CN212367504U - Earphone set - Google Patents

Abstract

The application discloses an earphone relates to the electronic equipment field. The main technical scheme of the application is as follows: the method comprises the following steps: the first connecting module and the control switch are connected; the first radio module is electrically connected with the first connecting module through a control switch; the second connecting module is electrically connected with the first connecting module; the third connecting module is used for being electrically connected with the second connecting module; the second radio module is electrically connected with the third connecting module and is used for acquiring first sound waves in the first radio area; the silencing component is used for silencing the first sound wave outside the first sound receiving area; when the third connecting module is electrically connected with the second connecting module, the control switch is in the second working state, and the first radio module is disconnected with the first connecting module.

Description

Earphone set

Technical Field

The application relates to the technical field of electronic equipment, in particular to an earphone.

Background

In daily life or work, telephone communication with other people is always avoided, but the situation that other people are disturbed or the content of a telephone is not wanted to be heard by other people is avoided during the telephone communication, a common method is to find a remote place, but sometimes the remote place is not well found, a large amount of time is delayed, and therefore the method is not a good solution.

SUMMERY OF THE UTILITY MODEL

The present application provides a headset, comprising: a first connection module;

the control switch is electrically connected with the first connecting module;

the first radio module is electrically connected with the first connecting module through the control switch;

the second connecting module is electrically connected with the first connecting module;

the third connecting module is used for being electrically connected with the second connecting module;

the second radio module is electrically connected with the third connecting module and is used for acquiring first sound waves in a first radio area;

the silencing component is used for silencing a first sound wave outside the first sound receiving area;

the control switch comprises a first working state and a second working state, when the third connecting module is disconnected with the second connecting module, the control switch is in the first working state, the first radio module is electrically connected with the first connecting module, when the third connecting module is electrically connected with the second connecting module, when the control switch is in the second working state, the first radio module is disconnected with the first connecting module.

The purpose of the application and the technical problem to be solved can be further realized by adopting the following technical measures.

Specifically, the noise reduction assembly includes:

the sound-proof housing, the sound-proof housing is made by the amortization material, second radio module set up in the sound-proof housing.

Specifically, the noise reduction assembly further comprises:

the first silencing module is electrically connected with the second sound receiving module and used for silencing a first sound wave outside the first sound receiving area by generating a second sound wave, wherein the phase of the second sound wave is opposite to that of the first sound wave.

Specifically, the second connection module is electrically connected to the first connection module through the control switch;

when the control switch is in the first working state, the second connection module is disconnected with the first connection module, and when the control switch is in the second working state, the second connection module is electrically connected with the first connection module.

Specifically, the method further comprises the following steps:

a detection module, configured to detect current information of the second connection module, where the current information includes: first current information and second current information;

the processing module is electrically connected with the detection module and used for generating a first control signal according to the first current information and generating a second control signal according to the second current information;

when the control switch receives the first control signal, the control switch is in the first working state, and when the control switch receives the second control signal, the control switch is in the second working state.

Specifically, the method further comprises the following steps:

the first radio module is grounded through the protection switch, and the second connection module is grounded through the protection switch;

the protection switch has a third working state and a fourth working state;

when the control switch is in the first working state, the protection switch is in a third working state, and the second connection module is grounded;

when the control switch is in the second working state, the protection switch is in a fourth working state, and the first radio module is grounded.

Specifically, the second connection module is a second plug port, the third connection module is a third plug port, and the first connection module is a first bluetooth module or a first plug port, where the second plug port is used for being plugged with the third plug port;

or the second connection module is a second Bluetooth module, the third connection module is a third Bluetooth module, and the first connection module is a first plug-in port.

Specifically, the method further comprises the following steps:

the control switch is electrically connected to the first connection module through the digital-to-analog conversion module, and the second connection module is electrically connected to the first connection module through the digital-to-analog conversion module.

Specifically, the noise reduction assembly further comprises:

the third radio module is arranged on one side of the first silencing module, which is far away from the second radio module, and is used for acquiring third sound waves in the second radio area;

the second silencing module is electrically connected with the third sound receiving module and is used for silencing a third sound wave outside the second sound receiving area by generating a fourth sound wave; wherein the fourth acoustic wave is in phase opposition to the third acoustic wave.

