WO2019214337A1

WO2019214337A1 - Snore-ceasing equipment, and method and system for ceasing snoring

Info

Publication number: WO2019214337A1
Application number: PCT/CN2019/077681
Authority: WO
Inventors: 罗强
Original assignee: 深圳市云中飞电子有限公司
Priority date: 2018-05-10
Filing date: 2019-03-11
Publication date: 2019-11-14
Also published as: CN108618881A

Abstract

The invention is applicable to the technical field of medical instruments, and provides snore-ceasing equipment, and a method and system for ceasing snoring. The snore-ceasing equipment comprises a snore-ceasing equipment body and a working module, wherein the snore-ceasing equipment body comprises a shell provided with an internal space, a hanging chain and at least one conductive silicone sheet, and the hanging chain and the at least one conductive silicone sheet are used for fixing the shell of the snore-ceasing equipment to the larynx of a user; the working module is arranged inside the shell, and comprises a signal collection module, a microprocessor, a snore-ceasing module and a power supply module; the conductive silicone sheet is connected to the snore-ceasing module; and the working module is used for collecting a snoring signal and generating a snore-ceasing stimulation inhibiting snoring behaviors after the snoring signal is processed thereby. The snore-ceasing equipment is arranged at the larynx of the user, such that no discomfort can be brought about for a user when the user sleeps on their side.

Description

Stopper, stop method and system

Technical field

The solution belongs to the technical field of medical appliances, and particularly relates to a snoring device and a stagnation method and system.

Background technique

In a person's life, about 30% of the time spent in sleep, the quality of sleep directly determines the mental state and physical health. Snoring is a ubiquitous sleep phenomenon. Because the airway of a snoring person is usually narrower than a normal person, when sleeping at night, the nerve excitability is reduced, the muscles are slack, the pharyngeal tissue is blocked, and the upper airway collapses. When the airflow passes through the stenosis At the time of the part, eddy currents are generated and vibration is caused, so that a click sounds. Most people think that this is commonplace and not taken for granted. In fact, snoring is a big enemy of health. Because of snoring, sleep and breathing are repeatedly suspended, causing severe hypoxia in the brain and blood, forming hypoxemia, which induces diseases such as high blood pressure and arrhythmia. Severe snorers may experience sudden death. Case.

In the prior art, in order to prevent snoring, there are mainly two types of methods: a method of artificially stopping snoring and a device for stopping snoring - a snoring device. The main methods to stop snoring include: moderately raising the pillow; don't sleep on it; others beat the squatter's body. It can be seen that the method of artificially stopping the snoring greatly reduces the comfort of the snorer's sleep by requiring the snorer to fix the sleeping posture or to be beaten by other people. The snoring device is mainly worn, generally worn on the wrist of the snorer, on the ear, and on the chest. Obviously, the snoring device worn on the wrist is too far away from the snoring of the snoring person, so that it is not well judged whether Snoring, so it can not stop well; the snoring device worn on the ear and chest can have higher detection sensitivity than wearing on the wrist, but it is easy to oppress when the snorer sleeps or turns over. Go to the back of your head or body to reduce the comfort of the snorer's sleep.

technical problem

The purpose of the present solution is to provide a snoring device, a snoring method and a system to solve the problem of low user comfort caused by the stagnation method or the snoring device in the prior art.

Technical solution

A first aspect of the embodiments of the present invention provides a snoring device comprising: a snoring body and a working module; the snoring body comprising a housing having an internal space, a hanging chain and at least one conductive silicone sheet The hanging chain and at least one of the conductive silicone sheets are used to fix the housing to a throat of a user; the working module is disposed inside the housing, including a signal acquisition module, a microprocessor, and a stoppage a module and a power module; the conductive silicone sheet is connected to the stopping module;

The signal acquisition module is connected to the microprocessor, configured to collect a snore signal generated by the throat of the user, and send the snoring signal to the microprocessor; the microprocessor and the The 鼾 module is connected to receive the snoring signal, process and analyze the snoring signal, and send a control signal to the stagnation module based on the analysis result; the 鼾 module is configured to receive the control signal Generating a snoring stimulus for suppressing the user's snoring behavior; the power module is configured to supply power to the working module.

