CN214101705U - Wind noise prevention earphone - Google Patents

Abstract

The embodiment of the application provides a prevent wind earphone of making an uproar has seted up two vice pickup mouths and at least one owner's pickup mouth on the lateral wall through the ear-pole, at least a set of wind-proof chamber has in the ear-pole, wherein a set of wind-proof chamber communicates with the sound hole of two vice pickup mouths and vice microphones, the sound hole intercommunication of owner pickup mouth and main microphone, realized reducing wind and made an uproar, promote the mesh that the conversation was experienced, thereby the problem that the effect of making an uproar is not good is prevented wind to current earphone has been solved.

Description

Wind noise prevention earphone

Technical Field

The utility model relates to an audio equipment technical field especially relates to a prevent wind earphone of making an uproar.

Background

A headphone is a converting unit that converts received electrical signals into audible audio signals. The earphone is very popular with users because it is portable and enables users to listen to audio alone without affecting other people. Nowadays, with the continuous improvement of the quality of life of people, users put forward higher requirements on the tone quality of earphones.

At present, a microphone is mounted on a plurality of earphones to realize a conversation function, and particularly, the earphones are used as accessories of communication equipment such as mobile phones and the like, and the microphones are not used on the earphones. The earphone microphone can generate great wind noise when in communication due to the influence of wind when being used outdoors, so that the other party is difficult to hear the communication content, the user experience is seriously influenced, and the earphone with the noise reduction function is brought up to the public. In the prior art, noise reduction of a headphone is usually achieved by two ways, namely passive noise reduction (ANC) and active noise reduction (ANC). Wherein, passively reduce noise: the device is characterized in that a closed space is enclosed by ears or ear canals in a physical isolation mode, or sound insulation materials such as silica gel earplugs are adopted to block external noise, and because noise is not processed by a noise reduction circuit chip, the device can only block high-frequency noise generally, and has an unobvious noise reduction effect on low-frequency noise. Active noise reduction (ANC): the method is characterized in that environmental noise is picked up from the outside through a noise reduction system, reverse sound waves equal to the outside noise are generated after algorithm processing, and the noise is neutralized, so that the noise reduction effect is realized.

However, the effect of active noise reduction (ANC) is greatly affected by wind noise, which is often encountered when headphones are used outdoors, for example: windy weather, windows when riding in a vehicle, etc., which can have a severe impact on the active noise reduction (ANC) function.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a prevent wind noise earphone can reduce wind noise, promotes the conversation and experiences.

The embodiment of the application provides a prevent wind noise earphone includes:

the earphone comprises an earphone head and an ear rod, wherein one end of the ear rod is connected with the earphone head, and a circuit board, a main microphone and an auxiliary microphone which are electrically connected with the circuit board are arranged in the ear rod;

two auxiliary sound pickup ports and at least one main sound pickup port are formed in the side wall of the ear rod;

the ear rod is internally provided with at least one group of windproof cavities, wherein one group of windproof cavities are communicated with the two auxiliary pickup ports and the sound holes of the auxiliary microphones, and the main pickup port is communicated with the sound holes of the main microphones.

The utility model provides a prevent wind earphone of making an uproar through set up at least a set of wind chamber of preventing in the ear pole, wherein a set of wind chamber and two vice pickup mouths and vice microphone's sound hole intercommunication, the sound hole intercommunication of main pickup mouth and main microphone, prevent wind the chamber through setting up on vice microphone and can shunt and attenuate the wind acoustic signal that gets into earphone inside to reach the effect that reduces wind and make an uproar, can further promote conversation and experience.

As an explanation, the microphone of the earphone is only used when the call or the voice function is turned on, and in the embodiment of the present application, a main microphone and a sub-microphone are provided, wherein the main microphone is mainly used for collecting voice signals during the call, and the sub-microphone is mainly used for collecting ambient noise and wind sound signals so as to perform active noise reduction.

It should be understood that, in the embodiment of the present application, the two auxiliary sound pickup ports are disposed on the side wall of the ear rod to form the wind-proof cavities which are communicated with each other, and the sound holes of the auxiliary microphones of the wind-proof cavities are communicated, so that the wind-proof cavities can be used for the passage of normal voice signals and noise signals picked up by the auxiliary microphones inside the earphone, but when wind-sound signals enter the earphone, the wind-sound signals can also be picked up by the auxiliary microphones through the wind-proof cavities. Because set up two vice pick-up mouths and form the structure of intercommunication each other on the lateral wall of ear pole to thereby can reduce the wind sound signal that is picked up by vice microphone and reduce wind and make an uproar, partial wind signal that gets into inside the earphone promptly can not be picked up by vice microphone, and the chamber of preventing wind through the intercommunication flows out the earphone. In other words, the wind-proof cavity in the embodiment of the present application can be used for normal voice signals and noise signals to be picked up by the secondary microphone, and also for wind sound signals to directly flow out of the earphone without being picked up by the secondary microphone.

