CN215729150U - Glasses with hearing aid function - Google Patents

Abstract

The utility model discloses a pair of glasses with hearing aid function, wherein the glasses with hearing aid function comprise: the device comprises two sound conduction hoses, a circuit board, a spectacle frame, two spectacle legs connected with the spectacle frame, and an elastic shockproof piece, a microphone and a receiver which are arranged in each spectacle leg; the circuit board is electrically connected with the microphone and the telephone receiver, the elastic shockproof piece is used for reducing the shock received by the telephone receiver, one end of the sound conduction hose is connected with the telephone receiver positioned in the glasses leg, the other end of the sound conduction hose can be used for a user to put the telephone receiver into an ear canal, and the sound generated by the telephone receiver in the glasses leg receiving the driving signal of the circuit board is transmitted to the outside through the sound conduction hose. According to the technical scheme, the glasses are combined with the hearing aid function, so that the market demand is met, the vibration of the receiver is reduced, the noise is reduced, and the user experience is better.

Description

Glasses with hearing aid function

Technical Field

The utility model relates to the technical field of glasses, in particular to glasses with a hearing aid function.

Background

With the increase of the aging population, the population proportion of the elderly with poor eyesight and hearing is also increasing. Most of the intelligent audio glasses in the market at present pursue fashionable and cool playing characteristics for young groups, and market demands for old people are ignored. For hearing impaired people who need to assist hearing with hearing aid equipment, wearing various equipment such as glasses, bluetooth headset and hearing aid equipment simultaneously is very inconvenient again.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide glasses with hearing aid functions, and aims to provide glasses which are convenient for deaf patients to wear.

In order to achieve the above object, the present invention provides glasses with hearing aid function, comprising: the device comprises two sound conduction hoses, a circuit board, a spectacle frame, two spectacle legs connected with the spectacle frame, and an elastic shockproof piece, a microphone and a receiver which are arranged in each spectacle leg;

the circuit board is electrically connected with the microphone and the telephone receiver, the elastic shockproof piece is used for reducing the shock received by the telephone receiver, one end of the sound conduction hose is connected with the telephone receiver positioned in the glasses leg, the other end of the sound conduction hose can be used for a user to put the telephone receiver into an ear canal, and the sound generated by the telephone receiver in the glasses leg receiving the driving signal of the circuit board is transmitted to the outside through the sound conduction hose.

Optionally, the temple has an arm and a leg behind the ear when worn, the arm includes a casing connected to the leg and a cover plate covering the casing, the casing and the cover plate form an accommodation chamber, and the elastic shock-proof member wraps the receiver and is placed in the accommodation chamber.

Optionally, the housing or the cover plate is provided with a first accommodating slot, and the elastic shockproof piece wraps the telephone receiver and is placed in the first accommodating slot.

Optionally, the apron still is equipped with hollow pipe portion that connects, connect pipe portion edge the apron is kept away from one side of shank is to the orientation the direction of shank extends the setting, connect pipe portion one end with first accepting groove is linked together, the casing with the arm junction is formed with the arc changeover portion, be formed with the confession on the arc changeover portion the hole of dodging that pipe portion passed, the other end that connects pipe portion can pass can partially expose behind the hole of dodging, so that the sound guide hose cup joints.

Optionally, the outer circumferential wall of the elastic shock-proof member is provided with a shock-proof structure.

Optionally, the shockproof structure is a plurality of elastic reinforcing ribs arranged on the peripheral wall of the elastic shockproof piece.

Optionally, the microphone is externally sleeved with a sealing sleeve.

Optionally, a second accommodating groove is formed in the accommodating cavity in a protruding mode towards the cavity wall of the cover plate, and the microphone sleeved with the sealing sleeve is arranged in the second accommodating groove.

Optionally, a flexible connection line is arranged in the lens frame, the circuit board is accommodated in one of the lens legs, the battery is accommodated in the other lens leg, and the circuit board and the battery are electrically connected through the flexible connection line.