A second aspect of the embodiments of the present invention provides a snoring method, which is applied to the snoring device of the first aspect, comprising: acquiring an acoustic signal and a vibration signal from a throat of the user;

And determining, according to the sound signal and the vibration signal, a sound signal and a vibration signal generated by the throat of the user exceeding a preset value, generating a snoring behavior for suppressing the user's snoring behavior in the throat of the user. Stop stimuli, including stimuli and/or stimuli.

A third aspect of the embodiments of the present invention provides a stagnation system, comprising: the snoring device and the mobile device as described in the first aspect, the snoring device further comprising a wireless transmission module, the wireless transmission module Connected to the microprocessor;

The snoring device sends an analysis result of the snoring signal to the mobile device by using the wireless transmission module, the mobile device is configured to receive the analysis result, and the wireless transmission module is further configured to receive the mobile device And transmitting the control instruction to the microprocessor, so that the microprocessor controls the working module to perform an operation corresponding to the control instruction after receiving the control instruction.

Beneficial effect

The embodiment of the present invention provides a snoring device, a snoring method and a system, wherein the damper body comprises the damper body comprising a housing having an internal space, a hanging chain and at least one conductive silicone sheet, a chain and At least one conductive silica gel sheet is used for fixing the housing of the snoring device to the throat position of the user, so as to obtain the snoring information of the user at the closest distance, such as the snoring or the vibration of the throat, etc., due to the collection of the closest distance To the user's snoring information, so that more accurate snoring data can be obtained, which facilitates micro processing for processing and analysis; and no matter whether the user is lying flat or sleeping sideways, it will not cause any discomfort to the user, and will not Affecting the user's sleep quality, therefore, can improve the user's sleep comfort to a certain extent, and at the same time, because the shell of the snoring body is fixed in the throat, the stimulation can be directly performed in the throat, and the suppression is better. Snoring.

DRAWINGS

FIG. 1 is a schematic diagram of a snoring device provided by an embodiment of the present solution;

FIG. 2 is a schematic diagram showing the composition of a working module provided by an embodiment of the present solution;

FIG. 3 is a schematic diagram of a snoring device provided by another embodiment of the present solution;

4 is a schematic flowchart of an implementation method of a stagnation method provided by an embodiment of the present invention;

FIG. 5 is a schematic diagram of the composition of a stagnation system provided by an embodiment of the present solution.

Embodiments of the invention

In order to make the objectives, technical solutions and advantages of the present invention more clear, the present embodiment will be further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the embodiments and are not intended to be limiting.

Embodiment 1

Referring to FIG. 1 and FIG. 2, the embodiment of the present invention provides a snoring device 100 including a snoring body 110 and a working module 120, the snoring body including a housing 111 having an internal space, a hanging chain 112 and At least one conductive silicone sheet 113, the hanging chain 112 and at least one of the conductive silicone sheets 113 are used to fix the housing 111 of the slinger 100 to the throat of the user; The inside of the housing 111 includes a signal acquisition module 121, a microprocessor 122, a stop module 123 and a power module 124; the conductive silicone sheet 113 is connected to the stop module 123;

The signal acquisition module 121 is connected to the microprocessor 122, and is configured to collect a snoring signal generated by the user's throat, and send the snoring signal to the micro-processing 122; the microprocessor 122 and The stopping module 123 is connected to receive the snoring signal, process and analyze the snoring signal, and send a control signal to the stopping module 122 based on the analysis result; the stopping module 123 is configured to Receiving the control signal, generating a snoring stimulus for suppressing the snoring behavior of the user; the power module 124 is configured to supply power to the working module 120.

In the above-mentioned snoring device, since the snoring body includes a hanging chain and a conductive silicone sheet, the housing of the damper body can be fixed to the throat of the user through the hanging chain and the conductive silicone sheet, and the housing has a built-in work. The component realizes the snoring information of the user at the closest distance, such as the snoring or the vibration of the throat. Since the user can collect the snoring information at the closest distance, more accurate snoring data can be obtained, which facilitates the processing of the micro processing. And analysis, finally, since the housing of the snoring device can be well fixed to the user's throat through the conductive silicone sheet and the hanging chain, the snoring device does not affect the user's sleep quality, regardless of the user's Whether lying flat or sleeping on the side will not give the user any discomfort. Therefore, the user's sleep comfort can be improved to a certain extent, and at the same time, since the housing of the snoring body is fixed to the throat, Direct stimulation will be performed in the throat to better suppress snoring.

