KR101169885B1 - Hearing aid - Google Patents

Abstract

PURPOSE: A hearing aid of an ear-in type is provided to control a phase by changing delay time for each frequency. CONSTITUTION: A hearing aid of an ear-in type has a vent hole(111) which is formed in order to balance pressure with the outside in a worn state. An external sound entering through an acoustic hole(121) of a microphone is changed to an electric signal. The changed signal is amplified by an amplifier. The amplified signal is changed to sound waves through a receiver. The sound waves outputted from the receiver get feedback through the vent hole. An acoustic filter(150) is installed in the vent hole in order to prevent howling due to over amplification of a voice signal. The acoustic filter is installed in the vent hole.

Description

Ear hearing aid {HEARING AID}

The present invention relates to a hearing aid, and more particularly, howling or echo phenomenon by minimizing the frequency level through the vent hole formed to balance the pressure with the outside and adjusting the delay time when worn. It relates to an ear hearing aid that can eliminate the.

In general, the human ear is divided into three parts: the outer ear, middle ear, and inner ear. Vibration of external sounds is collected in the auricle and transmitted to the eardrum along the ear canal. The ear canal is a type of resonance tube that is blocked by one eardrum, and the vibrations of the eardrum are transmitted to the inner ear through three iso-bones (hammer bones, anvil bones, and ring bones) in the middle ear.

When the oscillation of the iso bone passes through the foot bone of the annulus bone to the cochlea in the inner ear, the lymph fluid inside the cochlea moves, and thousands of fine hair cells in the middle layer of the cochlea detect the vibration of the lymph fluid and transmit the stimulation. Switch to signal And when electrical signals are delivered to the brain through the central nervous system, people can hear the sound.

A hearing aid is a device for assisting hearing loss by converting external sound waves into an electric signal through a microphone, amplifying them with an amplifier, and converting them back into sound waves through a receiver and outputting them to the ear canal of the hearing loss person.

Hearing aids are classified into pocket aid, earring type (BTE) and ear type (ITE, ITC, CIC) according to the worn part, but currently the most commonly used hearing aids are earring type and ear type (or custom type). The ear canal is again classified into the ear canal (ITE), the ear canal (ITC), the small ear canal (M-ITC), and the tympanic mold (CIC).

The basic structure of the hearing aid has almost the same structure regardless of the signal processing method and form. The acoustic signal introduced into the hearing aid is converted into an electrical signal in a microphone called a transmitter. The next step is to use an amplifier to increase the electrical signal from the microphone to a size sufficient for hearing loss. Digital signal processing to realize hearing aids that can be worn comfortably in various listening environments. Digital hearing aids using DSP devices have been developed.

The receiver, the final stage of acoustic amplification, returns the amplified electrical signal back to the acoustic signal audible to the listener. The amplified sound signal has a unique gain and sound pressure for each frequency of the hearing aid due to the resonance effect of the receiver, the tube connected to the hearing aid, the acoustic filter or damper that obstructs the flow of the sound, and the length of the ear canal. Is transformed into

The function of the microphone is to convert the acoustic energy introduced into the hearing aid into electrical energy. An ideal microphone should have the same shape of the waveform of the input voice signal and the output electrical signal. Microphones generally consist of one acoustic inlet, called an omni directional microphone. Modern hearing aids use directional microphones with two or more pitches to improve the signal-to-noise ratio (SNR) by 3 to 5 dB compared to omnidirectional microphones.

The basic role of an amplifier is to convert a small signal, which is converted into an electrical signal in the microphone, into a large energy signal. Amplifiers increase the voltage or current of an electrical signal and sometimes amplify the voltage and current simultaneously. The result of the amplification is that the amplitude of the output signal is larger than the amplitude of the input signal by an integrated circuit (IC or hybrid IC) in which one transistor or tens or millions of transistors, a resistor, a capacitor, etc. are combined. The receiver has a structure very similar to that of a microphone. The receiver can be viewed as the inverse of the microphone in the signal flow.

The ear hearing aid 1 shown in FIG. 1 is worn in the ear, and the sound wave output from the receiver is fed back through a vent hole 1a of the ear hearing aid, and then a wall or a hand or a cell phone placed near the ear. Howling or echo phenomenon is reflected by a reflector (not shown) such as, etc., is inputted back to the acoustic hole 1b of the microphone, and the audio signal is amplified in an instant by the feedback (re-input) of the voice signal. This happens.

The configuration of a conventional digital hearing aid for removing such howling or echo phenomenon is shown in FIG.

