CN219351723U - Handheld wireless communication equipment - Google Patents

Abstract

The utility model provides a handheld wireless communication device, which comprises a communication device main body, a battery connector and a buckle; the communication equipment main body is provided with a first surface and a first side surface, the first side surface is provided with a first groove extending to the first surface, the first groove comprises a first sub-groove and a second sub-groove, and the bottom of the first sub-groove is provided with a pressure spring groove for placing a pressure spring; the bottom of the second sub-groove is provided with a convex block, and the groove wall of the second sub-groove is provided with a guide groove; the battery connector has a second surface and a second side surface, the second side surface having a second recess extending to the second surface; the buckle includes buckle main part and rotary rod, and the rotary rod has the extension, and the extension stretches into in the guide way, and the buckle main part is including the first joint portion and the second joint portion that are located the rotary rod both sides, and first joint portion is located first recess, and second joint portion is suitable for being located the second recess. The handheld wireless communication device has high connection stability, and the battery connector is fast and convenient to replace.

Description

Handheld wireless communication equipment

Technical Field

The utility model relates to the technical field of wireless communication equipment, in particular to handheld wireless communication equipment.

Background

Wireless communication is a communication method that does not require a physical connection line, and uses the feature that electromagnetic wave signals can propagate in free space to exchange information. A handheld wireless communication device (e.g., a walkie-talkie, etc.) typically includes a communication device body and a battery connector coupled to the communication device body for wireless communication, the battery connector powering the communication device body. When the battery power in the battery connector is insufficient, the normal use of the handheld wireless communication device can be realized by replacing the new battery connector without charging the handheld wireless communication device, so that the application scene of the handheld wireless communication device is enlarged, and the handheld wireless communication device can be used indoors, outdoors and even in severe environments.

During the use of the handheld wireless communication device, the communication device main body and the battery connector are required to be stably connected together, and the replacement mode of the battery connector is quick and convenient, so that the continuous long-time normal use of the handheld wireless communication device is not affected. However, the existing handheld wireless communication device is difficult to simultaneously meet the two requirements, that is, the connection strength of the communication device main body and the battery connector is high, the replacement method of the battery connector is complex, the battery connector is convenient to replace, and the connection stability of the communication device main body and the battery connector cannot be ensured.

Disclosure of Invention

Therefore, the technical problem to be solved by the utility model is how to ensure stable connection of the handheld wireless communication device and quick and convenient replacement of the battery connector, so as to provide the handheld wireless communication device.

The present utility model provides a handheld wireless communication device comprising:

the communication device comprises a communication device body, wherein a shell of the communication device body is provided with a first surface and a first side surface connected with the first surface, the first side surface is provided with a first groove, the first groove extends to the first surface and comprises a first sub-groove and a second sub-groove which are arranged side by side, and the distance from the first sub-groove to the first surface is smaller than the distance from the second sub-groove to the first surface; the bottom of the first sub-groove is provided with a pressure spring groove, and a pressure spring is placed in the pressure spring groove; the bottom of the second sub-groove is provided with a convex block, and two opposite groove walls of the second sub-groove are also provided with guide grooves;

a battery connector adapted to power the communication device body, the housing of the battery connector having a second surface and a second side connected to the second surface, the second surface of the battery connector adapted to be rotatably connected to the first surface of the communication device body, and the second side adapted to be located on the same side as the first side, the second side being provided with a second recess extending to the second surface;

the buckle comprises a buckle main body and a rotary rod positioned in the middle of one side surface of the buckle main body, the rotary rod is provided with two extension sections extending out of the buckle main body, the extension sections extend into the two guide grooves and are positioned on one side of the protruding block, which is away from the first surface, the buckle main body comprises a first clamping part and a second clamping part which are positioned on two sides of the rotary rod respectively, the first clamping part is positioned in the first groove and is contacted with one end of the pressure spring, and the second clamping part is suitable for being positioned in the second groove; when the second clamping part is positioned in the second groove, the second clamping part is in contact with the convex block, and the pressure spring is in a micro-compression state.

Optionally, when the second clamping part is located in the second groove, the ratio of the length of the pressure spring to the length of the pressure spring in a natural state is 2/3-4/5.

