CN112642058A - Multifunctional physiotherapy instrument, multifunctional physiotherapy system and control method - Google Patents

Abstract

The embodiment of the invention provides a multifunctional physiotherapy instrument, a multifunctional physiotherapy system and a control method, and relates to the technical field of medical equipment. The embodiment of the invention provides a multifunctional physiotherapy instrument which comprises a sleep-assisting module, a snore-stopping module, a detection module and a control module. The sleep-assisting module, the snore stopping module and the detection module are all communicated with the control module, and the sleep-assisting module is controlled by the control module so that the multifunctional physiotherapy instrument is in a sleep-assisting mode; meanwhile, the detection module is used for outputting a snore signal representing snore information, and the control module is used for controlling the snore stopping module according to the snore signal so that the multifunctional physiotherapy instrument is in a snore stopping mode. The multifunctional physiotherapy instrument can combine a sleep-assisting module for promoting sleep and a snore-stopping module for stopping snore into a whole, thereby providing one-stop sleep-assisting service and being beneficial to reducing the production and manufacturing cost and the use cost of users.

Description

Multifunctional physiotherapy instrument, multifunctional physiotherapy system and control method

Technical Field

The invention relates to the technical field of medical equipment, in particular to a multifunctional physiotherapy instrument, a multifunctional physiotherapy system and a control method.

Background

The sleeping problem is an important problem which troubles modern people, and the snoring can cause damage to cerebral vessels and central nervous system in the sleeping process, so that the brain and blood have serious hypoxia phenomenon, and the snoring also can bring endless troubles to people around the body. Manifestations such as apnea, obstructive apnea syndrome, lethargy, myocardial infarction, and sudden death at night affect others' sleep.

In order to improve the sleep problem, some sleep-assisting products and snore-stopping products appear on the market at present, however, the existing sleep products and snore-stopping products are relatively independent products, and users have to purchase two sets of products, which causes high use cost.

Disclosure of Invention

The object of the present invention includes, for example, providing a multi-functional physiotherapy instrument which can improve the above-mentioned problems in the prior art.

The object of the present invention is also to provide a multifunctional physiotherapy system which is capable of improving the above-mentioned problems of the prior art.

It is also an object of the present invention to provide a control method which ameliorates the above problems of the prior art.

Embodiments of the invention may be implemented as follows:

the embodiment of the invention provides a multifunctional physiotherapy instrument, which comprises a sleep-assisting module; a snore stopping module; the snore stopping module comprises a snore stopping electrode, and the snore stopping electrode is used for generating micro-current stimulation on a throat part so as to stop snore; a detection module for outputting a snore signal representing snore information; the sleep-assisting module, the snore-stopping module and the detection module are all communicated with the control module; the control module is used for controlling the sleep-assisting module and controlling the snore-stopping module according to the snore signal.

Optionally, the snore stopping module further comprises an electrode patch, and the electrode patch is provided with a fitting surface used for fitting with the throat; the snore stopping electrode is buckled with the electrode patch, and the end face of the snore stopping electrode protrudes out of the binding face or is flush with the binding face.

Optionally, the detection module includes a sound decibel sensor in communication with the control module, and the snoring information includes decibel data of snoring; the control module is used for controlling the snore stopping module to be started under the condition that the decibel value of the snore reaches a preset value.

Optionally, the detection module further includes a vibration sensor in communication with the control module, and the vibration sensor is configured to output vibration data representing vibration of a human body;

the control module is used for controlling the snore stopping module according to the decibel data and the vibration data.

Optionally, the multifunctional physiotherapy instrument further comprises a first shell, and the control module and the detection module are integrated in the first shell.

Optionally, the multifunctional physiotherapy instrument further comprises a second shell and a third shell; the control module comprises a first microprocessor and a second microprocessor, and the first microprocessor and the second microprocessor are communicated; the first microprocessor is arranged in the second shell and is communicated with the sleep-assisting module; the second microprocessor and the detection module are integrated in the third shell, and the second microprocessor is respectively communicated with the snore stopping module and the detection module.

The embodiment of the invention also provides a multifunctional physiotherapy system. This multi-functional physiotherapy system mobile terminal and multi-functional physiotherapy equipment, mobile terminal with the control module communication of multi-functional physiotherapy equipment.

