CN114618132A - Fatty liver treatment system - Google Patents

Abstract

The invention discloses a fatty liver treatment system, which comprises a host system and a power supply system; the host system comprises a main control module, a respiratory rhythm auxiliary guide module and a visualization module; the respiratory rhythm auxiliary guide module guides a user to perform inspiration or expiration movement according to the control signal and adjusts the breathing rhythm speed of the user; the respiratory rhythm assistance guidance module comprises one or more of a pressure-based respiration guidance module, a vibration-based respiration guidance module, an electrical stimulation-based respiration guidance module, an auditory sense-based respiration guidance module, and a visual sense-based respiration guidance module; the power supply system is used for supplying power to the host system. The invention can effectively guide the user to breathe slowly, and can also effectively regulate the breathing rhythm of the user, thereby providing help for the user to treat fatty liver.

Description

Fatty liver treatment system

Technical Field

The invention relates to the field of fatty liver treatment, in particular to a fatty liver treatment system.

Background

In recent years, with the quality of life getting better, the probability of suffering from fatty liver is higher. Fatty liver refers to a pathological change of fat accumulation in liver cells caused by obesity, metabolic syndrome, bad living habits and the like, so that the normal function of the liver is affected, and the pathological change is the most common pathological change of the liver worldwide and can be manifested as hypodynamia, nausea, vomiting and the like. However, the clinical manifestation of fatty liver is asymptomatic in mild cases, but if intervention measures are not taken, the fatty liver may develop into cirrhosis and even liver cancer in severe cases, and the guide treatment of fatty liver based on slow breathing rhythm becomes a research hotspot for non-drug treatment of fatty liver at present.

Disclosure of Invention

The invention aims to provide a fatty liver treatment system, which comprises a host system and a power supply system;

the host system comprises a main control module, a respiratory rhythm auxiliary guide module and a visualization module;

the main control module receives the pressure monitoring signal sent by the respiratory rhythm auxiliary guiding module and sends a control signal to the respiratory rhythm auxiliary guiding module according to the pressure monitoring signal;

the respiratory rhythm auxiliary guiding module monitors the compression condition of a user and sends a pressure monitoring signal to the main control module;

the respiratory rhythm auxiliary guide module guides a user to perform inspiration or expiration movement according to the control signal and adjusts the breathing rhythm speed of the user;

the respiratory rhythm assistance guidance module comprises one or more of a pressure-based respiration guidance module, a vibration-based respiration guidance module, an electrical stimulation-based respiration guidance module, an auditory sense-based respiration guidance module, and a visual sense-based respiration guidance module;

the pressure-based breathing guiding module adjusts the pressure applied to the liver area of the user according to the received control signal, guides the user to perform inspiration or expiration movement, and adjusts the breathing rhythm speed of the user;

the vibration-based breathing guide module adjusts the pressure applied to the waist and abdomen of the user according to the received control signal, guides the user to perform inspiration or expiration movement, and adjusts the breathing rhythm speed of the user;

the respiration guiding module based on the electrical stimulation adjusts the electrical stimulation applied to the user according to the received control signal, guides the user to perform inspiration or expiration movement, and adjusts the breathing rhythm speed of the user;

the respiration guiding module based on the auditory sense plays voice and music according to the received control signal, so as to prompt a user to inhale and exhale;

the vision-based respiration guiding module sends an expiration and inspiration rhythmicity guiding picture generation signal to the visualization module according to the received control signal;

the visualization module comprises a data display module and a user interaction module;

the data display module generates signals according to the expiratory and inspiratory rhythmic guide pictures to display the expiratory and inspiratory rhythmic guide pictures;

the user interaction module is used for interacting with a user;

the power supply system is used for supplying power to the host system.

Further, the pressure-based respiration guiding module comprises an air bag fixing belt module, an air bag module, an air pressure control module, an air bag vibration module and an air pressure detection module;

the airbag fixing belt module fixes the airbag module on the abdomen of the user so that the airbag module corresponds to the liver of the user;

the air bag module, the air pressure control module and the air bag vibration module are fixed on the air bag fixing belt module;

after the air pressure control module receives the control signal, the air bag module is pressurized or depressurized according to the pressurized condition of the air bag module;

when the air pressure control module pressurizes the air bag module, the air bag module expands to press the liver area of the user,

when the air pressure control module decompresses the air bag module, the air bag module contracts and is far away from the liver area of a user;

the air bag vibration module is arranged in the air bag module; when the air bag vibration module receives the control signal, the air bag vibration module vibrates to perform vibration massage on the liver of the user.

The gas pressure detection module monitors the pressure condition of the air bag module in the pressurizing and depressurizing processes and sends the pressure condition to the air pressure control module.

