CN113349764B - Tinnitus detection and sound treatment equipment - Google Patents

Abstract

The tinnitus detection and sound treatment equipment is mobile equipment with small volume, and a user can finish the tinnitus sound detection and treatment process at home without going to a hospital; this patent technical scheme is interactive with the user through detecting control module control response module, play tinnitus detection sound through audio output module, adjust the broadcast parameter based on the user responds to the answer, obtain final tinnitus sound parameter for diagnosis, accomplish tinnitus testing process, obtain accurate tinnitus sound parameter for the diagnosis of every patient's ear sound, based on tinnitus sound parameter for the diagnosis, generate the tinnitus treatment sound that matches with the patient, it is targeted treatment sound to have guaranteed that tinnitus treatment sound, and then guaranteed treatment.

Description

Tinnitus detection and sound treatment equipment

Technical Field

The invention relates to the technical field of hearing devices, in particular to tinnitus detection and sound treatment equipment.

Background

Tinnitus refers to the subjective perception of the sound produced in the ear or head without any external sound source or electrical stimulation, and is often described as a hissing, buzzing, or peaky ring. Tinnitus is a common disorder of the auditory system that severely compromises a person's health and quality of life. The prior art treatment of tinnitus usually plays a role in alleviating or inhibiting tinnitus of a patient by playing audio.

The existing tinnitus detection rehabilitation equipment is mainly divided into two types:

1) One is a professional medical device mainly used in hospitals, and subsequent treatment measures are carried out after the detection of the tone and loudness of tinnitus; the rehabilitation treatment based on the equipment needs to be carried out in a hospital, and a patient needs to go to the hospital to receive treatment each time, so that the treatment is very inconvenient, and the treatment interruption is easy to happen;

2) The other type is a movable and portable tinnitus instrument, but most of the products in the market at present do not have the detection function, and usually need to be selected by depending on detection results provided by other institutions such as hospitals and the like; in this case, the detection and treatment processes are artificially separated, because no universal detection standard exists at present, the calibration of parameters such as the detected frequency and loudness is possibly inconsistent, and no calculation and correspondence relationship is established between the parameters, so that the treatment sound is selected incorrectly; or the detection device of the mechanism is not matched with the treatment device of the patient, the tinnitus detection result is only used for selecting the treatment sound frequency, and the treatment sound is not processed completely, so that the patient is likely to not receive proper sound treatment correctly, and the treatment effect on the tinnitus is further influenced.

Disclosure of Invention

In order to solve the problem that tinnitus treatment equipment used in hospitals in the prior art is inconvenient to use or the problem that treatment effect is poor due to mismatching of detection and treatment of movable equipment, the invention provides tinnitus detection and acoustic treatment equipment which is portable tinnitus treatment equipment, can accurately detect all ear sound diagnosis parameters required by tinnitus diagnosis of each patient, can automatically generate tinnitus treatment sound matched with the tinnitus sound diagnosis parameters, and can carry out accurate rehabilitation treatment on each patient.

The technical scheme of the invention is as follows: a tinnitus detection and sonication device comprising: data storage module, audio output module, its characterized in that, it still includes: the device comprises a control module, a display module, a response module and an input module;

the response module is used for interacting with a user based on the display module and the input module; the response module sends a detection command and equipment use interactive information to a user based on the display module, and receives a response reply of the user and an equipment operation instruction sent by the user based on the input module; the response module transmits the received information to the control module, receives the instruction of the control module, and sends corresponding information to a user to complete the tinnitus sound detection process and the therapeutic sound playing process;

the display module receives information sent by the response module, the input module and the control module; the detection command sent to the user by the response module and the equipment use interactive information are displayed to the user based on the information sent by the response module; displaying user input information to a user for confirmation based on the input of the input device; displaying parameter information and state information in the playing process of the therapeutic sound to a user based on the information sent by the control module;

the audio output module reads an audio file from the data storage module according to the instruction of the control module, and plays the audio file based on different playing parameters; the audio file includes: tinnitus detection sound and tinnitus treatment sound; the playing parameters comprise: tone, loudness, bandwidth;

the control module comprises a detection control module, a therapeutic sound generation control module and a therapeutic control module;

in the process of playing the therapeutic sound, the detection control module sends the tinnitus detection sound information to be played to the audio output module for playing, receives the response reply sent back by the response module and input by the user, and adjusts the playing parameters based on the response reply to obtain the final tinnitus diagnosis parameters; the parameters for diagnosing the otoacoustic sounding include: tone, loudness and frequency bandwidth of tinnitus treatment sound;

the therapeutic sound generation control module controls a tinnitus therapeutic sound generation process, calls therapeutic sound frequency according to the tinnitus sound diagnosis parameters, and generates tinnitus therapeutic sound based on a built-in therapeutic sound generation algorithm;

in the process of playing the therapeutic sound, the therapeutic control module sends the information of the tinnitus therapeutic sound to the audio output module, and the information is played according to the tone in the parameter for ear sound diagnosis; and in the playing process, the parameter information and the state information in the process are sent to the display module for displaying.

