CN112616107B - Wireless earphone capable of being charged continuously - Google Patents

Abstract

The embodiment of the invention provides a continuous charging wireless earphone, which relates to the technical field of electronic equipment and comprises an earphone body and a standby battery module, wherein the standby battery module is detachably assembled on the earphone body, is electrically connected with the earphone body and is used for charging the earphone body, and a charging interface for externally connecting a charging wire is further arranged on the standby battery module. According to the earphone, the standby battery module is detachably assembled on the earphone body, the earphone body is charged through the standby battery module, a charging bin is avoided, meanwhile, the charging interface is formed in the standby battery module, so that an external charging wire can charge at least one of the standby battery module and the earphone body through the charging interface, the earphone body can be charged through the standby battery module, and the earphone can also be charged through the external charging wire, and the earphone is various in charging modes and high in applicability.

Description

Continuous charging wireless earphone

Technical Field

The invention relates to the technical field of electronic equipment, in particular to a continuously charging wireless earphone.

Background

Tws (true Wireless hierarchy) technology is based on the development of bluetooth chip technology. According to the working principle, the main earphone is connected with the main earphone, and then the main earphone is quickly connected with the auxiliary earphone in a wireless mode, so that the real wireless separation use of left and right sound channels of the Bluetooth is realized. When the slave loudspeaker box is not connected, the master loudspeaker box returns to the monophonic tone quality. The TWS technology is applied to the field of Bluetooth headsets, so a new product, TWS Bluetooth headsets, is also promoted.

The TWS earphone battery capacity is small, generally no electricity is available after 4 hours of song listening, the service life of the TWS earphone can be prolonged by supplying electricity, in the prior art, a general electricity supply mode is that charging is carried out through a charging bin device, an electricity supply standby battery is added, the charging bin is complex in structure and large in size, cost is increased undoubtedly, and the charging bin can only be used for charging the earphone in the charging bin, and the charging mode is single.

Disclosure of Invention

The invention aims to provide a continuous charging wireless earphone which can get rid of a charging bin for charging, has simple structure and small volume, can realize charging modes of battery charging and external charging wire charging, and has various charging modes and strong applicability.

Embodiments of the invention may be implemented as follows:

in a first aspect, the invention provides a continuously charging wireless earphone, which includes an earphone body and a standby battery module, wherein the standby battery module is detachably assembled on the earphone body, electrically connected with the earphone body, and used for charging the earphone body, and a charging interface for externally connecting a charging wire is further provided on the standby battery module.

In optional embodiment, the earphone body is including going into ear and peg portion, the one end of peg portion with go into ear connection, it is provided with first charging port on the ear to go into, spare battery module is used for detachably assembling go into on the ear, just be provided with on the spare battery module be used for with first charging port electric contact's first electric property terminal.

In an optional embodiment, one side of the backup battery module is provided with an accommodating slot for accommodating a part of the ear-entering portion, the first electrical terminal is disposed in the accommodating slot, and the first electrical terminal is in electrical contact with the first charging port under the condition that the backup battery module is clamped on the ear-entering portion through the accommodating slot.

In an optional embodiment, the backup battery module is further provided with a clamping projection, and the clamping projection is provided with a clamping groove for clamping the hanging shaft portion.

In an optional implementation manner, a first magnetic attraction piece is arranged on the standby battery module, a second magnetic attraction piece is arranged on the ear portion or the hanging shaft portion, and the first magnetic attraction piece is magnetically attracted to the second magnetic attraction piece to prevent the first electric terminal from being separated from the first charging port.

In an optional embodiment, the first charging port is disposed at a top end of the ear insertion portion, and the first electrical terminal is disposed on a sidewall of the receiving slot.

In an optional implementation mode, the one end of going into the ear is kept away from to peg portion is provided with the second port that charges, the holding draw-in groove still be used for with peg portion is kept away from the one end assembly of going into the ear, just still be provided with second electrical property terminal in the holding draw-in groove spare battery module passes through the holding draw-in groove assembly is in peg portion is kept away from under the condition of the one end of going into the ear, second electrical property terminal with second port electrical contact that charges.