Further, the vibration-based respiration guidance module comprises a belt module, a pressure control module, a pressure detection module and a belt vibration module;

the waist and abdomen belt module is bound on the waist and abdomen of the user;

the pressure control module, the pressure detection module and the vibration module are fixed on the belt module;

the pressure control module is used for pressurizing or decompressing the belt module according to the pressure condition of the belt module after receiving the control signal, so as to pressurize or decompress the waist and abdomen of the user;

when the pressure control module is pressurized, the shock-based breathing guidance module guides the user to inhale or exhale; the shock-based breathing guidance module guides a user to exhale or inhale when the pressure control module is pressurized;

when the pressure control module starts to pressurize or decompress, the pressure control module controls the vibration of the girdle vibration module to guide a user to perform inspiration or expiration movement;

the pressure detection module monitors the compression condition of the waist and abdominal belt module in the compression and decompression processes and sends the compression condition to the pressure control module;

when the pressure condition of the belt module exceeds a preset pressure threshold value, the pressure control module stops operating;

the pressure detection module further comprises an initial pressurization module;

after a user wears the respiration guiding module based on vibration, the initial pressurizing module sends a pressurizing signal to the main control module;

after receiving the pressurizing signal, the main control module sends a control signal to the pressure control module to enable the pressure control module to actively pressurize, so that the pressure between the waistband module and the abdomen of the user is increased to a preset value P_presetvalue。

The pressure control module is used for carrying out pressurization according to the control signal, and the decompression quantity for carrying out decompression passes through the real-time pressure P between the waist belt and the abdomen of the user_realtimeCarrying out characterization;

real time pressure P_realtimeAs follows:

P_realtime＝P_presetvalue+ΔP_variable (1)

wherein, Δ P_variableThe system is preset with the amount of pressurization or depressurization that changes over time.

Further, the pressure control module comprises a liquid pressure control module, a gas pressure control module, a mechanical pressure control module and an electromagnetic spring pressure control module which are used for pressurization and depressurization;

the liquid pressure control module comprises protective liquid, a pressure control bag and a pressure control pump; the gas pressure control module comprises a protective gas, a pressure control bag and a pressure control pump; the mechanical pressure control module comprises a pressure control motor; the electromagnetic spring pressure control module comprises an electromagnetic control motor and a spring.

Further, the electrical stimulation based respiration guidance module comprises an electrode plate module and an electrical stimulation pulse generator module;

the electrical stimulation pulse generator module generates a pulse signal according to the received control signal and sends the pulse signal to the electrode plate module;

the electrode plate module attaching position comprises the ear part and the abdomen part of a user;

after the electrode plate module receives the pulse signal, the ear and the abdomen of the user are stimulated, the user is guided to perform inspiration or expiration movement, and the breathing rhythm of the user is adjusted.

Further, the main control module comprises a control module, a data storage module and a data processing module;

the control module is used for controlling the work of the respiratory rhythm auxiliary guide module;

the data storage module is used for storing data;

the data processing module is used for processing the pressure signal so as to generate a control signal.

Further, the host system also comprises a mobile payment module, a signal transmission module and a positioning module;

before using the fatty liver treatment system, the user completes payment through the mobile payment module;

the mobile payment module comprises a payment information display module and a payment data transmission module;

the payment information display module sends payment signals to the visualization module, so that the visualization module displays two-dimensional code information for payment;

after the user finishes payment, the payment data transmission module sends a payment success signal to the main control module;

after the main control module receives the successful payment signal, the fatty liver treatment system starts to work;

the signal transmission module is used for realizing data interaction between the main control module and the breathing rhythm auxiliary guide module;

the positioning module comprises a GPS antenna module, a Beidou satellite antenna module and a signal receiving module;

the GPS antenna module receives or sends a GPS navigation signal;

the Beidou satellite antenna module is used for receiving or sending a Beidou satellite communication signal;

the signal receiving module is used for carrying out GPS positioning on the GPS navigation signal or carrying out Beidou positioning on the Beidou satellite communication signal.

The positioning module is used for sending out an alarm signal carrying positioning when a user is pressed or a physiological parameter exceeds a threshold value;

further, the power supply system comprises a battery and a charging device;

the charging device charges a battery;

the battery supplies power to the host system.

Further, the method also comprises a mobile user end;

the mobile user end comprises a host system control module, an effect display module and a historical data recording module;

the host system control module is used for sending a control instruction to the main control module to complete the control of the respiratory guidance treatment instruction;

the effect display module is used for displaying physiological parameters of a user and the respiratory rhythm of the current user;

the historical data recording module is used for automatically recording the data of the user.

Further, the host system also comprises a physiological parameter monitoring module;

the physiological parameter detection module comprises a blood oxygen monitoring module, an electrocardio monitoring module, a respiratory frequency monitoring module, a blood pressure monitoring module and an alarm module;

the blood oxygen monitoring module is used for monitoring the blood oxygen of a user;

the electrocardio monitoring module is used for monitoring the electrocardio of a user;

the respiratory frequency monitoring module is used for monitoring the respiratory frequency of a user;

the blood pressure monitoring module is used for monitoring the blood pressure of a user;

when any physiological parameter exceeds a preset normal range, the alarm module sends an alarm signal to the main control module to enable the main control module to stop the operation of the fatty liver treatment system; the physiological parameters comprise blood oxygen, electrocardio, respiratory rate and blood pressure.