Specifically, the method further comprises the following steps: the hook hanging piece is in a long strip shape, and two ends of the hook hanging piece are respectively connected to two ends of the sound-proof cover which are oppositely arranged;

and/or the acoustic enclosure comprises a first side; the first side is enclosed to form an accommodating space, and the second radio module is arranged in the accommodating space;

and/or a folding line is formed on the soundproof cover, and the soundproof cover is used for folding along the folding line.

In the earphone provided by the embodiment of the application, when the earphone is connected to the second radio module, namely the second connection module is electrically connected with the third connection module, the control switch is in the second working state, so that the first radio module is disconnected with the first connection module, at this time, the first radio module cannot be electrically connected with the external electronic equipment, the earphone is electrically connected with the external electronic equipment through the second radio module, the earphone acquires the first sound wave in the first radio area through the second radio module, at this time, the sound emitted by the user, namely the first sound wave, is transmitted to the external electronic equipment through the second radio module, the third connection module, the second connection module and the first connection module, and the first sound wave outside the first sound receiving area can be silenced through the silencing component, and then avoid user's sound to propagate to other positions and cause the interference to other people, can also reach the effect of eavesdropping prevention simultaneously.

The foregoing description is only an overview of the technical solutions of the present application, and in order to make the technical solutions of the present application more clear and clear, and to implement the technical solutions according to the content of the description, the following detailed description is made with reference to the preferred embodiments of the present application and the accompanying drawings.

Drawings

Fig. 1 is a schematic structural diagram of an earphone according to an embodiment of the present disclosure;

fig. 2 is another schematic structural diagram of an earphone according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of an earphone according to an embodiment of the present disclosure;

fig. 4 is a schematic view of another structure of an earphone according to an embodiment of the present disclosure;

fig. 5 is another schematic structural diagram of an earphone according to an embodiment of the present disclosure;

the reference numbers illustrate:

the device comprises a first connecting module 1, a control switch 2, a first radio module 3, a second connecting module 4, a third connecting module 5, a second radio module 6, a sound-proof cover 7, a first silencing module 8, a detection module 9, a processing module 10, a protection switch 11, a digital/analog conversion module 12, a third radio module 13, a second silencing module 14, a hooking piece 15 and a receiver 16.

Detailed Description

To further illustrate the technical means and effects adopted by the present application to achieve the predetermined purpose of the present application, the following detailed description is provided with reference to the accompanying drawings and preferred embodiments for a headset according to the present application.

An embodiment of the present application provides a headset, as shown in fig. 1 to 5, including: a first connection module 1; the control switch 2 is electrically connected with the first connecting module 1; the first radio module 3 is electrically connected with the first connecting module 1 through the control switch 2; a second connection module 4 electrically connected to the first connection module 1; a third connecting module 5, configured to be electrically connected to the second connecting module 4; the second radio module 6 is electrically connected with the third connecting module 5 and is used for acquiring a first sound wave in a first radio region; the silencing component is used for silencing a first sound wave outside the first sound receiving area; wherein, control switch 2 includes first operating condition and second operating condition, works as third connecting module 5 with during the disconnection of second connecting module 4, when control switch 2 is in first operating condition, first radio module 3 with first connecting module 1 electricity is connected, works as third connecting module 5 with during the electricity is connected of second connecting module 4, when control switch 2 is in the second operating condition, first radio module 3 with first connecting module 1 disconnection.

The earphone provided by the embodiment can be any one of an in-ear type earphone, a head-wearing type earphone and an earplug type earphone. The first connection module 1 may be used to connect an external electronic device, such as a mobile phone, a tablet computer, or a computer host. First radio module 3 is for being located the mike on the earphone, has earphone 16 on the earphone simultaneously, earphone 16 connects in first connection module 1, is in the UNICOM state all the time between the two, and the user wears earphone 16 in the ear when using the earphone that this embodiment provided, if the user only wants to use the earphone to listen to the song or need not to carry out when preventing disturbing the communication, then need not to make second connection module 4 and third connection module 5 be connected, and at this moment, the sound of external electronic equipment can be transmitted to earphone 16 through first connection module 1. Meanwhile, the control switch 2 is in a first working state, the first radio module 3 is electrically connected with the first connection module 1, and the second radio module 6 is not connected into the circuit and is electrically connected with the first connection module 1, at this time, the first radio module 3 can collect the sound emitted by the user, the sound is transmitted to the first connection module 1 through the first radio module 3 and is sent to the external electronic device, wherein the second radio module 6 is a microphone. If the user wants to communicate with other people secretly, the second connection module 4 is connected with the three radio modules, the second radio module 6 is connected into the circuit, at the moment, the control switch 2 is in the second working state, the first radio module 3 is disconnected with the first connection module 1, and the first radio module 3 fails to achieve the function of collecting sound. Under first operating condition, second radio module 6 can be connected to external electronic equipment through third connecting module 5, second connecting module 4 and first connecting module 1, at this moment, the first sound wave that second radio module 6 was collected can be transmitted to external electronic equipment through above-mentioned route, effectively communicate with other people, wherein, first sound wave is the sound wave that the user sent promptly, second radio module 6 is collected the first sound wave in the first radio region, and the amortization subassembly can carry out the amortization to the first sound wave outside the first radio region, and then can avoid user's sound to propagate to other places by first radio region, cause the interference to other people, can also avoid exchanging content to be eavesdropped simultaneously. The second connection module 4 can be directly connected to the first connection module 1 without passing through the control switch 2, the control switch 2 is a one-way switch, and when the third connection module 5 is connected to the second connection module 4, the control switch 2 is disconnected, so that the first radio module 3 is disconnected from the first connection module 1.