In a possible implementation manner of the first aspect, the number of the wind-proof cavities is two, the number of the main sound-pickup ports is two, one of the wind-proof cavities is communicated with the two auxiliary sound-pickup ports and the auxiliary microphone, and the other of the wind-proof cavities is communicated with the two main sound-pickup ports and the sound hole of the main microphone.

In one possible embodiment of the first aspect, each set of the windproof cavities comprises: prevent wind passageway and pickup pipe way, main microphone with the sound hole of vice microphone respectively with two sets of prevent in the wind chamber one end intercommunication of pickup pipe way, the other end of pickup pipe way with prevent wind the passageway intercommunication, two vice pickup ports and two main pickup ports respectively with two prevent in the wind chamber prevent wind the both ends intercommunication of passageway.

In a possible embodiment of the first aspect, a sound guide bracket is arranged in the ear rod, the sound guide bracket is located on one side of the circuit board, and the main microphone and the auxiliary microphone are located on the other side of the circuit board;

the pickup duct includes: first pickup pipeline and second pickup pipeline, wherein, lead on the sound support seted up with prevent wind the passageway intercommunication first pickup pipeline, seted up on the circuit board with first pickup pipeline intercommunication second pickup pipeline, main microphone with vice microphone's sound hole respectively with two sets of wind-proof chambeies second pickup pipeline intercommunication.

In a possible embodiment of the first aspect, the sound guide bracket has a groove structure on a side wall thereof;

the inner wall of the groove structure and part of the inner wall of the ear rod form the windproof channel;

and the first pickup pipeline is arranged on the groove bottom of the groove structure of the sound guide support.

In one possible embodiment of the first aspect, the wind-proof channel is an arc-shaped channel protruding toward the inner wall of the ear stem.

In a possible embodiment of the first aspect, the wind-proof channel is formed by a straight hole formed in the sound guide holder, and two ends of the wind-proof channel are respectively opposite to the two main sound-pickup ports or the two auxiliary sound-pickup ports.

In a possible embodiment of the first aspect, a center line of the wind prevention passage is perpendicular to a center line of the pickup duct.

In a possible implementation manner of the first aspect, the method further includes: and the antenna radiating body is arranged on the outer wall of the sound guide support or the inner wall of the ear rod.

In a possible implementation manner of the first aspect, the circuit board has a feeding point, an antenna elastic sheet is disposed on the feeding point, and one end of the antenna radiator abuts against the antenna elastic sheet, so that the antenna radiator is electrically connected to the feeding point.

In a possible embodiment of the first aspect, the two main sound pickup ports are respectively arranged along the same circumferential direction of the outer wall of the ear rod at intervals;

the two auxiliary sound pickup ports are respectively arranged along the same circumferential direction of the outer wall of the ear rod at intervals, and the two main sound pickup ports and the two auxiliary sound pickup ports are arranged at intervals in the axial direction of the ear rod;

or the main sound pickup port and the auxiliary sound pickup port are communicated in the axial direction of the ear rod.

In a possible embodiment of the first aspect, two of the wind-proof passages in the two wind-proof cavities are communicated, or two of the wind-proof passages in the two wind-proof cavities are separately arranged.

In a possible implementation manner of the first aspect, the method further includes: dustproof screen cloth, dustproof screen cloth establishes in the ear pole, just dustproof screen cloth covers at least vice pickup mouth with on the main pickup mouth.

In one possible embodiment of the first aspect, the ear stem comprises: the microphone comprises a first shell and a second shell, wherein the first shell and the second shell are detachably connected to form a cavity, and the circuit board, the main microphone and the auxiliary microphone are arranged in the wall body;

one end of the first shell is connected with the earphone head, and the second shell is provided with the main pickup port and the auxiliary pickup port.

In a possible embodiment of the first aspect, the first housing and the second housing are connected to form a cylinder or a square column.

In a possible embodiment of the first aspect, the sound guide holder is a semi-cylinder or a square column, and the main sound pickup opening and the auxiliary sound pickup opening are located on an arc surface of the semi-cylinder, or the main sound pickup opening and the auxiliary sound pickup opening are located on two opposite side surfaces of the square column.

In a possible implementation manner of the first aspect, the main sound pickup port and the auxiliary sound pickup port are both in a strip-shaped slit structure; alternatively, the first and second electrodes may be,

the main pickup port and the auxiliary pickup port are of a net structure formed by a plurality of porous structures at intervals.

In one possible embodiment of the first aspect, the main pickup port and the sub pickup port have a length in a range of 1-5 mm;

the width scope of the main pickup port and the auxiliary pickup port is 0.4-0.8 mm.

Drawings

Fig. 1 is a schematic perspective view of a noise-proof earphone according to an embodiment of the present disclosure;

fig. 2 is a schematic longitudinal sectional view of a noise-proof earphone according to an embodiment of the present application;

fig. 3 is a schematic view of a detachable structure of a wind noise prevention earphone according to an embodiment of the present application;

fig. 4 is a schematic cross-sectional view of a secondary microphone of the wind noise prevention earphone according to an embodiment of the present disclosure;

fig. 5 is a schematic view of a detachable structure of the wind noise prevention earphone according to an embodiment of the present application;

fig. 6 is a schematic cross-sectional view of a main microphone of the wind noise prevention earphone according to an embodiment of the present application;

fig. 7 is a schematic perspective view of a noise-proof earphone according to an embodiment of the present application;

fig. 8 is a schematic view of a split structure of the wind noise prevention earphone according to an embodiment of the present application.

