CN113041572A - Lung function training system based on intelligent mask and intelligent mask - Google Patents

Abstract

The invention discloses a lung function training system based on an intelligent mask and the intelligent mask. Wherein the system comprises: the intelligent mask comprises an intelligent mask, a cloud platform and an intelligent terminal; the intelligent mask collects physiological index data of a user related to air inlet and outlet of the mask and sends the physiological index data to the cloud platform; the cloud platform is in wireless connection with the intelligent mask and the intelligent terminal, receives the physiological index data, performs real-time data analysis on the received physiological index data to obtain lung function training guidance data of the user, and transmits the lung function training guidance data to the intelligent terminal; this intelligent terminal with this cloud platform, intelligent gauze mask wireless connection, collects this lung function training and guides data, and guides the user that this intelligent gauze mask is correlated with to carry out the lung function training according to this lung function training and guides data. By the mode, the lung function training of the user can be realized at low price and convenient carrying without the guidance of professional staff.

Description

Lung function training system based on intelligent mask and intelligent mask

Technical Field

The invention relates to the technical field of masks, in particular to a lung function training system based on an intelligent mask and the intelligent mask.

Background

The existing lung function training system generally uses large-scale equipment, measurement needs to be matched with equipment such as a running platform, a gas cylinder and a gas analysis instrument to be used together to guide a user to carry out lung function training, the used large-scale equipment is large in size, high in price and required to be guided by professionals, and the lung function training system cannot be used for carrying out lung function training on the user with low price and convenience in carrying without being guided by the professionals.

Disclosure of Invention

In view of the above, the present invention provides a lung function training system based on an intelligent mask and an intelligent mask, which are capable of performing lung function training on a user at a low price and with convenience in carrying without the guidance of professionals.

According to an aspect of the present invention, there is provided a lung function training system based on an intelligent mask, including: the intelligent mask comprises an intelligent mask, a cloud platform and an intelligent terminal; the intelligent mask is used for acquiring physiological index data of a user related to air inlet and air outlet of the mask and sending the physiological index data to the cloud platform; the cloud platform is in wireless connection with the intelligent mask and the intelligent terminal respectively, and is used for receiving the physiological index data, performing real-time data analysis on the received physiological index data, analyzing to obtain lung function training guidance data of the user, and transmitting the lung function training guidance data to the intelligent terminal; the intelligent terminal is in wireless connection with the cloud platform and the intelligent mask respectively and is used for collecting the lung function training guidance data and guiding a user associated with the intelligent mask to perform lung function training according to the lung function training guidance data.

Wherein, intelligence gauze mask includes: the mask comprises a mask body, a main control module, an air inlet module, an air outlet module and a processor; the main control module is used for controlling the air inlet module to collect air inlet data of the mask and controlling the air outlet module to collect air outlet data of the mask; the air inlet module is used for acquiring air inlet data of the mask according to the control of the main control module and analyzing the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the air outlet module is used for acquiring air outlet data of the mask according to the control of the main control module and analyzing the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the processor is used for analyzing the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and sending the physiological index data to the cloud platform.

Wherein the air intake module comprises: the air inlet filtering module, the air inlet control module and the air inlet processor are arranged on the air inlet filter; the air filtering module is used for filtering the inlet air of the mask; the air inlet control module is used for controlling the air inlet amount of the air filtered by the air; and the air inlet processor is used for acquiring the air inlet data of the air inlet gas after the air inlet amount control, and analyzing the air inlet data to obtain the air inlet physiological index data of the user associated with the mask.

Wherein, the module of giving vent to anger includes: the device comprises an air outlet filtering module, an air outlet control module and an air outlet processor; the gas outlet filtering module is used for filtering gas outlet of the mask; the gas outlet control module is used for controlling the gas outlet quantity of the filtered gas; the gas outlet processor is used for collecting gas outlet data of the gas outlet after gas outlet control and analyzing the gas outlet data to obtain gas outlet physiological index data of a user associated with the mask.

Wherein, intelligence gauze mask still includes: the mask fixing module is used for fixing the head of a user related to the mask.

According to another aspect of the present invention, there is provided an intelligent mask, comprising: the mask comprises a mask body, a main control module, an air inlet module, an air outlet module and a processor; the main control module is used for controlling the air inlet module to collect air inlet data of the mask and controlling the air outlet module to collect air outlet data of the mask; the air inlet module is used for acquiring air inlet data of the mask according to the control of the main control module and analyzing the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the air outlet module is used for acquiring air outlet data of the mask according to the control of the main control module and analyzing the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the processor is used for analyzing the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and sending the physiological index data to the cloud platform.

Wherein the air intake module comprises: the air inlet filtering module, the air inlet control module and the air inlet processor are arranged on the air inlet filter; the air filtering module is used for filtering the inlet air of the mask; the air inlet control module is used for controlling the air inlet amount of the air filtered by the air; and the air inlet processor is used for acquiring the air inlet data of the air inlet gas after the air inlet amount control, and analyzing the air inlet data to obtain the air inlet physiological index data of the user associated with the mask.

