A watch and wearable device with a Bluetooth headset
By using magnetic components to drive the Bluetooth earphones into the limiting cavity and combining this with a limiting groove design, the problem of Bluetooth earphones being unstable on the watch is solved, achieving a stable fixation and convenient use of the earphones, and improving stability and charging convenience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- ZHENSHI INFORMATION TECH SHANGHAI CO LTD
- Filing Date
- 2025-06-24
- Publication Date
- 2026-06-12
AI Technical Summary
Existing Bluetooth earphones are unstable in the earphone slot of watches and are prone to falling out due to shaking or impact, affecting the user experience and safety.
The Bluetooth headset is driven into the limiting cavity by the magnetic attraction of the first and second magnetic components, which increases the contact area and friction to ensure that the headset is firmly in the limiting cavity. Combined with the design of the limiting groove and the limiting part, it prevents the headset from falling off.
It improves the stability and convenience of Bluetooth earphones on watches, prevents accidental dislodgement due to shaking or impact, simplifies the charging process, and enhances the user experience.
Smart Images

Figure CN224354725U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of smartwatches, and more specifically to a watch and wearable device with Bluetooth earphones. Background Technology
[0002] Current watches are equipped with earphone slots for storing Bluetooth earphones, but some shortcomings have been exposed in practical applications. Specifically, the earphone slots currently fail to effectively restrain the Bluetooth earphones. The contact area between the outer edge of the earphone and the earphone slot is too small, resulting in insufficient friction and support between the earphone and the slot, failing to form a stable contact. The Bluetooth earphone is in a relatively unstable state within the earphone slot, easily displaced by gravity or external forces, and eventually falls out.
[0003] Especially during exercise, such as running or working out, the watch will swing and vibrate significantly with the body's movements. Under this continuous vibration, the earphones inside the earphone slot are more likely to break through the limited friction and support between themselves and the slot walls, causing them to slip out and interfere with the user's normal exercise and experience.
[0004] Even in daily use, watches inevitably encounter accidental impacts or bumpy environments. For example, the bumpy road conditions while traveling or accidental collisions with other objects can cause the earphones to fall out of their slots. This not only increases the risk of earphone damage—if the earphones fall to the ground and are impacted or trampled—but can also lead to their loss, causing unnecessary financial losses and inconvenience for users. Furthermore, frequent earphone falls significantly reduce user satisfaction and trust in the product, impacting its market reputation and competitiveness, and ultimately hindering its promotion and use. Utility Model Content
[0005] To address the aforementioned technical problems, the purpose of this utility model is to provide a watch and wearable device with a Bluetooth headset. The Bluetooth headset is driven from the storage cavity into the limiting cavity by the magnetic attraction of the first and second magnetic components, with the headset part abutting against the limiting cavity. This securely attaches the Bluetooth headset to the limiting cavity, effectively increasing the contact area and friction between the Bluetooth headset and the limiting cavity. This ensures that the Bluetooth headset remains firmly in place even when the watch is shaken or subjected to external force, preventing accidental detachment due to gravity or impact, and greatly improving the stability of the headset when placed.
[0006] To achieve the above objectives, this utility model provides a watch with a Bluetooth headset, including a watch body and a Bluetooth headset;
[0007] The main body of the watch has a storage cavity and a limiting cavity that are interconnected on the side. The storage cavity has an outward-facing storage opening. The limiting cavity is embedded in one side of the storage cavity and has a first magnetic component and a first charging component built in. The Bluetooth headset has a second magnetic component and a second charging component.
[0008] When the Bluetooth earphone enters the storage cavity through the storage port, the first magnetic component and the second magnetic component attract each other and drive the Bluetooth earphone to move into the limiting cavity, so that the Bluetooth earphone part abuts against the limiting cavity and the first charging component and the second charging component are connected.
[0009] When using the Bluetooth earphone, it is necessary to push the Bluetooth earphone out of the limiting cavity in the opposite direction so that the Bluetooth earphone corresponds to the storage port.