The purpose of the application and the technical problem to be solved can be further realized by adopting the following technical measures.

Specifically, as shown in fig. 3, the noise reduction assembly includes: sound-proof housing 7, sound-proof housing 7 is made by the amortization material, second radio module 6 set up in sound-proof housing 7.

Wherein, sound-proof housing 7 can be made by materials such as deadening felt, sound absorption cotton and amortization sponge, and above-mentioned material is light collapsible, and attracts effectually, has good sound effect of inhaling. Wherein, sound-proof housing 7 can cover user's mouth to be provided with sound-proof housing 7 the one side laminating user's of second radio module 6 mouth, make the mouth face to second radio module 6, make things convenient for first radio module 3 to collect first sound wave, first sound wave propagation path is first through second radio module 6, then propagates to other regions through sound-proof housing 7, and the noise cancelling effect of sound-proof housing 7 is better, and the sound that other people heard is less. The soundproof cover 7 may be provided with a hook 15, and the hook 15 may be a flexible cord and may be hooked to an ear of a user.

Specifically, as shown in fig. 1 and 2, the noise reduction assembly further includes: the first sound attenuation module 8 is electrically connected to the second sound reception module 6, and the first sound attenuation module 8 is configured to generate a second sound wave to perform sound attenuation processing on the first sound wave outside the first sound reception area, where a phase of the second sound wave is opposite to a phase of the first sound wave.

The first sound wave is the sound wave sent by the user, the second sound receiving module 6 collects the first sound wave in the first sound receiving area, generates a first sound wave signal according to the first sound wave, and transmits the first sound wave signal to the first silencing module 8, the first silencing module 8 generates a second sound wave opposite to the first sound wave according to the first sound wave signal, and the second sound wave can actively silence the sound wave outside the first area. When an error exists, the second sound wave and the first sound wave are superposed to form a superposed sound wave with an amplitude smaller than that of the first sound wave, and the smaller the amplitude, the smaller the sound; when there is no error, the waveform of the superposed sound wave is a straight line and there is no sound, and at this time, the second sound wave can be completely offset with the first sound wave, so that the second sound wave can perform silencing treatment on the first sound wave. When amortization subassembly still includes sound-proof housing 7, carry out initiative amortization through first amortization module 8 to the first sound wave outside the first radio reception region and handle the back, the sound of the stack sound wave that forms is very little, and the sound wave after the stack is through sound-proof housing 7 again, carries out the amortization once more, has further strengthened the noise cancelling effect of amortization subassembly.

Specifically, as shown in fig. 1 and 2, the second connection module 4 is electrically connected to the first connection module 1 through the control switch 2; when the control switch 2 is in the first working state, the second connection module 4 is disconnected from the first connection module 1, and when the control switch 2 is in the second working state, the second connection module 4 is electrically connected with the first connection module 1.

Wherein, the second connection module 4 can be connected with the first connection module 1 through the control switch 2 electricity, the first radio module 3 and the second connection module 4 are both connected with the control switch 2, at this moment, the control switch 2 can be a two-way switch, when the second connection module 4 is connected with the third connection module 5, the control switch 2 is in the second working state, the control switch 2 controls the second connection module 4 to be connected with the first connection module 1 electricity while controlling the first radio module 3 to be disconnected with the first connection module 1, at this moment, the earphone collects the first sound wave through the second radio module 6. When the second connection module 4 is disconnected from the third connection module 5, the control switch 2 controls the second connection module 4 to be disconnected from the first connection module 1, so that the first radio module 3 is electrically connected with the first connection module 1, at this time, the control switch 2 is in a first working state, and the earphone collects sound through the first radio module 3.

