, and when assembling, the second probe 531 is first installed into the mounting through hole 125 of the second ear 120, then the first probe 521 is compressed and aligned with the mounting through hole 125 of the first ear 120, and after the first probe 521 is released, the second probe 531 enters the mounting through hole 125 of the first ear 120 to complete the assembly. Namely, the first probe 521 and the second probe 531 serve as both end portions of the raw ear 500 for forming fitting connection with the mounting through-hole 125 on the watch ear 120.

In order to facilitate operation, in an embodiment, please continue to refer to fig. 6, the barrel 510 is further provided with a sliding groove 512, the sliding groove 512 penetrates through a side wall of the barrel 510 and is communicated with the inner cavity 511, the sliding groove 512 is arranged to extend along an axial direction of the barrel 510, the first sliding rod 520 is connected with a driving rod 550, the driving rod 550 extends out of the barrel 510 through the sliding groove 512 and can slide along an extending direction of the sliding groove 512, and the driving rod 550 is used for driving the first sliding rod 520 to move, so that the purposes of driving the first sliding rod 520 to slide and facilitating disassembly are achieved. The shift lever 550 may be a screw, and is connected to the first sliding rod 520 by a threaded connection, and in other embodiments, the second sliding rod 530 may have a similar structure, which will not be described herein.

Referring to fig. 4 again, the band 200 may be connected to the barrel 510 of the ear 500, specifically, the band 200 may be rotatably connected to the ear 500, or may be fixedly connected to the barrel 510 of the ear 500, for example, a sleeve is disposed at an end of the band 200 and is sleeved outside the barrel 510. The belt body 200 may be made of various materials such as fabric, leather, hinge, plastic, and silica gel, which are not limited herein.

In this embodiment, referring to fig. 4 and 6 again, the wearable device 10 further includes a conductive connecting piece 400, where the conductive connecting piece 400 is disposed on the ear 120 and adjacent to the mounting through hole 125, and in one embodiment, the conductive connecting piece 400 may be one, and at this time, the conductive connecting piece 400 may be disposed on the first ear 120 and adjacent to the mounting through hole 125 of the second ear 120, or may be disposed on the second ear 120 and adjacent to the mounting through hole 125 of the second ear 120. In another embodiment, the number of the conductive connectors 400 may be two, one conductive connector 400 is disposed at the first tab 120 and adjacent to the mounting through hole 125 of the second tab 120, and the other conductive connector 400 is disposed at the second tab 120 and adjacent to the mounting through hole 125 of the second tab 120.

Referring to fig. 6, in the present embodiment, two conductive connecting pieces 400 are provided, one conductive connecting piece 400 is disposed on the outer side of the first ear 120, and the other conductive connecting piece 400 is disposed on the outer side of the second ear 120. The conductive connecting piece 400 is connected to and electrically connected to the ear 120, for example, the conductive connecting piece 400 may be connected to the ear 120 by welding, or may be bonded by conductive adhesive, which is not limited herein.

Referring to fig. 7, the conductive connecting piece 400 is of a substantially sheet structure, the conductive connecting piece 400 is provided with a connecting portion 410, and an end portion of the raw ear 500 passes through the mounting through hole 125 and is in interference connection with the connecting portion 410, so that the raw ear 500 and the conductive connecting piece 400 are always kept in electrical contact, and further the raw ear 500 is electrically conducted with the metal frame 110.

Specifically, in a more specific embodiment, referring to fig. 7 and 8 together, the connection portion 410 includes a connection hole 411 disposed on the conductive connection member 400, the connection hole 411 corresponds to the mounting hole 125, and the hole diameter of the connection hole 411 may be slightly smaller than the hole diameter of the mounting hole 125 and approximately equal to the outer diameters of the first probe 521 and the second probe 531. During assembly, referring to fig. 8, the first probe 521 of the raw ear 500 is inserted into the mounting through hole 125 of the first ear 120 and extends into the connecting hole 411 of one conductive connecting piece 400 to be in interference fit connection with the conductive connecting piece 400, and the second probe 531 of the raw ear 500 is inserted into the mounting through hole 125 of the second ear 120 and extends into the connecting hole 411 of the other conductive connecting piece 400 to be in interference fit connection with the conductive connecting piece 400, so that the first probe 521 and the second probe 531 are all in electrical contact with the conductive connecting piece 400 all the time.

