CN214387871U - Tinnitus treatment device based on sleep monitoring data - Google Patents

Abstract

The utility model discloses a tinnitus treatment device based on sleep monitoring data, which comprises a sleep analysis module, a tinnitus sound module, a sound playing module and a control module, wherein the sleep analysis module, the tinnitus sound module and the sound playing module are all connected with the control module; the sleep analysis module is configured to monitor the sleep state of the user, record the sleep data and transmit the sleep data to the control module; the tinnitus sound module is configured to store sound therapy audio; the sound playing module is configured to play the sound treatment audio stored in the tinnitus sound module; the control module is configured to change the acoustic output volume of the sound playing module and/or switch different sound treatment audios according to the sleep state of the user. This device can be adjusted sound output volume and the sound treatment audio frequency of sound playing module according to user's real-time sleep state is automatic, has effectively avoided the patient to use the device by mistake when sleeping, can reach the effect of the most ideal improvement tinnitus and sleep, even if use for a long time also be safe without side effect.

Description

Tinnitus treatment device based on sleep monitoring data

Technical Field

The utility model relates to a hearing equipment field, in particular to tinnitus treatment device based on sleep monitor data.

Background

Researches prove that the relationship between tinnitus and sleep is very close, the occurrence and development of tinnitus can directly influence the mood of a patient, the more serious tinnitus is, the more obvious anxiety mood is, and long-term anxiety can seriously influence the sleep state; conversely, because the patient has poor sleeping state and is difficult to fall asleep, the patient can pay more attention to the tinnitus of the patient and cannot fall asleep at night when the patient is deep and quiet, so that a vicious circle is formed, and the ear ring is more serious as time goes on. In fact, after sleeping, a person cannot feel tinnitus, and only when the person is awake does the brain cortex work, the person can feel the abnormal sound of the tinnitus.

Therefore, in order to cope with the adverse effects caused by tinnitus, various sleep-assisting tinnitus treatment devices based on sleep monitoring data are introduced on the market, and have fewer side effects than the traditional method of taking medicines to promote sleep. The tinnitus treatment device based on the sleep monitoring data can effectively inhibit the perception of ear sound of a patient before the patient sleeps by playing personalized treatment audio, so that the patient can enter a sleep state as soon as possible, and the aim of improving tinnitus is finally achieved, and the method generally needs more than 6 months.

These sound therapy devices are very close to the ordinary MP3, and the patient sets the output volume according to his/her preference when using the sound therapy device, so that it is easy for the patient to incorrectly select the volume, so that the tinnitus is not suppressed, but the tinnitus is further induced to be more severe. The literature reports that the tinnitus perception loudness is increased due to poor sleep, the reason is mainly related to the abnormal excitation and increase of auditory neurons inducing tinnitus signals, if the tinnitus is covered more greatly at the moment, a patient can unconsciously increase the playing volume, so that the sleep can be improved, the pressure of auditory stimulation is increased on the contrary without knowing the increase of the volume, and the tinnitus can be aggravated even the risk of damaging the auditory perception neurons after long-term use is avoided.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a tinnitus treatment device based on sleep monitor data can solve present tinnitus treatment device based on sleep monitor data and let the patient adjust output sound size at will and harm the problem of self hearing unintentionally. The utility model discloses a monitoring patient's sleep state obtains real-time sleep data, utilizes sleep data to judge the sleep stage to calculate and should export most suitable audio frequency and volume. Thus, there is no fear that the patient erroneously uses the tinnitus treatment device based on the sleep monitor data while sleeping, and the optimal effect of improving tinnitus and sleep is achieved, which is safe without side effects even if used for a long time, and at least one of the above problems can be solved.

According to one aspect of the utility model, the tinnitus treatment device based on the sleep monitoring data comprises a sleep analysis module, a tinnitus sound module, a sound playing module and a control module, wherein the sleep analysis module, the tinnitus sound module and the sound playing module are all connected with the control module;

the sleep analysis module is configured to monitor the sleep state of the user, record the sleep data and transmit the sleep data to the control module;

the tinnitus sound module is configured to store sound therapy audio;

the sound playing module is configured to play the sound treatment audio stored in the tinnitus sound module;

the control module is in communication connection with the sleep analysis module and the tinnitus sound module and is configured to change the sound output volume of the sound playing module and/or switch different sound treatment audios according to the sleep state of a user.