Specifically, the method further comprises the following steps: a detecting module 9, configured to detect current information of the second connection module 4, where the current information includes: first current information and second current information; the processing module 10 is electrically connected with the detection module 9 and is used for generating a first control signal according to the first current information and generating a second control signal according to the second current information; when the control switch 2 receives the first control signal, the control switch 2 is in the first working state, and when the control switch 2 receives the second control signal, the control switch 2 is in the second working state.

The second connection module 4 may be a second plug port, and the third connection module 5 is a third plug port, specifically, the second plug port may be a 3.5mm earphone jack, and the third plug port is a 3.5mm earphone plug, where the detection module 9 may be a detection circuit disposed at the second plug port, when the third plug port is plugged with the second plug port, the second plug port is in a conducting state, and the detection circuit is in a conducting state, and a current state of the second plug port is changed from a disconnected state to a connected state, and the detection circuit generates second current information and sends the second current information to the processing module 10, and the processing module 10 generates a second control signal according to the second current information, and the control switch 2 is in a second working state according to the second control signal, so that the second radio module 6 is electrically connected to the first connection module 1. When the third plugging port is unplugged from the second plugging port, the current state of the second plugging port is changed from on to off, the detection circuit is in an off state, or when the second plugging port is not plugged with the third plugging port all the time, the detection circuit is always in an off state, the detection circuit can generate first current information and send the first current information to the processing module 10, the processing module 10 generates a first control signal according to the first current information, and the control switch 2 is controlled to be in a first working state according to the first control signal.

Specifically, the method further comprises the following steps: the protection switch 11 is used for grounding the first radio module 3 through the protection switch 11, and the second connection module 4 is grounded through the protection switch 11; the protection switch 11 has a third working state and a fourth working state; when the control switch 2 is in the first working state, the protection switch 11 is in a third working state, and the second connection module 4 is grounded; when the control switch 2 is in the second working state, the protection switch 11 is in a fourth working state, and the first radio module 3 is grounded.

When the control switch 2 is in the first working state, the first radio module 3 is electrically connected with the first connection module 1, at this time, the second connection module 4 is disconnected from the third connection module 5, that is, the second connection module 4 is idle, at this time, the protection switch 11 needs to be in the third working state, the second connection module 4 is grounded, and the second connection module 4 is subjected to ground protection; when the control switch 2 is in the second working state, the second connection module 4 is connected with the third connection module 5, the second radio module 6 is electrically connected with the first connection module 1 through the access circuit, the first radio module 3 is disconnected with the first connection module 1, and the first radio module 3 is not connected with the circuit, at this time, the protection switch 11 needs to be in the fourth working state, the first radio module 3 is grounded, and the first radio module 3 is protected from being grounded. The protection switch 11 may be a bidirectional switch and is electrically connected to the processing module 10, and when the processing module 10 receives the first current information generated by the detection module 9, the processing module sends a first control signal to the control switch 2 and sends a third control signal to the protection switch 11, so that the protection switch 11 is in a third operating state. And when receiving the second connection information generated by the detection module 9, the processing module 10 sends a second control signal to the control switch 2 and sends a fourth control signal to the protection switch 11, so that the protection switch 11 is in a fourth operating state. Fig. 4 shows a specific structure diagram among the control switch 2, the protection switch 11, the first radio module 3, the first connection module 1, and the second connection module 4.

Specifically, the second connection module 4 is a second plug port, the third connection module 5 is a third plug port, and the first connection module 1 is a first bluetooth module or a first plug port, where the second plug port is used for being plugged with the third plug port; or the second connection module 4 is a second bluetooth module, the third connection module 5 is a third bluetooth module, and the first connection module 1 is a first plug-in port.