[0010] In some embodiments, the storage cavity and the limiting cavity are at least partially overlapped, the outer edge of the Bluetooth headset abuts against the limiting cavity, and the first magnetic element and the first charging component are both located at the overlapping position of the storage cavity and the limiting cavity.
[0011] In some embodiments, the limiting cavity forms a limiting portion on the side wall of the receiving port, and when the Bluetooth headset is located in the limiting cavity, the outer edge of the Bluetooth headset abuts against the limiting portion.
[0012] In some embodiments, the limiting part is located at the bottom of the storage opening in the vertical direction and / or on any side in the horizontal direction, and the Bluetooth headset is adapted to move vertically and / or horizontally under the action of the first magnetic element and the second magnetic element.
[0013] In some embodiments, a limiting groove is also provided at the corresponding position of the limiting part, and the limiting part is adapted to be disposed in the limiting groove, so that the back of the Bluetooth headset is parallel to the outer wall of the watch body.
[0014] In some embodiments, a first slot is provided on the side wall of the limiting cavity, through which the Bluetooth headset is adapted to be exposed and through which the Bluetooth headset is adapted to be driven to move in the opposite direction.
[0015] In some embodiments, the Bluetooth headset is further provided with a push block, which is located in the first slot and is adapted to drive the Bluetooth headset to move in the opposite direction and enter the storage cavity.
[0016] In some embodiments, the Bluetooth headset is further provided with a second slot at the corresponding position of the first slot, and the second slot is adapted to drive the Bluetooth headset out of the storage cavity.
[0017] In some embodiments, one end of the Bluetooth headset is provided with an in-ear portion, and the in-ear portion, the second magnetic component, and the second charging component are arranged sequentially at intervals.
[0018] According to another aspect of this application, a wearable device with Bluetooth headset is further provided, including any of the watches described in the preferred embodiments above.
[0019] Compared with the prior art, the watch and wearable device with Bluetooth headset provided by this utility model has at least one of the following beneficial effects:
[0020] 1. The Bluetooth earphone is driven from the storage cavity into the limiting cavity by the magnetic attraction of the first and second magnetic components, and the Bluetooth earphone part abuts against the limiting cavity, so that the Bluetooth earphone is firmly attracted in the limiting cavity. This effectively increases the contact area and friction between the Bluetooth earphone and the limiting cavity, ensuring that the Bluetooth earphone can stay firmly in place even when the watch is shaken or subjected to external force, avoiding accidental falling off due to gravity or collision, and greatly improving the stability of the earphone when placed.
[0021] 2. When the Bluetooth earphone moves into the limiting cavity under the action of magnetic attraction, its outer edge will fit tightly with the limiting part. This not only restricts the position of the Bluetooth earphone in the limiting cavity and prevents it from moving unnecessarily in the cavity, but also further increases the contact area and friction between the earphone and the limiting cavity.
[0022] 3. By constraining the limiting part through the limiting groove, the back of the Bluetooth headset can remain parallel to the outer wall of the watch body, thereby ensuring that the headset remains stable during placement and will not fall off or have poor contact due to tilting or displacement.
[0023] 4. When the user needs to use the Bluetooth headset, simply insert your finger into the first slot and gently push the Bluetooth headset to overcome the magnetic attraction between the first and second magnetic components, driving the headset to move in the opposite direction and release it from the limiting cavity. This not only makes the operation simple but also allows the user to easily remove the Bluetooth headset without additional tools or complicated operating steps, greatly improving the convenience of use. Attached Figure Description
[0024] The optional embodiments will be described below in a clear and easy-to-understand manner, with reference to the accompanying drawings, to further explain the above-mentioned characteristics, technical features, advantages and implementation methods of this utility model.
[0025] Figure 1 These are separate images of the Bluetooth headset and the main body of the watch;
[0026] Figure 2 This is a structural diagram of a Bluetooth headset.