Description of reference numerals:

1-earphone head; 2-ear stems; 21-auxiliary pickup mouth; 22-main pickup mouth; 23-a first housing;

24-a second housing; 25-a windproof cavity; 251-a wind-proof channel; 252-a pickup pipe; 2521-a first pickup duct;

2522-a second pickup duct; 3-secondary microphone; 4-a primary microphone; 5-a circuit board;

6-leading sound bracket; 61-groove structure; 7-dustproof cloth net.

Detailed Description

Embodiments of the present application provide a noise-resistant headset that may be used in a conversation scenario as an accessory for a terminal device, where the terminal device includes, but is not limited to, a handheld device, an in-vehicle device, a wearable device, a computing device, or other processing device connected to a wireless modem. The terminal devices may include a cellular phone (cellular phone), a smart phone (smartphone), a Personal Digital Assistant (PDA) computer, a tablet computer, a laptop computer (laptop computer), a vehicle-mounted computer, a smart watch (smart watch), a smart bracelet (smart watch), a pedometer (pedometer), and other terminal devices having a call function. The terminal device in the embodiment of the present application may also be referred to as a terminal. The call scene includes, but is not limited to, an indoor call scene, an outdoor call scene, and a vehicular call scene. The call scenes may include quiet call scenes, noisy call scenes (e.g., scenes in streets, shopping malls, airports, stations, construction sites, in the rain, at tours, concerts, etc.), riding call scenes, outdoor windy call scenes, monaural call scenes, binaural call scenes, and other call-enabled scenes.

The earphone (ear-set) may be a pair of converting units for receiving electrical signals from a media player or a receiver and converting the electrical signals into audible sound waves by a speaker near the ear.

The headset may be generally classified into a wired headset (wired headset) and a wireless headset (wireless headset). The wired earphone is provided with two earphones and a connecting wire, wherein the left earphone and the right earphone are connected through the connecting wire. The wired headset may be inconvenient to wear and needs to be connected with the terminal device through a headset jack, and the electric quantity of the terminal device needs to be consumed in the working process. The wireless earphone can communicate with the terminal device by using a wireless communication technology (such as a Bluetooth technology, an infrared radio frequency technology, a 2.4G wireless technology, ultrasonic waves and the like), and compared with the wired earphone, the wireless earphone is more convenient and rapid to use due to the fact that the wireless earphone is free from the constraint of physical wires. Wherein, the left earphone of wireless earphone can pass through bluetooth connection right earphone.

Bluetooth is a low-cost large-capacity short interval wireless communication standard, the Bluetooth standard selects microwave frequency band operation, the transmission rate can be 1 Mbyte per second, the maximum transmission interval can be 10 meters, and the transmission power can reach 100 meters after being added. With the elimination of earphone jacks in some terminal devices and the popularization and version updating of bluetooth technologies, various wireless bluetooth earphones are coming into the market, and from business type monaural bluetooth earphones for conversation scenes in the early stage, to stereo bluetooth earphones capable of supporting music playing, to true wireless bluetooth earphones which completely abandon wires, the functions of the wireless earphones are more and more abundant, and the application scenes are more and more abundant.

A true wireless bluetooth headset, also called a True Wireless Stereo (TWS) headset, completely discards the wire connection approach, including two headsets (e.g., a master headset and a slave headset). For example, when the portable terminal is used, a terminal device (also referred to as a transmitting device, such as a mobile phone, a tablet, a music player with bluetooth output, etc.) is wirelessly connected with a master earphone, and then the master earphone is connected with a slave earphone in a bluetooth wireless manner, so that real bluetooth left and right channel wireless separation use can be realized. The left earphone and the right earphone of the TWS earphone can form a stereo system through Bluetooth, and the performances of listening to songs, communicating and wearing are improved. In addition, either of the two earphones can also work alone, e.g., the master earphone can return to mono sound quality in case the master earphone is not connected to the slave earphone. Due to the fact that the left and right earphones of the TWS earphone are not physically connected, almost all the TWS earphones are provided with the charging box with the charging and containing functions. The charging box can provide power for the wireless earphone and store functions, when the wireless earphone is not powered on, the earphone can be automatically disconnected as long as the earphone is placed into the charging box, and the charging box charges the earphone.

As described in the background art, the conventional earphone is greatly affected by wind noise when used outdoors, especially for conversation, and the noise is blocked only from the ear or ear canal by passive noise reduction, so that the user cannot hear noise outside the earphone, thereby improving the conversation quality. The existing active noise reduction earphone is greatly influenced by wind noise when collecting the noise in the environment, so that the noise in the environment collected by the earphone is inaccurate, the active noise reduction function of the earphone cannot be used, and the normal conversation function of the earphone can be interfered.