The embodiment of the invention also provides a control method. The control method comprises the following steps:

under the condition of meeting the sleep-aiding condition, controlling the start of the sleep-aiding module;

acquiring a snoring signal;

and controlling the snore stopping module according to the snore signal.

Optionally, the acquiring the snore signal includes acquiring decibel data representing snore;

the step of controlling the snore stopping module according to the snore signal comprises the following steps:

and controlling the snore stopping module under the condition that the decibel data are greater than a preset value.

Optionally, the acquiring the snoring signal further includes acquiring vibration data representing vibration of the human body;

the step of controlling the snore stopping module according to the snore signal further comprises the following steps:

and controlling the snore stopping module according to the vibration data and the decibel data.

The multifunctional physiotherapy instrument, the multifunctional physiotherapy system and the control method of the embodiment of the invention have the beneficial effects of, for example:

the embodiment of the invention provides a multifunctional physiotherapy instrument which comprises a sleep-assisting module, a snore-stopping module, a detection module and a control module. The sleep-assisting module, the snore stopping module and the detection module are all communicated with the control module, and the sleep-assisting module is controlled by the control module so that the multifunctional physiotherapy instrument is in a sleep-assisting mode; meanwhile, the detection module is used for outputting a snore signal representing snore information, and the control module is used for controlling the snore stopping module according to the snore signal so that the multifunctional physiotherapy instrument is in a snore stopping mode. The multifunctional physiotherapy instrument can combine a sleep-assisting module for promoting sleep and a snore-stopping module for stopping snore into a whole, thereby providing one-stop sleep-assisting service and being beneficial to reducing the production and manufacturing cost and the use cost of users.

The embodiment of the invention also provides a multifunctional physiotherapy system which comprises the multifunctional physiotherapy instrument. Because the multifunctional physiotherapy instrument comprises the multifunctional physiotherapy instrument, the multifunctional physiotherapy instrument has all the beneficial effects of the multifunctional physiotherapy instrument.

The embodiment of the invention also provides a control method, which comprises the following steps: under the condition of meeting the sleep-aiding condition, controlling the start of a sleep-aiding module; acquiring a snoring signal; and controlling the snore stopping module according to the snore signal. The control method simultaneously realizes the control of sleep aiding and snore stopping, thereby providing better sleep aiding service and being beneficial to reducing the production and manufacturing cost and the use cost of users.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic view illustrating an internal structure of a first multifunctional physiotherapy system according to an embodiment of the present invention;

fig. 2 is a block diagram of the multifunctional physiotherapy instrument according to the embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a second multifunctional physiotherapy system according to an embodiment of the present invention;

FIG. 4 is a schematic diagram illustrating an internal structure of a second multifunctional physiotherapy system according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of the multifunctional physiotherapy apparatus provided by the embodiment of the present invention;

figure 6 is a schematic view of a second multi-functional physiotherapy system having an alternative sleep-aid according to an embodiment of the present invention;

fig. 7 is a schematic front structural view of a snore stopping device in the multifunctional physiotherapy instrument provided by the embodiment of the invention;

fig. 8 is a schematic back structure view of the snore stopping device in the multifunctional physiotherapy instrument provided by the embodiment of the invention;

fig. 9 is a flowchart of a control method according to an embodiment of the present invention.

Icon: 10-multifunctional physiotherapy system; 100-multifunctional physiotherapy equipment; 110-a sleep-aid device; 111-a second housing; 112-sleep aid module; 113-a first boost module; 114-a first ac to dc converter; 115-ear clip electrodes; 116-a headset; 117-a first program-controlled constant current module; 118-a sleep aid; 121-isolated USB interface; 122-isolated power supply; 123-a first housing; 130-a control module; 131-a first microprocessor; 132-a second microprocessor; 140-snore stopping device; 141-a third housing; 142-snore stopping module; 143-a second boost module; 144-a second ac to dc converter; 145-a second program-controlled constant current module; 146-snore stopping electrode; 147-electrode patch; 148-battery pack; 149-a communication module; 151-start switch; 152-a charging interface; 160-a detection module; 161-sound decibel sensor; 162-a shock sensor; 200-a mobile terminal; 20-human body.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that if the terms "upper", "lower", "inside", "outside", etc. indicate an orientation or a positional relationship based on that shown in the drawings or that the product of the present invention is used as it is, this is only for convenience of description and simplification of the description, and it does not indicate or imply that the device or the element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention.