[0027] Explanation of icon numbers:
[0028] The watch body 1, storage cavity 11, storage opening 111, limiting cavity 12, first magnetic component 121, first charging component 122, limiting part 123, and first slot 124.
[0029] Bluetooth earphone 2, second magnetic component 21, second charging component 22, second slot 23, in-ear part 24, and driving block 25. Detailed Implementation
[0030] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the specific implementation methods of this utility model will be described below with reference to the accompanying drawings. Obviously, the drawings described below are merely some embodiments of this utility model. For those skilled in the art, other drawings and other implementation methods can be obtained based on these drawings without any creative effort.
[0031] To keep the drawings concise, each figure only schematically shows the parts relevant to the utility model, and these do not represent the actual structure of the product. Furthermore, for ease of understanding, in some figures, only one of the components with the same structure or function is schematically depicted, or only one is labeled. In this document, "one" not only means "only one," but can also mean "more than one."
[0032] It should also be further understood that the term “and / or” as used in this application specification and the appended claims means any combination of one or more of the associated listed items and all possible combinations, and includes such combinations.
[0033] In this document, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.
[0034] Furthermore, in the description of this application, the terms "first," "second," etc., are used only for distinguishing descriptions and should not be construed as indicating or implying relative importance. It should be noted that the above embodiments can be freely combined as needed. The above are merely optional embodiments of this utility model. It should be pointed out that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications should also be considered within the protection scope of this utility model.
[0035] refer to Figure 1 and Figure 2 This utility model provides a watch with a Bluetooth earphone 2, including a watch body 1 and a Bluetooth earphone 2; the watch body 1 has a storage cavity 11 and a limiting cavity 12 that are interconnected on the side, the storage cavity 11 has an outward storage opening 11, and the limiting cavity 12 is embedded in one side of the storage cavity 11 and has a first magnetic element 121 and a first charging component 122 built in; the Bluetooth earphone 2 is provided with a second magnetic element 21 and a second charging component 22; when the Bluetooth earphone 2 enters the storage cavity 11 through the storage opening 11, the first magnetic element 121 and the second magnetic element 21 attract each other and drive the Bluetooth earphone 2 to move into the limiting cavity 12, so that the Bluetooth earphone 2 partially abuts against the limiting cavity 12 and the first charging component 122 and the second charging component 22 are connected; when the Bluetooth earphone 2 is taken out, it needs to be pushed out of the limiting cavity 12 in the opposite direction so that the Bluetooth earphone 2 corresponds to the storage opening 11.
[0036] In this embodiment, the Bluetooth headset 2 is driven from the storage cavity 11 into the limiting cavity 12 by the magnetic attraction of the first magnetic element 121 and the second magnetic element 21, and the Bluetooth headset 2 partially abuts against the limiting cavity 12, so that the Bluetooth headset 2 is stably attracted in the limiting cavity 12. This effectively increases the contact area and friction between the Bluetooth headset 2 and the limiting cavity 12, ensuring that the Bluetooth headset 2 can be firmly kept in place even when the watch is shaken or subjected to external force, avoiding accidental falling off due to gravity or collision, and greatly improving the stability of the headset in the placement state.
[0037] Specifically, the side of the watch body 1 has a storage cavity 11 and a limiting cavity 12 that are interconnected. The storage cavity 11 has an outward-facing storage opening 11 for easy insertion and removal of the Bluetooth earphone 2. The limiting cavity 12 is embedded in one side of the storage cavity 11 and houses a first magnetic component 121 and a first charging component 122. Correspondingly, the Bluetooth earphone 2 has a second magnetic component 21 and a second charging component 22. At this time, the total volume of the storage cavity 11 and the limiting cavity 12 is greater than the volume of the Bluetooth earphone 2, so that the Bluetooth earphone 2 can move under the magnetic attraction of the first magnetic component 121 and the second magnetic component 21. The first charging component 122 and the second charging component 22 are a charging PIN pin and a pogo-pin spring. The charging PIN pin contacts the pogo-pin spring, making the power supply of the device body and the Bluetooth earphone 2 conductive. Of course, this is only one way of charging module, and it can also be in other forms. These are all prior art of this application, and this application does not further limit them here.