Therefore, the utility model provides a tinnitus treatment device based on sleep monitor data of brand-new structure, the device pass through sleep analysis module monitoring patient's sleep state, obtain real-time sleep data, and control module judges the present sleep stage of user through the sleep data to control sound play module output most suitable volume and save the sound treatment audio frequency in tinnitus sound module. The utility model discloses a tinnitus treatment device based on sleep monitor data can adjust sound output volume and the sound treatment audio frequency of sound play module according to user's real-time sleep state is automatic, has effectively avoided the patient to use the tinnitus treatment device based on sleep monitor data when sleeping by mistake, can reach the effect of the most ideal improvement tinnitus and sleep, even if use for a long time also be safe no side effect.

In some embodiments, the control module comprises a housing and a DSP chip mounted on the housing, and the DSP chip is electrically or communicatively connected to the sleep analysis module, the tinnitus sound module, and the sound playing module.

In some embodiments, the tinnitus treatment device based on sleep monitoring data further comprises a display module connected with the control module and configured to display the real-time sleep state, the acoustic output volume and/or the acoustic treatment audio type.

In some embodiments, the display module includes a first display disposed on the sleep analysis module and a second display disposed on the control module housing, the first display is configured to display a real-time sleep state analyzed by the sleep analysis module, and the second display is configured to display an acoustic output volume of the acoustic treatment audio currently played by the sound playing module and/or an acoustic treatment audio category.

In some embodiments, the sleep analysis module is a smart band, and the smart band is connected to the control module by wire or wirelessly.

In some embodiments, the sound playing module is a headset, and the headset is connected with the control module in a wired or wireless manner.

In some embodiments, the control module further comprises at least one interface, which is open to the housing.

The utility model has the advantages that:

the utility model provides a tinnitus treatment device based on sleep monitor data of brand-new structure, the device pass through sleep analysis module monitoring patient's sleep state, obtain real-time sleep data, and control module judges the present sleep stage of user through the sleep data to control sound play module output most suitable volume and save the sound treatment audio frequency in tinnitus sound module. The utility model discloses a tinnitus treatment device based on sleep monitor data can adjust sound output volume and the sound treatment audio frequency of sound play module according to user's real-time sleep state is automatic, has effectively avoided the patient to use the tinnitus treatment device based on sleep monitor data when sleeping by mistake, can reach the effect of the most ideal improvement tinnitus and sleep, even if use for a long time also be safe no side effect.

Drawings

Fig. 1 is a simplified block diagram of a tinnitus treatment device based on sleep monitoring data according to an embodiment of the present invention;

fig. 2 is a block diagram illustrating a further detailed structure of the sleep monitor data-based tinnitus treatment device shown in fig. 1;

fig. 3 is a simplified block diagram of the sleep monitoring data based tinnitus treatment device of fig. 1;

fig. 4 is a simplified perspective view of a control module of the sleep monitor data-based tinnitus treatment device shown in fig. 3.

Reference numerals in FIGS. 1 to 4: 1-a sleep analysis module; 2-tinnitus sound module; 3-a sound playing module; 4-a control module; 5-a display module; 41-a housing; 42-DSP chip; 43-interface; 51-a first display; 52-second display.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 to 4 schematically show a tinnitus treatment device based on sleep monitoring data according to an embodiment of the present invention.

As shown in figures 1-4, the tinnitus treatment device based on sleep monitoring data comprises a sleep analysis module 1, a tinnitus sound module 2, a sound playing module 3 and a control module 4. The sleep analysis module 1, the tinnitus sound module 2 and the sound playing module 3 are all connected with the control module 4.

The sleep analysis module 1 is configured to monitor the sleep state of the user and record the sleep data and transmit the sleep data to the control module 4;

the tinnitus sound module 2 is configured to store the sound therapy audio;

the sound playing module 3 is configured to play the sound treatment audio stored in the tinnitus sound module 2;

the control module 4 is in communication connection with the sleep analysis module 1 and the tinnitus sound module 2, and is configured to change the sound output volume of the sound playing module 3 and/or switch different sound treatment audio according to the sleep state of the user.

As shown in fig. 1 to 4, the control module 4 of the present embodiment includes a housing 41 and a DSP chip 42 mounted on the housing 41. The DSP chip 42 is electrically or communicatively connected with the sleep analysis module 1, the tinnitus sound module 2 and the sound playing module 3. The control module 4 of the present embodiment further includes at least one interface 43 provided in the housing 41, and the wired connection between the control module 4 and another module is possible through the interface 43. The interface 43 may also be a USB interface 43, which is used to connect the control module 4 with an external power supply.