Optionally, the height of the bump is 1.5mm-2.5mm.

Optionally, the guide groove is a punctiform groove; alternatively, the guide groove extends to the first surface.

Optionally, one side of the handheld wireless communication device is provided with the buckle; or, the two sides of the handheld wireless communication device, which are oppositely arranged, are respectively provided with the buckle.

Optionally, the first surface of the communication device main body is provided with a first electric connector and a first rotating member surrounding the first electric connector, and the first electric connector is electrically connected with an electronic element inside the communication device main body; a second surface of the battery connector is provided with a second electrical connector and a second rotating member surrounding the second electrical connector, the second electrical connector is electrically connected with a battery in the battery connector, and the second rotating member is suitable for being connected with the first rotating member in a rotating way; when the first rotating member is rotatably connected with the second rotating member, the first electrical connector is electrically connected with the second electrical connector.

Optionally, the first electrical connector is a jack, and the second electrical connector is a probe; alternatively, the first electrical connector is a probe and the second electrical connector is a jack.

Optionally, the number of the first electrical connectors is 5-7, and the number of the second electrical connectors is 5-7.

Optionally, the first surface has a first electrical connection region, and the first electrical connector is located in the first electrical connection region; the first rotating piece is a first plate fixed on the first surface, the first plate is provided with two extending areas which are oppositely arranged, and a through hole positioned between the two extending areas, the first electric connecting area is exposed in the through hole, and a gap is formed between the two extending areas and the first surface;

the second surface is provided with a second electric connection area, and the second electric connector is positioned in the second electric connection area; the second rotating piece is two oppositely arranged second plates fixed on the second surface, and the second electric connection area is exposed between the two second plates; the second plate is provided with a fixing part and an extending part adjacent to the fixing part, the extending part is close to the second electric connection area, the fixing part is far away from the second electric connection area and is fixedly connected with the second surface, a gap is formed between the extending part and the second surface, and the extending parts of the two second plates are far away from each other;

the thickness of the extension region is equal to the interval between the extension part and the second surface, and the extension region is positioned between the extension part and the second surface; the thickness of the extension is equal to the spacing between the extension and the first surface, the extension being located between the extension and the first surface.

Optionally, the second surface has a second electrical connection region, and the second electrical connector is located in the second electrical connection region; the second rotating piece is a first plate fixed on the second surface, the first plate is provided with two extending areas which are oppositely arranged, a through hole is arranged between the two extending areas, the second electric connecting area is exposed in the through hole, and a gap is arranged between the two extending areas and the second surface;

the first surface is provided with a first electric connection area, and the first electric connector is positioned in the first electric connection area; the first rotating piece is two oppositely arranged second plates fixed on the first surface, and the first electric connection area is exposed between the two second plates; the second plate is provided with a fixing part and an extending part adjacent to the fixing part, the extending part is close to the first electric connection area, the fixing part is far away from the first electric connection area and is fixedly connected with the first surface, a gap is formed between the extending part and the first surface, and the extending parts of the two second plates are far away from each other; the thickness of the extension region is equal to the distance between the extension part and the first surface, and the extension region is positioned between the extension part and the first surface; the thickness of the extension is equal to the spacing between the extension and the second surface, the extension being located between the extension and the second surface.

The technical scheme of the utility model has the following advantages:

in the handheld wireless communication device provided by the utility model, the buckle is provided with the teeterboard structure, and is suitable for rotating by taking the guide groove as the rotating shaft. In normal working process, the first surface of communication equipment main part and the second surface swivelling joint of battery connector, the first joint position of buckle is located in the first recess of communication equipment main part first side, the second joint position of buckle is located in the second recess of battery connector second side, the existence of buckle can avoid because communication equipment main part and battery connector take place relative rotation and lead to both electricity to be connected inefficacy, guaranteed the normal work of handheld wireless communication equipment, that is, the buckle can realize the effective locking of handheld wireless communication equipment, improved handheld wireless communication equipment's connection stability.