To this end, in order to solve the above problem, in the present embodiment, as shown in fig. 1 to 8, there is provided a noise-preventing headphone, which may include: the earphone comprises an earphone head 1, an earphone rod 2, a circuit board 5 arranged inside the earphone rod 2, a main microphone 4 and an auxiliary microphone 3, wherein one end of the earphone rod 2 is connected with the earphone head 1, and the circuit board 5, the main microphone 4 and the auxiliary microphone 3 which are electrically connected with the circuit board 5 are arranged in the earphone rod 2.

As shown in fig. 2, two sub sound pickup ports 21 and at least one main sound pickup port 22 are formed on the side wall of the ear rod 2; the ear rod 2 is provided with at least one set of windproof cavities 25 therein, wherein the one set of windproof cavities 25 is communicated with the two auxiliary sound pickup ports 21 and the sound holes of the auxiliary microphones 3, and the main sound pickup port 22 is communicated with the sound holes of the main microphone 4.

Through setting up at least a set of cavity 25 of preventing wind that communicates with 3 sound holes of secondary microphone at ear pole 2 like this, can make secondary microphone 3 shunt and attenuate the wind acoustic signal that gets into the earphone inside when picking up the ambient noise to reach the effect that reduces the wind and make an uproar, so that secondary microphone 3 can be accurate pick up the noise in the environment, and then guarantee that the initiative of earphone falls the function of making an uproar and can normal use, promote the conversation and experience.

In the embodiment of the present application, the number of the wind-proof cavities 25 may be two, and the main sound pickup port 22 is two, wherein one set of wind-proof cavities 25 is communicated with the two auxiliary sound pickup ports 21 and the auxiliary microphone 3, and the other set of wind-proof cavities 25 is communicated with the sound holes of the two main sound pickup ports 22 and the main microphone 4. Thus, the wind-proof cavities 25 are arranged on the main microphone 4 and the auxiliary microphone 3, the influence of wind noise on picking up voice signals and noise models can be further reduced, and the wind noise-proof earphone in the embodiment of the application has better conversation experience when in use.

It should be noted that, in the embodiment of the present application, the windproof cavity 25 communicated with the main microphone 4 is provided, so that the influence of wind noise on the main microphone 4 to pick up the sound signal can be reduced, and the windproof cavity 25 communicated with the auxiliary microphone 3 is provided, so that the influence of wind noise on the auxiliary microphone 3 to pick up the noise signal in the environment can be effectively reduced, thereby ensuring that the auxiliary microphone 3 can accurately pick up the noise signal in the environment, and further enabling the active noise reduction function of the earphone to be normally used, thereby improving the conversation experience of the user.

However, the arrangement of the two wind-proof cavities 25 does not limit the protection scope of the present application, and as long as one wind-proof cavity 25 is arranged on the secondary microphone 3, the purpose of accurately collecting the ambient noise signal can be achieved, and the wind-proof cavity 25 is also arranged on the primary microphone 4, so that the wind-proof effect can be further improved, and therefore, the number of the wind-proof cavities 25 does not limit the protection scope of the present application, and as long as the wind-proof cavities 25 are arranged, the wind-proof cavities 25 all belong to the protection scope of the present application.

On the basis of the above embodiments, in the embodiment of the present application, each group of windproof cavities 25 may include: the sound holes of the main microphone 4 and the auxiliary microphone 3 are respectively communicated with one end of the sound pickup pipeline 252 in the two wind-proof cavities 25, the other end of the sound pickup pipeline 252 is communicated with the wind-proof channel 251, and the two auxiliary sound pickup ports 21 and the two main sound pickup ports 22 are respectively communicated with two ends of the wind-proof channel 251 in the two wind-proof cavities 25.

In this embodiment, the wind-proof channel 251 of the wind-proof cavity 25 is a channel between two sub sound-pickup ports 21 or two main sound-pickup ports 22, so that when a high-speed flowing air current blows through the ear rod 2 when collecting sound signals or noise signals in the environment, the air in the wind-proof channel 251 can form an acoustic resistance with the air going into the ear rod 2, thereby preventing the air current from blowing into the wind-proof channel 251 and avoiding wind noise; when the air flow with low speed blows, the air flow can flow in through one end of the wind-proof passage 251 and then flows out from the other end, so that wind noise is also avoided.

In the present embodiment, as shown in fig. 4 and fig. 6, the shape of the wind-proof channel 251 may be a straight line shape, an arc shape, or other shapes, as long as the channel connecting the two sub sound pickup ports 21 or the two main sound pickup ports 22 can perform the corresponding wind-proof function, that is, the shape of the wind-proof channel 251 does not limit the protection scope of the present application, as long as the wind-proof channel 251 is included in the protection scope of the present application.

It should be noted that, the wind-proof channel 251 is communicated with the sound-collecting pipe 252, and the voice signal, the noise signal and the wind noise can enter the sound-collecting pipe 252 through the wind-proof channel 251 and then be collected by the main microphone 4 or the sub-microphone 3, so that the voice signal, the noise signal and the wind noise need to pass through the wind-proof channel 251 before being collected, and the wind-proof channel 251 can shunt and attenuate the wind noise entering the wind-proof channel 251, so that the influence of the wind noise on the main microphone 4 and the sub-microphone 3 can be reduced, and the conversation experience of the user can be further improved.