It is further characterized in that:

the control module is realized on the basis of a single chip microcomputer or a single board computer with a calculation function, the display module is realized on the basis of an LCD display module, and the input module is realized on the basis of physical keys; the audio output module comprises an audio decoding module and an audio playing module;

the display module interacts with a user based on the text information;

in the tinnitus sound detection process, the process of the response module interacting with the user comprises the following steps:

a1: prompting the patient to select the side of the ear to be detected;

the ear side includes: left ear, right ear, and ears;

a2: calling corresponding ear side detection sound stored by the data storage module according to the ear side to be detected for playing;

a3: playing the ear side detection sound;

a4: the playing process prompts a user to adjust the playing parameters according to individual feeling until the user thinks that the ear side detection sound is the same as or similar to the actual ear sound of the user; the playing parameter at this moment is the parameter for diagnosing the tinnitus sound;

the tinnitus treatment sound generation process comprises the following steps:

b1: the therapeutic sound generation control module reads basic audio data to be adjusted from the data storage module;

b2: reading the parameters for ear sound diagnosis, and finding out frequency band data to be adjusted in the basic audio data;

the audio frequency and the frequency bandwidth of the frequency band data to be adjusted are respectively in the range of the audio frequency and the frequency bandwidth in the parameters for ear sound diagnosis;

b3: adjusting the loudness of the frequency range data to be adjusted according to the loudness in the ear sound diagnosis parameter to ensure that the loudness of the frequency range data to be adjusted can shield ear sound;

after the basic audio data are adjusted, the tinnitus treatment sound is obtained;

b4: the control module stores the tinnitus therapy sound into the data storage module;

in the tinnitus treatment sound generating and the tinnitus treatment sound playing processes, the process of the response module interacting with the user comprises the following steps:

prompting a user to select a basic audio in the tinnitus treatment sound generation process;

prompting a user to set a playing time course in the playing process of the treatment sound;

the control module stores the tinnitus sound diagnosis parameter and the tinnitus treatment sound in the data storage module according to different user IDs;

the control module further supports user selection of different audio data, the tinnitus treatment sound being generated based on the tinnitus sound diagnosis parameter;

the data storage module also comprises a preset audio database, and the audio database stores a multi-channel background audio database and ear side audio databases preset according to left ear, right ear and double ears; the audio data stored in the audio database includes: white noise, narrow band noise, natural noise, music noise; the audio data stored in the audio database can be used as the basic audio.

The tinnitus sound detection and treatment equipment is mobile equipment with small volume, and a user can finish the tinnitus sound detection and treatment process at home without going to a hospital; this patent technical scheme is interactive with the user through detecting control module control response module, play tinnitus detection sound through audio output module, adjust the broadcast parameter based on the user responds to the answer, obtain final tinnitus sound parameter for diagnosis, accomplish tinnitus testing process, obtain accurate tinnitus sound parameter for the diagnosis of every patient's ear sound, based on tinnitus sound parameter for the diagnosis, generate the tinnitus treatment sound that matches with the patient, it is targeted treatment sound to have guaranteed that tinnitus treatment sound, and then guaranteed treatment.

Drawings

FIG. 1 is a schematic diagram of the software module structure of the tinnitus detecting and sound treatment device of the present patent;

FIG. 2 is a schematic diagram of the hardware structure of the tinnitus detection and sound treatment device of the present patent;

FIG. 3 is a schematic flow chart of the process of using the apparatus of this patent.

Detailed Description

As shown in fig. 1, the present invention is a tinnitus detection and sound treatment device comprising: the device comprises an audio output module 1, a data storage module 2, a control module 3, a display module 4, a response module 5 and an input module 6; the control module 3 and the response module 5 are deployed on a single chip microcomputer or a single board computer with a computing function, the display module 4 is realized based on the LCD display module 4, and the input module 6 is realized based on physical keys; the audio output module 1 includes an audio decoding module 11 and an audio playing module 12.