In the normal working process of the handheld wireless communication device, the first clamping part of the buckle is contacted with one end of the pressure spring, the second clamping part of the buckle is contacted with the lug, when the battery electric quantity in the battery connector is insufficient, the first clamping part of the buckle is pressed at first, the second clamping part of the buckle is far away from the lug and is separated from the second groove of the battery connector, the communication device main body and the battery connector are separated by rotating, and then the new battery connector is replaced, namely, the replacement mode of the battery connector is rapid and convenient.

Meanwhile, in the normal working process of the handheld wireless communication device, the pressure spring is in a micro-compression state, so that the pressure spring applies an outward force to the first clamping part of the buckle, the state of the buckle is maintained, the situation that the second clamping part of the buckle is far away from the protruding block in the normal working process of the handheld wireless communication device is avoided, and the connection stability of the handheld wireless communication device is effectively improved.

Drawings

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

Fig. 1 is an exploded view of a handheld wireless communication device provided in an embodiment of the present utility model;

fig. 2 is a schematic structural view of a first surface of the main body of the communication device shown in fig. 1;

FIG. 3 is a schematic view of the structure of the second surface of the battery connector shown in FIG. 1;

reference numerals illustrate:

1-a communication device body; 11-a first groove; 111-a compression spring groove; 112-a compression spring; 113-bumps; 114-a guide groove; 12-a first electrical connection; 13-a first sheet material; 14-a first surface; a 2-cell connector; 21-a second groove; 22-a second electrical connection; 23-a second plate; 231-fixing part; 232-an extension; 24-a second surface; 3-clamping buckles; 31-a first clamping part; 32-a second clamping part; 33-rotating the rod.

Detailed Description

The following description of the embodiments of the present utility model will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the utility model are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the description of the present utility model, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-3, the present embodiment provides a handheld wireless communication device, comprising:

a communication device main body 1, wherein a housing of the communication device main body 1 is provided with a first surface 14 and a first side surface connected with the first surface 14, the first side surface is provided with a first groove 11, the first groove 11 extends to the first surface 14, the first groove 11 comprises a first sub groove and a second sub groove which are arranged side by side, the first sub groove is communicated with the second sub groove, and the distance from the first sub groove to the first surface 14 is smaller than the distance from the second sub groove to the first surface 14; the bottom of the first sub-groove is provided with a pressure spring groove 111, and a pressure spring 112 is placed in the pressure spring groove 111; the bottom of the second sub-groove is provided with a convex block 113, and two opposite groove walls of the second sub-groove are also provided with guide grooves 114;

a battery connector 2, the battery connector 2 being adapted to power the communication device body 1, the housing of the battery connector 2 having a second surface 24 and a second side connected to the second surface 24, the second surface 24 of the battery connector 2 being adapted to be rotatably connected to the first surface 14 of the communication device body 1 and the second side being adapted to be located on the same side as the first side, the second side being provided with a second recess 21, the second recess 21 extending to the second surface 24;

a buckle 3, wherein the buckle 3 comprises a buckle main body and a rotary rod 33 positioned in the middle of one side surface of the buckle main body, the rotary rod 33 is provided with two extension sections extending out of the buckle main body, the extension sections extend into two guide grooves 114 and are positioned on one side of the convex blocks 113 away from the first surface 14, the buckle main body comprises a first clamping part 31 and a second clamping part 32 which are positioned on two sides of the rotary rod 33 respectively, the first clamping part 31 is positioned in the first groove 11 and is contacted with one end of the pressure spring 112, and the second clamping part 32 is suitable for being positioned in the second groove 21; when the second clamping portion 32 is located in the second groove 21, the second clamping portion 32 contacts the bump 113, and the compression spring 112 is in a slightly compressed state.

In the handheld wireless communication device provided by the utility model, the buckle 3 has a teeter-totter structure, which is suitable for rotating by taking the guide groove 114 as a rotating shaft. In normal operation, the first surface 14 of the communication device main body 1 is rotationally connected with the second surface 24 of the battery connector 2, the first clamping part 31 of the buckle 3 is located in the first groove 11 of the first side of the communication device main body 1, the second clamping part 32 of the buckle 3 is located in the second groove 21 of the second side of the battery connector 2, and failure of electrical connection between the communication device main body 1 and the battery connector 2 caused by relative rotation of the communication device main body 1 and the battery connector 2 can be avoided due to the existence of the buckle 3, so that normal operation of the handheld wireless communication device is ensured, namely, the buckle 3 can realize effective locking of the handheld wireless communication device, and connection stability of the handheld wireless communication device is improved.