Wherein, the module of giving vent to anger includes: the device comprises an air outlet filtering module, an air outlet control module and an air outlet processor; the gas outlet filtering module is used for filtering gas outlet of the mask; the gas outlet control module is used for controlling the gas outlet quantity of the filtered gas; the gas outlet processor is used for collecting gas outlet data of the gas outlet after gas outlet control and analyzing the gas outlet data to obtain gas outlet physiological index data of a user associated with the mask.

Wherein, intelligence gauze mask still includes: a mask fixing module; the mask fixing module is used for fixing the head of a user related to the mask.

According to the scheme, the lung function training system based on the intelligent mask can comprise the intelligent mask, a cloud platform and an intelligent terminal; the intelligent mask can collect physiological index data of a user related to air inlet and outlet of the mask and send the physiological index data to the cloud platform; the cloud platform is in wireless connection with the intelligent mask and the intelligent terminal respectively, can receive the physiological index data, performs real-time data analysis on the received physiological index data, analyzes to obtain lung function training guidance data of the user, and transmits the lung function training guidance data to the intelligent terminal; this intelligent terminal, with this cloud platform and this intelligent gauze mask wireless connection respectively can collect this lung function training guide data, and instruct the user that this intelligent gauze mask is correlated with to carry out the lung function training according to this lung function training guide data, can realize that low price portable again and need not the professional and guide to carry out the lung function training to the user.

Further, above scheme, this intelligence gauze mask can include: the mask comprises a mask body, a main control module, an air inlet module, an air outlet module and a processor; the main control module can control the air inlet module to collect air inlet data of the mask and control the air outlet module to collect air outlet data of the mask; the air inlet module can acquire air inlet data of the mask according to the control of the main control module and analyze the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the air outlet module can collect air outlet data of the mask according to the control of the main control module, and analyze the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the processor can analyze the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and send the physiological index data to the cloud platform; the mask air inlet and outlet device has the advantages that the physiological index data of the user related to the air inlet and outlet of the mask can be collected and sent to the cloud platform, and the mask air inlet and outlet device is low in price and convenient to carry without the guidance of professionals.

Further, according to the above scheme, the air intake module may include an air intake filtering module, an air intake control module and an air intake processor; the air filtering module can filter the inlet air of the mask; the air inlet control module can control the air inlet amount of the air filtered by the air; the air inlet processor can acquire air inlet data of the air inlet gas subjected to air inlet amount control and analyze the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the mask air inlet device has the advantages that the purity of the inlet air can be guaranteed, and the physiological index data of a user related to the inlet air of the mask can be acquired at low price and conveniently carried without the guidance of professionals.

Further, according to the above scheme, the air outlet module may include an air outlet filtering module, an air outlet control module and an air outlet processor; the gas outlet filtering module can filter the gas outlet of the mask; the gas outlet control module can control the gas outlet quantity of the filtered gas; the air outlet processor can acquire air outlet data of the air outlet gas after the air outlet amount control, and analyze the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the method has the advantages that the purity of the gas outlet gas can be guaranteed, and the physiological index data of the user associated with the gas outlet of the mask can be collected by the method, wherein the physiological index data are low in price and convenient to carry, and do not need to be guided by professionals.

Further, above scheme, this intelligent gauze mask can also include the fixed module of gauze mask, can fix the user's that this gauze mask is concerned head, and such advantage can realize that the user can be convenient carry and use this intelligent gauze mask.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of a lung function training system based on an intelligent mask according to the present invention;

FIG. 2 is a schematic structural view of an embodiment of the intelligent mask of the present invention;

fig. 3 is a schematic structural view of another embodiment of the intelligent mask of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be noted that the following examples are only illustrative of the present invention, and do not limit the scope of the present invention. Similarly, the following examples are only some but not all examples of the present invention, and all other examples obtained by those skilled in the art without any inventive work are within the scope of the present invention.

The invention provides a lung function training system based on an intelligent mask, which can realize the lung function training of a user with low price, portability and no need of guidance of professionals.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an embodiment of a lung function training system based on an intelligent mask according to the present invention. In this embodiment, the lung function training system 10 based on the smart mask includes a smart mask 11, a cloud platform 12, and an intelligent terminal 13.

The intelligent mask 11 is used for collecting physiological index data of a user related to air inlet and outlet of the mask and sending the physiological index data to the cloud platform 12.

The cloud platform 12 is wirelessly connected to the intelligent mask 11 and the intelligent terminal 13, and is configured to receive the physiological index data, perform real-time data analysis on the received physiological index data, analyze the received physiological index data to obtain lung function training guidance data of the user, and transmit the lung function training guidance data to the intelligent terminal 13.

This intelligent terminal 13, with this cloud platform 12 and this intelligent gauze mask 11 wireless connection respectively for collect this lung function training and instruct data, and instruct the user that this intelligent gauze mask is correlated with to carry out the lung function training according to this lung function training and instruct data.

In this embodiment, the physiological index data may include respiratory rate data, tidal volume data, rebreathing volume data, residual volume data, and vital capacity data, which are not limited in the present invention.