According to the technical scheme, the microphone and the telephone receiver are electrically connected with the circuit board and are arranged in each of the glasses legs, vibration borne by the telephone receiver is reduced through the elastic shockproof piece, noise is reduced, the sound conduction hose is connected with the telephone receiver, the telephone receiver in each of the glasses legs receives a driving signal of the circuit board, and therefore generated sound is transmitted to the outside through the sound conduction hose, so that a person with hearing aid disorder can wear the glasses and can hear clearly, and no obvious collision sound is added during normal walking movement.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a schematic perspective view of glasses with hearing assistance according to an embodiment of the present invention;

FIG. 2 is a perspective view of the hearing aid glasses of FIG. 1 with one temple exploded;

FIG. 3 is a perspective view of another angle of one temple of the hearing aid glasses of FIG. 2;

fig. 4 is a perspective view of the glasses with hearing aid function of fig. 1 with another temple exploded.

The reference numbers illustrate:

the implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Along with the release of bluetooth, combine the product of bluetooth more and more, especially bluetooth speaker and bluetooth headset, bluetooth headset is because its convenience of wearing, except can wirelessly listen the audio frequency, still can be used to answer the cell-phone incoming call, and present bluetooth headset uses very extensively. However, most of the Bluetooth earphones are provided with the ear hooks to prevent the Bluetooth earphones from falling off, so that the user wearing the glasses wears the Bluetooth earphones again, and the glasses legs can block the ear hooks of the Bluetooth earphones, so that the glasses are uncomfortable to wear. Meanwhile, for hearing-impaired people who need to assist hearing with hearing-aid equipment, wearing various equipment such as glasses, Bluetooth earphones and hearing-aid equipment at the same time is very inconvenient.

For a person with hearing impairment, the voice is divided into high frequency, medium frequency and low frequency, a plurality of channels are subdivided in the middle, the voice of the person speaking is composed of different frequencies, the ears of the person can transmit the voice with different frequencies and different tone qualities, the hearing impairment of the person with hearing impairment has different degrees of hearing loss on different frequencies, only a part of the normal language can be heard, but the details of the voice are difficult to be distinguished. It is just as if several keys in the piano are damaged, a song is played, the sound volume of the part of the bad key is reduced and even silent, but the good key can still normally make sound, the rhythm can be heard, and details cannot be heard.

As with myopia, the rough outline is visible, but the detail is not.

The situation of each hearing-impaired person is different, and the hearing aid is not used for simply amplifying sound, but is used for supplementing sound with missing frequency, so that the bad keys are better repaired. Some people have good low frequency and high frequency difference, and some people have good low frequency and high frequency difference.

The utility model provides a pair of glasses with a hearing aid function.

In the embodiment of the present invention, as shown in fig. 1 to 4, the glasses 100 with hearing assistance function comprises two sound conduction hoses 70, a circuit board 60, a frame 10, two temples 20 connected to the frame 10, and an elastic shock-proof member 80, a microphone 30 and a receiver 50 disposed in each of the temples 20; the circuit board 60 is electrically connected to the microphone 30 and the receiver 50, the elastic shock-proof member 80 is used for reducing the shock received by the receiver 50, one end of a sound-conducting hose 70 is connected to the receiver 50 located in a temple 20, the other end of the sound-conducting hose is used for the user to put into the ear canal, and the sound generated by the receiver 50 in the temple 20 receiving the driving signal of the circuit board 60 is transmitted to the outside through the sound-conducting hose 70.

In this embodiment, the frame 10 can include lenses, or can be of a frameless type, and the lenses 2 can be optionally configured by the user according to personal needs, such as presbyopia, myopia, flat light, progressive addition, or polarized lenses.