[0038] When the Bluetooth earphone 2 needs to be stored in the watch, simply insert it into the storage cavity 11 through the storage opening 11. At this time, the first magnetic component 121 and the second magnetic component 21 will attract each other, and this magnetic force will drive the Bluetooth earphone 2 to automatically move into the limiting cavity 12. As the Bluetooth earphone 2 moves, part of its structure will abut against the limiting cavity 12, thus achieving a stable fixation. This effectively increases the contact area and friction between the Bluetooth earphone 2 and the limiting cavity 12, ensuring that the Bluetooth earphone 2 remains firmly in place even when the watch is shaken or subjected to external force. For example, in sports scenarios such as running or fitness, the watch may shake significantly, but the earphone will still remain securely stored in the limiting cavity 12, preventing accidental dislodgement due to gravity or impact. This greatly improves the stability of the earphone when stored, providing users with reliable usage assurance.
[0039] Simultaneously, once the earphones are moved to the designated position, the first charging component 122 and the second charging component 22 can precisely dock, automatically charging the Bluetooth earphones 2. This eliminates the tedious step of manually inserting the earphones for charging, simplifying the charging process. Whether after prolonged exercise or during daily use, users don't need to worry about the earphones' battery level; simply placing the earphones into the storage cavity 11 will automatically begin charging, ensuring the earphones are always fully charged, improving convenience and meeting users' needs for convenient charging.
[0040] Furthermore, when the Bluetooth earphone 2 needs to be used, the user simply needs to push the earphone out of the limiting cavity 12 in reverse, returning it to the position corresponding to the storage port 11, to easily remove and use the earphone. This eliminates the need for complex mechanical structures or additional fixing devices, reducing manufacturing costs and maintenance difficulty, while also providing users with a smoother and more convenient user experience.
[0041] It is worth noting that the Bluetooth earphone 2 has an in-ear portion 24 at one end, with the in-ear portion 24, the second magnetic component 21, and the second charging component 22 arranged alternately. The in-ear portion 24 is the part of the Bluetooth earphone 2 that directly contacts the user and is used to transmit sound to the user's ear canal. Its alternating arrangement with the second magnetic component 21 and the second charging component 22 allows for the integration of multiple functions within a limited space, making the earphone structure compact yet functional. The storage cavity 11 and the limiting cavity 12 also have corresponding in-ear cavities at their bottoms for housing the in-ear portion 24. Furthermore, the second charging component 22 is located adjacent to the second magnetic component 21, ensuring that while the earphone is magnetically secured, the charging component can also effectively contact the first charging component 122 inside the watch body 1, enabling fast charging. The in-ear portion 24 also ensures that the Bluetooth earphone 2 can only be moved in the opposite direction and then removed through the storage opening 11, improving the safety performance of the Bluetooth earphone 2.
[0042] Optionally, the storage cavity 11 and the limiting cavity 12 are at least partially overlapped, with the outer edge of the Bluetooth earphone 2 abutting against the limiting cavity 12. The first magnetic component 121 and the first charging component 122 are both located at the overlapping position of the storage cavity 11 and the limiting cavity 12. In this embodiment, the partial overlap of the storage cavity 11 and the limiting cavity 12 reduces the overall thickness of the storage cavity 11 and the limiting cavity 12, making the overall structure more compact and small, making full use of the limited space inside the watch, optimizing the spatial layout, and improving space utilization. Specifically, the storage cavity 11 and the limiting cavity 12 are mostly overlapped to significantly reduce the overall height of the storage cavity 11 and the limiting cavity 12. Optionally, the movement range of the Bluetooth earphone is within 2cm. In this case, the Bluetooth earphone can also be directly abutted against the inner wall of the limiting cavity 12 first, and then slowly placed into the storage cavity 11 and the limiting cavity 12.