Further, the host system further comprises an abdomen massage module;

the abdomen massage module comprises a respiratory rhythm auxiliary guide data receiving module, an infrared heating module and a massage head module;

the respiratory rhythm auxiliary guiding data receiving module is used for receiving data of the respiratory rhythm auxiliary guiding module;

the infrared heating module is used for carrying out infrared heating on the abdomen massage part of the user;

the massage head module is used for massaging the abdomen of a user;

the massage head module and the breathing rhythm auxiliary guide module work synchronously;

the working modes of the massage head module comprise one or more of the following:

1) pressure squeezing massage mode: when the user exhales, the massage head module performs extrusion operation on the abdomen of the user; when the user inhales, the massage head module is far away from the abdomen of the user;

2) vibration massage mode: when the user exhales, the massage head module performs vibration operation on the abdomen of the user; when a user inhales, the abdomen of the user is operated without vibration;

3) electric stimulation massage mode: the massage head module receives the pulse signal sent by the electrical stimulation pulse generator module and carries out electrical stimulation operation on the abdomen of the user.

The technical effects of the invention are undoubted, the invention can effectively guide the user to breathe slowly, and can also effectively regulate the breathing rhythm of the user, thereby providing help for the user to treat fatty liver.

Drawings

FIG. 1 is a diagram illustrating an overall system configuration according to an embodiment of the present invention;

FIG. 2 is a block diagram of a system incorporating abdominal massage in an embodiment of the present invention;

FIG. 3 is a block diagram of a system incorporating a physiological parameter monitoring module according to an embodiment of the present invention;

FIG. 4 is a system diagram of a positioning module according to an embodiment of the present invention;

FIG. 5 is a block diagram of a system for adding a mobile user terminal according to an embodiment of the present invention;

FIG. 6 is a system block diagram of a add-on mobile payment module in an embodiment of the present invention;

FIG. 7 is a system configuration diagram of the present invention in which all functions are added;

FIG. 8 is a block diagram of a host control module in a host system;

FIG. 9 is a block diagram of a respiratory rhythm assistance guidance module in the host system;

FIG. 10 is a block diagram of a visualization module in the host system;

FIG. 11 is a block diagram of a signal transmission module in a host system;

FIG. 12 is a schematic view of a user wearing the system;

in the figure, the main control module 01000, the assisted breathing guidance module 02000, the visualization module 03000, the pressure-based breathing guidance module 02100, the vibration-based breathing guidance module 02200, the electrical stimulation-based breathing guidance module 02300, the hearing-based breathing guidance module 02400, the vision-based breathing guidance module 02500, the data display module 03100, the user interaction module 03200, the control module 01100, the data storage module 01200, the data processing module 01300, the host system control module 10000, the effect display module 11000, the historical data recording module 12000, the battery 05000, the charging device 06000, the mobile payment module 13000, the signal transmission module 04000, the positioning module 09000, the abdominal massage module 07000, and the physiological parameter monitoring module 08000.

Detailed Description

The present invention is further illustrated by the following examples, but it should not be construed that the scope of the above-described subject matter is limited to the following examples. Various substitutions and modifications can be made without departing from the technical idea of the invention and the scope of the invention according to the common technical knowledge and the conventional means in the field.

Example 1:

referring to fig. 1 to 12, a fatty liver treatment system, a host system and a power supply system;

the host system comprises a main control module 01000, a respiratory rhythm auxiliary guide module 02000 and a visualization module 03000;

the main control module 01000 receives the pressure monitoring signal sent by the respiratory rhythm auxiliary guide module 02000 and sends a control signal to the respiratory rhythm auxiliary guide module 02000 according to the pressure monitoring signal;

the respiratory rhythm auxiliary guide module 02000 monitors the compression condition of a user and sends a pressure monitoring signal to the main control module 01000;

the respiratory rhythm auxiliary guide module 02000 guides the user to inhale or exhale according to the control signal and adjusts the respiratory rhythm speed of the user;

the respiratory rhythm assistance guidance module 02000 comprises one or more of a pressure based respiratory guidance module 02100, a shock based respiratory guidance module 02200, an electrical stimulation based respiratory guidance module 02300, an auditory based respiratory guidance module 02400, a visual based respiratory guidance module 02500;

the pressure-based respiration guidance module 02100 adjusts the pressure applied to the liver region of the user according to the received control signal, guides the user to perform inhalation or exhalation movements, and adjusts the breathing rhythm of the user;

the vibration-based respiration guidance module 02200 adjusts the pressure applied to the waist and abdomen of the user according to the received control signal, guides the user to perform inspiration or expiration movement, and adjusts the breathing rhythm of the user;

the electrical stimulation based breathing guidance module 02300 adjusts the electrical stimulation applied to the user according to the received control signal, guides the user to perform inhalation or exhalation movements, and adjusts the breathing rhythm of the user;

the breathing guidance module 02400 based on auditory sense plays voice and music according to the received control signal, thereby prompting the user to perform inspiration and expiration actions;

the vision-based respiration guidance module 02500 sends an expiration and inspiration rhythmicity guidance picture generation signal to the visualization module 03000 according to the received control signal;

said visualization module 03000 comprises a data display module 03100 and a user interaction module 03200;

the data display module 03100 generates signals according to the guide picture of the rhythm of expiration and inspiration and displays the guide picture of the rhythm of expiration and inspiration;

the user interaction module 03200 comprises a start button, a pause button, an end button, a volume adjustment button and a screen brightness adjustment button, and is used for interacting with a user;

the power supply system is used for supplying power to the host system.