On the basis of the above embodiments, in the embodiment of the present application, as shown in fig. 3 to 6, a sound guide bracket 6 is disposed in the ear rod 2, the sound guide bracket 6 is located on one side of the circuit board 5, and the main microphone 4 and the sub-microphone 3 are located on the other side of the circuit board 5; the sound pickup duct 252 includes: a first sound pickup pipe 2521 and a second sound pickup pipe 2522, wherein the sound guide bracket 6 is provided with the first sound pickup pipe 2521 communicated with the windproof channel 251, the circuit board 5 is provided with the second sound pickup pipe 2522 communicated with the first sound pickup pipe 2521, and sound holes of the main microphone 4 and the sub-microphone 3 are respectively communicated with the second sound pickup pipes 2522 in the two sets of windproof cavities 25.

In the embodiment of the present application, by providing the sound guide bracket 6 in the ear rod 2, a space can be provided for the setting of the wind-proof cavity 25, and the wind-proof cavity 25 can be ensured to have a sufficient length so as to attenuate wind noise. In addition, by disposing the sound pickup pipe 252 on the circuit board 5 and the sound guide bracket 6, the sound pickup pipe 252 can be disposed around the main microphone 4 or the sub-microphone 3 and opposite to the main microphone 4 and the sub-microphone 3, conveniently, so as to ensure a normal sound pickup function of the main microphone 4 and the sub-microphone 3.

It should be noted that the first sound pickup pipe 2521 and the second sound pickup pipe 2522 may be through holes opened on the sound guide holder 6 and the circuit board 5, where the first sound pickup pipe 2521 and the second sound pickup pipe 2522 at least partially overlap, so as to ensure that the sound pickup pipe 252 is in a communication state. The shapes of the first sound collecting tube 2521 and the second sound collecting tube 2522 are not specifically limited in the present application, and may be circular, elliptical, polygonal, or the like, and the shapes of the first sound collecting tube 2521 and the second sound collecting tube 2522 may be the same or different, and it is within the scope of the present application as long as the first sound collecting tube 2521 and the second sound collecting tube 2522 can communicate with the main microphone 4 or the sub-microphone 3.

In this embodiment, the ear rod 2 may include: the microphone comprises a first shell 23 and a second shell 24, wherein the first shell 23 and the second shell 24 are detachably connected to form a cavity, and a circuit board 5, a main microphone 4, an auxiliary microphone 3 and a sound guide support 6 are arranged in the cavity; one end of the first shell 23 is connected with the earphone head 1, and the second shell 24 is provided with a main sound pickup port 22 and an auxiliary sound pickup port 21; wherein the windproof cavity 25 is arranged on the side opposite to the main microphone 4 and the auxiliary microphone 3, thereby ensuring that the main microphone 4 and the auxiliary microphone 3 can pick up voice signals and noise signals in the environment.

In addition, in this embodiment, a dustproof mesh is further disposed in the ear rod 2, and the dustproof mesh covers at least the auxiliary sound pickup opening 21 and the main sound pickup opening 22. Through setting up dustproof cloth 7 and can reducing the dust and enter into in the wind-proof passageway 251 from vice pickup mouth 21 or main pickup mouth 22, and then block up wind-proof passageway 251, influence the normal speech signal that picks up of pickup pipe 252 on the one hand, influence the wind noise prevention effect of wind-proof passageway 251 on the other hand.

In the present embodiment, the shape of the sound guide support 6 does not limit the protection scope of the present application, for example: the sound guide support 6 may be a cylindrical structure with a semicircular cross section, or may be a cylindrical structure with a rectangular cross section, as long as there is enough space for the windproof cavity 25.

It should be noted that, the sound guide support 6 in this embodiment is a cylindrical structure with a semicircular cross section, and such a structure has a smooth surface, is convenient to mount, and can effectively reduce the accumulation of dust.

On the basis of the above embodiments, in the embodiment of the present application, the side wall of the sound guide bracket 6 has the groove structure 61; the inner wall of the groove structure 61 and part of the inner wall of the ear rod 2 enclose a windproof channel 251; and the first sound-pick-up tube 2521 opens onto the groove bottom of the groove structure 61 of the sound guide holder 6. Can be integrated on leading sound support 6 with prevent wind passageway 251 like this to can simplify the structure of ear pole 2, and can be convenient set up dustproof cloth 7 between the casing of leading sound support 6 and ear pole 2, and then play dirt-proof effect, prevent wind the life of making an uproar earphone with the improvement this application.

Further, in the embodiment of the present application, on the basis of the above-mentioned embodiment, as shown in fig. 4, the sound guide holder 6 is provided with a straight hole to form the wind-proof channel 251, and two ends of the wind-proof channel 251 are respectively opposite to the two main sound-pickup ports 22 or the two sub sound-pickup ports 21. The center line of the wind-proof channel 251 is perpendicular to the center line of the sound pickup pipe 252. The wind-proof cavity 25 is in a T-shaped structure, on one hand, when airflow flowing at high speed blows over the ear rod 2, the air in the wind-proof channel 251 and the air which enters the ear rod 2 in advance can form acoustic resistance, so that the airflow is prevented from blowing into the wind-proof channel 251, and wind noise is avoided; when the air flow with low speed blows, the air flow can flow in through one end of the wind-proof passage 251 and then flows out from the other end, so that wind noise is also avoided.