In the normal operation process of the handheld wireless communication device, the first clamping part 31 is contacted with one end of the pressure spring 112, the second clamping part 32 is contacted with the bump 113, when the battery electric quantity in the battery connector 2 is insufficient, the first clamping part 31 is pressed first, so that the second clamping part 32 is separated from the bump 113 and separated from the second groove 21 of the battery connector 2, and then the communication device main body 1 and the battery connector 2 are separated by rotating, and then the new battery connector 2 is replaced, namely, the replacement mode of the battery connector 2 is quick and convenient.

Meanwhile, in the normal working process of the handheld wireless communication device, the pressure spring 112 is in a micro-compression state, so that the pressure spring 112 applies an outward force to the first clamping part 31, the state of the clamping buckle 3 is maintained, the situation that the second clamping part 32 is far away from the protruding block 113 in the normal working process of the handheld wireless communication device is avoided, and the connection stability of the handheld wireless communication device is effectively improved.

It should be understood that the compression spring being in the slightly compressed state means that the length of the compression spring is smaller than that of the compression spring in the natural state, and the length of the compression spring is larger than that of the compression spring in the maximum compression degree.

Preferably, when the second clamping part is positioned in the second groove, the ratio of the length of the pressure spring to the length of the pressure spring in a natural state is 2/3-4/5. Illustratively, the ratio may be 2/3, 0.7, 0.75, or 4/5. The above ratio range not only ensures that the compression spring 112 applies a larger force to the first clamping portion 31 during the normal operation of the handheld wireless communication device, effectively improves the connection stability of the handheld wireless communication device, but also ensures that the compression spring 112 has a sufficient compression amount when the first clamping portion 31 is pressed so that the second clamping portion 32 is separated from the second groove 21 of the battery connector 2.

In this embodiment, the height of the bump 113 is 1.5mm-2.5mm. The height of the bump 113 may be 1.5mm, 1.8mm, 2mm, or 2.5mm, for example. The height of the projection 113 determines the maximum extent of pressing the first engagement portion 31, or the maximum compression amount of the compression spring 112, when the battery connector 2 is replaced. Specifically, in a direction from one groove wall of the second sub-groove to the other groove wall of the second sub-groove, the dimension of the bump 113 is the lateral dimension of the bump 113, and the lateral dimension of the bump 113 may be smaller than or equal to the distance between the two opposite groove walls of the second sub-groove.

In one embodiment, the guide groove is a punctiform groove, and the guide groove is positioned at one side of the protruding block away from the first surface; in another embodiment, see fig. 1, the guide groove 114 extends to the first surface 14, and the end of the guide groove 114 remote from the first surface 14 is at a distance from the projection 113, so that the swivel lever 33 of the catch 3 is placed in this area and the extension of the swivel lever 33 protrudes into the guide groove 114 on the side of the projection 113 facing away from the first surface 14.

In this embodiment, as shown in fig. 1, one side of the handheld wireless communication device is provided with the buckle 3; or, the two sides of the handheld wireless communication device, which are oppositely arranged, are respectively provided with the buckle 3. The two sides of the handheld wireless communication device, which are arranged oppositely, are provided with the buckle 3, so that the effect of improving the connection stability of the handheld wireless communication device is better.

Referring to fig. 2-3, in the present embodiment, the first surface 14 of the communication device body 1 is provided with a first electrical connector 12 and a first rotating member surrounding the first electrical connector 12, the first electrical connector 12 being electrically connected with the electronic components inside the communication device body 1; the second surface 24 of the battery connector 2 is provided with a second electrical connection 22 and a second rotation member surrounding the second electrical connection 22, the second electrical connection 22 being in electrical connection with the battery in the battery connector 2, the second rotation member being adapted to be in rotational connection with the first rotation member; the first electrical connector 12 is electrically connected to the second electrical connector 22 when the first rotating member is rotatably connected to the second rotating member.

Specifically, as shown in fig. 2-3, the first electrical connector 12 is a jack, and the second electrical connector 22 is a probe; alternatively, the first electrical connector 12 is a probe and the second electrical connector 22 is a socket; the probes are inserted into the jacks to achieve electrical connection of the two.