The pressure-based breathing guidance module 02100 comprises an airbag fixing belt module, an airbag module, an air pressure control module, an airbag vibration module and a gas pressure detection module;

the airbag fixing belt module fixes the airbag module on the abdomen of the user so that the airbag module corresponds to the liver part of the user;

the air bag module, the air pressure control module and the air bag vibration module are fixed on the air bag fixing belt module;

after the air pressure control module receives the control signal, the air bag module is pressurized or depressurized according to the pressurized condition of the air bag module;

when the air pressure control module pressurizes the air bag module, the air bag module expands to press the liver area of the user,

when the air pressure control module decompresses the air bag module, the air bag module contracts and is far away from the liver area of a user;

the air bag vibration module is arranged in the air bag module; when the air bag vibration module receives the control signal, the air bag vibration module vibrates to perform vibration massage on the liver of the user.

The gas pressure detection module monitors the pressure condition of the air bag module in the pressurizing and depressurizing processes and sends the pressure condition to the air pressure control module.

The vibration-based respiration guidance module 02200 comprises a belt module, a pressure control module, a pressure detection module, and a belt vibration module;

the waist and abdomen belt module is bound on the waist and abdomen of the user;

the pressure control module, the pressure detection module and the vibration module are fixed on the belt module;

the pressure control module is used for pressurizing or decompressing the belt module according to the pressure condition of the belt module after receiving the control signal, so as to pressurize or decompress the waist and abdomen of the user;

when the pressure control module is pressurized, the shock-based breathing guidance module 02200 guides the user to inhale or exhale; when the pressure control module is pressurized, the shock-based breathing guidance module 02200 guides the user to exhale or inhale;

when the pressure control module starts to pressurize or decompress, the pressure control module controls the vibration of the girdle vibration module to guide a user to perform inspiration or expiration movement;

the pressure detection module monitors the compression condition of the waist and abdominal belt module in the compression and decompression processes and sends the compression condition to the pressure control module;

when the pressure condition of the belt module exceeds a preset pressure threshold value, the pressure control module stops operating;

the pressure detection module further comprises an initial pressurization module;

after the user wears the vibration-based breathing guidance module 02200, the initial pressurization module sends a pressurization signal to the main control module 01000;

the main control module 01000 receives the pressurization signal and then sends a control signal to the pressure control module to actively pressurize the pressure control module, so as to raise the pressure between the waistband module and the abdomen of the user to a preset value P_presetvalue。

The pressure control module is used for carrying out pressurization according to the control signal, and the decompression quantity for carrying out decompression passes through the real-time pressure P between the waist belt and the abdomen of the user_realtimeCarrying out characterization;

real time pressure P_realtimeAs follows:

P_realtime＝P_presetvalue+ΔP_variable (1)

wherein, Δ P_variableThe system is preset with an amount of pressurization or depressurization that varies over time.

The pressure control module comprises a liquid pressure control module, a gas pressure control module, a mechanical pressure control module and an electromagnetic spring pressure control module which are used for pressurizing and decompressing;

the liquid pressure control module comprises protective liquid, a pressure control bag and a pressure control pump; the gas pressure control module comprises a protective gas, a pressure control bag and a pressure control pump; the mechanical pressure control module comprises a pressure control motor; the electromagnetic spring pressure control module comprises an electromagnetic control motor and a spring.

The electrical stimulation based respiratory guidance module 02300 includes an electrode pad module, an electrical stimulation pulse generator module;

the electrical stimulation pulse generator module generates a pulse signal according to the received control signal and sends the pulse signal to the electrode plate module;

the electrode plate module attaching position comprises the ear part and the abdomen part of a user;

after the electrode plate module receives the pulse signal, the ear and the abdomen of the user are stimulated, the user is guided to perform inspiration or expiration movement, and the breathing rhythm of the user is adjusted.

The main control module 01000 comprises a control module 01100, a data storage module 01200 and a data processing module 01300;

the control module is used for controlling the operation of the respiratory rhythm auxiliary guide module 02000;

the data storage module 01200 is used for storing data;

the data processing module 01300 is used to process the pressure signal to generate a control signal.

The host system further includes a mobile payment module 13000, a signal transmission module 04000, and a location module 09000;

before using the fatty liver treatment system, the user completes payment through the mobile payment module 13000;

the mobile payment module 13000 comprises a payment information display module and a payment data transmission module;

the payment information display module sends payment signals to the visualization module 03000, so that the visualization module 03000 displays two-dimensional code information for payment;

after the user finishes payment, the payment data transmission module sends a payment success signal to the main control module 01000;

after the main control module 01000 receives the successful payment signal, the fatty liver treatment system starts to work;

the signal transmission module 04000 is used for realizing data interaction between the main control module 01000 and the assisted guidance module 02000 for respiratory rhythm;

the positioning module 09000 comprises a GPS antenna module, a Beidou satellite antenna module and a signal receiving module;

the GPS antenna module receives or sends a GPS navigation signal;

the Beidou satellite antenna module is used for receiving or sending a Beidou satellite communication signal;

the signal receiving module is used for carrying out GPS positioning on the GPS navigation signal or carrying out Beidou positioning on the Beidou satellite communication signal.

The positioning module is used for sending out an alarm signal when a user is pressed or physiological parameters exceed a threshold value, and sending specific positioning to rescue institutions such as doctors, hospitals and the like or individuals;

the power supply system includes a battery 05000, a charging device 06000;

the charging device 06000 charges the battery 05000;

the battery 05000 supplies power to the host system.