In an optional implementation mode, the one end of going into the ear is kept away from to peg portion is provided with the second port of charging, the holding draw-in groove still be used for with peg portion is kept away from the one end assembly of going into the ear spare battery module passes through the holding draw-in groove assembly is in peg portion is kept away from under the condition of the one end of going into the ear, first electrical property terminal with the second port of charging electrical contact.

In an optional embodiment, a supporting plane is disposed on a side of the backup battery module away from the earphone body, and the supporting plane is used for supporting the backup battery module and the earphone body.

In an optional implementation manner, one end of the hanging shaft portion, which is far away from the ear portion, is further provided with an elastic assembly sleeve, the elastic assembly sleeve is provided with an opening, through which the second charging port is exposed, and the diameter of the elastic assembly sleeve is matched with the accommodating clamping groove, so that the hanging shaft portion is in interference fit in the accommodating clamping groove.

The beneficial effects of the embodiment of the invention include, for example:

according to the continuous charging earphone provided by the invention, the standby battery module is detachably assembled on the earphone body, the earphone body is charged through the standby battery module, a charging bin is avoided, and meanwhile, the charging interface is formed on the standby battery module, so that at least one of the standby battery module and the earphone body can be charged through the charging interface by an external charging wire, the earphone body can be charged through the standby battery module, and can also be charged through the external charging wire, the charging mode is various, and the applicability is strong.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a continuously charging wireless headset provided in the present invention in a first charging state;

fig. 2 is a schematic view of a first view angle assembly structure of the continuously charging wireless headset in a first charging state according to the present invention;

fig. 3 is a schematic view of a second view angle assembly structure of the continuously charging wireless headset in the first charging state according to the present invention;

fig. 4 is a schematic structural diagram of a continuously charging wireless headset in a second charging state according to the present invention;

fig. 5 is a schematic view of a first view angle assembly structure of the continuously charging wireless headset in a second charging state according to the present invention;

fig. 6 is a schematic view of a second perspective assembly structure of the continuously charging wireless headset in a second charging state according to the present invention.

Icon: 100-continuously charging the wireless earphone; 110-a headset body; 111-ear in; 113-a hanging shaft part; 115 — a first charging port; 117-second charging port; 118-a second magnetically attractive element; 119-an elastic assembly set; 130-a battery backup module; 131-a charging interface; 133-a first electrical terminal; 135-an accommodating slot; 137-chucking bumps; 1371-a retaining groove; 138-a first magnetic element; 139-a second electrical terminal; 150-holding plane.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that if the terms "upper", "lower", "inside", "outside", etc. indicate an orientation or a positional relationship based on that shown in the drawings or that the product of the present invention is used as it is, this is only for convenience of description and simplification of the description, and it does not indicate or imply that the device or the element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

As disclosed in the background art, the conventional TWS wireless headset has a small battery capacity due to the limited structure, and how to increase the endurance thereof becomes a problem to be solved by the TWS wireless headset. Among the prior art, can realize the promotion of continuation of the journey through the mode that provides continuation of the electricity, general continuation of the electricity mode is charged through the storehouse that charges, provides a storehouse body that is used for charging wireless earphone promptly, and storehouse body volume is great, can the battery of holding the large capacity, and the battery of this large capacity of rethread charges to the earphone of putting into the storehouse body, realizes the promotion of continuation of the journey.

However, this method requires the earphone to be taken off from the ear for charging, which is also an alternative to the earphone being recharged after the earphone is exhausted, and adds a charging chamber structure, which is complex and large in size, which increases the cost undoubtedly, and the charging chamber only can be used for charging the earphone, and cannot be used continuously in the charging process, and the charging method is single.

In order to solve the above problems, the present invention provides a novel continuous charging wireless headset, and it should be noted that, in a non-conflicting manner, features in the embodiments of the present invention may be combined with each other.

First embodiment

Referring to fig. 1 to fig. 3, wherein fig. 1 is a diagram of a first charging state, the present embodiment provides a wireless headset 100 capable of continuously charging, which can get rid of a charging chamber for charging, has a simple structure and a small volume, and can implement a charging mode of charging a battery and charging an external charging line, and the charging mode is various, and can continuously charge in a using process, and has strong applicability.

