JP6315898B2 - Conductive hearing aid and conduction hearing aid app - Google Patents

Description

  The present invention relates to a conduction type hearing aid using bone conduction or the like, and more particularly to a technique for providing a user-friendly hearing aid at a low cost.

  Some people with hearing loss don't want people to notice that their ears are bad, and these people have a desire to make hearing aids inconspicuous. In response to the demands of these people, small hearing aids that can fit entirely in the ear canal are being sold.

Such small hearing aids are prone to howling because the speaker and microphone are in the same housing and are very close, and the ear canal is blocked and the inside of the ear canal gets muddy, which may cause otitis externa when worn for a long time. is there.
In addition, the hearing aid is tightly packed with amplifying circuits and adjustment circuits in a small housing, and inevitably uses a small battery, so the battery is bad and the battery must be replaced frequently. Is very expensive. Furthermore, since the hearing aid has a small body and a battery, it is difficult to replace the battery, and the burden on elderly people is particularly large when the battery must be replaced frequently.

  In general, it is preferable for hearing aids to adjust the frequency spectrum of the audio output signal in accordance with the user's deafness. However, the deafness of individual users varies widely and is provided in standard specifications. If a hearing aid that does not match the user's symptoms and needs some adjustment, it is necessary to request the manufacturer or dealer to adjust the hearing aid. Hearing aids tailored to the individual's deafness in this way usually cost hundreds of thousands of yen per unit. Therefore, those who hesitate to purchase the hearing aid or buy a single hearing aid. There are quite a lot to do.

Patent Document 1 discloses an ear-hook type hearing aid using a bone conduction speaker. The ear-mounted hearing aid does not meet the desire to make the hearing aid inconspicuous, but since the output from the bone conduction speaker does not reach the microphone via the air, there is no expensive howling prevention circuit. However, howling can be prevented, and sound can be heard correctly by bone conduction just by placing it in the ear hole, so that the inside of the ear canal is not muggy.
Patent Documents 2 and 3 disclose headphones using bone conduction speakers.

JP 2010-192975 A JP 2007-158924 A JP 2011-130334 A

  The ear-mounted hearing aid of Patent Document 1 is effective in solving the problem that it is easy to cause howling and the problem that the external auditory canal may cause otitis externa, but the problem is that the running cost is high. In addition, it cannot cope with the problem that the hearing aid becomes expensive when it must be adjusted according to the symptoms of hearing loss of each individual user.

  The present invention has been made in consideration of the above-described conventional problems, and is intended to provide a conduction-type hearing aid that is less likely to cause howling, does not stuffy inside the ear canal, and has a low running cost. Furthermore, the present invention provides a conduction type hearing aid that does not become expensive even if it must be adjusted to the hearing loss symptoms of the individual user.

  The conduction type hearing aid according to the present invention includes a conduction type transducer that transmits sound by contacting a human body epidermis and vibrating body tissue from the contact portion, a communication function, and application software (hereinafter referred to as “app”). And a portable hearing aid app downloaded to the portable device, and the portable device has a built-in voice input device that picks up surrounding sound and converts it into a voice signal. Or correction pattern data reflecting characteristics peculiar to the conduction type transducer is stored in advance, and the conduction type hearing aid application is connected to the portable device with a gain for each frequency band. Is set based on the correction pattern data, and an audio signal picked up by the audio input device is amplified and output to the conductive vibrator.

  Further, in the conduction type hearing aid, the portable device further stores in advance hearing loss pattern data reflecting characteristics specific to the user, and the conduction type hearing aid application is stored in the portable device according to frequency band. Preferably, a gain is set based on the correction pattern data and the deafness pattern data, and the audio signal is amplified and output to the conduction type transducer.

  In addition, it is preferable that the conduction type hearing aid application further causes the portable device to adjust the hearing loss pattern data in accordance with an input from the user.