Furthermore, the appearances of the terms "first," "second," and the like, if any, are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

It should be noted that the features of the embodiments of the present invention may be combined with each other without conflict.

The key terms:

brain-computer interface (BCI bridge computer interface or BMI bridge machine interface): it is a new type of information communication and control channel established between the brain and the external environment without relying on the conventional spinal cord/peripheral neuromuscular system. Four categories are determined according to the information transmission direction, namely brain-to-brain, brain-to-brain and brain-to-brain fusion.

(1) Brain-to-machine: the brain signal detection technology is used for obtaining the activity change of the nervous system, classifying and identifying the signals, distinguishing the action intention for inducing the brain signal change, and converting thinking activity into command signals by using a computer to drive external equipment, so that the brain can directly control the external environment under the condition that no muscle or peripheral nerve directly participates.

(2) From machine to brain: by applying finely coded external stimuli (e.g. micro-electrical, optical, magnetic, etc.) to specific parts of the brain or other nervous system of a living being, certain specific senses and behaviors of the living being are awakened or controlled.

(3) From brain to brain: the neural signal of one brain is decoded in real time, and the decoding result is re-encoded and then directly transmitted to the other brain, so that the neural signal acts on the other brain.

(4) Brain-machine fusion: brain-computer fusion is the inevitable trend of brain-computer interface technology development, in a brain-computer fusion system, information is transmitted between a brain and a brain, and between the brain and a machine, the brain and the machine are adaptive and cooperative, the sensory cognitive ability of a biological brain and the computing ability of the machine are perfectly combined, and the biological brain and the machine are mutually matched at multiple levels of information perception, information processing, decision judgment, even memory, intention and the like.

Transcranial micro-current stimulation (CES) is a completely different treatment method from traditional medicine treatment and electrocution treatment, and can stimulate the brain by means of low-intensity trace current, change abnormal brain wave of patient's brain and promote the brain to secrete a series of neurotransmitters and hormones which are closely related to anxiety, depression and insomnia, so that these diseases can be treated. Compared with the drug therapy, the treatment method has no side effect and stable curative effect, so the drug therapy is generally used in other countries such as Europe and America and is used as a safe and effective treatment method for treating anxiety, depression, insomnia and related diseases of children.

At present, in order to improve the sleep problem, some sleep-assisting products and snore-stopping products appear on the market, and respectively adopt a low-frequency pulse electrical stimulation mode to stimulate the human body. However, the existing sleep products and snore stopping products are relatively independent products, and users have to purchase two sets of products, so that the use cost is high.

The present embodiment provides a multi-functional physiotherapy instrument 100 to improve the above problems. The following describes the multi-functional physiotherapy instrument 100 provided in this embodiment.

Fig. 1 is a schematic diagram of an internal structure of a first multifunctional physiotherapy system 10 provided in this embodiment. Referring to fig. 1, the present embodiment provides a multifunctional physiotherapy apparatus 100, and accordingly, a multifunctional physiotherapy system 10.

The multi-functional physiotherapy system 10 includes the multi-functional physiotherapy instrument 100, and at the same time, the multi-functional physiotherapy system 10 further includes a mobile terminal 200, and the mobile terminal 200 communicates with the control module 130 of the multi-functional physiotherapy instrument 100 to perform data transmission between the mobile terminal 200 and the multi-functional physiotherapy instrument 100. Specifically, mobile terminal 200 is intelligent platforms such as cell-phone or flat board, and it has the APP that matches with multi-functional physiotherapy equipment 100 to dispose in it, and user's accessible mobile terminal 200 embeds APP sets up multi-functional physiotherapy equipment 100. It is understood that in other embodiments, the type of the mobile terminal 200 may be set according to requirements, for example, the mobile terminal 200 is set as a remote controller.

Fig. 2 is a block diagram of the multifunctional physiotherapy instrument 100 according to the present embodiment. Referring to fig. 2, the multifunctional physiotherapy apparatus 100 includes a sleep-assisting module 112, a snore-stopping module 142, a detecting module 160 and a control module 130. The sleep-assisting module 112, the snore-stopping module 142 and the detecting module 160 are all communicated with the control module 130, and the sleep-assisting module 112 is controlled by the control module 130, so that the multifunctional physiotherapy instrument 100 is in a sleep-assisting mode; meanwhile, the detection module 160 is configured to output a snore signal representing snore information, and the control module 130 further controls the snore stopping module 142 according to the snore signal, so that the multifunctional physiotherapy instrument 100 is in a snore stopping mode. The multifunctional physiotherapy instrument 100 can be integrated with a sleep-assisting module 112 for promoting sleep and a snore-stopping module 142 for stopping snoring, thereby providing a one-stop sleep-assisting service, which helps to reduce the manufacturing cost and the use cost of a user.