Specifically, the conductive silicone sheet 113 is an electrode sheet.

In an alternative embodiment, the hanging chain 112 is an electrode buckle or an electrical lead structure. The electrode clip or electrical lead structure enables the housing 111 to be secured to the user's throat.

In an alternative embodiment, the signal acquisition module 121 is further configured to collect a snoring signal generated by the user's jaw and send the snoring signal to the microprocessor 122. Specifically, the snoring information includes a sound signal and a vibration signal generated by the user's jaw.

Referring to FIG. 3, in an alternative embodiment, the present solution provides a snoring device 100 including a snoring body 110 and a working module 120, the snoring body including a housing 111 having an internal space, a housing The body has an electrode buckle or an electrical lead structure and at least one conductive silicone sheet 113. The conductive silicone sheet 113 is fixed under the jaw of the user, and the housing 111 of the snoring device 100 is passed through an electrode buckle or an electrical lead structure. The work module 120 is disposed inside the housing 111, and includes a signal acquisition module 121, a microprocessor 122, a stoppage module 123, and a power module 124. The conductive silicone sheet 113 is The stoppage module 123 is connected.

In the above-mentioned snoring device, since the snoring body includes an electrode buckle or an electrical lead structure on the housing, and the conductive silicone sheet 113, the conductive silicone sheet 113 is fixed in the submandibular position of the user, and thus can be passed through the electrode buckle or the electrical lead The structure fixes the housing 111 of the snoring body to the position of the user's jaw. Since the housing 111 has the working member 120 built therein, the user's snoring information such as snoring or submandibular vibration is obtained at the closest distance. Since the user's snoring information can be collected at the closest distance, more accurate snoring data can be obtained, which facilitates processing and analysis by the microprocessor, and since the snoring device is well fixed under the user's jaw, The snoring device does not affect the user's sleep quality. No matter whether the user is lying flat or sleeping on the side, it will not cause any discomfort to the user. Therefore, the user's sleep comfort can be improved to some extent. . At the same time, since the shell of the snoring body is fixed under the jaw, the stimulation can be directly performed under the jaw, and the snoring is better suppressed.

The electrode buckle or the electrical lead structure may be directly fixed to the housing 111 of the snoring device or may pass through the housing 111.

The conductive silica gel sheet 113 has good electromagnetic sealing and water vapor sealing ability and can provide good electrical conductivity under a certain pressure. The conductive silicone sheet 113 is an electrode sheet.

In the embodiment of the present invention, the conductive silicone sheet 113, that is, A in FIG. 1 , is located on the back surface of the housing 111 of the damper body, and the conductive silicone sheet 113 is adhered to the human skin to stop the sputum. The housing 111 of the device is fixed to the conductive silicone sheet 113 to fix the stopper 100. Wherein, the back side is the side that is attached to the skin, and any side that is attached to the skin can be regarded as the back side.

The microprocessor 122 is a central processing unit composed of one or a few large-scale integrated circuits, but has the advantages of small size, light weight, and easy modularization compared with the conventional central processing unit. Applying it to the snoring device 100 can reduce the weight and volume of the snoring device, facilitate user identification, and reduce the pressure feeling.

The microprocessor 122 can perform operations such as fetching instructions, executing instructions, and exchanging information with external memory and logic components, and is an arithmetic control portion of the microcomputer. It can be combined with a memory and a peripheral circuit chip to form a microcomputer.

As an embodiment of the present solution, the microprocessor 122 is preferably an ARM processor that is small in size, low in power consumption, and low in cost.

The snoring signal is a signal for reflecting that the user is snoring, and may include, but is not limited to, a sound signal and a vibration signal generated by the throat when the user is snoring.

The snoring stimulus, which is a stimulus for suppressing a user's snoring behavior, may include, but is not limited to, electric shock stimulation and/or vibration stimulation.