The wireless earphone 100 capable of being continuously charged provided by the embodiment comprises an earphone body 110 and a standby battery module 130, wherein the standby battery module 130 is detachably assembled on the earphone body 110 and electrically connected with the earphone body 110, and is used for charging the earphone body 110, and the standby battery module 130 is further provided with a charging interface 131 for externally connecting a charging wire.

In the embodiment, the size of the battery backup module 130 is matched with the size of the earphone body 110, and when the earphone body 110 is hung on the ear, the battery backup module 130 does not affect the normal use of the earphone body 110. The backup battery module 130 is provided with a rechargeable battery inside, and can charge the earphone body 110, thereby improving the cruising ability of the earphone body 110. Simultaneously, the interface 131 that charges has still been seted up on the spare battery module 130, can directly charge by external charging wire, this moment can take off the spare battery module 130 and charge alone, the charging wire charges to the spare battery module 130 alone this moment, also can charge spare battery module 130 and earphone body 110 in the lump, the charging wire can directly charge to spare battery module 130 this moment, and when spare battery module 130 electric quantity was sufficient, the charging wire can directly charge earphone body 110, the charging mode is various.

In this embodiment, the charging interface 131 is disposed at a side of the backup battery module 130, and may be a plurality of TYPEs of charging interfaces 131 such as a USB interface, a micro interface, or a TYPE-C interface, and a specific TYPE of the charging interface 131 is not specifically limited herein.

It should be noted that, in the present embodiment, a continuous charging wireless headset 100 is provided, and generally two continuous charging wireless headsets are used in a matching manner, and only one of the continuous charging wireless headset 100 is taken as an example for description in the present embodiment.

The earphone body 110 includes an ear portion 111 and a hanging shaft portion 113, one end of the hanging shaft portion 113 is connected to the ear portion 111, a first charging port 115 is disposed on the ear portion 111, the battery backup module 130 is detachably mounted on the ear portion 111, and a first electrical terminal 133 electrically contacting with the first charging port 115 is disposed on the battery backup module 130. Specifically, a speaker playing opening is disposed on the inner side of the ear insertion portion 111, the battery backup module 130 is assembled on the outer side of the ear insertion portion 111, a speaker, a part of a circuit board and other structures are disposed in the ear insertion portion 111 and used for being inserted into an auricle to realize a sound playing function, and a battery, a part of a circuit board and other structures are disposed in the hanging shaft portion 113, wherein the internal structure of the earphone body 110 and the principle of realizing the playing function can refer to the existing TWS wireless earphone. Through add first interface 131 that charges in income ear portion 111 in this embodiment for reserve battery module 130 can articulate on income ear 111, and realize being connected with earphone body 110's electricity, thereby realize charging to earphone body 110, and reserve battery module 130 articulates in the outside of income ear 111, can avoid influencing income ear 111 and pack into the auricle, thereby make under the condition that articulates reserve battery module 130, earphone body 110 still can normal use, the duration of earphone has greatly been promoted.

In the embodiment, one side of the battery backup module 130 is provided with a receiving slot 135 for receiving a portion of the ear portion 111, the first electrical terminal 133 is disposed in the receiving slot 135, and the first electrical terminal 133 is electrically contacted with the first charging port 115 under the condition that the battery backup module 130 is clamped on the ear portion 111 through the receiving slot 135. Specifically, according to a conventional design, the outer side of the ear insertion portion 111 has a protruding portion, and by forming the receiving slot 135, the protruding portion of the ear insertion portion 111 can be inserted into the receiving slot 135, so that the holding between the battery pack module 130 and the ear insertion portion 111 is more stable, and the electrical contact between the first electrical terminal 133 and the first charging interface 131 is also more stable.