The multifunctional physiotherapy instrument 100 provided in the present embodiment is further described as follows:

referring to fig. 1 and 2, in the present embodiment, the multifunctional physiotherapy instrument 100 further includes a first housing 123, and the control module 130 and the detection module 160 are integrated in the first housing 123. The multifunction physiotherapy instrument 100 further includes an isolated USB interface 121 and an isolated power supply 122 integrated within the first housing 123.

Further, the sleep-assisting module 112 includes a first voltage-boosting module 113, a first ac/dc converter 114, a first program-controlled constant-current module 117, and a sleep-assisting element 118. The first boost module 113, the first ac/dc converter 114, and the first program-controlled constant current module 117 are integrated in the first housing 123. Specifically, the isolated USB interface 121 and the isolated power supply 122 together form an interface between the multifunctional physiotherapy apparatus 100 and the mobile terminal 200, and the interface is used for being connected to the mobile terminal 200 through a data line, so as to implement data transmission and electric energy conduction between the multifunctional physiotherapy apparatus 100 and the mobile terminal 200. By arranging the isolation USB interface 121 and the isolation power supply 122 to receive a specific voltage, the problems of voltage jump of the mobile terminal 200, and damage to the sleep-assisting module 112 and the snore-stopping module 142 can be effectively avoided.

The isolated USB interface 121 is connected to the control module 130, and data transmission between the control module 130 and the mobile terminal 200 is performed through the isolated USB interface 121. The isolation power supply 122 is electrically connected to the first voltage boosting module 113, so that the dc power entering the sleep-assisting device 110 is boosted to an operating voltage by the first voltage boosting module 113, the first voltage boosting module 113 is electrically connected to the first ac/dc converter 114, so that the dc power is converted into ac power by the first ac/dc converter 114, and the ac operating current is maintained constant by the first program-controlled constant current module 117 electrically connected to the first ac/dc converter 114. Optionally, the operating voltage is 11V.

Further, the snore stopping module 142 further includes a second boosting module 143, a second ac/dc converter 144, and a second program-controlled constant current module 145, and the second boosting module 143, the second ac/dc converter 144, and the second program-controlled constant current module 145 are all integrated in the first housing 123. The control module 130 controls both the sleep aid module 112 and the snore stopping module 142. Specifically, the control module 130 is electrically connected to the isolation USB interface 121, so as to implement communication between the mobile terminal 200 and the control module 130, and meanwhile, the control module 130 is electrically connected to the first program-controlled constant current module 117 and the second program-controlled constant current module 145, so as to implement control of the sleep-assisting module 112 and the snore-stopping module 142 by the control module 130. The detection module 160 is electrically connected to the isolated USB interface 121, so that data transmission with the control module 130 or the mobile terminal 200 can be realized through the isolated USB interface 121. The isolated power supply 122 is electrically connected to the first boost module 113, the second boost module 143, and the detection module 160.

It should be noted that, in the present embodiment, the snore stopping module 142 and the sleep assisting module 112 are integrated in the first housing 123, and it should be understood that, in other embodiments, the snore stopping module 142 and the sleep assisting module 112 may be separately provided according to requirements.

Fig. 3 is a schematic structural diagram of a second multifunctional physiotherapy system 10 provided in this embodiment, fig. 4 is a schematic structural diagram of the second multifunctional physiotherapy system 10 provided in this embodiment, and fig. 5 is a schematic structural diagram of the multifunctional physiotherapy instrument 100 provided in this embodiment in use. Referring to fig. 3-5, the multi-functional physiotherapy apparatus 100 shown in fig. 3-5 is substantially the same as the multi-functional physiotherapy apparatus 100 shown in fig. 1, except that the multi-functional physiotherapy apparatus 100 shown in fig. 4 further includes a second housing 111 and a third housing 141. The control module 130 includes a first microprocessor 131 and a second microprocessor 132, the first microprocessor 131 and the second microprocessor 132 being in communication. The first microprocessor 131 is disposed in the second housing 111, and the first microprocessor 131 is in communication with the sleep-assisting module 112. The second microprocessor 132 and the detection module 160 are integrated in the third housing 141, and the second microprocessor 132 is in communication with the snore stopping module 142 and the detection module 160, respectively.