It should be noted that, when the wind-proof cavity 25 is a "T" shaped structure, the groove structure 61 of the sound guide bracket 6 is a through hole structure opened inside the sound guide bracket 6. The width of this through-hole structure is the same with the width of main pickup mouth 22 or vice pickup, perhaps is less than the width of main pickup mouth 22 or vice pickup, because the gap the inside is difficult to blow to the wind on the one hand in the passageway of gap shape, on the other hand when high-speed air current blows in, because the passageway space of gap shape is less, so can form great acoustic resistance, and then prevent that the earphone from receiving the influence of wind noise.

As shown in fig. 4, the sound signal is picked up by a path from both ends of the main sound pickup port 22 or the sub sound pickup to the wind-proof channel 251 and then to the sound pickup duct 252 communicating with the wind-proof channel 251, wherein the arrow in the figure indicates the wind direction, so as to reach the position of the main microphone 4 or the sub microphone 3, and further reach the purpose of picking up the voice signal or the noise signal.

It should be noted that the wind-proof channel 251 is a slit channel with a certain space, so when air flowing at a high speed flows in and out of the ear rod 2, because the ear rod 2 has a certain amount of air inside the wind-proof channel 251, the air and the air blown into the ear rod 2 can mutually confront each other to form a wind resistance, and further, the high-speed air flow is prevented from blowing into the ear rod 2, thereby effectively reducing wind noise. When air flow with low speed blows, the air flow directly enters from one end of the wind-proof channel 251 and then flows out from the other end, so that wind noise is avoided.

On the basis of the above embodiments, in the embodiment of the present application, the main sound pickup port 22 and the auxiliary sound pickup port 21 are both in a strip-shaped slit structure; alternatively, the main sound pickup port 22 and the sub sound pickup port 21 are formed in a mesh structure (not shown) in which a plurality of hole-like structures are provided at intervals.

It should be noted that, when the main sound pickup port 22 and the auxiliary sound pickup port 21 are mesh structures formed by a plurality of hole structures arranged at intervals, the plurality of hole structures are arranged to form a long-strip-shaped mesh structure, that is, the arrangement of the plurality of hole structures together is also equivalent to a long-strip-shaped slit structure. Thus, the wind noise prevention effect can be achieved.

It should be noted that the plurality of hole-like structures may be the same or different in size, and a slit structure that can be arranged in a single long line is within the scope of the present application.

In this embodiment, the length of the main sound pickup port 22 and the sub sound pickup port 21 ranges from 1 mm to 5mm, and the width of the main sound pickup port 22 and the sub sound pickup port 21 ranges from 0.4 mm to 0.8 mm. For example, the length of the main sound pickup port 22 and the sub sound pickup port 21 may be 3mm, or the length of the main sound pickup port 22 and the sub sound pickup port 21 may be 4mm, the width of the main sound pickup port 22 and the sub sound pickup port 21 may be 0.6mm, or the width of the main sound pickup port 22 and the sub sound pickup port 21 may be 0.5 mm. The main sound pickup port 22 and the sub sound pickup port 21 may be the same or different in length, and the main sound pickup port 22 and the sub sound pickup port 21 may be the same or different in width.

Note that the main sound pickup port 22 and the sub sound pickup port 21 are shaped as a strip-shaped slit structure, and both the width and the length do not exceed the above ranges, for example: the main sound pickup port 22 and the auxiliary sound pickup port 21 are 5mm in length and 0.6mm in width; alternatively, the dimensions of the main sound pickup port 22 and the sub sound pickup port 21 are not specifically shown, and the main sound pickup port 22 and the sub sound pickup port 21 having the above dimensions are within the scope of the present invention, such as a length of 4mm and a width of 0.8 mm.

On the basis of the above embodiment, in the embodiment of the present application, the noise-prevention earphone may further include: an antenna radiator (not shown) is provided on the outer wall of the sound guide support 6 or on the inner wall of the ear post 2.

It should be noted that, as shown in fig. 3, 5 and 8, the sound guide holder 6 and the circuit board 5 are in contact with each other, so that the antenna radiator is integrated on the sound guide holder 6, and the connection between the antenna radiator and the circuit board 5 can be facilitated. In addition, the antenna radiating body is integrated on the sound guide support 6, so that the space occupied by the antenna radiating body can be saved, and the miniaturization development of the earphone is facilitated.