[0043] Furthermore, the limiting cavity 12 forms a limiting part 123 on the side wall of the receiving port 11. When the Bluetooth headset 2 is located in the limiting cavity 12, the outer edge of the Bluetooth headset 2 abuts against the limiting part 123.
[0044] In this embodiment, when the Bluetooth headset 2 moves to the limiting cavity 12 under the action of magnetic attraction, its outer edge will be tightly fitted with the limiting part 123. This not only restricts the position of the Bluetooth headset 2 in the limiting cavity 12 and prevents it from moving unnecessarily in the cavity, but also further increases the contact area and friction between the headset and the limiting cavity 12.
[0045] Specifically, the limiting cavity 12 forms a limiting part 123 on the side wall of the storage opening 11. After the Bluetooth earphone 2 enters the storage cavity 11, it can move along a specific direction under the action of magnetic attraction and finally abut against the limiting part 123. The limiting part 123 is located at the bottom of the storage opening 11. Under the action of the first magnetic element 121 and the second magnetic element 21, the Bluetooth earphone 2 is suitable for vertical movement. Of course, if the Bluetooth earphone 2 moves downward, the top of the storage cavity 11 will be hollowed out. For aesthetic purposes, a retractable baffle can be provided on the top of the storage cavity 11. This baffle is suitable for abutting against the top of the Bluetooth earphone 2 to cover the gap at the top of the storage cavity 11.
[0046] In a modified embodiment, the limiting part 123 is located at the bottom of the storage opening 11 in the vertical direction and / or on any side in the horizontal direction. Under the action of the first magnetic element 121 and the second magnetic element 21, the Bluetooth headset 2 is suitable for vertical and horizontal movement. Specifically, when the Bluetooth headset 2 is inserted into the storage opening 11, the magnetic force drives the Bluetooth headset 2 to move downward in the vertical direction first, so as to enter a deeper part of the storage cavity 11, and the bottom edge of the Bluetooth headset 2 abuts against the bottom limiting part 123; then, the Bluetooth headset 2 moves horizontally towards the limiting cavity 12 until its right outer edge abuts against the right limiting part 123. The combination of vertical and horizontal movement of the Bluetooth headset 2 not only ensures that the Bluetooth headset 2 accurately reaches the predetermined position in the limiting cavity 12 and achieves a stable abutment, but also makes the headset placement process smoother and more natural, further enhancing the stability and reliability of the Bluetooth headset 2 placement. At this time, the limiting part 123 forms an L-shape, and the limiting part 123 abuts against the two sides of the Bluetooth headset 2, improving the fixing effect of the limiting cavity 12 on the Bluetooth headset 2. It is worth noting that the limiting part 123 can also be located only on the right, top, or left side of the storage opening 11, which will not be further described here. That is, the limiting part 123 is located on any side or adjacent sides of the storage opening 11.
[0047] In a modified embodiment, a limiting groove is also provided at the corresponding position of the limiting part 123, and the limiting part 123 is adapted to be disposed in the limiting groove so that the back of the Bluetooth headset 2 is parallel to the outer wall of the watch body 1.
[0048] In this embodiment, by constraining the limiting part 123 by the limiting groove, the back of the Bluetooth headset 2 can remain parallel to the outer wall of the watch body 1, thereby ensuring that the headset remains stable during placement and will not fall off or have poor contact due to tilting or displacement.
[0049] Specifically, the cooperation between the limiting groove and the limiting part 123 provides precise positioning for the Bluetooth earphone 2, making its position within the limiting cavity 12 more accurate. This helps improve the docking accuracy between the earphone and the charging component, ensuring a smooth charging process. Moreover, the limiting groove not only serves a positioning function but also increases the stability of the earphone within the limiting cavity 12. The earphone is firmly fixed in position by the limiting groove and the limiting part 123, reducing the possibility of it becoming loose due to external impacts or watch movement. Finally, the Bluetooth earphone 2 is parallel to the outer wall of the watch body 1, making the overall watch appearance cleaner and more harmonious, enhancing the product's visual appeal and aesthetics. Such design details also reflect the product's high quality and refined feel.