In this embodiment, the backup battery module 130 is further provided with a locking protrusion 137, and the locking protrusion 137 is provided with a locking groove 1371 for locking the hanging shaft portion 113. Specifically, the catching protrusion 137 is located at the lower portion of the backup battery module 130, and the catching groove 1371 has a size matched with that of the hanging shaft portion 113, so that the hanging shaft portion 113 is caught in the catching groove 1371. During actual installation, the ear insertion portion 111 can be inserted into the receiving slot 135, and then the lower portion of the battery module 130 is pressed by hand, so that the hanging shaft portion 113 is inserted into the clamping slot 1371 to form a clamping structure, thereby further ensuring the stability between the battery module 130 and the earphone body 110, preventing the battery module 130 from being separated from the earphone body 110 without external force, and making the electrical contact between the first electrical terminal 133 and the first charging interface 131 more stable and reliable.

In this embodiment, the backup battery module 130 is provided with a first magnetic attraction element 138, the ear insertion portion 111 or the hanging shaft portion 113 is provided with a second magnetic attraction element 118, and the first magnetic attraction element 138 is magnetically attracted to the second magnetic attraction element 118 to prevent the first electrical terminal 133 from being separated from the first charging port 115. Preferably, the hanging shaft portion 113 is provided with a second magnetic attraction member 118, the lower portion of the backup battery module 130 is provided with a first magnetic attraction member 138, the first magnetic attraction member 138 and the second magnetic attraction member 118 magnetically attract each other, the backup battery module 130 and the hanging shaft portion 113 are kept fixed by setting a magnetic attraction structure, the backup battery module 130 is tightly attached to the earphone body 110 to form a whole, and poor contact between the first electric terminal 133 and the first charging interface 131 caused by movement when a user takes the earphone to move is prevented.

It should be noted that, in this embodiment, one of the first magnetic attraction piece 138 and the second magnetic attraction piece 118 is a magnet, and the other is an iron block, and the two can achieve mutual attraction. Specifically, the iron block is insulated, for example, coated with an insulating varnish, which merely serves as an attraction to the magnet and does not affect the internal circuit structure.

In other preferred embodiments of the present invention, the fixing between the battery backup module 130 and the earphone body 110 can be achieved only by the clamping structure between the earphone body 110 and the battery backup module 130, and the magnetic attraction structure is not provided; or only a magnetic attraction structure is arranged, and a clamping structure is not arranged. Both of these arrangements enable a stable assembly between the battery backup module 130 and the earphone body 110.

In the present embodiment, the first charging port 115 is disposed at the top end of the ear insertion portion 111, and the first electrical terminal 133 is disposed on the sidewall of the receiving slot 135. Specifically, when the battery backup module 130 is hooked to the incoming ear 111, by disposing the first charging port 115 at the top end of the incoming ear 111 and disposing the first electrical terminal 133 on the sidewall of the accommodating slot 135, the battery backup module 130 is abutted to the top end of the incoming ear 111 under the action of gravity, so that good contact between the first electrical terminal 133 and the first charging port 115 and the first electrical terminal 133 is further ensured. In addition, the first charging port 115 is disposed at the top end of the ear insertion part 111, so that the electrical contact is not separated even if the backup battery module 130 is not tightly fastened to the ear insertion part 111 or the relative sliding occurs, and the electrical contact stability is higher than that in the case of being disposed at the side wall.

It should be noted that, here, the first charging port 115 is disposed at the top end of the ear insertion portion 111, which means that in the use state that the ear insertion portion 111 is inserted into the auricle, the first charging port 115 is located at the top end of the ear insertion portion 111, and it is capable of ensuring good contact between the first electrical terminal 133 and the first charging port 115 and the first electrical terminal 133 in the use state.

Referring to fig. 4 to 6, in which fig. 4 is a diagram of a second charging state, a second charging port 117 is disposed at an end of the hanging shaft portion 113 far away from the ear insertion portion 111, the receiving slot 135 is further configured to be assembled with the end of the hanging shaft portion 113 far away from the ear insertion portion 111, and a second electrical terminal 139 is further disposed in the receiving slot 135, and when the standby battery module 130 is assembled at the end of the hanging shaft portion 113 far away from the ear insertion portion 111 through the receiving slot 135, the second electrical terminal 139 is electrically contacted with the second charging port 117. Specifically, the second electrical terminal 139 is disposed on the bottom wall of the accommodating slot 135, and when the earphone body 110 is taken down for charging, the hanging shaft portion 113 can be inserted into the accommodating slot 135, so that the second electrical terminal 139 is in electrical contact with the second charging port 117, and under the assembly structure, a charging wire can also be directly connected to the charging port 131, thereby realizing external charging.