As an embodiment of the present solution, the snoring stimulus may further include a sound stimuli.

In the embodiment of the present invention, the signal acquisition module 121 includes at least an acoustic wave sensor and an acceleration sensor for simultaneously collecting the sound signal and the vibration signal, so that the microprocessor 122 simultaneously identifies the snoring behavior based on the sound signal and the vibration signal. , get more accurate analysis results. Specifically, the acoustic wave sensor is configured to collect a sound signal generated by the throat of the user, and send the sound signal to the microprocessor 122; the acceleration sensor is configured to collect the throat of the user. The vibration signal is sent to the microprocessor 122.

Preferably, the acceleration sensor is a three-axis acceleration sensor.

The advantage of the three-axis acceleration sensor compared to other acceleration sensors is that the three-dimensional acceleration is applied to detect the acceleration signal without knowing the direction of motion of the object in advance. The triaxial acceleration sensor has the characteristics of small size and light weight, which can greatly reduce the weight and volume of the snoring device 100, thereby reducing the discomfort caused by the snoring device 100 placed at the throat position.

In the embodiment of the present invention, the stopping module 123 includes a shock module and a vibration motor; the shock module is configured to generate a voltage or current output to the conductive silicone sheet 113 when the control signal is received, to pass The conductive silicone sheet 113 generates an electric shock stimulus for suppressing the snoring behavior of the user; the vibration motor is configured to generate a vibration stimulus for suppressing the snoring behavior of the user upon receiving the control signal.

As a preferred embodiment, the vibration motor is a micro-vibration motor to obtain a small-sized, lightweight mass-stopper 100.

As an embodiment of the solution, the stopping module 123 further includes an audio module; the audio module is configured to play the built-in audio file when the control signal is received.

The built-in audio file includes an audio file that is included in the snoring device 100 and/or an audio file that the user stores in the snoring device 100.

The use of music to stimulate snorers may affect people around the snoring, such as snorers' partners. Therefore, in general, only electric shock stimulation and/or vibration stimulation are used to prevent sound stimulation from affecting others. However, because music can calm people to a certain extent, at the same time, playing some soothing music can help people sleep, so playing music on snorers can effectively stop their snoring behavior, therefore, The UI module 123 may further include an audio module. When the user plays the game, the user can play the music, and the user can stop the snoring behavior with a high probability based on the action of the music, and at the same time, can enter a relaxed state to help improve the sleep quality. .

As an embodiment of the solution, the snoring device 100 further includes a display screen; the display screen is coupled to the microprocessor for displaying data.

As a preferred embodiment, the display screen is only used to display data when the snoring behavior is serious, so as to attract the attention of the user, and at the same time, it is convenient for the user to know that the snoring is abnormal when the user displays the data based on the display. Give the doctor a view of the corresponding snoring data.

As a preferred embodiment, the display screen is placed on the front side of the snoring housing 111 to facilitate viewing of data by users, relatives, and the like. Among them, the front side is the opposite side to the back side.

In the embodiment of the present solution, the working module 120 further includes a wireless transmission module, and the wireless transmission module is connected to the micro processing. The wireless transmission module is coupled to the mobile device and microprocessor 122 for connection to the mobile device, system firmware updates, and data synchronization.

By setting the wireless transmission module, the snoring data generated by the user during sleep can be transmitted to the mobile terminal or the cloud server for convenient viewing by the user and/or relatives.

In the embodiment of the present solution, the working module 120 further includes a positioning module, and the positioning module is connected to the micro processing for positioning the snoring device and transmitting positioning information to the microprocessor .

Since the user may experience sudden death due to severe snoring, a positioning module is set up here, when the doctor or relatives find out that the user has experienced severe snoring and is still asleep according to the snoring data, based on the wireless The positioning information sent by the transmission module finds the user and artificially wakes up the user.

Embodiment 2

FIG. 4 is a schematic diagram of an implementation flow of a method for stopping the suffix provided by the second embodiment of the present invention. The implementation of the method is a device having the function of the method of the embodiment, which may include, but is not limited to, the first embodiment. The snoring device is detailed as follows:

S101. Acquire a sound signal and a vibration signal from a throat of the user;

S102. Based on the sound signal and the vibration signal, when it is determined that the sound and vibration generated by the throat of the user exceed a preset value, generating a snoring behavior for suppressing the user's snoring behavior in the throat of the user. Stop stimuli, including stimuli and/or stimuli.