In the embodiment of the present application, the sound guide support 6 may be made of Laser Direct Structuring (LDS) material, where the LDS material is a modified plastic containing an organic metal compound, and the organic metal compound releases metal particles after Laser irradiation. The LDS technology is a production technology of professional laser processing, injection and electroplating processes, and its principle is to combine the functions of electrical interconnection, supporting components, supporting and protecting plastic housing, and shielding and antenna functions generated by combining mechanical entity and conductive pattern into a whole, forming a so-called 3D-MID, which is suitable for local fine line manufacturing. The sound guide support 6 in the embodiment of the application adopts the LDS material, so that the antenna radiator can be integrated on the surface of the sound guide support 6 in an invisible mode, the space is effectively utilized, the integration level inside the earphone is improved, and the volume of the earphone is reduced.

On the basis of the above embodiments, in the embodiment of the present application, the circuit board 5 has a feeding point, the feeding point is provided with an antenna elastic sheet, and one end of the antenna radiator is abutted against the antenna elastic sheet, so that the antenna radiator is electrically connected to the feeding point. Through integrating the antenna radiator on leading sound support 6 like this, only need connect through leading the antenna shell fragment on sound support 6 and the circuit board 5, just can realize the connection of circuit board 5 and antenna radiator, convenient and fast, and connect stably to can effectively guarantee the normal use of earphone.

On the basis of the above embodiments, in the present embodiment, the two main sound pickup ports 22 are respectively disposed along the same circumferential direction of the outer wall of the ear rod 2 at intervals; two vice adapterization mouths 21 set up along the same circumference interval of ear pole 2 outer wall respectively, and two main adapterization mouths 22 and two vice adapterization mouths 21 set up at the axial of ear pole 2 interval.

Alternatively, as shown in fig. 7 to 8, the main sound pickup port 22 and the sub sound pickup port 21 communicate in the axial direction of the ear rod 2. That is, the two main sound pickup ports 22 and the two sub sound pickup ports 21 may be provided at any positions of the ear rod 2, and the wind noise prevention effect can be achieved by the slit-shaped hole structure in the axial direction.

It should be noted that the two wind-proof passages 251 in the two wind-proof cavities 25 may be communicated, or the two wind-proof passages 251 in the two wind-proof cavities 25 may be separated. That is, as long as the two sets of wind-proof cavities 25 are respectively communicated with the main microphone 4 and the sub-microphone 3, the wind noise-proof effect can be achieved.

The shape of the windbreak passage 251 is not limited to the linear shape described above, and may be other shapes as long as a passage capable of communicating with each other is formed.

On the basis of the above embodiments, in the embodiment of the present application, the shape formed by connecting the first casing 23 and the second casing 24 is a cylinder or a square column.

It should be noted that the shape of the ear rod 2 is not a limitation to the scope of the present application, and may be a cylindrical shape, a square column shape, a polygonal column shape, or a cartoon image.

On the basis of the above-described embodiment, in the present embodiment, the sound guide holder 6 is a semi-cylinder or a square column, and the main sound pickup opening 22 and the sub sound pickup opening 21 are located on an arc surface of the semi-cylinder, or on two opposite side surfaces of the square column of the main sound pickup opening 22 and the sub sound pickup opening 21.

In other embodiments of the present application, as shown in FIG. 6, the wind-proof channel 251 can also be an arc-shaped channel that protrudes toward the inner wall of the ear post 2. When the wind-proof channel 251 is an arc-shaped channel, the airflow blown into the ear rod 2 is blocked by the side wall of the sound guide bracket 6, so that the wind noise can be prevented from entering, and the wind noise is reduced. In addition, when the sound guide channel is arc-shaped, the groove structure 61 formed on the sound guide support 6 may be disposed on the side of the sound guide support 6 close to the shell of the ear rod 2, that is, the groove structure 61 formed on the surface of the sound guide support 6. This simplifies the structure of the sound guide bracket 6, and thus the manufacturing process.

The utility model discloses a prevent wind earphone of making an uproar can be wireless earphone also can be wired earphone, as long as the earphone that has the conversation function all can.

The wind noise prevention earphone of the utility model has the advantages that the wind noise prevention cavity 25 is arranged on the ear rod 2, and the main pickup port 22 and the auxiliary pickup port 21 are arranged in the gap type structure, so that on one hand, when airflow flowing at high speed blows over the ear rod 2, the air in the wind noise prevention channel 251 can form acoustic resistance with the air pre-entering the ear rod 2, and therefore the airflow is prevented from blowing into the wind noise prevention channel 251, and wind noise is avoided; when the air flow with low speed blows, the air flow can flow in through one end of the wind-proof passage 251 and then flows out from the other end, so that wind noise is also avoided.

In the description of the present application, it should be noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may for example be fixed or indirectly connected through intervening media, or may be interconnected between two elements or may be in the interactive relationship between two elements. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

It is expressly intended that all such additional apparatus or elements be included within this description or this summary, and be constructed and operative in a particular orientation, and not limited to the specific embodiments disclosed herein. In the description of the present application, "a plurality" means two or more unless specifically stated otherwise.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (18)

1. A noise-resistant headphone, comprising:

the earphone comprises an earphone head and an ear rod, wherein one end of the ear rod is connected with the earphone head, and a circuit board, a main microphone and an auxiliary microphone which are electrically connected with the circuit board are arranged in the ear rod;

two auxiliary sound pickup ports and at least one main sound pickup port are formed in the side wall of the ear rod;

the ear rod is internally provided with at least one group of windproof cavities, wherein one group of windproof cavities are communicated with the two auxiliary pickup ports and the sound holes of the auxiliary microphones, and the main pickup port is communicated with the sound holes of the main microphones.