In this embodiment, the microphone 30 and the receiver 50 are disposed in each of the glasses legs 20, wherein a circuit board 60 is disposed in one of the glasses legs 20, the circuit board 60 includes a central processing module, an audio module and a hearing aid module, in another embodiment, the circuit board 60 further includes a bluetooth module for wirelessly connecting the glasses with a mobile phone, a tablet computer and other terminals, in another embodiment, the circuit board 60 further includes a distance measuring module for measuring a distance between the glasses and a reference object, which is helpful for a user to develop a good eye using habit and avoid observing objects in a short distance, and the audio module, the hearing aid module, the microphone, the bluetooth module and the distance measuring module are respectively connected with the central processing module. Specifically, in terms of realizing the hearing aid function, the main functional module on the circuit board 60 plays a role, and is responsible for converting analog signals into digital signals; secondly, the digital signal is divided into a plurality of signal processing channels; thirdly, processing signals; combining signals transmitted from different channels into a high-frequency part and a low-frequency part for operation; fifthly, the finished high-frequency and low-frequency signals are combined and output to a telephone receiver 50 in a digital mode;

to facilitate understanding, the situation introduces one: hearing aids (Hearing aids) are aids used by Hearing impaired people to compensate for deficiencies caused by Hearing impairment. Further improve the communication ability with others. In a broad sense, any device which can effectively transmit sound into ears can be regarded as a hearing aid, and in a narrow sense, the hearing aid is an electroacoustic amplifier which amplifies the sound to make deaf people hear the original sound which is not heard clearly. Current hearing aids are largely divided into analog and digital hearing aids. Wherein the analog hearing aid amplifies sound uniformly regardless of the shape of the hearing loss curve of the patient, and the digital hearing aid compensates precisely according to the shape of the hearing loss curve of the patient. Hearing aids are classified into behind-the-ear hearing aids, in-the-canal hearing aids, completely-in-the-canal hearing aids, 100% invisible hearing aids, and the like from the viewpoint of wearing position and appearance.

The situation introduces two: a hearing aid is essentially an electro-acoustic amplifier, where an acoustic signal is converted into an electrical signal by a microphone (microphone 30), amplified by the amplifier, and then restored to an acoustic signal by a receiver 50 and transmitted to the ear of a person. The hearing aid is mainly composed of a microphone, an amplifier, a receiver 50, a battery 90, various volume tone control knobs and other elements. The working principle of the hearing aid is as follows: the first part is a microphone 30 (microphone) responsible for converting an input acoustic signal into an electrical signal in an analog manner; the second part is an input signal processor which is responsible for converting the analog signal into a digital signal; the shunt device of the third part is responsible for shunting the digital signal to a plurality of signal processing channels; the fourth part is a signal processing device which has the capability of independently, flexibly and reasonably processing signals; the fifth part is an integration device which is responsible for combining signals transmitted from different channels into a high-frequency part and a low-frequency part for operation; the sixth part combines the high and low frequency signals obtained by the previous operation and outputs the combined signals in a digital manner (integrated into the circuit board 60); the seventh part is receiver 50, which is responsible for converting the electrical signal to an acoustic signal.

At present, the main common digital hearing aids in the market use microphones to collect sound, carry out digital signal processing and amplification through chips inside the machine body, then output the amplified/processed sound to a wearer through a micro loudspeaker, and are analyzed fundamentally, and the hearing aids comprise four main parts: microphone-microphone collects sounds from the environment and converts these sounds into electronic signals for transmission to an internal chip sound processor (chip) -acquires the electronic signals from the microphone and converts them into digital format, which is processed by the processor for enhanced amplification and transmission to a speaker, a speaker (receiver 50) -converts the digital format processed by the processor into sound waves for transmission into the ear of the wearer to cause the eardrum vibrating battery 90-four components providing the sole source of power for the hearing aid operation-the most basic components of all digital signal hearing aids.

The receiver 50 is placed in the temple 20, when the glasses move or the human body moves, noise caused by vibration is easily caused, and the elastic shock-proof member 80 is used for reducing the vibration received by the receiver 50 in the present embodiment. The elastic shock absorbing member 80 is not limited to a soft material such as silicone rubber.

According to the technical scheme, the microphone 30 and the telephone receiver 50 are electrically connected with the circuit board 60 and are arranged in each of the glasses legs 20, vibration of the telephone receiver 50 is reduced by the elastic shockproof piece 80, noise is reduced, the sound conduction hose 70 is connected with the telephone receiver 50, sound generated by the telephone receiver 50 in the glasses legs 20 receiving a driving signal of the circuit board 60 is transmitted to the outside through the sound conduction hose 70, and therefore a person with hearing aid disorder can wear the glasses and can hear clearly, and no obvious collision sound is added in normal walking movement.