Further, the number of the first electrical connectors 12 is 5-7, and the number of the second electrical connectors 22 is 5-7. Illustratively, the number of the first electrical connectors 12 may be 5, 6 or 7, and the number of the second electrical connectors 22 may be 5, 6 or 7. The number of the first electrical connectors 12 and the number of the second electrical connectors 22 are the same, and the arrangement of the first electrical connectors 12 is the same as that of the second electrical connectors 22.

In one embodiment, referring to fig. 2, the first surface 14 has a first electrical connection region, and the first electrical connector is located in the first electrical connection region; the first rotating member is a first plate 13 fixed on the first surface 14, the first plate 13 has two extending areas arranged oppositely, and a through hole between the two extending areas, the first electric connection area is exposed in the through hole, and a gap is arranged between the two extending areas and the first surface 14;

referring to fig. 3, the second surface 24 has a second electrical connection region, and the second electrical connector is located in the second electrical connection region; the second rotating member is two oppositely arranged second plates 23 fixed on the second surface 24, and the second electric connection area is exposed between the two second plates 23; the second plate 23 has a fixing portion 231 and an extension portion 232 adjacent to the fixing portion 231, the extension portion 232 is close to the second electrical connection region, the fixing portion 231 is far away from the second electrical connection region and is fixedly connected with the second surface 24, a gap is formed between the extension portion 232 and the second surface 24, and the extension portions 232 of the two second plates 23 are far away from each other;

the thickness of the extension is equal to the spacing between the extension 232 and the second surface 24, the extension being located between the extension 232 and the second surface 24; the thickness of the extension 232 is equal to the spacing between the extension and the first surface 14, the extension 232 being located between the extension and the first surface 14.

In another embodiment, the first plate 13 is provided as a second rotating member on the second surface 24 of the battery connector 2, and the second plate 23 is provided as a first rotating member on the first surface 14 of the communication device body 1. The second rotating piece is a first plate fixed on the second surface, the first plate is provided with two extending areas which are arranged oppositely, a through hole is arranged between the two extending areas, the second electric connecting area is exposed in the through hole, and a gap is formed between the two extending areas and the second surface; the first rotating piece is two oppositely arranged second plates fixed on the first surface, and the first electric connection area is exposed between the two second plates; the second plate is provided with a fixing part and an extending part adjacent to the fixing part, the extending part is close to the first electric connection area, the fixing part is far away from the first electric connection area and is fixedly connected with the first surface, a gap is formed between the extending part and the first surface, and the extending parts of the two second plates are far away from each other; the thickness of the extension region is equal to the distance between the extension part and the first surface, and the extension region is positioned between the extension part and the first surface; the thickness of the extension is equal to the spacing between the extension and the second surface, the extension being located between the extension and the second surface.

The handheld wireless communication device in this embodiment includes, but is not limited to, an intercom.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While still being apparent from variations or modifications that may be made by those skilled in the art are within the scope of the utility model.

Claims (10)

1. A handheld wireless communication device, comprising:

the communication device comprises a communication device body, wherein a shell of the communication device body is provided with a first surface and a first side surface connected with the first surface, the first side surface is provided with a first groove, the first groove extends to the first surface and comprises a first sub-groove and a second sub-groove which are arranged side by side, and the distance from the first sub-groove to the first surface is smaller than the distance from the second sub-groove to the first surface; the bottom of the first sub-groove is provided with a pressure spring groove, and a pressure spring is placed in the pressure spring groove; the bottom of the second sub-groove is provided with a convex block, and two opposite groove walls of the second sub-groove are also provided with guide grooves;

a battery connector adapted to power the communication device body, the housing of the battery connector having a second surface and a second side connected to the second surface, the second surface of the battery connector adapted to be rotatably connected to the first surface of the communication device body, and the second side adapted to be located on the same side as the first side, the second side being provided with a second recess extending to the second surface;

the buckle comprises a buckle main body and a rotary rod positioned in the middle of one side surface of the buckle main body, the rotary rod is provided with two extension sections extending out of the buckle main body, the extension sections extend into the two guide grooves and are positioned on one side of the protruding block, which is away from the first surface, the buckle main body comprises a first clamping part and a second clamping part which are positioned on two sides of the rotary rod respectively, the first clamping part is positioned in the first groove and is contacted with one end of the pressure spring, and the second clamping part is suitable for being positioned in the second groove; when the second clamping part is positioned in the second groove, the second clamping part is in contact with the convex block, and the pressure spring is in a micro-compression state.