[0050] It is worth noting that the shape of the limiting groove matches that of the limiting part 123, but this application does not make further limitations here. As long as when the Bluetooth headset 2 moves into the limiting cavity 12 under the action of magnetic attraction, its outer edge abuts against the limiting part 123, and the limiting part 123 fits tightly with the limiting groove.
[0051] Furthermore, a first slot 124 is provided on the side wall of the limiting cavity 12, through which the Bluetooth headset 2 is exposed and through which the Bluetooth headset 2 is driven to move in the opposite direction.
[0052] In this embodiment, when a user needs to use the Bluetooth headset 2, they only need to insert their finger into the first slot 124 and gently push the Bluetooth headset 2 to overcome the magnetic attraction between the first magnetic component 121 and the second magnetic component 21, driving the headset to move in the opposite direction and release it from the limiting cavity 12. This not only makes the operation simple, but also allows the user to easily remove the Bluetooth headset 2 without additional tools or complicated operating steps, greatly improving the convenience of use.
[0053] Specifically, the first slot 124 is elongated and located on the outer side of the sidewall of the limiting cavity 12, near the storage opening 11. Its length direction is consistent with the length direction of the Bluetooth headset 2, and its width is moderate, ensuring that the user's fingers or tools can be easily inserted. When the Bluetooth headset 2 is fully inserted into the limiting cavity 12 and abuts against the limiting part 123, a part of the headset (usually the side or edge) will be moderately exposed through the first slot 124. The exposed part is sufficient for the user to contact and apply force to move it.
[0054] Optionally, the Bluetooth headset 2 is further provided with a push block 25, which is located within the first slot 124 and is adapted to drive the Bluetooth headset 2 to move in the reverse direction and enter the storage cavity 11. The push block 25 is installed on the side or edge of the Bluetooth headset 2, located directly below or to the side of the first slot 124. When the user needs to take out the Bluetooth headset 2, they only need to gently press or push the push block 25 with their finger to drive the Bluetooth headset 2 to move in the reverse direction. After being subjected to force, the push block 25 will transmit the force to the Bluetooth headset 2, causing it to overcome the magnetic attraction between the first magnetic element 121 and the second magnetic element 21, release from the limiting cavity 12 and enter the storage cavity 11, allowing the user to easily control the direction and force of the headset's movement, making the operation more precise and convenient. Optionally, the size and shape of the push block 25 match the first slot 124, ensuring that the push block 25 will not fall out of the slot when not in use, and can slide smoothly within the slot during operation. This not only improves the stability of the structure, but also enhances the smoothness and reliability of the operation. In a modified embodiment, the push block 25 may also be located inside the storage opening 11, that is, it is not located inside the limiting cavity 12. Through this push block 25, the Bluetooth headset 2 can be moved arbitrarily.
[0055] It is worth noting that the Bluetooth earphone 2 also has a second slot 23 at the corresponding position of the first slot 124. The second slot 23 is suitable for driving the Bluetooth earphone 2 out of the storage cavity 11. The second slot 23 is located on the side of the Bluetooth earphone 2, corresponding to the position of the first slot 124. The shape and size of the second slot 23 match the first slot 124, and it is usually elongated or semi-circular, ensuring that the user's fingers or tools can easily be inserted and applied force. Its edges are rounded to avoid scratching the user's fingers or damaging the earphone surface. The second slot 23 can be understood as providing a convenient trigger point, allowing the user to easily trigger the Bluetooth earphone 2 out of the storage cavity 11. Of course, the second slot 23 can also be used to drive the Bluetooth earphone 2 to move in the opposite direction. When a user needs to remove the Bluetooth earphone 2, they simply insert their finger gently into the first slot 124 and the second slot 23 and push the Bluetooth earphone 2 to the storage port 11. Then, an outward pulling force is applied through the second slot 23, causing the Bluetooth earphone 2 to leave the storage port 11 of the storage cavity 11. This improves the convenience of operation. Users do not need to forcefully pinch the entire earphone; instead, they can remove the earphone with a simple snapping motion. This process is quick and smooth, greatly enhancing the user experience.