The second shell 111, the isolated USB interface 121, the isolated power supply 122, the first microprocessor 131, and the sleep-assisting module 112 form a sleep-assisting apparatus 110 of the multifunctional physiotherapy apparatus 100. The multifunctional physiotherapy instrument 100 further comprises a communication module 149 and a battery pack 148 integrated in the third housing 141, and the third housing 141, the communication module 149, the battery pack 148, the second microprocessor 132, the detection module 160 and the snore stopping module 142 form the snore stopping device 140 of the multifunctional physiotherapy instrument 100.

Specifically, the isolation USB interface 121, the isolation power supply 122, the first boost module 113, the first ac/dc converter 114, and the first program-controlled constant current module 117 are integrated in the second housing 111, and the second boost module 143, the second ac/dc converter 144, and the second program-controlled constant current module 145 are integrated in the first housing 123.

Specifically, the isolated USB interface 121 and the isolated power supply 122 form a connection interface of the sleep-assisting apparatus 110, and are connected to the mobile terminal 200 through a data line, so as to implement data transmission and power supply. The communication module 149 communicates with the mobile terminal 200 through wireless communication means such as bluetooth, so as to realize communication between the snore stopping device 140 and the mobile terminal 200, and the battery pack 148 arranged in the third casing 141 realizes power supply to the snore stopping device 140.

It should be noted that, in this embodiment, the communication module 149 communicates with the mobile terminal 200, and the control of the snore stopping module 142 can be realized through the mobile terminal 200, it can be understood that, in other embodiments, a control manner can be continuously set according to a requirement, for example, a display screen is integrated at the sleep assisting device 110, the snore stopping device 140 directly communicates with the sleep assisting device 110, and a user can set the multifunctional physiotherapy apparatus 100 at the sleep assisting device 110.

Referring to fig. 3, in the present embodiment, the sleep-aid member 118 includes an ear clip electrode 115, and when in use, the ear clip electrode 115 is clipped at the ear lobe of the human body 20. The ear clip electrode 115 is electrically connected to the circuitry within the second housing 111 to generate low frequency pulses on the ear lobe of the person 20 under the control of the first microprocessor 131 to assist the user in sleep through microcurrent stimulation. Specifically, the user may set the intensity of the low frequency pulse within the APP at the mobile terminal 200. The ear clip electrodes 115 are arranged to generate micro-current to stimulate and intervene the neurons to help sleep, so that the sleep-aiding effect is good, the sleep quality can be greatly improved, and meanwhile, the ear clip electrodes are safe and effective without any side effect.

Further, the sleep aid 118 further includes an earphone 116, and the earphone 116 is used for playing sleep aid audio to aid sleep. In the present embodiment, the earphone 116 and the electrode ear clip are integrated into the same accessory, in other words, the earphone 116 and the electrode ear clip are connected to the circuit in the second housing 111 through the same interface. It will be appreciated that in other embodiments, the ear piece 116 and the electrode ear clip may be provided as separate accessories, and the ear piece 116 and the electrode ear clip may be connected to the circuitry in the second housing 111 through different interfaces (as shown in fig. 6).

It should be noted that, in the present embodiment, the sleep-assisting module 112 is provided with the ear clip electrode 115 and the earphone 116 at the same time, and the user can assist sleep through the combined action of the ear clip electrode 115 and the earphone 116, or the user can set the sleep-assisting mode on the mobile terminal 200 to select the micro-current stimulation or audio frequency to assist sleep, and it can be understood that, in other embodiments, only the ear clip electrode 115 or the earphone 116 can be provided to assist sleep according to the requirement.

Referring to fig. 3, in the present embodiment, the snore stopping module 142 includes a snore stopping electrode 146, the snore stopping electrode 146 is used for generating micro-current stimulation to the throat, and the sublingual nerve at the throat is stimulated to regulate and control the contraction of the tongue muscle, so as to stop snore. The inventor researches and discovers that the fundamental cause of snoring is airway obstruction, so that the snore can be fundamentally stopped by generating micro-current stimulation on the throat part, promoting tongue muscle to stretch and retract and dredging the airway.