The sleep analysis module 1 may be a smart band, a smart watch, or other devices that can record sleep states. The sleep analysis module 1 is used for monitoring the sleep state of the patient, recording data and transmitting the data to the control module 4, and the sleep analysis module 1 is in wired connection or wireless connection with the control module 4. The sleep analysis module 1 of the present embodiment is an intelligent bracelet. The sound playing module 3 of the present embodiment is a wired earphone or a bluetooth earphone, and the earphone is connected to the control module 4 in a wired or bluetooth wireless manner.

The tinnitus treatment device based on the sleep monitoring data further comprises a display module 5, wherein the display module 5 is connected with the control module 4 and is configured to display the real-time sleep state, the sound output volume and/or the sound treatment audio type.

The display module 5 of the present embodiment includes a first display 51 provided to the sleep analysis module 1 and a second display 52 provided to the housing 41 of the control module 4. The first display 51 is used for displaying the real-time sleep state analyzed by the sleep analysis module 1, and the second display 52 is used for displaying the acoustic output volume and/or the acoustic treatment audio type of the acoustic treatment audio output volume currently played by the acoustic playing module 3. The first display 51 and the second display 52 of the present embodiment may be liquid crystal display panels.

The specific application method of the tinnitus treatment device based on the sleep monitoring data comprises the following steps:

s1, hearing data entry: matching tinnitus sound treatment audio according to the tinnitus detection result and/or the hearing test result of the user, and recording the tinnitus sound treatment audio into the tinnitus sound module 2 for later use;

in this step, the therapeutic audio frequency selected for tinnitus sound therapy is different from general music, and should be a therapeutic sound matched with tinnitus frequency, tinnitus intensity and personal preference of the patient, and generally comprises: single tones (pure tones, narrow-band noise, etc.), compound tones (water sounds, wind sounds, bird sounds, etc.), background music (relaxing music types), and the like. The mono and compound tones must be matched to the patient's tinnitus frequency and intensity, while the background music is mostly closely related to the patient's preferences.

S2, acquiring sleep data: the user wears the sleep analysis module 1 and the sound playing module 3, carries out real-time sleep state monitoring on the user through the sleep analysis module 1, and transmits data to the control module 4;

in this step, the sleep analysis module 1 can accurately monitor the current sleep stage of the patient, such as sleep onset, sleep, sleepiness, wakefulness, and the like.

S3, sound output: the control module 4 controls the sound playing module 3 to play the tinnitus sound treatment audio in the corresponding tinnitus sound module 2 according to the current sleep state;

s4, sound regulation: the sleep state change can adjust the sound output volume of the sound playing module 3 and/or switch the sound treatment audio played by the sound playing module 3 according to the trigger control module 4.

According to different sleep states, the control module 4 controls the earphone to change the volume of the output sound and switch to different audio frequencies. The control module 4 presets the sound output method in different sleep states, and specifically may include: firstly, starting sleep: the sleep analysis module 1 starts working, and the sound output volume is played according to the optimal volume when the patient is in the waking state; ② sleeping: when the sleep analysis module 1 monitors that the patient enters a sleep state, the sound output volume is gradually reduced to be silent; ③ difficult sleep: when the sleep analysis module 1 monitors that the patient cannot sleep for a long time, the control module 4 turns down the output volume of the sound playing module 3 and switches to other softer audio frequencies until the patient sleeps; fourthly, waking up: when the sleep analysis module 1 monitors that the patient starts to wake up, the control module 4 slowly increases the output volume of the sound playing module 3, and the sound is gradually restored to the normal volume from silence.

Because the patient is in a normal waking state in the sleep starting state and the waking state, the tinnitus perception of the patient is in a normal level, the sound output of the earphone is normal treatment volume, the normal treatment volume can effectively inhibit the tinnitus when the patient starts to sleep, the patient is assisted to fall asleep as soon as possible, and the treatment sound is recovered and sounded after the patient wakes up midway or the sleep is finished, so that the patient can fall asleep quickly or is not required to suffer from the tinnitus immediately; when the patient is asleep, the patient does not have tinnitus perception any more, and the sound output can be stopped after the patient completely falls asleep; if the patient is anxious and sleepy, the time for playing the therapeutic sound is prolonged, so the volume should be reduced properly, and the patient sleeps more quickly by switching to softer audio.