In the present embodiment, in order to reduce the vibration to which the receiver 50 is subjected. The temple 20 has an arm 21 and a leg 24 behind the ear when worn, the arm 21 includes a casing 22 connected to the leg 24 and a cover 23 covering the casing 22, the casing 22 and the cover 23 form a containing cavity 221, and the elastic shock-proof member 80 wraps the receiver 50 and is disposed in the containing cavity 221. Receiver 50 is a device that converts electrical energy into acoustic energy. Receiver 50 has frequency response of about 1KHz, 3KHz, 5KHz, and three formants, which are mainly caused by the sound transmission tube, receiver 50 is the main element for generating harmonic distortion of the hearing aid, and the degree of distortion increases with the increase of the output sound pressure level, i.e. the larger the loudness, the larger the distortion. This is also the reason why many patients wearing very powerful hearing aids often speak with poor clarity, i.e. "large tongue". The narrower the bandwidth of the receiver 50, the less likely the hearing aid will generate acoustic feedback whistling, so many hearing aids will specially limit the output bandwidth of the receiver 50, and the effective output bandwidth is usually 0.2-5.2 KHz. However, how to achieve the coexistence of super bandwidth and feedback prevention howling still needs to be improved.

The receiver 50 is actually a receiver, but its technical indexes are more advanced, such as ac impedance, rated power, etc., and it is a device that can convert audio electrical signals into sound signals without sound leakage, the receiver 50 can vibrate by the acting force of voice coil and magnet, thus driving the diaphragm to sound, in this embodiment, the receiver 50 is a moving iron, the moving iron type receiver 50 is generally called balance ARMATURE (BALANCED ARMATURE) or ARMATURE type receiver 50 abroad, and its core electro-acoustic conversion principle is somewhat similar to that of the earlier reed speaker. The reed loudspeaker has the greatest characteristic of high sound-electricity conversion efficiency, has the defects of relatively poor frequency response and distortion, is only suitable for playing language sounds, and cannot truly restore relatively rich sounds such as music and the like. The moving-iron receiver 50 designed on the basis of the principle keeps the characteristic of high sound-electricity conversion efficiency and overcomes the defects of high sound-electricity conversion frequency response and large distortion.

In another embodiment, receiver 50 may be a moving coil receiver 50.

In order to prevent the receiver 50 from being damaged, in this embodiment, the housing 22 or the cover 23 has a first receiving slot 231, and the elastic anti-vibration member 80 wraps the receiver 50 and is disposed in the first receiving slot 231. The assembly is convenient, and the production is also convenient. In this embodiment, a first receiving slot 231 is formed on a surface of the cover plate 23 facing the receiving cavity 221, a slot wall of the first receiving slot 231 protrudes out of the surface of the cover plate 23, and the elastic shock-proof element 80 wraps the receiver 50 and is disposed in the first receiving slot 231. The outer peripheral wall of the elastic shockproof piece 80 is provided with a shockproof structure. For example, the elastic shock-absorbing member 80 may be provided with a protrusion on the inner and outer surfaces thereof to form a buffer space, thereby providing shock-absorbing effects, and thus, the shock-absorbing means may be various, including but not limited to, for example, providing the elastic shock-absorbing member 80 with a double layer, a triple layer, a multi-layer manner, etc., and in the present embodiment, the shock-absorbing structure is a plurality of elastic ribs 81 provided on the outer circumferential wall of the elastic shock-absorbing member 80. The plurality of reinforcing ribs extend transversely or longitudinally and protrude out of the surface of the elastic shock-proof member 80 to form a plurality of buffer spaces, and of course, the inner cavity wall of the elastic shock-proof member 80 can be similarly arranged to achieve a better shock-proof effect.