In this arrangement, since the first probe 521 and the second probe 531 are embedded in the connection hole 411, the connection between the first probe 521 and the second probe 531 and the conductive connection member 400 is more stable, and the first probe 521 and the second probe 531 can be always electrically connected to the metal frame 110. Therefore, when the metal frame 110 is excited, the excitation current is always formed on the raw ear 500 due to the electrical conduction between the raw ear 500 and the metal frame 110, so that the radiation performance of the antenna can be kept stable all the time.

In another more specific embodiment, referring to fig. 9, the connection portion 410 includes a bayonet 412 disposed on the conductive connection member 400, the bayonet 412 corresponds to the mounting through hole 125, the aperture of the bayonet 412 may be slightly smaller than the aperture of the mounting through hole 125 and approximately equal to the outer diameter of the first probe 521 and the outer diameter of the second probe 531, the first probe 521 is disposed through the mounting through hole 125 of the first tab 120 and extends into the bayonet 412 of one conductive connection member 400 to be in interference fit connection with the conductive connection member 400, and the second probe 531 is disposed through the mounting through hole 125 of the second tab 120 and extends into the bayonet 412 of the other conductive connection member 400 to be in interference fit connection with the conductive connection member 400, such that the first probe 521 and the second probe 531 are all in electrical contact with the conductive connection member 400.

An advantage of this embodiment is that, when assembled, the first probe 521 or the second probe 531 is inserted through the mounting hole 125, and the first probe 521 and the second probe 531 can be more easily fitted into the bayonet 412 due to the certain elasticity of the bayonet 412, and the assembly is simpler. And when the one-time assembly is not smooth, the first probe 521 or the second probe 531 can be conveniently removed for reassembly.

It should be noted that, the conductive connecting piece 400 may be only one, and may be only disposed on the first surface ear 120 or the second surface ear 120, and at this time, the raw ear 500 may also only be in electrical contact with one conductive connecting piece 400, and it is also ensured that the raw ear 500 is always electrically connected to the metal frame 110.

It should be noted that, the conductive connecting piece 400 may be disposed inside the ear 120, for example, inside the first ear 120 or inside the second ear 120, where the inside of the first ear 120 refers to a side of the first ear 120 near the second ear 120, and similarly, the inside of the second ear 120 refers to a side of the second ear 120 near the first ear 120. The arrangement manner is the same as that of the foregoing embodiments, and a detailed description is omitted herein.

In still another embodiment, referring to fig. 10, the conductive connecting member 400 may have a sheet-like structure and be disposed outside the tab 120, and the end portion of the raw ear 500 (i.e. the first probe 521 or the second probe 531) is inserted into the mounting through hole 125 and abuts against the conductive connecting member 400, so that the raw ear 500 is kept in electrical contact with the conductive connecting member 400. Specifically, since the first probe 521 and the second probe 531 are subject to the elastic force of the elastic member 540, the first probe 521 and the second probe 531 will always support against the conductive connecting member 400, and the arrangement has the advantage that the conductive connecting member 400 does not need to be assembled with the ear 500 during assembly, so that the operation is simpler. Preferably, in order to make the connection between the first probe 521 and the second probe 531 and the conductive connection member 400 more stable, the length of the first probe 521 and the length of the first probe 521 may be slightly longer than the depth of the mounting through hole 125, so that when the first probe 521 or the second probe 531 abuts against the conductive connection member 400, the first probe 521 and the second probe 531 are partially pressed into the inner cavity 511, and the elastic member 540 is in a compressed state, and the elastic member 540 applies a larger elastic force to the first probe 521 and the second probe 531, so that the connection between the first probe 521 and the second probe 531 and the conductive connection member 400 is more stable.

Further, as shown in fig. 11, the conductive connector 400 may further be provided with a mounting groove 413, where the mounting groove 413 corresponds to the mounting through hole 125, and the opening of the mounting groove 413 faces the tab 120, and the caliber of the mounting groove 413 may be matched with the size of the end of the raw ear 500, and the end of the raw ear 500 (i.e., the first probe 521 or the second probe 531) is inserted into the mounting groove 413 after being disposed in the mounting through hole 125, and is abutted against the conductive connector 400. The advantage of this arrangement is that the contact area between the conductive connecting piece 400 and the end of the ear 500 is larger, the electrical connection is more stable, and the ear 500 can be prevented from shaking. Preferably, a conductive adhesive may be further disposed in the mounting groove 413, and the conductive connector 400 and the raw ear 500 are bonded by the conductive adhesive, so that the connection between the conductive connector 400 and the raw ear 500 is more stable.