In specific implementation, as shown in fig. 2, the display module 4 is implemented based on a 12864-dot-matrix LCD, and interacts with the user through text information, so that the user is ensured not to receive wrong information due to disturbance of ear ring sound based on a text interaction mode, and the accuracy of interaction with the user is ensured. The input module 6 is realized based on the existing micro-motion type physical key, and in the patent, the tinnitus side can be selected through the input module; the tone, loudness and bandwidth of the tinnitus detection sound can be adjusted; the song and the volume of the tinnitus treatment sound can be adjusted; the playing time interval can be adjusted.

The data storage module 2 is realized based on an external memory with nonvolatile characteristics, and the control module 3 stores the tinnitus sound diagnosis parameters and the tinnitus treatment sound in the data storage module 2 according to different user IDs; namely, the user can permanently store the tinnitus sound diagnosis parameters as the tinnitus detection result through the data storage module 2, and the tinnitus detection does not need to be repeatedly carried out when the tinnitus symptom does not change; the tinnitus treatment sound generated according to the tinnitus sound diagnosis parameters stored in the data storage module 2 does not need to be repeatedly generated when the tinnitus detection result is not changed; the tinnitus treatment time, including each playing time interval and the accumulated playing time interval, is also stored in the data storage module 2, and the control module 5 can be called and displayed for the user when needed.

The audio output module 1 is configured to be an audio decoding module 11 capable of converting a digital signal into an analog signal and an audio playing module 12 capable of converting the analog signal into sound, the audio decoding module 11 is implemented based on an existing audio chip, the audio playing module 12 is implemented based on an earphone, and the two are in communication connection; the control module 3 and the response module 5 are disposed on the single board computer 8, and the single board computer 8 integrates functions of a central processing unit CPU, a random access memory RAM, a read only memory ROM, various I/O ports, an interrupt system, a timer/counter and the like, and is responsible for processing resource regulation and control of the whole device and a core calculation process.

In the technical scheme of the patent, the control module 3, the data storage module 2 and the audio decoding module 11 are packaged inside the casing 7, and the LCD screen of the display module 4 and the physical keys of the display module 4 are installed on the casing 7, so that a user can operate and use the LCD screen and the physical keys; the housing 7 is provided with an interface for connecting the audio decoding module 11 and the audio playing module 12 through electrical or communication. The whole equipment is realized by hardware with small volume, such as a display module 4 realized by an LCD based on 12864 dot matrix and an input module 6 realized by physical keys based on micro-motion, so that the whole equipment is ensured to have small volume and convenient movement, and is convenient for a user to use under various scenes.

The display module 4 receives the information sent by the response module 5, the input module 6 and the control module 3; the detection command sent by the response module 5 to the user and the equipment use interactive information are displayed to the user based on the information sent by the response module 5; displaying user input information to a user for confirmation based on input from the input device; the parameter information and the state information in the treatment process are displayed to the user based on the information sent by the control module 3.

The audio output module 1 reads the audio file from the data storage module 2 according to the instruction of the control module 3, and plays the audio file based on different playing parameters; the audio file includes: tinnitus detection sound and tinnitus treatment sound; the playing parameters include: tone, loudness, bandwidth.

The control module 3 comprises a detection control module 31, a therapeutic sound generation control module 32 and a therapeutic control module 33.

In the process of playing the therapeutic sound, the detection control module 31 sends tinnitus detection sound information to be played to the audio output module 1 for playing, receives a response reply sent back by the response module 5 and input by a user, and adjusts the playing parameters based on the response reply to obtain final parameters for tinnitus sound diagnosis; the parameters for diagnosing ear ring sound include: tone, loudness, frequency bandwidth of tinnitus treatment sound.

The response module 5 interacts with the user based on the display module 4 and the input module 6; the response module 5 sends a detection command and equipment use interactive information to a user based on the display module 4, and receives a response reply of the user and an equipment operation instruction sent by the user based on the input module 6; the response module 5 transmits the received information to the control module 3, receives the instruction of the control module 3, and sends the corresponding information to the user to complete the tinnitus sound detection process and the therapeutic sound playing process.