The mobile user end is also included;

the mobile user end comprises a host system control module 10000, an effect display module 11000 and a historical data recording module 12000;

the host system control module 10000 is used to send control instructions to the main control module 01000 to complete the control of the respiratory guidance therapy instructions;

the effect display module 11000 is used for displaying the physiological parameters of the user and the breathing rhythm of the current user;

the historical data recording module 12000 is used for automatically recording the data of the user.

The host system further includes a physiological parameter monitoring module 08000;

the physiological parameter detection module comprises a blood oxygen monitoring module, an electrocardio monitoring module, a respiratory frequency monitoring module, a blood pressure monitoring module and an alarm module;

the blood oxygen monitoring module is used for monitoring the blood oxygen of a user;

the electrocardio monitoring module is used for monitoring the electrocardio of a user;

the respiratory frequency monitoring module is used for monitoring the respiratory frequency of a user;

the blood pressure monitoring module is used for monitoring the blood pressure of a user;

when any one physiological parameter exceeds a preset normal range, the alarm module sends an alarm signal to the master control module to enable the master control module 01000 to stop the operation of the fatty liver treatment system; the physiological parameters comprise blood oxygen, electrocardio, respiratory rate and blood pressure.

The host system further comprises an abdominal massage module 07000;

the abdomen massage module 07000 comprises a respiratory rhythm auxiliary guide data receiving module, an infrared heating module and a massage head module;

the respiratory rhythm auxiliary guide data receiving module is used for receiving data of the respiratory rhythm auxiliary guide module 02000;

the infrared heating module is used for carrying out infrared heating on the abdomen massage part of the user;

the massage head module is used for massaging the abdomen of the user;

the massage head module and the breathing rhythm auxiliary guide module 02000 work synchronously;

the working mode of the massage head module comprises one or more of the following modes:

1) pressure squeezing massage mode: when the user exhales, the massage head module performs extrusion operation on the abdomen of the user; when a user inhales, the massage head module is far away from the abdomen of the user;

2) vibration massage mode: when the user exhales, the massage head module performs vibration operation on the abdomen of the user; when a user inhales, the abdomen of the user is operated without vibration;

3) electric stimulation massage mode: the massage head module receives the pulse signal sent by the electrical stimulation pulse generator module and carries out electrical stimulation operation on the abdomen of the user.

Example 2:

a fatty liver treatment system comprises a host system and a power supply system;

the host system comprises a main control module 01000, a breathing rhythm auxiliary guide module 02000, a visualization module 03000 and a signal transmission module 04000;

the main control module 01000 includes: a control module, a data storage module 01200, a data processing module 01300;

the respiratory rhythm assistance guidance module 02000 comprises one or a combination of several of the following: pressure-based breathing guidance module 02100, vibration-based breathing guidance module 02200, electrical stimulation-based breathing guidance module 02300, hearing-based breathing guidance module 02400, vision-based breathing guidance module 02500;

said visualization module 03000 comprises: a data display module 03100, a user interaction module 03200;

the signal transmission module 04000 includes: a control data transmission module 04100, a physiological parameter data transmission module 04200, a guidance data transmission module 04300;

the power supply system comprises a battery 05000 and a charging device 06000 for providing power supply for each component in the system.

The pressure-based respiration guiding module 02100 comprises an airbag module, an airbag fixing belt module, an air pressure control module and an airbag vibration module, wherein the airbag fixing belt module is used for fixing the airbag module at the liver part of a user, when the main control module 01000 is used for control, the air pressure control module carries out active pressurization and decompression according to a control signal, the pressurization causes the airbag module to expand and press the liver area of the user, and the decompression causes the airbag module to contract and keep away from the liver area of the user; the airbag vibration module is arranged in the airbag module, the main control module 01000 sends an expansion/contraction instruction to the airbag vibration module, and the airbag vibration module vibrates to perform vibration massage on the liver of a user at the moment when the expansion/contraction instruction starts.

The vibration-based respiration guidance module 02200 comprises a belt module, a pressure control module, a pressure detection module and a belt vibration module, wherein the belt module is used for binding the vibration-based respiration guidance module 02200 to the waist and abdomen of a user, when the main control module 01000 sends a control signal, the pressure control module actively pressurizes and decompresses according to the control signal, the pressurization causes the abdomen of the user to contract, the guidance is performed for inhalation or exhalation, the decompression guides the abdomen of the user to expand, and the guidance is performed for exhalation or inhalation, so that the user is guided to perform slow respiration in a rhythm; the pressure detection module is used for monitoring the compression condition of the waist and abdominal belt in the compression and decompression processes, a threshold value is preset, and when the compression condition exceeds the threshold value, the pressure control module is controlled to stop compression/decompression so as to prevent dangerous conditions; the waistband vibration module is arranged in the waistband module, the main control module 01000 sends an inspiration/expiration instruction to the vibration module, and the vibration module is controlled to vibrate at the beginning of the inspiration/expiration instruction, so that a user is guided to perform inspiration/expiration movement.

The electrical stimulation based breathing guidance module 02300 includes an electrode pad module, an electrical stimulation pulse generator module; when the control signal is sent by the main control module 01000, the electrical stimulation pulse generator module generates a pulse signal with a specific frequency according to the control signal, and stimulates the ear and/or abdomen of the user through the electrode plate module to guide the user to breathe slowly in a rhythm manner.