The above solution provides a method for stopping sputum. Since the data collected by the user's throat is collected, the accuracy of the acquired snoring data can be greatly improved, so that a more accurate analysis can be obtained later when analyzing the data. As a result, further, since the snoring stimulation is directly generated in the throat of the user, the snoring behavior can be better suppressed. Finally, since the data from the user's throat is acquired, the snoring device is fixed to the user. The throat, therefore, does not affect the user's sleep posture, regardless of whether the user is lying or sleeping, it does not affect the user.

In the embodiment of the present invention, when it is determined that the sound and vibration generated by the throat of the user exceed a preset value, the user's throat is generated to suppress the snoring behavior of the user. The stimuli, after the stimuli include vibration stimuli and/or shock stimuli, further comprising: if the sounds and vibrations generated by the throat of the user continue to exceed the preset value within a preset time, then increasing Describe the stimuli.

At the beginning of the snoring stimulation, a mild snoring stimulus can be used to suppress the user's snoring behavior without affecting the user's sleep. If the user is under such stimulation, the snoring behavior continues. If the preset time is exceeded, the stop stimuli are increased, the snoring behavior of the user is stopped with higher intensity, the user's own safety is ensured, and the user's voice is prevented from affecting the sleep of others.

In an optional embodiment, the foregoing method further includes the following steps:

Obtaining the user's sleep cycle;

Recording a sleep period in which a sound signal and a vibration signal generated by a user's throat exceed a preset value as a first sleep cycle;

Recording a sleep cycle in which the sound signal and the vibration signal generated by the user's throat do not exceed a preset value as a second sleep cycle;

Controlling the stagnation stimulation during the first sleep cycle and controlling the snoring stimulation during the second sleep cycle;

Obtaining the breathing cycle of the user in different sleeping positions, and performing timing electric shock stimulation according to the breathing cycle in different sleeping positions;

Adjust the intensity of the shock stimulus by adjusting any one or more of amplitude, frequency, bandwidth, and duration of stimulation.

Specifically, the sleep period of the above-mentioned user refers to a period of sleep, for example, from 23:00 on the first night to 8:00 on the morning of the next morning. During the time period of the sleep cycle, when the volume and vibration frequency of the sound generated by the user's throat exceeds a preset value, the time range is recorded as the first sleep cycle; otherwise, the volume of the sound generated by the user's throat When the vibration frequency does not exceed the preset value, the corresponding time range is recorded as the second sleep cycle.

In the first sleep cycle where the user snoring severely, the snoring stimulation is appropriately increased, and the snoring behavior can be effectively suppressed; in the second sleep cycle in which the user snoring is relatively light, the snoring stimulation is appropriately reduced, while suppressing the snoring behavior. It saves the energy consumption of the snoring device and improves the battery life of the snoring device.

The user's breathing cycle changes correspondingly in different sleeping positions, and specifically, the user's sleeping posture includes, but is not limited to, lying down and lying on the side. The breathing cycle specifically refers to the length of time the user spends per breath, and can also refer to the number of breaths the user has in a unit of time.

The above-mentioned method of stopping sputum achieves an effect of effectively suppressing snoring behavior, saving energy consumption, and enhancing user experience by recording a user's sleep cycle and breathing cycle and correspondingly increasing or decreasing snoring stimulation.

It should be noted that a stoppage method proposed in the second embodiment of the present solution is based on the same inventive concept as that of the first embodiment of the present solution. The corresponding technical contents in the method embodiment and the device embodiment can be mutually Applicable, not detailed here.

Embodiment 3

FIG. 5 shows a stagnation system 200 provided in Embodiment 3 of the present solution, including: the snoring device 210 and the mobile device 220 according to the first embodiment, the snoring device 210 including a wireless transmission module 211 and a micro processing The wireless transmission module 211 is connected to the microprocessor 212.