Further, the effect is good for the transmission of sound. In this scheme, apron 23 still is equipped with hollow takeover portion 232, takeover portion 232 follows apron 23 is kept away from one side of shank 24 is to the orientation the direction of shank 24 is extended and is set up, takeover portion 232 one end with first accepting groove 231 is linked together, casing 22 with the arm 21 junction is formed with arc changeover portion 222, be formed with the confession on the arc changeover portion 222 connect the hole 223 of dodging that pipe portion 232 passed, the other end that connects pipe portion 232 can pass can partially expose behind the hole 223 of dodging, so that sound guide hose 70 cup joints. The elastic shock-proof member 80 can be adapted to accommodate the moving-iron receiver 50 to wrap the moving-iron receiver 50, and the elastic shock-proof member 80 further has an extended hollow tubular portion capable of being inserted into the connecting tube portion 232, so that the moving-iron receiver 50 can transmit sound conveniently. The connection pipe 232 can extend out of the temple 20 for the convenience of sleeving the sound conduction hose 70, and the exposed part of the connection pipe 232 for the firmness of sleeving is also provided with a groove, or can be additionally glued and the like.

In order to reduce the noise to which the microphone 30 (microphone) is subjected, in the present embodiment, the microphone 30 is externally fitted with a sealing boot 40.

The noise of the microphone 30 (microphone) is composed of both the device noise and the output noise. The microphone is the main element generating noise local to the hearing aid, and the higher the sensitivity of the microphone, the more difficult it is to achieve low noise. Defects of the microphone: 1. the microphone belongs to precision accessories and is easy to corrode when being contacted with moisture, particularly sweat for a long time; 2. sensitive to vibrations such as the sound of a friction hearing aid, direct vibrations of the body (running on a hard surface), impact sounds, etc. These vibrations will become a loud sound after amplification; 3. susceptible to wind noise, the user may hear annoying low and medium frequency wind noise when the wind hits the head, pinna or temple 20; 4. the frequency response range is susceptible to being reduced by altering the distance between the microphone and the sound inlet aperture when the temple 20 collides with a hard object (e.g. falls on the ground, etc.). In order to solve the problem of the signal-to-noise ratio of the hearing aid in a noisy environment, directional microphone technology has been developed, and the directional microphones are further classified into omnidirectional microphones and adaptive directional microphones. The use of the directional microphone enables the hearing aid to amplify useful information and suppress noise, thereby improving speech intelligibility in a noisy environment, and the noise reduction effect of the dual-microphone hearing aid is better than that of a single-microphone hearing aid.

Wind noise is noise that is very loud when the microphone is saturated and amplified by the hearing aid due to turbulence created when the wind hits the microphone opening. The presenter is often seen on the television, and when the presenter is carefully observed, the presenter can find that the presenter covers the microphone, and the microphone is protected from wind, so that the interference of wind noise is reduced. Understandably, in this implementation, the microphone is also equipped with a "wind shield" to reduce wind noise. The sealing sleeve 40 of the microphone is provided with a small hole corresponding to the outside of the glasses leg 20, so that external sound is picked up, and the fixing and shockproof effects are achieved.

For the purpose of fixing the microphone 30 firmly, a second receiving groove 224 is formed in the receiving cavity 221 and protrudes toward the cavity wall of the cover plate 23, and the microphone 30 sleeved with the sealing sleeve 40 is placed in the second receiving groove.

In order to make the structure more reasonable, in this embodiment, a flexible connection line 11 is disposed in the lens holder 10, the circuit board 60 is accommodated in one of the lens legs 20, the battery 90 is accommodated in the other lens leg 20, and the circuit board 60 and the battery 90 are electrically connected through the flexible connection line 11. The battery 90 may employ a zinc-air battery 90, and the zinc-air battery 90 generates a permanent chemical reaction by oxygen in the air to generate a voltage of 1.4V. Hearing aid batteries 90 may be divided into four categories: a675, a13, a312, a10 batteries 90. The usable time of each battery 90 is different, the usable time of the A10 battery 90 is the shortest, and is basically about 5 days; the A312 battery 90 can be used for 7-10 days, the A13 battery 90 can be used for 12-15 days, and the A675 battery 90 can be used for the longest time, namely 20-25 days. In one aspect, the glasses are charged using a charging base associated with the glasses case, typically 8-10 hours for a single charge.