The breathing guidance module 02400 based on auditory sense comprises a loudspeaker/earphone module, wherein the main control module 01000 sends auditory guidance control data to the loudspeaker/earphone module, and the loudspeaker/earphone module plays voice prompts and music according to the received control data, wherein the voice prompts a user to inhale and exhale; the music finger controls the speed or the slow speed of the signal breathing rhythm according to the control signal sent by the main control module 01000, and plays the rapid or mild music.

The vision-based breathing guidance module 02500 performs rhythmic visual guidance through the main control module 01000, and displays expiratory and inspiratory rhythmic guidance animations through the visualization module 03000.

The host system still includes belly massage module, belly massage module includes: the respiratory rhythm auxiliary guiding data receiving module is used for receiving data of one or more combined respiratory guiding modules in the respiratory rhythm auxiliary guiding module 02000, the infrared heating module is used for carrying out infrared heating on the massage part of the right abdomen of a user, and the massage head module carries out synchronous massage along the respiratory guiding modes of the pressure-based respiratory guiding module 02100, the vibration-based respiratory guiding module 02200 and the electrical stimulation-based respiratory guiding module 02300 in the respiratory rhythm auxiliary guiding module 02000 and completes one or more combined massage implementation modes as follows:

(1) pressure extrusion massage: when a user exhales, squeezing the right abdominal part of the user; when the user inhales, the right abdomen part of the user is relaxed;

(2) vibration massage: when a user exhales, the right abdomen part of the user is vibrated; when a user inhales, the right abdomen part of the user is operated without vibration;

(3) pressure extrusion and vibration massage: when a user exhales, squeezing and vibrating the right abdomen of the user; when the user inhales, the right abdominal part of the user is relaxed and does not shake;

(4) electric stimulation massage: the electrical stimulation pulse generator module generates a pulse signal with a specific frequency to perform electrical stimulation operation on the right abdomen of the user.

The host system further includes a physiological parameter monitoring module 08000, the physiological parameter detection module including: the blood oxygen monitoring module, the electrocardio monitoring module, the respiratory frequency monitoring module, the blood pressure monitoring module and the alarm module.

The alarm module monitors blood oxygen, electrocardio, respiratory rate and blood pressure data of a user, and sends an alarm signal to the main control module 01000 to interrupt the system when abnormality occurs.

The host system further comprises a positioning module 09000, wherein the positioning module 09000 comprises a GPS antenna module, a beidou satellite antenna module and a signal receiving module, the GPS antenna module receives or sends GPS navigation signals, and the beidou satellite antenna module is used for receiving or sending beidou satellite communication signals; the signal receiving module is used for carrying out GPS positioning on the GPS navigation signal or carrying out Beidou positioning on the Beidou satellite communication signal.

The fatty liver therapeutic apparatus further comprises a mobile user end, wherein the mobile user end comprises a host system control module 10000, an effect display module 11000 and a historical data recording module 12000; the host system control module 10000 is used for sending a control instruction to the main control module 01000 to complete the control of the respiratory guidance treatment instruction; the effect display module 11000 is used for displaying physiological parameters of a user and displaying the breathing rhythm of the current user; the historical data recording module 12000 is used for automatically recording the treatment data of the current user.

The visualization module 03000 comprises a data display module 03100 and a user interaction module 03200; the user interaction module 03200 comprises a mechanical button and/or a touch screen, and is configured to display the animation of the vision-based breathing guidance module 02500 and the payment information of the mobile payment module 13000, and adjust the volume and the screen brightness through the visualization module 03000.

The host system further comprises a mobile payment module 13000, wherein the mobile payment module 13000 comprises a payment information display module and a payment data transmission module; the mobile payment display module displays two-dimensional code information for code scanning payment through the visualization module 03000, a user can perform code scanning payment, after payment is completed, the payment data transmission module sends the payment condition to the main control module 01000, and the main control module 01000 starts a system after receiving payment data to prepare for work.

The pressure control module comprises a liquid pressure control module, a gas pressure control module, a mechanical pressure control module and an electromagnetic spring pressure control module; the liquid pressure control module comprises protective liquid, a pressure control bag and a pressure control pump; the gas pressure control module comprises a protective gas, a pressure control bag and a pressure control pump; the mechanical pressure control module comprises a pressure control motor; the electromagnetic spring pressure control module comprises an electromagnetic control motor and a spring.

The pressure detection module comprises an initial pressurization module, after the device is worn, the pressure detection module sends a pressurization signal to the active module, the main control module 01000 sends a control signal to the pressure control module to carry out active pressurization, and the pressure between the waist belt and the abdomen of the user is increased to a preset value P_presetvalue。

The pressure control module actively pressurizes and depressurizes the pressurizing amount or the depressurizing amount according to the control signal, and the pressurizing amount or the depressurizing amount is expressed as real-time pressure P between the waist belt and the abdomen of the user_realtimeDynamically changing according to the following formula:

P_realtime＝P_presetvalue+ΔP_variable (1)

wherein, Δ P_variableThe system is preset with an amount of pressurization or depressurization that varies over time.