The stagnation device 210 is configured to send, by using the wireless transmission module 211, an analysis result of the snoring signal to the mobile device 220, where the mobile device 220 is configured to receive the analysis result; the wireless transmission module 211 further Receiving a control instruction sent by the mobile device 220, and sending the control instruction to the microprocessor 212, so that the micro-process 212 controls the working module to execute after receiving the control instruction. The operation corresponding to the control instruction.

The mobile device 220 may include, but is not limited to, a mobile terminal and a server, including but not limited to a mobile phone and a tablet; the server includes but is not limited to a high performance server and a server cluster.

After the mobile device 220 is configured to receive the analysis result, the analysis result is stored to facilitate viewing by doctors and relatives, and the analysis result may be further analyzed after receiving the analysis result.

In the above solution, since the stoppage system can send the stoppage data to the mobile device, the mobile device can store the stoppage data, so that the user, the relatives, and the doctor can view the stoppage data, and at the same time, because the stopcock can still Receiving control commands sent from the mobile device, so that the manipulator can be artificially controlled and set, such as controlling the vibration frequency, etc., so that the doctor can use the manual control method when viewing the abnormal data of the stagnation device. The snoring device is operated at the distal end to suppress the user's snoring behavior.

It should be noted that a stoppage system proposed in Embodiment 3 of the present solution is based on the same inventive concept as that of the first embodiment of the present solution, and the corresponding technical contents in the system embodiment and the device embodiment can be mutually Applicable, not detailed here.

In the above embodiments, the descriptions of the various embodiments are different, and the parts that are not detailed or described in a certain embodiment can be referred to the related descriptions of other embodiments.

Those of ordinary skill in the art will appreciate that the elements and algorithm steps of the various examples described in connection with the embodiments disclosed herein can be implemented in electronic hardware or a combination of computer software and electronic hardware. Whether these functions are performed in hardware or software depends on the specific application and design constraints of the solution. The skilled person can use different methods for implementing the described functions for each particular application, but such implementation should not be considered beyond the scope of the present solution.

In the embodiments provided by the present solution, it should be understood that the disclosed method, apparatus, and terminal may be implemented in other manners. For example, the method, the device, and the terminal embodiment described above are merely illustrative. For example, the division of the unit is only a logical function division, and the actual implementation may have another division manner, such as multiple units or Components can be combined or integrated into another system, or some features can be ignored or not executed.

The units described as separate components may or may not be physically separated, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.

In addition, each functional unit in each embodiment of the present solution may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit. The above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a standalone product, may be stored in a computer readable storage medium. Based on such understanding, the present solution implements all or part of the processes in the foregoing embodiment, and may also be completed by a computer program to instruct related hardware. The computer program may be stored in a computer readable storage medium. The steps of the various method embodiments described above may be implemented when the program is executed by the processor. Wherein, the computer program comprises computer program code, which may be in the form of source code, object code form, executable file or some intermediate form. The computer readable medium can include any entity or device capable of carrying the computer program code, a recording medium, a USB flash drive, a removable hard drive, a magnetic disk, an optical disk, a computer memory, a read only memory (ROM, Read-Only) Memory), random access memory (RAM, Random) Access Memory), electrical carrier signals, telecommunications signals, and software distribution media. It should be noted that the content contained in the computer readable medium may be appropriately increased or decreased according to the requirements of legislation and patent practice in a jurisdiction, for example, in some jurisdictions, according to legislation and patent practice, computer readable media Does not include electrical carrier signals and telecommunication signals.

The embodiments described above are only for explaining the technical solutions of the present solution, and are not limited thereto; although the present solution has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that they can still implement the foregoing implementations. Modifications of the technical solutions described in the examples, or equivalent replacement of some of the technical features; and the modifications or substitutions do not deviate from the spirit and scope of the technical solutions of the embodiments of the present embodiments, and should be included in The scope of protection of this program.