When the second connection module 4 is a second plug port and the third connection module 5 is a third plug port, one of the second plug port 41 and the third plug port may be a 3.5mm earphone jack, and the other may be a 3.5mm earphone plug; or one of them is a typeC headset jack and the other is a typeC headset plug. The corresponding first connection module 1 can be a first Bluetooth module, at this time, the earphone is connected with the external electronic device through the first Bluetooth module in a Bluetooth mode, and at this time, the earphone can be a wireless earphone; or the first connection module 1 is a first jack port, specifically, may be a 3.5mm headphone plug or a typeC headphone plug. Further, as shown in fig. 5, the earphone includes a connector, the earphone 16 is connected to the connector through a data line, the first radio module 3 is disposed on the connector, and the second plug port 41 is disposed on the connector, and the first plug port is connected to the connector through a data line and is electrically connected to the second plug port, the first radio module 3 and the earphone 16. And the third plug-in port in the silencing component and the second sound receiving module 6 can be electrically connected through a data wire.

Besides, the second connection module 4 may be a second bluetooth module, the third connection module 5 is a third bluetooth module, the second connection module 4 is bluetooth connected to the third connection module 5, and correspondingly, the first connection module 1 should be a first plug port, specifically, a 3.5mm headphone plug or a typeC headphone plug, and at this time, the headphone is in wired connection with the external electronic device.

Specifically, as shown in fig. 2, the method further includes: the control switch 2 is electrically connected to the first connection module 1 through the digital-to-analog conversion module 12, and the second connection module 4 is electrically connected to the first connection module 1 through the digital-to-analog conversion module 12.

The digital/analog conversion module 12 can convert digital signals into analog signals and also convert analog signals into digital signals, the corresponding first connection module 1 can be a typeC headphone plug, the second connection module 4 is a typeC headphone jack, and the third connection module 5 is a typeC headphone plug. When audio data enters the earphone through the first connection module 1 from the external electronic device, the first audio data is a digital signal, and the digital signal of the first audio data is converted into an analog signal through the digital/analog conversion module 12, and then the analog signal is sent to the earphone 16 for playing. The second audio data collected by the first radio module 3 or the second radio module 6 is an analog signal, and before being sent to the external electronic device, the second audio data needs to be converted from the analog signal to a digital signal by the digital/analog conversion module 12, and then can be transmitted to the external electronic device through the first connection module 1. At this time, the headset is a digital headset. Of course, as shown in fig. 1, the digital-to-analog conversion module 12 may not be provided in the earphone, and in this case, the earphone is an analog earphone.

Specifically, as shown in fig. 1 and 2, the noise reduction assembly further includes: the third sound receiving module 13 is arranged on one side of the first silencing module 8, which is far away from the second sound receiving module 6, and the third sound receiving module 13 is used for acquiring third sound waves in the second sound receiving area; the second silencing module 14 is electrically connected with the third sound receiving module 13, and the second silencing module 14 is used for generating fourth sound waves to perform silencing treatment on third sound waves outside the second sound receiving area; wherein the fourth acoustic wave is in phase opposition to the third acoustic wave.

Specifically, the noise reduction assembly further comprises: the third sound receiving module 13 is disposed on the sound-proof cover 7, and the second sound receiving area is farther from the user than the first sound receiving area, and when the second sound wave is still a residual sound after the first sound wave is silenced, the third sound wave cannot be a straight line. The third sound receiving module 13 is a microphone, the third sound receiving module 13 is configured to send a third sound wave signal to the second sound silencing module 14 after the third sound wave signal in the second sound receiving area of the mobile phone is received, the second sound silencing module 14 generates a fourth sound wave according to the third sound wave signal, the fourth sound wave and the third sound wave have opposite phases, equal frequencies and the same amplitude, and the fourth sound wave and the third sound wave are superposed to further perform sound silencing on the third sound wave. Carry out amortization through the fourth sound wave to the third sound wave, can further improve the noise cancelling effect of amortization subassembly to the sound secondary amortization that the user sent.

Specifically, as shown in fig. 3, the method further includes: the hooking piece 15 is in a long strip shape, and two ends of the hooking piece 15 are respectively connected to two ends of the soundproof cover 7 which are oppositely arranged; and/or said acoustic enclosure 7 comprises a first side; the first side is enclosed to form an accommodating space, and the second radio module 6 is arranged in the accommodating space; and/or a folding line is formed on the soundproof cover 7, and the soundproof cover 7 is used for folding along the folding line.