Similarly, it should be noted that the number of the conductive connecting pieces 400 may be only one, and the conductive connecting pieces may be only disposed on the first tab 120 or the second tab 120, and at this time, the raw tab 500 may also be only in electrical contact with one conductive connecting piece 400, and it is also ensured that the raw tab 500 is always electrically connected to the metal frame 110.

The assembly modes of the raw ear 500, the watch ear 120 and the conductive connecting piece 400 in the above embodiment can make the raw ear 500 electrically contact with the watch ear 120 through the conductive connecting piece 400, and further electrically conduct with the metal frame 110, and can be used as a part of the radiator of the antenna, so that the equivalent electrical length of the whole antenna is kept stable.

The wearable device 10 provided in the above embodiments is provided with the conductive connection piece 400, so that the electric conduction between the ear shell 500 and the ear shell 120 can be kept all the time, and therefore, the electric conduction between the metal frame 110 serving as the radiator of the antenna and the ear shell 500 is kept all the time, when the metal frame 110 is excited, the ear shell 500 is excited with current at the same time, the equivalent electric length of the antenna is kept stable, and the radiation performance of the antenna is kept stable.

It is noted that "wearable device" as used in embodiments of the present application includes, but is not limited to, a device arranged to receive/transmit communication signals via a wireline connection, such as via a public-switched telephone network (Public Switched Telephone Network, PSTN), a digital subscriber line (Digital Subscriber Line, DSL), a digital cable, a direct cable connection, and/or another data connection/network, and/or via a wireless interface, such as for example, for a cellular network, a wireless local area network (Wireless Local Area Networks, WLAN), a digital television network such as a DVB-H network, a satellite network, an AM-FM broadcast transmitter, and/or another communication terminal.

The foregoing description is only of the preferred embodiments of the present application and is not intended to limit the same, but rather, various modifications and variations may be made by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. A wearable device, comprising:

the main body comprises a metal frame, the outer edge of the metal frame is provided with a surface lug, the surface lug is provided with an installation through hole, and the surface lug is a conductor;

the conductive connecting piece is connected to the watch ear;

the end part of the raw ear is inserted into the mounting through hole and is contacted with the conductive connecting piece so as to electrically connect the raw ear with the metal frame; and

the band body is connected with the raw ear.

2. The wearable device of claim 1, wherein the conductive connection is disposed outside of the ear.

3. The wearable device according to claim 2, wherein the conductive connection piece is provided with a connection portion, and the end portion of the living ear passes through the mounting through hole and is in interference connection with the connection portion.

4. A wearable device according to claim 3, wherein the connection portion comprises a connection hole provided to the conductive connection member, the connection hole corresponding to the mounting through hole.

5. A wearable device according to claim 3, wherein the connection portion comprises a bayonet provided to the conductive connection member, the bayonet corresponding to the mounting through hole.

6. The wearable device according to claim 2, wherein an end of the ear is inserted into the mounting through hole and abuts the conductive connection member.

7. The wearable device according to claim 6, wherein the conductive connecting member is provided with a mounting groove corresponding to the mounting through hole, and an end of the living ear is inserted into the mounting through hole and embedded in the mounting groove and abuts against the conductive connecting member.

8. The wearable device according to claim 1, wherein the ear comprises a first ear and a second ear, the first ear and the second ear are disposed opposite to each other, the first ear and the second ear are both provided with the mounting through hole, the conductive connecting piece is disposed on the first ear and/or the second ear, and two opposite ends of the raw ear are respectively inserted into the mounting through hole of the first ear and the mounting through hole of the second ear.

9. The wearable device of any of claims 1-8, wherein the body further comprises a decorative shell that fits to the metal bezel and covers the mounting through hole.

10. The wearable device according to any one of claims 1 to 8, wherein the ear comprises a cylinder, a first slide bar, a second slide bar and an elastic member, the cylinder is provided with an inner cavity, two ends of the cylinder are provided with communication holes, the first slide bar and the second slide bar are slidably arranged in the inner cavity, the first slide bar is provided with a first probe, the second slide bar is provided with a second probe, and the elastic member is arranged in the inner cavity and is abutted between the first slide bar and the second slide bar, so that the first probe and the second probe extend out of the cylinder, and at least one of the first probe and the second probe is inserted into the mounting through hole and is contacted with the conductive connecting member.