Claims

A snoring device comprising a snoring body and a working module, characterized in that:

The damper body includes a housing having an inner space, a hanging chain and at least one conductive silicone sheet, and the hanging chain and at least one of the conductive silicone sheets are used for fixing the housing to a throat of a user; The working module is disposed inside the casing, and includes a signal acquisition module, a microprocessor, a stopping module and a power module; and the conductive silicone sheet is connected to the stopping module;

The signal acquisition module is connected to the microprocessor, configured to collect a snore signal generated by the throat of the user, and send the snoring signal to the microprocessor; the microprocessor and the The 鼾 module is connected to receive the snoring signal, process and analyze the snoring signal, and send a control signal to the stagnation module based on the analysis result; the 鼾 module is configured to receive the control signal Generating a snoring stimulus for suppressing the user's snoring behavior; the power module is configured to supply power to the working module.
The snoring device according to claim 1, wherein said signal acquisition module comprises an acoustic wave sensor and an acceleration sensor; said acoustic wave sensor is configured to collect a sound signal of said user's throat, and said sound signal Sending to the microprocessor; the acceleration sensor is configured to collect a vibration signal generated by the throat of the user, and send the vibration signal to the microprocessor.
The snoring device according to claim 1, wherein the shackle is an electrode buckle or an electrical lead structure.
The snoring device according to claim 3, wherein said snoring module comprises a shock module and a vibration motor; said shock module is configured to generate and output a voltage or current when said control signal is received, An electric shock stimulus for suppressing the snoring behavior of the user is generated by the conductive silica gel sheet; and the vibration motor is configured to generate a vibration stimulus for suppressing the snoring behavior of the user upon receiving the control signal.
The snoring device of claim 1 , wherein the signal acquisition module is further configured to collect a snoring signal generated by the user under the jaw and send the snoring signal to the microprocessor.
The snoring apparatus according to claim 1, wherein said snoring module further comprises an audio module; and said audio module is operative to play the built-in audio file upon receiving said control signal.
The snoring device of claim 1 wherein said damper body further comprises a display screen; said display screen being coupled to said microprocessor for displaying data.
The snoring device according to claim 1, wherein the working module further comprises a wireless transmission module;

The wireless transmission module is coupled to the mobile device and the microprocessor for connection to the mobile device, system firmware update, and data synchronization.
The snoring device of claim 1 , wherein the working module further comprises a positioning module, the positioning module being coupled to the microprocessor for positioning the snoring device and positioning Information is sent to the microprocessor.
A stagnation method, which is applied to the snoring device according to any one of claims 1 to 8, characterized in that it comprises:

Acquiring sound signals and vibration signals from the user's throat;

And determining, according to the sound signal and the vibration signal, a sound signal and a vibration signal generated by the throat of the user exceeding a preset value, generating a snoring behavior for suppressing the user's snoring behavior in the throat of the user. Stop stimuli, including stimuli and/or stimuli.
The method of stopping sputum according to claim 9, wherein when it is determined that the sound signal and the vibration signal generated by the throat of the user exceed a preset value, the user's throat is used for suppressing the The snoring stimuli of the user's snoring behavior, including the vibration stimuli and/or the electric shock stimuli, further comprising:

The snoring stimulus is increased if the sound signal and the vibration signal generated by the throat of the user continue to exceed the preset value for a preset time.
The method of stopping sputum according to claim 9, further comprising:

Obtaining a sleep cycle of the user;

Writing the sound signal generated by the throat of the user and the sleep period in which the vibration signal exceeds the preset value as a first sleep cycle;

Writing the sound signal generated by the throat of the user and the sleep period in which the vibration signal does not exceed a preset value as a second sleep cycle;

Controlling the stagnation stimulation during the first sleep cycle, and controlling the snoring stimulation to decrease during the second sleep cycle;

Obtaining a breathing cycle of the user in different sleeping positions, and performing the electric shock stimulation according to the breathing cycle in different sleeping postures;

The intensity of the shock stimulus is adjusted by adjusting any one or more of amplitude, frequency, bandwidth, and duration of stimulation.
A stagnation system, comprising: the snoring device and the mobile device according to any one of claims 1 to 8, the snoring device further comprising a wireless transmission module, the wireless transmission module and the micro Processor connection

The snoring device sends an analysis result of the snoring signal to the mobile device by using the wireless transmission module, the mobile device is configured to receive the analysis result, and the wireless transmission module is further configured to receive the mobile device And transmitting the control instruction to the microprocessor, so that the microprocessor controls the working module to perform an operation corresponding to the control instruction after receiving the control instruction.