Wherein, the accommodation space can be enclosed into to the first side of sound-proof housing 7, and second radio module 6 and third radio module 13 all set up in the accommodation space, and when the user worn sound-proof housing 7, the user's mouth was just to accommodation space. Specifically, the soundproof cover 7 includes a first area and a second area connected to each other, wherein the second area surrounds the first area in a circle, the second area is not on the plane of the first area, and the second area and the first area enclose an accommodating space having an opening, and the opening of the accommodating space faces the first area. Wherein, the hooking member 15 can be an elastic rope, and both ends of the elastic rope are connected to both ends opposite to the soundproof cover 7, preferably, so that both ends of the hooking member 15 are connected to the opening of the accommodating space respectively. In addition, a folding line is formed on the soundproof cover 7 for folding the soundproof cover 7 along the folding line, so that at least partial areas of the soundproof cover 7 are overlapped to reduce the space occupied by the soundproof cover 7 for storage. When the soundproof cover 7 is used, the soundproof cover 7 is opened along the folding line so that the soundproof cover 7 forms the accommodation space.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. An earphone, comprising:

a first connection module;

the control switch is electrically connected with the first connecting module;

the first radio module is electrically connected with the first connecting module through the control switch;

the second connecting module is electrically connected with the first connecting module;

the third connecting module is used for being electrically connected with the second connecting module;

the second radio module is electrically connected with the third connecting module and is used for acquiring first sound waves in the first radio area;

the silencing component is used for silencing a first sound wave outside the first sound receiving area;

the control switch comprises a first working state and a second working state, when the third connecting module is disconnected with the second connecting module, the control switch is in the first working state, the first radio module is electrically connected with the first connecting module, when the third connecting module is electrically connected with the second connecting module, when the control switch is in the second working state, the first radio module is disconnected with the first connecting module.

2. The headset of claim 1, wherein the sound attenuating assembly comprises:

the sound-proof housing, the sound-proof housing is made by the amortization material, second radio module set up in the sound-proof housing.

3. The headset of claim 1, wherein the sound attenuating assembly further comprises:

the first silencing module is electrically connected with the second sound receiving module and used for silencing a first sound wave outside the first sound receiving area by generating a second sound wave, wherein the phase of the second sound wave is opposite to that of the first sound wave.

4. The headset of claim 1,

the second connecting module is electrically connected with the first connecting module through the control switch;

when the control switch is in the first working state, the second connection module is disconnected with the first connection module, and when the control switch is in the second working state, the second connection module is electrically connected with the first connection module.

5. The headset of claim 1, further comprising:

a detection module, configured to detect current information of the second connection module, where the current information includes: first current information and second current information;

the processing module is electrically connected with the detection module and used for generating a first control signal according to the first current information and generating a second control signal according to the second current information;

when the control switch receives the first control signal, the control switch is in the first working state, and when the control switch receives the second control signal, the control switch is in the second working state.

6. The headset of claim 4, further comprising:

the first radio module is grounded through the protection switch, and the second connection module is grounded through the protection switch;

the protection switch has a third working state and a fourth working state;

when the control switch is in the first working state, the protection switch is in a third working state, and the second connection module is grounded;

when the control switch is in the second working state, the protection switch is in a fourth working state, and the first radio module is grounded.

7. The headset of claim 1,

the second connection module is a second plug port, the third connection module is a third plug port, the first connection module is a first Bluetooth module or a first plug port, and the second plug port is used for being plugged with the third plug port;

or the second connection module is a second Bluetooth module, the third connection module is a third Bluetooth module, and the first connection module is a first plug-in port.

8. The headset of claim 1, further comprising:

the control switch is electrically connected to the first connection module through the digital-to-analog conversion module, and the second connection module is electrically connected to the first connection module through the digital-to-analog conversion module.

9. The headset of claim 3, wherein the sound attenuating assembly further comprises:

the third radio module is arranged on one side of the first silencing module, which is far away from the second radio module, and is used for acquiring third sound waves in the second radio area;

the second silencing module is electrically connected with the third sound receiving module and is used for silencing a third sound wave outside the second sound receiving area by generating a fourth sound wave; wherein the fourth acoustic wave is in phase opposition to the third acoustic wave.

10. The headset of claim 2, further comprising:

the hook hanging piece is in a long strip shape, and two ends of the hook hanging piece are respectively connected to two ends of the sound-proof cover which are oppositely arranged;

and/or the acoustic enclosure comprises a first side; the first side is enclosed to form an accommodating space, and the second radio module is arranged in the accommodating space;

and/or a folding line is formed on the soundproof cover, and the soundproof cover is used for folding along the folding line.

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