In the tinnitus sound detection process, the process of the response module 5 interacting with the user comprises the following steps:

a1: prompting the patient to select the side of the ear to be detected;

the ear side respectively includes: left ear, right ear, and ears;

the user can select the left ear or the right ear or both ears respectively to detect the both ears simultaneously; the method ensures that users of both monaural tinnitus and binaural tinnitus can carry out detection suitable for the users, and further ensures that subsequently generated tinnitus treatment sound has individual pertinence;

a2: calling corresponding ear side detection sound stored in the data storage module 2 according to the ear side to be detected to play;

a3: playing ear side detection sound;

a4: the playing process prompts a user to adjust playing parameters according to individual feelings, and the playing parameters comprise: tone, loudness, bandwidth; the detection control module 31 interacts with a user through the response module 5, the display module 4 and the input module 6 to adjust the playing parameters;

until the user thinks that the ear side detection sound is the same as or similar to the actual ear sound of the user; the playback parameter at this time is a parameter for diagnosing the ear sound.

In the tinnitus sound detection process, the response module 5 interacts with the user to ensure that the obtained tinnitus sound diagnosis parameters are the unique diagnosis parameters of the user, and further ensure that the subsequent tinnitus treatment sound can provide personalized treatment for the patient.

When the device disclosed by the patent is used for the first time, an ear sounding detection process must be performed firstly; if the treatment sound is not used for the first time, whether the ear sound detection process is carried out or not can be selected, and the treatment process can also be carried out in the subsequent treatment sound playing process directly. The operation process of a long-term user is simplified through different set processes; meanwhile, the method also supports the long-term user to regularly update the parameters for tinnitus diagnosis, and ensures that the tinnitus treatment sound is suitable for the latest condition of the user; the technical scheme of the patent is ensured to have higher practicability.

In the process of generating and playing the tinnitus treatment sound, the process of interacting the response module 5 with the user comprises the following steps:

prompting a user to select a base audio during the generation of the tinnitus treatment sound;

and prompting a user to set a playing time course in the playing process of the treatment sound.

The therapeutic sound generation control module 32 calls a therapeutic sound audio according to the tinnitus sound diagnosis parameter, and generates tinnitus therapeutic sound based on a built-in therapeutic sound generation algorithm;

according to the therapeutic sound algorithm, the therapeutic sound generation control module 32 automatically completes the tinnitus therapeutic sound generation process; the therapeutic sound generation control module 32 generates the tinnitus treatment sound based on the tinnitus sound diagnosis parameter, and the detailed procedure includes the steps of:

b1: the therapeutic sound generation control module 32 reads the basic audio data to be adjusted from the data storage module 2;

b2: the therapeutic sound generation control module 32 reads the parameters for ear sound diagnosis, and finds out frequency band data to be adjusted in the basic audio data;

the audio frequency and the frequency bandwidth of the frequency band data to be adjusted are respectively in the range of the audio frequency and the frequency bandwidth in the tinnitus sound diagnosis parameters;

b3: adjusting the loudness of the frequency range data to be adjusted according to the loudness in the tinnitus sound diagnosis parameter to ensure that the loudness of the frequency range data to be adjusted can shield the ear sound;

after the basic audio data are adjusted, the tinnitus treatment sound is obtained;

b4: the control module 3 stores the tinnitus treatment sound into the data storage module 2.

The therapeutic sound algorithm is pre-stored in the device, and the generating process of the tinnitus therapeutic sound is automatically carried out after the tinnitus sound detecting process is implemented. In step b1, the therapeutic sound generation control module 32 reads basic audio data to be adjusted from the data storage module 2, and the device finds out data of frequency bands to be adjusted which meet the conditions in an audio database stored in the data storage module 2 according to the parameters for tinnitus sound diagnosis, and sends the data to the display module 4 through the response module 5 to provide the data for the user to select; if the user does not select, the system uses the default option to select the corresponding frequency band data to be adjusted. Generating tinnitus treatment sound based on the tinnitus sound diagnosis parameters matched with the user, so that the tinnitus sound of the user can be effectively shielded; the user can select the tinnitus treatment sound that oneself likes, when guaranteeing treatment, can guarantee that the user possesses better use and experiences.

In the process of playing the therapeutic sound, the therapeutic control module 33 sends the information of the tinnitus therapeutic sound to the audio output module 1, and the information is played according to the tone in the tinnitus sound diagnosis parameter; in the playing process, the parameter information and the state information in the treatment process are sent to the display module 4 for display.

In the process of playing the therapeutic sound, a playing time interval needs to be set; the playing time course comprises the following steps: and (4) opening and closing. The playing time interval is switched by the physical keys of the input module 6. When the playing time interval is switched to on, the length of the playing time in the playing process of the therapeutic sound can be adjusted by physical keys. When the playing time interval is switched to off, the playing time interval is not limited. This patent technical scheme allows the user to set up the broadcast time of treatment sound, ensures that the user can treat the sound broadcast according to what predetermine the time, makes this patent technical scheme have more the practicality, further ensures that the user can obtain better curative effect.