Specifically, the detecting module 160 is electrically connected to the communication module 149, and the communication module 149 is electrically connected to the second microprocessor 132 to transmit data between the snore stopping device 140 and the mobile terminal 200. The battery pack 148 is electrically connected to the sensing module 160 and the second boosting module 143, so that the sensing module 160 and the second boosting module 143 are supplied with electric power through the battery pack 148. The second microprocessor 132 is electrically connected with the battery pack 148 so as to control the battery pack 148 to provide electric energy for the snore stopping module 142, and the second microprocessor 132 is electrically connected with the second program-controlled constant current module 145 so as to control the snore stopping module 142 to start and stop through the second microprocessor 132. The second boost module 143 is configured to boost the direct current provided by the battery pack 148 to a working voltage (e.g., 11V), and the second boost module 143 is electrically connected to the second ac/dc converter 144, so as to convert the direct current into an alternating current required by the snore stopping electrode 146 through the second ac/dc converter 144, and maintain the working current of the alternating current constant through the second program-controlled constant current module 145 connected to the second ac/dc converter 144.

Fig. 7 is a schematic front view of the snore stopping device 140 of the multifunctional physiotherapy instrument 100 according to the embodiment, and fig. 8 is a schematic back view of the snore stopping device 140 of the multifunctional physiotherapy instrument 100 according to the embodiment. Referring to fig. 1 to 8, optionally, a start switch 151 is disposed on the third housing 141 to control the switch of the snore stopping device 140, and a charging interface 152 is disposed thereon to charge the snore stopping device 140 through a charging device.

Optionally, the snore stopping module 142 further comprises an electrode patch 147. The electrode patch 147 has an abutment surface for abutment with the laryngeal portion of the pharynx. The snore stopping electrode 146 is buckled with the electrode patch 147, and the end face of the snore stopping electrode 146 protrudes out of the joint face or is flush with the joint face.

Specifically, the electrode patch 147 is a sheet structure having two opposite side surfaces in the thickness direction, where one side surface is a bonding surface. The electrode patch 147 is provided with a through hole buckled with the snore stopping electrode 146, so that the snore stopping electrode 146 extends from the other side surface of the electrode patch 147 to the jointing surface, when the jointing surface is contacted with the skin of the throat part of the human body 20, the snore stopping electrode 146 is contacted with the skin of the throat part of the human body 20, and therefore microcurrent stimulation is carried out on the hypoglossal nerve through the snore stopping electrode 146, and then the hypoglossal nerve regulates and controls the contraction of the tongue muscle, so that the respiratory tract is unblocked, and the snoring is stopped. Optionally, a film capable of being separated from the electrode patch 147 is further disposed on the attachment surface of the electrode patch 147, before use, the film is attached to the attachment surface, and when in use, the user can tear off the film and apply the electrode patch 147 to the throat of the human body 20.

Referring to fig. 1-8 in addition, in the present embodiment, the detecting module 160 is used for outputting a snore signal representing snore information. The detection module 160 includes a sound decibel sensor 161 that communicates with the control module 130, and the snoring information includes decibel data for snoring. The control module 130 is configured to control the snore stopping module 142 to start up when the decibel value of the snore reaches a preset value, and at this time, the snore stopping module 142 generates a low-frequency pulse according to the set intensity, and stimulates the tongue muscle of the human body 20 to contract by the micro-current, so that the human body breathes smoothly and stops snoring.

Optionally, the preset value of decibel is 40dB, that is, when the snore decibel detected by the sound decibel sensor 161 exceeds 40dB, the control module 130 controls the snore stopping module 142 to start, and after the snore stops, the control module 130 controls the snore stopping module 142 to stop working. Meanwhile, after one-time work is finished, the mobile terminal 200 records once, and the working frequency analysis can be obtained from the APP the next day, so that whether the snore stopping is effective or not is judged. Optionally, the output frequency of the low frequency pulse generated by the snore stopping module 142 is 10HZ to 500 HZ. It will be appreciated that the magnitude of the output frequency of the low frequency pulses generated by the multifunction physiotherapy instrument 100 can be adjusted according to the user's needs during a particular use.