2. The handheld wireless communication device of claim 1, wherein a ratio of a length of the compression spring to a length of the compression spring in a natural state when the second clamping portion is positioned in the second groove is 2/3-4/5.

3. The handheld wireless communication device of claim 1, wherein the bump has a height of 1.5mm-2.5mm.

4. The handheld wireless communication device of claim 1, wherein said guide slot is a punctiform recess; alternatively, the guide groove extends to the first surface.

5. The handheld wireless communication device of any one of claims 1 to 4, wherein one side of the handheld wireless communication device is provided with the clasp; or, the two sides of the handheld wireless communication device, which are oppositely arranged, are respectively provided with the buckle.

6. The handheld wireless communication device of claim 1, wherein the first surface of the communication device body is provided with a first electrical connection and a first swivel surrounding the first electrical connection, the first electrical connection being electrically connected to an electronic component inside the communication device body;

a second surface of the battery connector is provided with a second electrical connector and a second rotating member surrounding the second electrical connector, the second electrical connector is electrically connected with a battery in the battery connector, and the second rotating member is suitable for being connected with the first rotating member in a rotating way; when the first rotating member is rotatably connected with the second rotating member, the first electrical connector is electrically connected with the second electrical connector.

7. The handheld wireless communication device of claim 6, wherein said first electrical connector is a jack and said second electrical connector is a probe; alternatively, the first electrical connector is a probe and the second electrical connector is a jack.

8. The handheld wireless communication device of claim 7, wherein the number of first electrical connectors is 5-7 and the number of second electrical connectors is 5-7.

9. The handheld wireless communication device as recited in claim 6 wherein said first surface has a first electrical connection area, said first electrical connector being located at said first electrical connection area; the first rotating piece is a first plate fixed on the first surface, the first plate is provided with two extending areas which are oppositely arranged, and a through hole positioned between the two extending areas, the first electric connecting area is exposed in the through hole, and a gap is formed between the two extending areas and the first surface;

the second surface is provided with a second electric connection area, and the second electric connector is positioned in the second electric connection area; the second rotating piece is two oppositely arranged second plates fixed on the second surface, and the second electric connection area is exposed between the two second plates; the second plate is provided with a fixing part and an extending part adjacent to the fixing part, the extending part is close to the second electric connection area, the fixing part is far away from the second electric connection area and is fixedly connected with the second surface, a gap is formed between the extending part and the second surface, and the extending parts of the two second plates are far away from each other;

the thickness of the extension region is equal to the interval between the extension part and the second surface, and the extension region is positioned between the extension part and the second surface; the thickness of the extension is equal to the spacing between the extension and the first surface, the extension being located between the extension and the first surface.

10. The handheld wireless communication device as recited in claim 6 wherein said second surface has a second electrical connection area, said second electrical connector being located at said second electrical connection area; the second rotating piece is a first plate fixed on the second surface, the first plate is provided with two extending areas which are oppositely arranged, a through hole is arranged between the two extending areas, the second electric connecting area is exposed in the through hole, and a gap is arranged between the two extending areas and the second surface;

the first surface is provided with a first electric connection area, and the first electric connector is positioned in the first electric connection area; the first rotating piece is two oppositely arranged second plates fixed on the first surface, and the first electric connection area is exposed between the two second plates; the second plate is provided with a fixing part and an extending part adjacent to the fixing part, the extending part is close to the first electric connection area, the fixing part is far away from the first electric connection area and is fixedly connected with the first surface, a gap is formed between the extending part and the first surface, and the extending parts of the two second plates are far away from each other;

the thickness of the extension region is equal to the distance between the extension part and the first surface, and the extension region is positioned between the extension part and the first surface; the thickness of the extension is equal to the spacing between the extension and the second surface, the extension being located between the extension and the second surface.

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