The treatment control module 33 calls the tinnitus treatment sound stored in the data storage module 2 to play; switching the playing state of the tinnitus treatment sound through a physical key; the playing state comprises the following steps: playing and pausing; ensure that the user can better adjust the therapeutic sound according to the actual needs of the user.

When the tinnitus sound detection process is carried out by using the device, a user firstly starts the device and wears the earphones of the audio playing module 12, and selects the tinnitus detection function by using the input module 6 according to the prompt on the display module 4; the control module 3 receives the user input information returned by the response module 5, and dynamically adjusts and sends out the detection sound digital signal of the audio decoding module 11 and the prompt information on the display module 4; the audio decoding module 11 converts the detected sound digital signal into an analog signal and drives the audio playing module 12 to play. The user performs feedback using the input module 6 in combination with the detection sound of the play heard from the audio play module 12, the entire process of the tinnitus sound detection process is controlled by the detection control module 31 in the control module 3 until the tinnitus detection is completed, and the parameter for tinnitus sound diagnosis as the tinnitus detection result is stored in the data storage module 2.

After the ear sound detecting process is finished, when the user selects the tinnitus treating function, the therapeutic sound generating control module 32 reads the parameters for tinnitus sound diagnosis on the data storage module 2, and generates the targeted therapeutic sound digital signals matching the parameters for ear tinnitus sound diagnosis through the pre-processed therapeutic sound audio and the personalized adaptation algorithm, and stores the targeted therapeutic sound digital signals as the tinnitus therapeutic sound on the data storage module 2, or directly sends the tinnitus therapeutic sound to the therapy control module 33.

The therapeutic control module 33 sends the tinnitus therapeutic sound to the audio decoding module 11 to be converted into an analog signal, and the therapeutic sound is played through the audio playing module 12. The user can perform tinnitus treatment by listening to the treatment sound played in the earphone 12.

The data storage module 2 also comprises a preset audio database, and the audio database stores a multi-channel background audio database and ear-side audio databases preset according to left ear, right ear and double ears; the audio data stored in the audio database includes: white noise, narrow band noise, natural noise, musical sound. When tinnitus treatment sound is generated, the audio data stored in the audio database can be used as basic audio data which can be selected by a user as frequency band data to be adjusted to generate the tinnitus treatment sound, so that the withering feeling caused by masking the tinnitus by adopting noises such as white noise or narrow-band noise in the prior art is improved, the user experience of the user is improved, and the tinnitus treatment effect is further improved.

After the technical scheme of the invention is used, the user is firstly detected to obtain the parameters for tinnitus sound diagnosis, and then the personalized tinnitus treatment sound is generated, so that the problem of inaccurate tinnitus treatment sound caused by inconsistent detection frequency precision and loudness scaling is avoided, the accuracy and pertinence of the tinnitus treatment sound are ensured, and the treatment effect is further ensured.

Claims (6)

1. A tinnitus detection and sonication device comprising: data storage module, audio output module, its characterized in that, it still includes: the device comprises a control module, a display module, a response module and an input module;

the response module is used for interacting with a user based on the display module and the input module; the response module sends a detection command and equipment use interactive information to a user based on the display module, and receives a response reply of the user and an equipment operation instruction sent by the user based on the input module; the response module transmits the received information to the control module, receives the instruction of the control module, and sends corresponding information to a user to complete the tinnitus sound detection process and the therapeutic sound playing process;

the display module receives the information sent by the response module, the input module and the control module; the detection command sent by the response module to the user and the equipment use interactive information are displayed to the user based on the information sent by the response module; displaying user input information to a user for confirmation based on the input of the input module; displaying parameter information and state information in the playing process of the therapeutic sound to a user based on the information sent by the control module;

the audio output module reads an audio file from the data storage module according to the instruction of the control module, and plays the audio file based on different playing parameters; the audio file includes: tinnitus detection sound and tinnitus treatment sound; the playing parameters comprise: tone, loudness, bandwidth;

the control module comprises a detection control module, a therapeutic sound generation control module and a therapeutic control module which are integrated into a whole;

in the process of playing the therapeutic sound, the detection control module sends the information of the tinnitus detection sound to be played to the audio output module for playing, receives the response reply returned by the response module and input by the user, and adjusts the playing parameters based on the response reply to obtain the final parameters for tinnitus diagnosis; the ear sound diagnosis parameter includes: tone, loudness and frequency bandwidth of tinnitus treatment sound;