  Further, in the conduction type hearing aid, the conduction type vibrator includes a right conduction type vibrator to be brought into contact with a right half epidermis of a human head and a left conduction type vibration to be brought into contact with a left half epidermis of a human head. The deafness pattern data stored in the portable device includes a deafness pattern data for the right and a deafness pattern data for the left, and the conduction hearing aid application transmits the frequency to the portable device. A band-specific gain is set based on the correction pattern data and the right deafness pattern data, and the audio signal is amplified and output to the right conductive transducer, and the frequency-specific gain is set. Is set based on the correction pattern data and the left hearing loss pattern data, and the audio signal is preferably amplified and output to the left conductive transducer.

  Further, in the conduction type hearing aid, the conduction type hearing aid application sets a gain for each frequency band in the portable device in the same manner as in the case of the voice signal picked up by the voice input device, and uses the communication function. It is preferable to amplify the received audio signal and output it to the conductive vibrator.

  In the conductive hearing aid, it is preferable that the conductive vibrator and the portable device are wirelessly connected, and the conductive vibrator is driven by a rechargeable battery.

  The conduction type hearing aid application according to the present invention is a conduction type hearing aid application executed in a portable device having a communication function and a function of executing the application, and the portable device is brought into contact with the epidermis of a human body. Correction pattern data reflecting characteristics specific to a conduction vibrator that transmits sound by vibrating body tissue from the contact portion is stored in advance, and the conduction hearing aid application is built in the portable device. Alternatively, an input step for receiving an audio signal input from an audio input device connected to the portable device, and a gain for each frequency band are set based on the correction pattern data, and input from the audio input device The portable device executes an amplification step of amplifying the received audio signal and an output step of outputting the amplified audio signal to the conductive vibrator And wherein the door.

  Further, in the conduction type hearing aid application, the portable device further stores deafness pattern data reflecting characteristics specific to the user, and the amplification step includes a gain for each frequency band and the correction pattern data. And setting based on the deafness pattern data, and amplifying the audio signal.

  Moreover, it is preferable that the conduction type hearing aid application further causes the portable device to perform an adjustment step of adjusting the deafness pattern data according to an input from the user.

  In the conduction type hearing aid application, the conduction type transducer includes a right conduction type transducer to be brought into contact with the right half of the human head and a left conduction type to be brought into contact with the left half of the human head. The deafness pattern data stored in the portable device includes a deafness pattern data for the right and a deafness pattern data for the left, and the amplification step includes a gain for each frequency band, Set based on the correction pattern data and the right hearing loss pattern data, amplify the audio signal, and gain for each frequency band based on the correction pattern data and the left hearing loss pattern data And amplifying the audio signal, and the output step amplifies the audio signal using the correction pattern data and the right hearing loss pattern data. And outputs to the right for conduction transducer, the correction pattern data, and may output the audio signal amplified with the hearing loss pattern data for the left to the left for conduction transducer.

  The hearing aid of the present invention is a conduction type hearing aid that uses a conduction type transducer as an output, and uses a general-purpose portable device such as a smart phone having a communication function and a function of executing the application, thereby conducting a conduction type hearing aid application. Thus, the gain for each frequency band is set based on correction pattern data reflecting characteristics specific to the conduction type transducer, and the audio signal picked up by the voice input device attached to the portable device is amplified. Output from.

  In the hearing aid of the present invention, the conduction type transducer is not in the same housing as the voice input device, and the output from the conduction type transducer does not enter the voice input device via air, so that howling is extremely difficult to occur. In addition, since there is no need to block the ear canal, the inside of the ear canal is not muggy.

  In the hearing aid of the present invention, since the hearing aid can be configured with only a general-purpose device without using hardware dedicated to the hearing aid, the device already owned by the user can be effectively utilized, or by a mass production effect, etc. By purchasing a cheaper device, a hearing aid can be configured at low cost.

  In the hearing aid of the present invention, since amplification and adjustment are performed by a general-purpose portable device, a general-purpose output device such as a bone conduction headphone can be used as a conduction type transducer. I can't tell if I'm listening, and it's hard to notice that my ears are bad.

  For example, when a conduction type vibrator is connected to a portable device by wire, the battery on the portable device side can be used as a power source, so a battery for the conduction type vibrator is not particularly required, so the running cost is reduced. be able to. On the other hand, even when the conductive vibrator is wirelessly connected to a portable device, a general-purpose output device with a built-in rechargeable battery can be used, so that the running cost can be reduced.