The specific application process can be as follows:

tinnitus patient has carried out tinnitus inspection and hearing test after, obtains comprehensive meticulous tinnitus data, and the person of testing and matching helps the patient to match out suitable sound treatment audio frequency according to these tinnitus data, then inputs these audio frequencies into tinnitus sound module 2, and the person of testing and matching can carry out computer programming to control module 4 pieces simultaneously, presets the sound output volume that is fit for the patient, tests and matches the back that finishes, and the patient alright with take the device back home use.

The patient wears the sleep analysis module 1 and the sound playing module 3, the whole device is started to sleep, in the sleeping process, the sleep analysis module 1 can continuously monitor the sleeping condition of the patient, and the control module 4 can change the volume output by the sound playing module 3 and switch the volume into different audios according to the received data.

After a period of time, usually three months, is a treatment course, the patient should go to a hospital or a institution to perform tinnitus retest, if the tinnitus frequency or intensity changes, the audio and output volume in the device need to be adjusted, and the treatment effect is more remarkable.

The utility model provides a tinnitus treatment device based on sleep monitor data of brand-new structure, the device pass through sleep analysis module 1 monitoring patient's sleep state, obtain real-time sleep data, and control module 4 judges the present sleep stage of user through the sleep data to control sound play module 3 output most suitable volume and save the sound treatment audio frequency in tinnitus sound module 2. The utility model discloses a tinnitus treatment device based on sleep monitor data can adjust sound output volume and the sound treatment audio frequency of sound play module 3 according to user's real-time sleep state is automatic, has effectively avoided the patient to use the tinnitus treatment device based on sleep monitor data when sleeping by mistake, can reach the effect of the most ideal improvement tinnitus and sleep, even if use for a long time also be safe no side effect.

The utility model discloses a tinnitus treatment device's application method easy operation based on sleep monitor data, convenient to use, the effect is showing and safe no side effect.

What has been described above are only some embodiments of the invention. For those skilled in the art, without departing from the inventive concept, several modifications and improvements can be made, which are within the scope of the invention.

Claims (6)

1. The tinnitus treatment device based on sleep monitoring data is characterized by comprising a sleep analysis module (1), a tinnitus sound module (2), a sound playing module (3) and a control module (4), wherein the sleep analysis module (1), the tinnitus sound module (2) and the sound playing module (3) are all connected with the control module (4);

the sleep analysis module (1) is configured to monitor the sleep state of a user, record sleep data and transmit the sleep data to the control module (4);

the tinnitus sound module (2) is configured to store sound therapy audio;

the sound playing module (3) is configured to play the sound treatment audio stored in the tinnitus sound module (2);

the control module (4) is in communication connection with the sleep analysis module (1) and the tinnitus sound module (2) and is configured to change the sound output volume of the sound playing module (3) and/or switch different sound treatment audios according to the sleep state of a user;

control module (4) include shell (41) and install DSP chip (42) in shell (41), DSP chip (42) are connected through electric property or communication with sleep analysis module (1), tinnitus sound module (2), sound play module (3).

2. A tinnitus treatment device based on sleep monitoring data according to claim 1 further comprising a display module (5), wherein the display module (5) is connected with the control module (4) and configured to display real-time sleep status, sound output volume and/or sound treatment audio type.

3. The tinnitus treatment device based on sleep monitor data according to claim 2, wherein the display module (5) comprises a first display (51) disposed on the sleep analysis module (1) and a second display (52) disposed on the housing (41) of the control module (4), the first display (51) is used for displaying the real-time sleep state analyzed by the sleep analysis module (1), and the second display (52) is used for displaying the acoustic output volume and/or the acoustic therapy audio type of the acoustic therapy audio currently played by the sound playing module (3).

4. The tinnitus treatment device based on sleep monitor data according to any one of claims 1 to 3 wherein the sleep analysis module (1) is a smart bracelet, and the smart bracelet is connected with the control module (4) in a wired or wireless manner.

5. A tinnitus treatment device based on sleep monitor data according to any one of claims 1 to 3 wherein the sound playing module (3) is an earphone, and the earphone is connected with the control module (4) in a wired or wireless way.

6. A sleep monitoring data based tinnitus treatment device as claimed in any one of claims 2 to 3 wherein said control module (4) further comprises an interface (43), said interface (43) opening into the housing (41) and being at least one.

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