[0056] Furthermore, this application provides a wearable device with Bluetooth headset, including the watch in any of the above embodiments.
[0057] It should be noted that the above embodiments can be freely combined as needed. The above are only optional embodiments of this utility model. It should be pointed out that for those skilled in the art, several improvements and modifications can be made without departing from the principle of this utility model, and these improvements and modifications should also be considered within the protection scope of this utility model.
Claims
1. A watch with Bluetooth earpiece, characterized in that, Includes the watch body and Bluetooth earphones; The main body of the watch has a storage cavity and a limiting cavity that are interconnected on the side. The storage cavity has an outward-facing storage opening. The limiting cavity is embedded in one side of the storage cavity and has a first magnetic component and a first charging component built in. The Bluetooth headset has a second magnetic component and a second charging component. When the Bluetooth earphone enters the storage cavity through the storage port, the first magnetic component and the second magnetic component attract each other and drive the Bluetooth earphone to move into the limiting cavity, so that the Bluetooth earphone part abuts against the limiting cavity and the first charging component and the second charging component are connected.
2. A watch with a Bluetooth headset according to claim 1, characterized in that, The storage cavity and the limiting cavity are at least partially overlapped, the outer edge of the Bluetooth earphone abuts against the limiting cavity, and the first magnetic component and the first charging component are both located at the overlapping position of the storage cavity and the limiting cavity. When using the Bluetooth earphone, it is necessary to push the Bluetooth earphone out of the limiting cavity in the opposite direction so that the Bluetooth earphone corresponds to the storage port.
3. A watch with Bluetooth earphones according to claim 2, characterized in that, The limiting cavity forms a limiting part on the side wall of the storage port. When the Bluetooth earphone is located in the limiting cavity, the outer edge of the Bluetooth earphone abuts against the limiting part.
4. A watch with a Bluetooth headset according to claim 3, characterized in that, The limiting part is located at the bottom of the storage opening in the vertical direction and / or on any side in the horizontal direction. Under the action of the first magnetic element and the second magnetic element, the Bluetooth headset is adapted to move vertically and / or horizontally.
5. A watch with a Bluetooth headset according to claim 4, characterized in that, The back of the Bluetooth headset is also provided with a limiting groove at the corresponding position of the limiting part. The limiting part is adapted to be disposed in the limiting groove, so that the back of the Bluetooth headset is parallel to the outer wall of the watch body.
6. A watch with a Bluetooth headset according to any one of claims 1-5, characterized in that, The side wall of the limiting cavity is provided with a first slot, through which the Bluetooth headset is adapted to be exposed and driven to move in the opposite direction.
7. A watch with a Bluetooth headset according to claim 6, characterized in that, The Bluetooth headset is also provided with a push block, which is located in the first slot and is adapted to drive the Bluetooth headset to move in the opposite direction and enter the storage cavity.
8. A watch with a Bluetooth headset according to claim 6, characterized in that, The Bluetooth headset is further provided with a second slot at the corresponding position of the first slot, and the second slot is adapted to drive the Bluetooth headset out of the storage cavity.
9. A watch with a Bluetooth headset according to claim 1, characterized in that, The Bluetooth headset has an in-ear portion at one end, and the in-ear portion, the second magnetic component, and the second charging component are arranged sequentially at intervals.
10. A wearable device having a Bluetooth headset, the device comprising: a Bluetooth headset; a wearable device; and a Bluetooth module configured to communicate with the Bluetooth headset and the wearable device. Includes the watch as described in any one of claims 1-9.