  The conduction hearing aid application can further set the gain for each frequency band based on the correction pattern data and the deafness pattern data reflecting the user's deafness, amplify the audio signal, and output it to the conductive vibrator. Therefore, the gain for each frequency band of the audio output signal can be adjusted in accordance with the symptoms of hearing loss of individual users.

  Further, the conduction type hearing aid application can allow the user to adjust the hearing loss pattern data, so that a hearing aid adjusted according to the deafness of each individual user can be provided at low cost.

It is a figure which shows the outline | summary of the conduction type hearing aid concerning Embodiment 1. FIG. It is a graph which shows the output characteristic with respect to the output frequency of a bone conduction headphones. It is a flowchart which shows the procedure of the process which the application for conduction type hearing aids performs on a portable device. It is a figure which shows the outline | summary of the conduction type hearing aid concerning Embodiment 2. FIG. It is a flowchart which shows the procedure of the process which the app for hearing loss pattern adjustment makes a portable device perform.

<Embodiment 1>
Hereinafter, the present invention will be described in detail based on the embodiments shown in the drawings.
<Configuration>
A conduction type hearing aid 1 according to Embodiment 1 shown in FIG. 1 includes a bone conduction headphone 10, a portable device 20, and a conduction type hearing aid application 30. Note that the conduction type hearing aid application 30 is software, so it does not exist, but is virtually indicated by a broken line in FIG.

  The bone conduction headphones 10 are equipped with a conductive vibrator 11 that transmits sound by contacting the epidermis above the neck of a human body and vibrating the body tissue from the contact portion. The conduction type transducer 11 should be in contact with the right conduction type transducer 11R to be brought into contact with the epidermis of the right half of the head above the neck of the human body and the epidermis of the left half of the head above the neck of the human body. The left conductive vibrator 11L.

  For example, the bone conduction headphone 10 is sold by the inventor mainly for music (see Patent Document 2 and Patent Document 3), and the right-hand conduction vibrator 11R is 1 to 2 cm in the right ear hole. By contacting the left conduction type transducer 11L with the front epidermis 1 to 2 cm ahead of the hole of the left ear, the sound vibration can be directly applied to the user's skull and transmitted. 3). Here, the bone conduction headphones 10 are connected to the portable device 20 by wire, but may be connected to the portable device 20 wirelessly such as Bluetooth (registered trademark) (Bluetooth). Note that a rechargeable battery is preferably used as the power source for wireless reception.

  A conduction-type vibrator is intended to let the user hear sound by touching the human epidermis and vibrating the body tissue from the contact part, especially where it is the part above the neck of the human body. Even if it makes it, it can fully hear a user. For example, a conductive vibrator can be brought into contact with one place such as the back of the head and the user can hear the sound as if listening from both ears.

  The portable device 20 is a general-purpose portable device such as a smartphone having a communication function and a function for executing an application. The portable device 20 has a built-in voice input device 21 that picks up surrounding sounds such as a microphone and converts it into a voice signal, and further includes a display device 22 such as a flat display, and an input device 23 such as a touch panel and input buttons. Including. The voice input device 21 may be an external microphone connected to the voice input terminal 24.

In the memory 25 in the portable device 20, correction pattern data 31 reflecting characteristics specific to the conduction type vibrator 11 is stored in advance. Since the correction pattern data 31 is data, there is no substance, but it is virtually indicated by a broken line in FIG.
Since the conduction type vibrator 11 has different output characteristics compared to a general audio vibrator, when the conduction type vibrator is used for the portable device 20 which is a general-purpose device, adjustment is made for the conduction type vibrator. It is desirable.

  FIG. 2 is a graph showing the sound pressure (SPL) output characteristics with respect to the frequency (Freq) of the bone conduction headphones when a flat input signal (here, 800 mV) is applied over the entire frequency range. A and B in FIG. 2 respectively show the left and right characteristics of the product name “Audiobone Aqua \ AUDIOBOONEAQUA (registered trademark)” sold by the present inventor. C and D in FIG. 2 respectively indicate the left and right characteristics of the product name “AUDIOBONE \ Audiobone (registered trademark)” sold by the present inventor.