2, a conventional digital hearing aid 10 includes a microphone 11, a first amplifier 12, an analog-to-digital converter (ADC) 13, a digital signal processor (DSP) 14, and a digital- It consists of an analog converter (DAC) 15, a second amplifier 16, and a receiver 17, and outputs only an audio signal by removing the feedback signal through digital signal processing.

As the high frequency resonant frequency band of the microphone and the high frequency resonant frequency band of the receiver overlap, howling occurs due to the resonance phenomenon of the two frequency bands even at a small level rise, thereby limiting the hearing aid level amplification. This phenomenon is more severe when the hearing aid is mounted in the ear, which is affected by the size of the human head and the structure of the ear.However, howling or echo phenomenon is difficult to reduce by using a simple filter, and thus expensive signal processing technology components must be used. There was a problem that the price of hearing aids are rising.

The present invention has been proposed to solve the above problems, by installing an acoustic filter in the vent hole formed to balance the pressure with the outside when worn, air resistance (air resistance) Its purpose is to provide a hearing aid that can reduce the level of high frequency signals and change the delay time for each frequency to control the level rise due to signal superposition to prevent howling or echo. have.

In order to achieve the above object, the hearing aid of the present invention has a vent hole formed to balance pressure with the outside when worn, and converts the external sound introduced through the acoustic hole of the microphone into an electrical signal. In the hearing aid that amplifies by an amplifier and converts into sound waves through a receiver to assist hearing loss of the hearing impaired, the sound waves output from the receiver are fed back through the vent hole and then flow back into the acoustic hole of the microphone. And a sound filter is installed in the ventilation hole to prevent a howling phenomenon in which the audio signal is amplified.

The acoustic filter is configured to control the level rise due to signal overlap by adjusting the air resistance to reduce the level value of the high frequency signal and changing the delay time for each frequency to adjust the phase.

The acoustic filter may be configured in at least one mesh form.

As described above, the present invention installs an acoustic filter in a vent hole formed to balance pressure with the outside when worn, thereby adjusting air resistance and reducing the level value of the high frequency signal. By adjusting the phase by changing the delay time for each frequency, it is possible to prevent the howling or echo phenomenon by controlling the level rise due to signal superposition, so that expensive signal processing technology parts are unnecessary and high quality products can be realized at low cost. It can be effective.

1 is a diagram illustrating a howling phenomenon of a conventional hearing aid.
2 is a block diagram of a digital hearing aid for removing the howling phenomenon in a conventional signal processing method
Figure 3 is a perspective view of the hearing aid according to an embodiment of the present invention
4 is a side view of the hearing aid according to a preferred embodiment of the present invention
5 is a view showing wearing a hearing aid according to a preferred embodiment of the present invention

Hereinafter, a hearing aid according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3 is a perspective view showing an ear hearing aid according to a preferred embodiment of the present invention, Figure 4 is a side view of the ear hearing aid according to a preferred embodiment of the present invention, Figure 5 is wearing a hearing aid according to a preferred embodiment of the present invention The figure shown.

3 to 5, the hearing aid body 100 according to a preferred embodiment of the present invention has a hearing aid body 110 having a vent hole 111 formed to balance pressure with the outside when worn. ; A microphone (120) installed in the hearing aid body (110) and converting sound waves input through an acoustic hole (121) into an electrical signal; An amplifier (130) installed in the hearing aid body (110) for amplifying an output signal of the microphone (120); A receiver (140) installed in the hearing aid body (110) for converting a voice signal amplified by the amplifier (130) into sound waves; And the ventilation hole so that the sound wave output from the receiver 140 is fed back through the vent hole and then flows back into the acoustic hole of the microphone to prevent a howling phenomenon in which an audio signal is amplified. And a sound filter 150 installed in the 111.

A battery door D covering the battery B is installed at one side of the front surface of the hearing aid body 110, and a volume controller C is installed at the other side of the hearing aid body 110.

The microphone 120 is configured of a conventional MEMS microphone assembly completed by mounting a MEMS chip and an ASIC on a substrate and then assembling with a case in which an acoustic hole 122 is formed.

The hearing aid body 110 is provided with an amplifier 130 for amplifying the output signal of the MEMS microphone 120 and a receiver 140 for converting the voice signal amplified by the amplifier 130 into sound waves, Since these are known technologies, detailed description thereof will be omitted.