Example 3:

a fatty liver treatment system, the main content of which is shown in embodiment 2, wherein the main control module 01000 controls the pressure control pump to charge/pump the protection liquid into the pressure control bag in a rhythmic manner, so as to guide a user to breathe slowly in a rhythmic manner through a physical manner;

the main control module 01000 rhythmically controls the electromagnetic control motor to compress the spring, so that the user is guided to breathe slowly in a rhythmic manner through a physical mode;

the main control module 01000 rhythmically controls the pressure control motor to increase/decrease the pressure applied to the abdomen of the user, thereby realizing rhythmically guiding the slow breathing of the user through a physical mode;

the main control module 01000 rhythmically controls the pressure control pump to fill/pump the protective gas into/from the pressure control bag, thereby realizing rhythmically guiding the slow breathing of the user in a physical manner.

Claims (10)

1. A fatty liver treatment system, characterized by: the system comprises a host system and a power supply system.

The host system comprises a main control module, a respiratory rhythm auxiliary guiding module and a visualization module.

The main control module receives the pressure monitoring signal sent by the respiratory rhythm auxiliary guiding module and sends a control signal to the respiratory rhythm auxiliary guiding module according to the pressure monitoring signal;

the respiratory rhythm auxiliary guiding module monitors the compression condition of a user and sends a pressure monitoring signal to the main control module;

the respiratory rhythm auxiliary guide module guides a user to perform inspiration or expiration movement according to the control signal and adjusts the breathing rhythm speed of the user;

the respiratory rhythm assistance guidance module comprises one or more of a pressure-based respiration guidance module, a vibration-based respiration guidance module, an electrical stimulation-based respiration guidance module, an auditory sense-based respiration guidance module, and a visual sense-based respiration guidance module;

the pressure-based breathing guiding module adjusts the pressure applied to the liver area of the user according to the received control signal, guides the user to perform inspiration or expiration movement, and adjusts the breathing rhythm speed of the user;

the vibration-based breathing guide module adjusts the pressure applied to the waist and abdomen of the user according to the received control signal, guides the user to perform inspiration or expiration movement, and adjusts the breathing rhythm speed of the user;

the respiration guiding module based on the electrostimulation adjusts the electrostimulation applied to the user according to the received control signal, guides the user to carry out inspiration or expiration movement, and adjusts the breathing rhythm speed of the user;

the respiration guiding module based on the auditory sense plays voice and music according to the received control signal, so as to prompt a user to inhale and exhale;

the vision-based respiration guiding module sends an expiration and inspiration rhythmicity guiding picture generation signal to the visualization module according to the received control signal;

the visualization module comprises a data display module and a user interaction module;

the data display module generates signals according to the expiratory and inspiratory rhythmic guide pictures to display the expiratory and inspiratory rhythmic guide pictures;

the user interaction module is used for interacting with a user;

the power supply system is used for supplying power to the host system.

2. The fatty liver treatment system of claim 1, wherein: the pressure-based respiration guiding module comprises an air bag fixing belt module, an air bag module, an air pressure control module, an air bag vibration module and a gas pressure detection module;

the airbag fixing belt module fixes the airbag module on the abdomen of the user so that the airbag module corresponds to the liver part of the user;

the air bag module, the air pressure control module and the air bag vibration module are fixed on the air bag fixing belt module;

after the air pressure control module receives the control signal, the air bag module is pressurized or depressurized according to the pressurized condition of the air bag module;

when the air pressure control module pressurizes the air bag module, the air bag module expands to press the liver area of the user,

when the air pressure control module decompresses the air bag module, the air bag module contracts and is far away from the liver area of a user;

the air bag vibration module is arranged in the air bag module; when the air bag vibration module receives the control signal, the air bag vibration module vibrates to perform vibration massage on the liver part of the user;

the gas pressure detection module monitors the pressure condition of the air bag module in the pressurizing and depressurizing processes and sends the pressure condition to the air pressure control module.

3. The fatty liver treatment system according to claim 1, wherein: the vibration-based respiration guiding module comprises a belt module, a pressure control module, a pressure detection module and a belt vibration module;

the waist and abdomen belt module is bound on the waist and abdomen of the user;

the pressure control module, the pressure detection module and the vibration module are fixed on the belt module;

the pressure control module is used for pressurizing or decompressing the belt module according to the pressure condition of the belt module after receiving the control signal, so as to pressurize or decompress the waist and abdomen of the user;

when the pressure control module is pressurized, the shock-based breathing guidance module guides the user to inhale or exhale; the shock-based breathing guidance module guides a user to exhale or inhale when the pressure control module is pressurized;

when the pressure control module starts to pressurize or decompress, the pressure control module controls the vibration of the girdle vibration module to guide a user to perform inspiration or expiration movement;

the pressure detection module monitors the compression condition of the belt module in the compression and decompression processes and sends the compression condition to the pressure control module;

when the pressure condition of the belt module exceeds a preset pressure threshold value, the pressure control module stops operating;

the pressure detection module further comprises an initial pressurization module;

after a user wears the respiration guiding module based on vibration, the initial pressurizing module sends a pressurizing signal to the main control module;

after receiving the pressurizing signal, the main control module sends a control signal to the pressure control module to enable the pressure control module to actively pressurize, and therefore the pressure control module can actively pressurizeThe pressure between the belt module and the abdomen of the user is increased to a preset value P_presetvalue。

The pressure control module is used for carrying out pressurization according to the control signal, and the decompression quantity for carrying out decompression passes through the real-time pressure P between the waist belt and the abdomen of the user_realtimeCarrying out characterization;

real time pressure P_realtimeAs follows:

P_realtime＝P_presetvalue+ΔP_variable (1)

wherein, Δ P_variableThe system is preset with an amount of pressurization or depressurization that varies over time.