  Based on the data in FIG. 2, the correction pattern data 31 is created so that an output signal faithful to the input signal can be obtained by increasing the gain in the frequency band where the output is low and conversely suppressing the gain in the frequency band where the output is high. Then, it is stored in advance in a memory in the mobile device 20. As shown in FIG. 2, since the output characteristics of the bone conduction headphones are different for each model, the correction pattern data 31 is created and stored for each model of the bone conduction headphones, and the portable device 20 is manually or automatically modeled. It is preferable to provide a setting function. Further, in the correction pattern data 31, in order to make it easier to hear a human voice, the gain of the frequency band of a general human voice region can be set higher than the gain of the frequency band of other regions.

  The conduction type hearing aid application 30 is downloaded to the mobile device 20, and the gain for each frequency band is set in the mobile device 20 based on the correction pattern data 31 to amplify the audio signal picked up by the audio input device 21. And output to the conduction type vibrator 11.

<Operation>
FIG. 3 is a flowchart illustrating a procedure of processing that the conduction hearing aid application 30 causes the mobile device 20 to execute.
(1) Receive an input of an audio signal from the audio input device 21 (input step).
(2) A gain for each frequency band is set based on the correction pattern data 31, and an audio signal received from the audio input device 21 is amplified (amplification step).
(3) The amplified audio signal is output to the conduction vibrator 11 (output step).

According to the conduction type hearing aid 1 according to the first embodiment, the bone conduction speaker and the voice input device are separated and separated from each other, and the output from the bone conduction speaker does not enter the microphone via the air. Therefore, it is very difficult to cause howling, and it is not necessary to block the ear canal, so the inside of the ear canal is not muggy.
Furthermore, according to the conduction type hearing aid 1, since a hearing aid can be configured only by a general-purpose device without using hardware dedicated to the hearing aid, the hearing aid can be inexpensively used by effectively utilizing already owned devices. It is possible to obtain.

<Embodiment 2>
<Configuration>
A conduction type hearing aid 2 according to Embodiment 2 shown in FIG. 4 includes a bone conduction headphone 10, a portable device 20, and a conduction type hearing aid application 40. Note that the conduction type hearing aid application 40 is software, so there is no substance, but it is virtually indicated by a broken line in FIG.
The conduction type hearing aid 2 according to the second embodiment is obtained by replacing the conduction type hearing aid application 30 included in the conduction type hearing aid 1 according to the first embodiment with a conduction type hearing aid application 40.

  Since each user has various symptoms of deafness, the audio signal picked up by the audio input device 21 is not only adjusted for the conduction type transducer 11 using the correction pattern data 31 but also the user. It is desirable to make adjustments according to the specific symptoms of hearing loss.

The memory 25 in the portable device 20 stores the correction pattern data 31 in advance as in the first embodiment, and further stores in advance the deafness pattern data 41 reflecting the deafness symptoms specific to the user.
The deafness pattern data 41 represents a gain for each frequency band when adjusting according to the deafness symptoms specific to each user, and is equivalent to that used in a conventional hearing aid. is there.

  When the symptoms of the user's deafness are different between the right ear and the left ear, the deafness pattern data 41 is divided into right deafness pattern data 41R and left deafness pattern data 41L. The right deafness pattern data 41R and the left deafness pattern data 41L are both data and are not substantial, but are virtually indicated by broken lines in FIG.

  In addition, as the deafness pattern data 41 to be stored, some representative pattern data can be prepared so that the user can arbitrarily select which pattern data to use. Also, an app for adjusting the hearing loss pattern data can be incorporated so that the user can change the previously prepared hearing loss pattern data, adjust it for himself and use it repeatedly. Further, in order to make it easier to hear a specific person's voice, the gain of the frequency band of the specific person's utterance region can be set higher than the gain of the frequency band of the other region.

  The conduction type hearing aid application 40 has been downloaded to the mobile device 20, and the gain for each frequency band is set in the mobile device 20 based on the correction pattern data 31 and the hearing loss pattern data 41. The voice signal is amplified and output to the conduction vibrator 11.