Further, the detection module 160 further includes a vibration sensor 162 in communication with the control module 130, the vibration sensor 162 is configured to output vibration data representing vibration of the human body 20, a default value of the vibration frequency is 30Hz, when the vibration sensor 162 detects that the vibration frequency representing the throat of the human body is greater than or equal to 30Hz, the control module 130 controls the snore stopping module 142 to start, and after the snore stops, the control module 130 controls the snore stopping module 142 to stop working. The control module 130 is configured to control the snore stopping module 142 according to the decibel data and the vibration data. In this embodiment, the vibration sensor 162 and the sound decibel sensor 161 are integrated in the third housing 141, and are attached to the throat of the human body 20 when in use, when decibel information detected by the sound decibel sensor 161 exceeds a preset value, the vibration data detected by the vibration sensor 162 assists in determining whether the user snores, and the snore stopping module 142 is controlled according to the determination result. For example, when the decibel value is greater than 40dB and the vibration intensity is higher than 30Hz, the user is in the snoring state.

Optionally, the decibel data and the vibration data are both transmitted to the mobile terminal 200, whether the user snores is determined by analyzing, identifying and judging the mobile terminal 200, and the snore stopping module 142 is controlled by setting the working frequency and the duration and by the control module 130. It is understood that in other embodiments, the control module 130 may be configured to perform the analysis and determination by the control module 130 according to the requirement.

According to the multifunctional physiotherapy system 10 provided by the present embodiment, the operation principle of the multifunctional physiotherapy system 10 is as follows:

when the snore stopping device is used, the electrode patch 147 is attached to the throat part of a user, the mobile terminal 200 is opened, the mobile terminal 200 is in communication connection with the snore stopping device 140, and meanwhile the electrical stimulation size and the working mode are set according to requirements. Help the user to fall asleep through helping dormancy module 112, fall asleep at the user simultaneously after, if the condition of snoring appears, sound decibel sensor 161 can receive the snore that comes from the user, APP will assist the judgement according to the vibrations data of vibrations sensor 162 output simultaneously, finally carry out intelligent identification and analysis by APP, then send for multi-functional physiotherapy equipment 100, multi-functional physiotherapy equipment 100's control module 130 starts the electro photoluminescence according to received instruction control snore stopping module 142, carry out little current stimulation to hypoglossal nerve, and then hypoglossal nerve regulation and control the contraction of the tongue muscle, make its respiratory track unblocked, and stop snoring. After one-time work is finished, the mobile terminal 200 records once, and the working frequency analysis can be obtained from the APP the next day, so that whether the snore stopping is effective or not is judged.

The multifunctional physiotherapy instrument 100 provided by the embodiment at least has the following advantages:

the multifunctional physiotherapy instrument 100 provided by the embodiment organically combines the sleep-assisting device 110 for promoting sleep and the snore-stopping device 140 for stopping snore into an integrated multifunctional product, reduces the production and manufacturing cost and the use cost, provides one-stop sleep-assisting service, can better realize the improvement of sleep quality, and has good use effect.

The present embodiment also provides a multi-functional physiotherapy system 10 including the above-described multi-functional physiotherapy apparatus 100, thereby also having all the advantageous effects of the multi-functional physiotherapy apparatus 100.

Fig. 9 is a flowchart of the control method provided in this embodiment. Referring to fig. 9, the present embodiment also provides a control method, which may be executed by the control module 130 and the APP in the mobile terminal 200 together, or may be executed by only the control module 130. The control method comprises the following steps:

SO 1: and controlling the sleep-assisting module 112 to start under the condition that the sleep-assisting condition is met.

In case of satisfying the sleep-aid condition, the ear clip electrode 115 of the sleep-aid module 112 can be controlled to generate micro-current stimulation according to the setting to promote sleep, and/or the earphone 116 of the sleep-aid module 112 can be controlled to play the sleep-aid audio. The sleep-assisting condition can be set according to the requirement, for example, the sleep-assisting condition can be that the client starts the sleep-assisting function, or the client starts the multifunctional physiotherapy instrument 100 for a certain period of time.

S02: a snoring signal is acquired.

The detection module 160 outputs the detected snoring signal. The detection module 160 includes a sound decibel sensor 161 and acquiring the snoring signal includes acquiring decibel data indicative of snoring. Further, the detection module 160 further includes a vibration sensor 162, and acquiring the snoring signal further includes acquiring vibration data indicative of a vibration of the throat of the person 20.

S03: the snore stopping module 142 is controlled according to the snore signal.

And controlling the snore stopping module 142 under the condition that the decibel data are greater than the preset value. Since the detection module 160 further includes the vibration sensor 162, this step further includes controlling the snore stopping module 142 according to the vibration data and the decibel data.