the therapeutic sound generation control module controls a tinnitus therapeutic sound generation process, calls therapeutic sound frequency according to the tinnitus sound diagnosis parameters, and generates tinnitus therapeutic sound based on a built-in therapeutic sound generation algorithm;

in the process of playing the therapeutic sound, the therapeutic control module sends the information of the tinnitus therapeutic sound to the audio output module, and the information is played according to the tone in the parameter for ear sound diagnosis; in the playing process, parameter information and state information in the process are sent to the display module to be displayed;

in the tinnitus sound detection process, the process of the response module interacting with the user comprises the following steps:

a1: prompting the patient to select the side of the ear to be detected;

the ear side includes: left ear, right ear, and ears;

a2: calling corresponding ear side detection sound stored by the data storage module according to the ear side to be detected for playing;

a3: playing the ear side detection sound;

a4: the playing process prompts a user to adjust the playing parameters according to individual feeling until the user thinks that the ear side detection sound is the same as or similar to the actual ear sound of the user; the playing parameter at this moment is the parameter for diagnosing the tinnitus sound;

the control module is realized based on a single chip microcomputer or a single board computer with a calculation function, the display module is realized based on an LCD display module, and the input module is realized based on physical keys; the audio output module comprises an audio decoding module and an audio playing module;

the display module is realized based on the LCD of 12864 dot matrix formula, and input module 6 is realized based on the physics button of micromotion formula, and control module, response module deploy in the single board computer, and the single board computer has integrateed the function: the CPU, the RAM, the ROM, various I/O ports and interrupt systems, and the timer/counter are responsible for processing the resource regulation and control and core calculation process of the whole equipment; the control module, the data storage module and the audio decoding module are packaged inside through the shell, and an LCD screen of the display module and physical keys of the display module are arranged on the shell; an interface which can enable the audio decoding module and the audio playing module to be connected through electricity or communication is reserved on the shell;

in the tinnitus treatment sound generating and the tinnitus treatment sound playing processes, the process of the response module interacting with the user comprises the following steps:

prompting a user to select a basic audio in the tinnitus treatment sound generation process;

prompting a user to set a playing time course in the playing process of the therapeutic sound;

in the process of playing the therapeutic sound, a playing time interval needs to be set; the playing time course comprises the following steps: opening and closing; switching the playing time interval through a physical key of the input module; when the playing time course is switched to on, the length of the playing time in the playing process of each treatment sound is adjusted through a physical key; when the playing time interval is switched to off, the playing time interval is not limited;

the user is detected to obtain the parameters for tinnitus sound diagnosis, and then the individualized tinnitus treatment sound is generated, and the frequency precision and loudness calibration of detection are consistent.

2. A tinnitus detection and sound treatment device according to claim 1 characterized in that: the display module interacts with a user based on the text information.

3. A tinnitus detection and sound treatment device according to claim 1 characterized in that: the tinnitus treatment sound generation process comprises the following steps:

b1: the therapeutic sound generation control module reads basic audio data to be adjusted from the data storage module;

b2: reading the parameters for ear sound diagnosis, and finding out frequency band data to be adjusted in the basic audio data;

the audio frequency and the frequency bandwidth of the frequency band data to be adjusted are respectively in the range of the audio frequency and the frequency bandwidth in the parameters for ear sound diagnosis;

b3: adjusting the loudness of the frequency range data to be adjusted according to the loudness in the ear sound diagnosis parameter to ensure that the loudness of the frequency range data to be adjusted can shield ear sound;

after the basic audio data are adjusted, the tinnitus treatment sound is obtained;

b4: the control module stores the tinnitus therapy sound in the data storage module.

4. A tinnitus detection and sound treatment device according to claim 1 characterized in that: the control module stores the tinnitus sound diagnosis parameter and the tinnitus treatment sound in the data storage module according to different user IDs.

5. A tinnitus detection and sound treatment device according to claim 1 characterized in that: the control module further supports user selection of different audio data for generating the tinnitus treatment sound based on the tinnitus sound diagnosis parameter.

6. A tinnitus detection and sound treatment device according to claim 1 characterized in that: the data storage module also comprises a preset audio database, and the audio database stores a multi-channel background audio database and ear-side audio databases preset according to a left ear, a right ear and two ears; the audio data stored in the audio database includes: white noise, narrow band noise, natural noise, music noise; and audio data stored in the audio database is used as the basic audio.

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