It should be noted that, in the present embodiment, the side wall and the bottom wall of the receiving slot 135 refer to the side wall and the bottom wall of the receiving slot 135, and are unrelated to the placement position and the direction of the battery module 130.

It should be noted that, in other preferred embodiments of the present invention, only the first electrical terminal 133 is disposed in the receiving slot 135, and the second electrical terminal 139 is not disposed therein, and both the first charging port 115 and the second charging port 117 on the earphone body 110 are charged through the first electrical terminal 133, and accordingly, the second charging port 117 is disposed on the sidewall of the hanging shaft portion 113. Alternatively, only the second electrical terminal 139 is disposed in the receiving slot 135, but the first electrical terminal 133 is not disposed, and both the first charging port 115 and the second charging port 117 on the earphone body 110 are charged through the second electrical terminal 139, and accordingly, the first charging port 115 needs to be disposed on the sidewall of the ear entering portion 111.

In this embodiment, a supporting plane 150 is disposed on a side of the battery backup module 130 away from the earphone body 110, and the supporting plane 150 is used for supporting the battery backup module 130 and the earphone body 110. Specifically, the back surface of the backup battery module 130 is planar, and when the second charging port 117 and the second electrical terminal 139 are used for charging, the backup battery module 130 can be placed on a platform (e.g., a table top or a table top), and the abutting surface 150 is in contact with the platform, thereby providing a good supporting effect. In addition, the earphone body 110 is supported and placed by the backup battery module 130, and when the earphone body is vertically placed on a table, the ear insertion part 111 on the earphone body 110 is not in contact with the table, so that the ear insertion part 111 is cleaner, more sanitary and safer.

In this embodiment, the first charging port 115 and the second charging port 117 are each provided with a contact copper sheet, and the first electrical terminal 133 and the electrical terminal each include a striker for electrically contacting the contact copper sheet, so that the electrical connection is realized through the contact between the striker and the contact copper sheet. Of course, in other preferred embodiments, other types of electrical contacts may be used, such as metal spring plates or metal posts, which are not limited herein.

In this embodiment, an elastic assembly 119 is further disposed at an end of the hanging shaft portion 113 far away from the ear portion 111, an opening is formed in the elastic assembly 119 to expose the second charging port 117, and a diameter of the elastic assembly 119 is adapted to the receiving slot 135, so that the hanging shaft portion 113 is interference-assembled in the receiving slot 135. Specifically, the size of the elastic assembly sleeve 119 is slightly larger than that of the accommodating slot 135, so that the hanging shaft portion 113 can be interference-assembled in the accommodating slot 135 during assembly, and the earphone body 110 and the battery module 130 are fixed.

In this embodiment, the elastic assembly set 119 is a silicone sleeve and has certain elasticity, and other materials with elasticity, such as elastic resin, may also be used for the elastic assembly set 119 here, which is not limited in this embodiment.

In other preferred embodiments of the present invention, the end of the hanging shaft portion 113 away from the ear insertion portion 111 may also be designed to have a size equivalent to that of the receiving slot 135, so that the interference fit can be achieved without additionally providing the elastic fitting 119.

The wireless headset 100 of the present embodiment can adopt two charging states during actual use. Specifically, when the earphone body 110 is fitted into the pinna of the user, the first charging state is adopted in which the secondary battery module 130 is fitted outside the in-ear part 111 and the charging of the earphone body 110 is achieved through the electrical contact between the first electrical terminal 133 and the first charging port 115; when the earphone body 110 is taken down from the auricle of the user, the spare battery module 130 can be kept assembled outside the ear insertion part 111, and the charging interface 131 is externally connected with a charging wire, so that the spare battery module 130 and the earphone body 110 can be charged; when the earphone body 110 is taken down from the auricle of the user, the second charging state is adopted, the standby battery module 130 can be detached from the ear entering part 111 at the moment, the bottom end of the shaft hanging part 113 is inserted into the accommodating clamping groove 135, the charging of the earphone body 110 is realized through the electric contact between the second electric terminal 139 and the second charging port 117, and the charging port 131 can be externally connected with a charging wire at the moment to realize the charging of the standby battery module 130 and the earphone body 110.