2. The wind noise resistant earphone according to claim 1, wherein the number of the wind-proof cavities is two, the number of the main sound pickup ports is two, and one of the wind-proof cavities is communicated with the two sub sound pickup ports and the sub microphone, and the other wind-proof cavity is communicated with the two main sound pickup ports and the sound hole of the main microphone.

3. The wind noise resistant headphones of claim 2, wherein each set of the wind resistant cavities comprises: prevent wind passageway and pickup pipe way, main microphone with the sound hole of vice microphone respectively with two sets of prevent in the wind chamber one end intercommunication of pickup pipe way, the other end of pickup pipe way with prevent wind the passageway intercommunication, two vice pickup ports and two main pickup ports respectively with two prevent in the wind chamber prevent wind the both ends intercommunication of passageway.

4. The anti-wind earphone according to claim 3, wherein a sound guide bracket is provided in the ear stem, the sound guide bracket is located on one side of the circuit board, and the main microphone and the sub-microphone are located on the other side of the circuit board;

the pickup duct includes: first pickup pipeline and second pickup pipeline, wherein, lead on the sound support seted up with prevent wind the passageway intercommunication first pickup pipeline, seted up on the circuit board with first pickup pipeline intercommunication second pickup pipeline, main microphone with vice microphone's sound hole respectively with two sets of wind-proof chambeies second pickup pipeline intercommunication.

5. The wind noise prevention earphone according to claim 4, wherein the side wall of the sound guide bracket is provided with a groove structure;

the inner wall of the groove structure and part of the inner wall of the ear rod form the windproof channel;

and the first pickup pipeline is arranged on the groove bottom of the groove structure of the sound guide support.

6. The wind noise resistant earphone according to claim 5, wherein the wind resistant channel is an arc channel protruding toward the inner wall of the ear stem.

7. The wind noise prevention earphone according to claim 4, wherein the wind prevention channel is formed by a straight hole formed in the sound guide holder, and two ends of the wind prevention channel are respectively opposite to the two main sound pickup ports or the two auxiliary sound pickup ports.

8. The wind noise resistant headphones of claim 7, wherein the centerline of the wind resistant channel is perpendicular to the centerline of the pickup duct.

9. The noise resistant headphones of claim 8, further comprising: and the antenna radiating body is arranged on the outer wall of the sound guide support or the inner wall of the ear rod.

10. The earphone of claim 9, wherein the circuit board has a feeding point, the feeding point is provided with an antenna spring, and one end of the antenna radiator abuts against the antenna spring, so that the antenna radiator is electrically connected to the feeding point.

11. The wind noise prevention earphone according to any one of claims 1 to 10, wherein the two main pickup ports are respectively arranged along the same circumferential direction of the outer wall of the ear rod at intervals;

the two auxiliary sound pickup ports are respectively arranged along the same circumferential direction of the outer wall of the ear rod at intervals, and the two main sound pickup ports and the two auxiliary sound pickup ports are arranged at intervals in the axial direction of the ear rod;

or the main sound pickup port and the auxiliary sound pickup port are communicated in the axial direction of the ear rod.

12. The wind noise prevention earphone according to any one of claims 3 to 10, wherein the two wind prevention passages of the two wind prevention chambers are communicated or are spaced apart.

13. The wind noise resistant headphones of any one of claims 1-10, further comprising: dustproof screen cloth, dustproof screen cloth establishes in the ear pole, just dustproof screen cloth covers at least vice pickup mouth with on the main pickup mouth.

14. The wind noise resistant headphones of any of claims 1-10, wherein the ear stems comprise: the microphone comprises a first shell and a second shell, wherein the first shell and the second shell are detachably connected to form a cavity, and the circuit board, the main microphone and the auxiliary microphone are arranged in the cavity;

one end of the first shell is connected with the earphone head, and the second shell is provided with the main pickup port and the auxiliary pickup port.

15. The wind noise resistant earphone according to claim 14, wherein the first housing and the second housing are connected to form a cylinder or a square column.

16. The wind noise prevention earphone according to any one of claims 4 to 10, wherein the sound guide holder is a semi-cylinder or a square cylinder, and the main sound pickup opening and the sub sound pickup opening are located on an arc surface of the semi-cylinder, or on two opposite side surfaces of the square cylinder.

17. The wind noise prevention earphone according to any one of claims 1 to 10, wherein the main pickup port and the auxiliary pickup port are both in a strip-shaped slit structure; alternatively, the first and second electrodes may be,

the main pickup port and the auxiliary pickup port are of a net structure formed by a plurality of porous structures at intervals.

18. The wind noise prevention earphone according to any one of claims 1 to 10, wherein the length of the main sound pickup port and the auxiliary sound pickup port ranges from 1 mm to 5 mm;

the width scope of the main pickup port and the auxiliary pickup port is 0.4-0.8 mm.

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