Specifically, when the human body snores, the sound decibel sensor 161 receives snore, the vibration sensor 162 outputs the acquired vibration data representing the vibration of the throat of the human body 20, and auxiliary judgment is performed according to the vibration data output by the vibration sensor 162, so that whether the user snores or not is determined through intelligent identification and analysis, if the user snores, the snore stopping module 142 is controlled to be started, the snore stopping module 142 generates electric stimulation to stimulate micro-current of the hypoglossal nerve, and then the hypoglossal nerve regulates and controls the contraction of the tongue muscle to enable the respiratory tract of the user to be unblocked, and the snoring is stopped. Meanwhile, after one-time work is finished, recording is carried out, so that whether the snore stopping is effective or not can be judged according to the snore stopping working frequency.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (10)

1. A multi-functional physiotherapy apparatus comprising a sleep aid module (112) and a control module (130), wherein the multi-functional physiotherapy apparatus (100) further comprises:

the snore stopping module (142), the snore stopping module (142) comprises a snore stopping electrode (146), and the snore stopping electrode (146) is used for generating micro-current stimulation to the throat part so as to stop snore; and

a detection module (160), the detection module (160) for outputting a snoring signal representative of snoring information;

wherein the sleep-aiding module (112), the snore-stopping module (142) and the detecting module (160) are all in communication with the control module (130); the control module (130) is used for controlling the sleep-assisting module (112) and controlling the snore-stopping module (142) according to the snore signal.

2. The multifunctional physiotherapy instrument of claim 1, wherein the snore stopping module (142) further comprises an electrode patch (147), the electrode patch (147) having an abutment surface for abutment with the throat; the snore stopping electrode (146) is buckled with the electrode patch (147), and the end face of the snore stopping electrode (146) protrudes out of the binding face or is flush with the binding face.

3. The multi-functional physiotherapy instrument of claim 1, wherein said detection module (160) comprises a sound decibel sensor (161) in communication with said control module (130), said snoring information comprising decibel data of snoring; the control module (130) is used for controlling the snore stopping module (142) to be started under the condition that the decibel value of the snore reaches a preset value.

4. The multi-functional physiotherapy instrument of claim 3, wherein the detection module (160) further comprises a vibration sensor (162) in communication with the control module (130), the vibration sensor (162) for outputting vibration data indicative of vibrations of the human body (20);

the control module (130) is used for controlling the snore stopping module (142) according to the decibel data and the vibration data.

5. The multi-functional physiotherapy apparatus of claim 1, wherein the multi-functional physiotherapy apparatus (100) further comprises a first housing (123), the control module (130) and the detection module (160) each being integrated within the first housing (123).

6. The multi-functional physiotherapy instrument of claim 1, wherein the multi-functional physiotherapy instrument (100) further comprises a second housing (111) and a third housing (141); the control module (130) comprises a first microprocessor (131) and a second microprocessor (132), the first microprocessor (131) and the second microprocessor (132) being in communication; the first microprocessor (131) is arranged in the second shell (111), and the first microprocessor (131) is communicated with the sleep-assisting module (112); the second microprocessor (132) and the detection module (160) are integrated within the third housing (141), and the second microprocessor (132) communicates with the snore stopping module (142) and the detection module (160), respectively.

7. A multi-functional physiotherapy system, comprising a mobile terminal (200) and the multi-functional physiotherapy apparatus (100) of any one of claims 1 to 6, said mobile terminal (200) being in communication with a control module (130) of said multi-functional physiotherapy apparatus (100).

8. A control method, characterized in that the control method comprises:

under the condition of meeting the sleep-aiding condition, controlling a sleep-aiding module (112) to start;

acquiring a snoring signal;

and controlling a snore stopping module (142) according to the snore signal.

9. The control method of claim 8, wherein the obtaining snoring signals includes obtaining decibel data indicative of snoring;

the step of controlling the snore stopping module (142) according to the snore signal comprises:

and controlling the snore stopping module (142) under the condition that the decibel data are greater than a preset value.

10. The control method of claim 9, wherein said acquiring snoring signals further comprises acquiring vibration data indicative of vibrations of the person (20);

the step of controlling the snore stopping module (142) according to the snore signal further comprises:

and controlling the snore stopping module (142) according to the vibration data and the decibel data.

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