The hearing aid 100 having the microphone resonance control structure according to the preferred embodiment of the present invention configured as described above has a vent hole formed to balance pressure with the outside when worn, and is introduced through the sound of the microphone. The sound wave output from the receiver 140 to convert the external sound into an electrical signal and then amplified by the amplifier 130 and converted to sound waves through the receiver 140 to assist the hearing loss of the hearing impaired person, Is fed back through the vent hole 111 and then flows back into the acoustic hole 121 of the microphone 120 to prevent a howling phenomenon in which an audio signal is amplified. The acoustic filter 150 is installed inside.

The acoustic filter 150 controls the level rise due to signal superposition by adjusting the air resistance to reduce the level value of the high frequency signal and changing the delay time for each frequency to adjust the phase. It is composed. The acoustic filter 150 may be configured in the form of one or more meshes.

As described above, the present invention installs an acoustic filter in a vent hole formed to balance pressure with the outside when worn, thereby adjusting air resistance and reducing the level value of the high frequency signal. By adjusting the phase by changing the delay time for each frequency, it is possible to prevent the howling or echo phenomenon by controlling the level rise due to signal superposition, so that expensive signal processing technology parts are unnecessary and high quality products can be realized at low cost. It can be effective.

As described above, the resonance control structure applied to the hearing aid of the present invention can be applied not only to the hearing aid but also to all other acoustic devices.

100: Ear Hearing Aid
110: hearing aid body
111: vent hole
120: microphone
121: sound hall
130: amplifier
140: receiver
150: sound filter

Claims (6)

delete Having a ventilation hole (111) formed to balance the pressure with the outside when worn, the amplifier 130 after converting the external sound introduced through the acoustic hole 121 of the microphone 120 into an electrical signal In the hearing aid that amplifies and converts into sound waves through the receiver 140 to assist the hearing of the deaf person,
Howling phenomenon that the sound wave output from the receiver 140 is fed back through the vent hole 111 and then flows back into the acoustic hole 121 of the microphone 120 to over-amplify the voice signal. Acoustic filter 150 is installed in the ventilation hole 111 to prevent the,
The acoustic filter 150
An ear hearing aid, characterized in that it is configured to control the level rise due to signal superposition by adjusting the air resistance to reduce the level value of the high frequency signal and changing the delay time for each frequency to adjust the phase. Having a ventilation hole (111) formed to balance the pressure with the outside when worn, the amplifier 130 after converting the external sound introduced through the acoustic hole 121 of the microphone 120 into an electrical signal In the hearing aid that amplifies and converts into sound waves through the receiver 140 to assist the hearing of the deaf person,
Howling phenomenon that the sound wave output from the receiver 140 is fed back through the vent hole 111 and then flows back into the acoustic hole 121 of the microphone 120 to over-amplify the voice signal. Acoustic filter 150 is installed in the ventilation hole 111 to prevent the,
The acoustic filter 150 is an ear hearing aid, characterized in that composed of at least one or more mesh forms. delete Hearing aid body 110 having a vent hole (111) formed to balance the pressure with the outside when worn;
A microphone (120) installed in the hearing aid body (110) and converting sound waves input through an acoustic hole (121) into an electrical signal;
An amplifier (130) installed in the hearing aid body (110) for amplifying an output signal of the microphone (120);
A receiver (140) installed in the hearing aid body (110) for converting a voice signal amplified by the amplifier (130) into sound waves; And
The ventilation holes 111 may be fed back into the sound holes of the microphone after the sound waves output from the receiver 140 are fed back through the vent holes to prevent a howling phenomenon in which an audio signal is amplified. Including a sound filter 150 is installed in,
The acoustic filter 150 is configured to control the level rise due to signal overlap by adjusting the air resistance to reduce the level value of the high frequency signal and changing the delay time for each frequency to adjust the phase. Ear hearing aid. Hearing aid body 110 having a vent hole (111) formed to balance the pressure with the outside when worn;
A microphone (120) installed in the hearing aid body (110) and converting sound waves input through an acoustic hole (121) into an electrical signal;
An amplifier (130) installed in the hearing aid body (110) for amplifying an output signal of the microphone (120);
A receiver (140) installed in the hearing aid body (110) for converting a voice signal amplified by the amplifier (130) into sound waves; And
The ventilation holes 111 may be fed back into the sound holes of the microphone after the sound waves output from the receiver 140 are fed back through the vent holes to prevent a howling phenomenon in which an audio signal is amplified. Including a sound filter 150 is installed in,
The acoustic filter 150 is an ear hearing aid, characterized in that composed of at least one or more mesh forms.

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