  When the symptoms of the user's deafness are different between the right ear and the left ear, the conduction hearing aid application 40 sets the gain for each frequency band, the correction pattern data 31, and the right hearing loss for the mobile device 20. Based on the pattern data 41R, the audio signal is amplified and output to the right conductive vibrator 11R, and the gain for each frequency band is set based on the correction pattern data 31 and the left deafness pattern data 41L. The sound signal is set, amplified, and output to the left conductive vibrator 11L.

  When conducting a conversation using the communication function, the conduction hearing aid application 40 sets the gain for each frequency band in the portable device 20 in the same manner as in the case of the audio signal picked up by the audio input device, and performs communication. It is preferable to amplify an audio signal received using the function and output it to the conductive vibrator 11.

The procedure of the process performed by the conduction type hearing aid application 40 on the portable device 20 is the same as that of the conduction type hearing aid application 30 shown in FIG. 3 of the first embodiment.
According to the conduction type hearing aid 2 according to the second embodiment, it is possible to amplify the voice output signal in accordance with the deafness symptoms of individual users.

<Embodiment 3>
<Configuration>
The conduction type hearing aid 3 (not shown) according to the third embodiment is obtained by replacing the conduction type hearing aid application 40 included in the conduction type hearing aid 2 according to the second embodiment with a conduction type hearing aid application 50 (not shown). It is. In addition, since the outline | summary of the conduction type hearing aid 3 is the same as that of the conduction type hearing aid 2 which concerns on Embodiment 2, a figure is abbreviate | omitted.

The conduction type hearing aid application 50 is obtained by further incorporating a hearing loss pattern data adjustment application 51 (not shown) into the conduction type hearing aid application 40.
The deafness pattern data adjustment application 51 causes the portable device 20 to adjust the deafness pattern data 41 stored in the memory 25 in the portable device 20 in accordance with the input from the user.

<Operation>
FIG. 5 is a flowchart showing a procedure of adjustment processing that the mobile device 20 causes the hearing loss pattern data adjustment application 51 to execute.
(1) When the user selects “Hearing loss pattern adjustment” from the menu displayed on the display device 22, the display device 22 presents the choice of the deafness pattern data as a basis for the adjustment, and the user makes a selection input. Wait (selection step).

  (2) When one of the deafness pattern data is selected by the user using the input device 23, the conduction type hearing aid is activated using the selected deafness pattern data, and the selected deafness pattern data is displayed on the display device 22. A bar graph representing the gain of each frequency band is displayed (graph display step).

  (3) The user adjusts the length of each bar graph for each frequency band displayed on the display device 22 by moving the cursor on the screen using the input device 23 (adjustment step). Here, since the gain of the conduction type hearing aid fluctuates in conjunction with the adjustment, the user can adjust while experiencing the change. More specifically, if you change the length of the bar graph of the frequency band where there is a user, at the volume corresponding to the changed gain, the voice of the person at the frequency of the center of the frequency band, or the like (for example, "Hello") is output The The user can adjust the deafness pattern data over the entire frequency range by searching for and setting the place where the voice that has been heard is most easily heard by frequency band.

  (4) When the adjustment is completed, the adjusted deafness pattern data is newly saved with a new name, or the deafness pattern data selected in (1) is overwritten (save step).

  According to the conduction type hearing aid 3 according to the third embodiment, the user can adjust the hearing loss pattern data, so that the hearing aid adjusted according to the deafness symptoms can be provided at low cost.

DESCRIPTION OF SYMBOLS 1 Conductive hearing aid 2 Conductive hearing aid 10 Bone conduction headphone 11 Conductive transducer 11R Conductive transducer for right 11L Conductive transducer for left 20 Mobile device 21 Audio input device 22 Display device 23 Input device 24 Audio input terminal 25 Memory 30 Conduction type hearing aid application 31 Correction pattern data 40 Conduction type hearing aid application 41 Deafness pattern data 41R Deafness pattern data for right 41L Deafness pattern data for left

Claims (8)