4. A fatty liver treatment system according to claim 3, wherein: the pressure control module comprises a liquid pressure control module, a gas pressure control module, a mechanical pressure control module and an electromagnetic spring pressure control module which are used for pressurizing and decompressing;

the liquid pressure control module comprises protective liquid, a pressure control bag and a pressure control pump; the gas pressure control module comprises a protective gas, a pressure control bag and a pressure control pump; the mechanical pressure control module comprises a pressure control motor; the electromagnetic spring pressure control module comprises an electromagnetic control motor and a spring.

5. The fatty liver treatment system of claim 1, wherein: the respiration guiding module based on the electrical stimulation comprises an electrode plate module and an electrical stimulation pulse generator module;

the electrical stimulation pulse generator module generates a pulse signal according to the received control signal and sends the pulse signal to the electrode plate module;

the electrode plate module attaching position comprises the ear part and the abdomen part of a user;

after the electrode plate module receives the pulse signal, the ear and the abdomen of the user are stimulated, the user is guided to perform inspiration or expiration movement, and the breathing rhythm of the user is adjusted.

6. The fatty liver treatment system of claim 1, wherein: the main control module comprises a control module, a data storage module and a data processing module;

the control module is used for controlling the work of the breathing rhythm auxiliary guiding module;

the data storage module is used for storing data;

the data processing module is used for processing the pressure signal so as to generate a control signal.

7. The fatty liver treatment system of claim 1, wherein: the host system also comprises a mobile payment module, a signal transmission module and a positioning module;

before using the fatty liver treatment system, the user completes payment through the mobile payment module;

the mobile payment module comprises a payment information display module and a payment data transmission module;

the payment information display module sends payment signals to the visualization module, so that the visualization module displays two-dimensional code information for payment;

after the user finishes payment, the payment data transmission module sends a payment success signal to the main control module;

after the main control module receives the successful payment signal, the fatty liver treatment system starts to work;

the signal transmission module is used for realizing data interaction between the main control module and the respiratory rhythm auxiliary guide module;

the positioning module comprises a GPS antenna module, a Beidou satellite antenna module and a signal receiving module;

the positioning module is used for sending out an alarm signal carrying positioning when a user is pressed or a physiological parameter exceeds a threshold value;

the GPS antenna module receives or sends a GPS navigation signal;

the Beidou satellite antenna module is used for receiving or sending a Beidou satellite communication signal;

the signal receiving module is used for carrying out GPS positioning on the GPS navigation signal or carrying out Beidou positioning on the Beidou satellite communication signal.

8. The fatty liver treatment system of claim 1, wherein: the host system further comprises an abdomen massage module;

the abdomen massage module comprises a respiratory rhythm auxiliary guide data receiving module, an infrared heating module and a massage head module;

the respiratory rhythm auxiliary guiding data receiving module is used for receiving data of the respiratory rhythm auxiliary guiding module;

the infrared heating module is used for carrying out infrared heating on the abdomen massage part of the user;

the massage head module is used for massaging the abdomen of a user;

the massage head module and the breathing rhythm auxiliary guide module work synchronously;

the working mode of the massage head module comprises one or more of the following modes:

1) pressure squeezing massage mode: when the user exhales, the massage head module performs extrusion operation on the abdomen of the user; when a user inhales, the massage head module is far away from the abdomen of the user;

2) vibration massage mode: when the user exhales, the massage head module performs vibration operation on the abdomen of the user; when a user inhales, the abdomen of the user is operated without vibration;

3) electric stimulation massage mode: the massage head module receives the pulse signal sent by the electrical stimulation pulse generator module and carries out electrical stimulation operation on the abdomen of the user.

9. The fatty liver treatment system of claim 1, wherein: the mobile user end is also included;

the mobile user end comprises a host system control module, an effect display module and a historical data recording module;

the host system control module is used for sending a control instruction to the main control module to complete the control of the respiratory guidance treatment instruction;

the effect display module is used for displaying physiological parameters of a user and the respiratory rhythm of the current user;

the historical data recording module is used for automatically recording the data of the user.

10. The fatty liver treatment system of claim 1, wherein: the host system also comprises a physiological parameter monitoring module;

the physiological parameter detection module comprises a blood oxygen monitoring module, an electrocardio monitoring module, a respiratory frequency monitoring module, a blood pressure monitoring module and an alarm module;

the blood oxygen monitoring module is used for monitoring the blood oxygen of a user;

the electrocardio monitoring module is used for monitoring the electrocardio of a user;

the respiratory frequency monitoring module is used for monitoring the respiratory frequency of a user;

the blood pressure monitoring module is used for monitoring the blood pressure of a user;

when any physiological parameter exceeds a preset normal range, the alarm module sends an alarm signal to the main control module to enable the main control module to stop the operation of the fatty liver treatment system; the physiological parameters comprise blood oxygen, electrocardio, respiratory rate and blood pressure.

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