In addition, a control panel may be provided on the temple 20 and connected to the circuit board 60. The control panel is provided with keys or toggle switches for controlling the on/off of functional modules such as hearing aid, Bluetooth and the like, and is also provided with keys for controlling audio playing and volume control and the like, so that a user can directly control the previous music, the next music, volume and the like on the Bluetooth connecting equipment on the glasses, synchronous audio adjustment on the connecting equipment such as mobile phones and the glasses is realized, and particularly, the user can conveniently adjust audio at will on certain occasions inconvenient to use mobile phone control. In order to make the glasses more comfortable to wear and facilitate the operation of the user, the control panel is disposed below the glasses legs 20 in the embodiment, that is, the control panel is disposed on the lower end surface of the glasses legs 20 when the user wears the glasses, which improves the overall appearance of the glasses and prevents the keys on the control panel from scraping the face of the user.

The above description is only an alternative embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications and equivalents of the present invention, which are made by the contents of the present specification and the accompanying drawings, or directly/indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A pair of glasses with a hearing aid function, characterized in that, comprising: two sound-conducting hoses, a circuit board, a frame, two temples connected to the frame, and two temples placed on each of the temples Elastic shockproof parts, microphones and receivers inside; The circuit board is electrically connected with the microphone and the receiver, the elastic shock-proof member is used to reduce the vibration received by the receiver, and one end of the sound guide hose is connected to the receiver located in the temple. The other end can be put into the ear canal of the user, and the receiver in the temple receives the driving signal of the circuit board, so that the sound generated is transmitted to the outside world by the sound conduction hose. 2 . The glasses with hearing aid function according to claim 1 , wherein the temple has an arm portion and a leg portion located behind the ear when worn, and the arm portion comprises a ground shell connected to the leg portion. 3 . A body and a cover plate covered with the casing, the casing and the cover plate cover together to form an accommodating cavity, and the elastic anti-vibration element wraps the receiver and is placed in the accommodating cavity. 3 . The glasses with hearing aid function according to claim 2 , wherein the casing or the cover plate is provided with a first receiving groove, and the elastic shock-proof member wraps the receiver and is placed in the first receiving groove. 4 . in a receiving slot. 4 . The glasses with hearing aid function according to claim 3 , wherein a side of the cover plate facing the accommodating cavity is formed with a first accommodating groove, and the groove wall of the first accommodating groove protrudes out of the space. 5 . On the cover surface, the elastic anti-vibration element wraps the receiver and is placed in the first accommodating groove. 5 . The glasses with hearing aid function according to claim 3 , wherein the cover plate is further provided with a hollow connecting pipe portion, and the connecting pipe portion extends along the side of the cover plate away from the leg to reach 5 . It is extended towards the direction of the leg, one end of the connecting pipe is communicated with the first receiving groove, an arc-shaped transition section is formed at the connection between the shell and the arm section, and the arc-shaped transition section is formed. An escape hole through which the connecting pipe part passes is formed thereon, and the other end of the connecting pipe part can be partially exposed after passing through the escape hole, so as to be sleeved by the sound guide hose. 6 . The glasses with hearing aid function according to claim 3 , wherein a shock-proof structure is provided on the outer peripheral wall of the elastic shock-proof member. 7 . 7 . The glasses with hearing aid function according to claim 6 , wherein the shock-proof structure is a plurality of elastic reinforcing ribs disposed on the outer peripheral wall of the elastic shock-proof member. 8 . 8 . The glasses with hearing aid function according to claim 2 , wherein a sealing sleeve is provided on the outside of the microphone. 9 . 9 . The glasses with hearing aid function according to claim 8 , wherein a second accommodating groove is protruded from the cavity wall of the accommodating cavity toward the cover plate, and the microphone sleeved with the sealing sleeve is placed in 9 . in the second receiving groove. 10 . The glasses with hearing aid function according to claim 1 , wherein a flexible connecting wire is arranged in the frame, the circuit board is accommodated in one of the temples, and the circuit board is accommodated in the other temple. 11 . There is a battery, and the circuit board and the battery are electrically connected through the flexible connecting wire.

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