In summary, the continuously charging wireless earphone 100 provided by this embodiment detachably assembles the backup battery module 130 on the earphone body 110, and the backup battery module 130 charges the earphone body 110, thereby avoiding using a charging bin, the structure is simple, and meanwhile, the backup battery module 130 is provided with the charging interface 131, so that an external charging wire can charge at least one of the backup battery module 130 and the earphone body 110 through the charging interface 131, so that the earphone body 110 can be charged through the backup battery module 130 and can also be charged through the external charging wire, and the backup battery module 130 can be assembled in the ear entrance portion 111 for charging and can be assembled in the hanging shaft portion 113 for charging, and the charging mode is various and the applicability is strong.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A wireless earphone capable of being charged continuously is characterized by comprising an earphone body and a standby battery module, wherein the standby battery module is detachably assembled on the earphone body, is electrically connected with the earphone body and is used for charging the earphone body, a charging interface for connecting a charging wire externally is further formed on the standby battery module, and the charging interface is used for charging the earphone body and/or the standby battery module;

the earphone body is including going into ear and peg portion, the one end of peg portion with go into the ear connection, one side of reserve battery module be provided with be used for with peg portion is kept away from go into the holding draw-in groove of the one end assembly of ear, be provided with first electrical property terminal and/or second electrical property terminal in the holding draw-in groove, go into be provided with on the ear be used for with first electrical property terminal or the first port of charging of second electrical property terminal electrical contact, peg portion keeps away from the one end of going into the ear be provided with be used for with first electrical property terminal or the second port of charging of second electrical property terminal.

2. The wireless headset of claim 1, wherein the battery backup module is configured to be removably mounted to the ear inlet, and the battery backup module is provided with a first electrical terminal configured to electrically contact the first charging port.

3. The wireless headset as claimed in claim 2, wherein the first electrical terminal is electrically connected to the first charging port when the battery backup module is held by the receiving slot.

4. The wireless earphone as claimed in claim 3, wherein the battery module further comprises a protrusion, and the protrusion is provided with a slot for engaging the hanging shaft.

5. The wireless earphone as claimed in claim 3 or 4, wherein the battery backup module is provided with a first magnetic attraction member, the ear insertion portion or the hanging shaft portion is provided with a second magnetic attraction member, and the first magnetic attraction member is magnetically attracted to the second magnetic attraction member to prevent the first electrical terminal from separating from the first charging port.

6. The wireless earphone of claim 3 or 4, wherein the first charging port is disposed at a top end of the ear-in portion, and the first electrical terminal is disposed on a sidewall of the receiving slot.

7. The wireless earphone of claim 3, wherein the receiving slot is further configured to be assembled with an end of the hanging shaft portion away from the ear insertion portion, and the second electrical terminal is in electrical contact with the second charging port when the battery backup module is assembled with the end of the hanging shaft portion away from the ear insertion portion through the receiving slot.

8. The wireless earphone of claim 3, wherein the receiving slot is further configured to be assembled with an end of the hanging shaft portion away from the ear insertion portion, and the first electrical terminal is electrically contacted with the second charging port when the battery backup module is assembled with the end of the hanging shaft portion away from the ear insertion portion through the receiving slot.

9. A continuously charging wireless earphone as claimed in claim 7 or 8, wherein a supporting plane is provided on a side of the backup battery module away from the earphone body, and the supporting plane is used for supporting the backup battery module and the earphone body.

10. The wireless earphone of claim 7 or 8, wherein an elastic fitting sleeve is further disposed at an end of the shaft portion away from the ear insertion portion, the elastic fitting sleeve is provided with an opening for exposing the second charging port, and a diameter of the elastic fitting sleeve is adapted to the receiving slot, so that the shaft portion is interference-fitted in the receiving slot.

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