A conduction type hearing aid,
A conductive vibrator that transmits sound by contacting the human epidermis without occluding the ear canal and vibrating the body tissue from the contact portion;
A portable device having a communication function and a function of executing application software (hereinafter referred to as “application”);
A conduction type hearing aid application downloaded to the portable device,
The portable device incorporates or is connected to an audio input device that picks up surrounding audio and converts it into an audio signal, and reflects characteristics peculiar to the conduction type transducer, covering the entire frequency range. Based on the sound pressure output characteristics data for the frequency when a flat input signal is given, the gain is increased in the low frequency band and the gain is suppressed in the high frequency band, so that the output is faithful to the input signal. Correction pattern data for obtaining a signal is stored in advance,
Further, the portable device stores in advance deafness pattern data reflecting characteristics specific to the user,
The conduction hearing aid app, the portable device, the frequency band different gain the correction pattern data, and sets, based on the hearing loss pattern data, amplifies the audio signal the audio input device is picked up, A conduction type hearing aid that outputs to the conduction type transducer. The conduction type hearing aid app further includes:
The conduction type hearing aid according to claim 1 , wherein the portable device adjusts the deafness pattern data according to an input from the user. The conductive vibrator is
It consists of a conduction transducer for the right to be brought into contact with the epidermis of the right half of the human head and a conduction transducer for the left to be brought into contact with the epidermis of the left half of the human head,
The deafness pattern data stored in the portable device includes a deafness pattern data for the right and a deafness pattern data for the left.
The conduction type hearing aid app is:
To the portable device, a different gain the frequency band, the correction pattern data, and sets on the basis of the hearing loss pattern data for the right, to amplify the audio signal, and outputs to the right for conduction transducer with, a different gain the frequency band, the correction pattern data, and sets on the basis of the hearing loss pattern data for the left and to amplify the audio signal, according to claim 1 is outputted to the left for conduction vibrator or 2 Conductive hearing aids as described in 1. The conduction type hearing aid app is:
Wherein the portable device, different gain the frequency band, the set as in the case of audio input speech signal the device is picked up, by amplifying the audio signal received using the communication function, the conductive vibrating The conduction type hearing aid according to any one of claims 1 to 3 , wherein the conduction type hearing aid is output to a child. The conductive vibrator and the portable device are wirelessly connected,
The conduction type hearing aid according to any one of claims 1 to 4 , wherein the conduction type vibrator is driven by a rechargeable battery. An application for a conduction type hearing aid that is executed in a portable device having a communication function and a function of executing application software (hereinafter referred to as “app”),
The portable device reflects the characteristic characteristic of a conduction type transducer that transmits sound by contacting the human epidermis and vibrating the body tissue from the contact portion , and provides a flat input signal over the entire frequency range. Based on the sound pressure output characteristic data with respect to the frequency when applied, an output signal faithful to the input signal can be obtained by increasing the gain in a low frequency band and suppressing the gain in a high frequency band Correction pattern data is stored in advance,
The conduction type hearing aid app is incorporated in the portable device, or an input step of receiving an audio signal input from an audio input device connected to the portable device;
An amplification step for setting a gain for each frequency band based on the correction pattern data and amplifying an audio signal received from the audio input device;
An output step of outputting the amplified audio signal to the conduction-type vibrator , and causing the portable device to execute ,
Further, the portable device stores in advance deafness pattern data reflecting characteristics specific to the user,
The conductive hearing aid application , wherein the amplification step sets the gain for each frequency band based on the correction pattern data and the deafness pattern data, and amplifies the audio signal . The conduction type hearing aid app further includes:
The conduction type hearing aid application according to claim 6 , wherein the portable device performs an adjustment step of adjusting the deafness pattern data according to an input from the user. The conductive vibrator is composed of a right conductive vibrator to be brought into contact with the right half of the human head and a left conductive vibrator to be brought into contact with the left half of the human head,
The deafness pattern data stored in the portable device includes a deafness pattern data for the right and a deafness pattern data for the left.
Said amplification step, a different gain the frequency band, the correction pattern data, and sets on the basis of the hearing loss pattern data for the right, amplifies the audio signal, another gain the frequency band, the Set based on correction pattern data and the left hearing loss pattern data, amplify the audio signal,
The output step outputs an audio signal amplified using the correction pattern data and the right hearing loss pattern data to the right conduction type transducer, and the correction pattern data and the left hearing loss. The application for conduction type hearing aids according to claim 6 or 7 , wherein an audio signal amplified using pattern data is output to the left conduction type transducer.