In this embodiment, the lung function training guidance data may include air intake inhalation frequency data, air output exhalation frequency data, air intake tidal volume data, air output tidal volume data, and the like, and the present invention is not limited thereto.

In this embodiment, the cloud platform 12 may perform real-time data analysis on the received physiological index data to obtain respiratory frequency data, tidal volume data, residual volume data, vital volume data, and the like, and analyze the received physiological index data to obtain the lung function training guidance data of the user according to preset lung function training data of the user and the respiratory frequency data, tidal volume data, residual volume data, vital volume data, and the like obtained through the analysis.

Optionally, the smart mask 11 may include:

the mask (not shown), the main control module (not shown), the air inlet module (not shown), the air outlet module (not shown) and the processor (not shown);

the main control module is used for controlling the air inlet module to collect air inlet data of the mask and controlling the air outlet module to collect air outlet data of the mask;

the air inlet module is used for collecting air inlet data of the mask according to the control of the main control module and analyzing the air inlet data to obtain air inlet physiological index data of a user associated with the mask;

the air outlet module is used for collecting air outlet data of the mask according to the control of the main control module and analyzing the air outlet data to obtain air outlet physiological index data of a user associated with the mask;

the processor is configured to analyze the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and send the physiological index data to the cloud platform 12;

the mask air inlet and outlet device has the advantages that the physiological index data of the user related to the air inlet and outlet of the mask can be collected and sent to the cloud platform, and the mask air inlet and outlet device is low in price and convenient to carry without the guidance of professionals.

In this embodiment, the intake data may include intake inspiration frequency data, intake tidal volume data, and the like, and the invention is not limited thereto.

In this embodiment, the ventilation data may include ventilation inhalation frequency data, ventilation tidal volume data, and the like, which is not limited in the present invention.

In this embodiment, the intake physiological index data may include intake respiratory rate data, intake tidal volume data, intake respiratory supplement data, intake residual volume data, intake lung capacity data, and the like, which is not limited in the present invention.

In this embodiment, the ventilation physiological index data may include ventilation breathing rate data, ventilation tidal volume data, ventilation respiration volume data, ventilation residual volume data, ventilation vital capacity data, and the like, which is not limited in the present invention.

In this embodiment, the air intake module may collect air intake data of the mask according to the control of the main control module, where the air intake data includes air intake and inspiration frequency data, air intake tidal volume data, and the like, and analyze the air intake data to obtain air intake physiological index data of a user associated with the mask, where the air intake physiological index data includes air intake and breathing frequency data, air intake tidal volume data, air intake and respiration compensation volume data, air intake residual volume data, air intake and vital capacity data, and the like, and the present invention is not limited thereto.

In this embodiment, the air outlet module may collect the air outlet data of the mask according to the control of the main control module, where the air outlet data includes air outlet inspiration frequency data, air outlet tidal volume data, and the like, and analyze the air outlet data to obtain the air outlet physiological index data of the user associated with the mask, where the air outlet physiological index data includes air outlet breathing frequency data, air outlet tidal volume data, air outlet rebreathing volume data, air outlet residual volume data, air outlet vital capacity data, and the like, which is not limited in the present invention.

In this embodiment, the processor may analyze that the intake physiological index data includes intake respiratory frequency data, intake tidal volume data, intake respiratory capacity compensation data, intake residual volume data, intake respiratory capacity data, and the like, and the outlet physiological index data includes outlet respiratory frequency data, outlet tidal volume data, outlet respiratory capacity compensation data, outlet residual volume data, outlet respiratory capacity data, and the like, to obtain the physiological index data of the user associated with the mask, including respiratory frequency data, tidal volume data, respiratory capacity compensation data, residual volume data, respiratory capacity data, and the like, which is not limited in the present invention.

Optionally, the air intake module may include:

an intake air filtering module (not shown), an intake air control module (not shown) and an intake air processor (not shown);

the air filtering module is used for filtering the inlet air of the mask;

the air inlet control module is used for controlling the air inlet amount of the air filtered by the air;

the air inlet processor is used for collecting air inlet data of the air inlet gas subjected to air inlet amount control and analyzing the air inlet data to obtain air inlet physiological index data of a user associated with the mask;

the mask air inlet device has the advantages that the purity of the inlet air can be guaranteed, and the physiological index data of a user related to the inlet air of the mask can be acquired at low price and conveniently carried without the guidance of professionals.

In this embodiment, the air intake processor may acquire the air intake data of the intake air after the air intake amount control, including air intake respiratory frequency data, air intake tidal volume data, air intake respiratory supplement amount data, air intake residual capacity data, air intake vital capacity data, and the like, to obtain the air intake physiological index data of the user associated with the mask, including air intake respiratory frequency data, air intake tidal volume data, air intake respiratory supplement amount data, air intake residual capacity data, air intake vital capacity data, and the like, which is not limited in the present invention.

Optionally, the air outlet module may include:

an outlet filtering module (not shown), an outlet control module (not shown) and an outlet processor (not shown);

the air outlet filtering module is used for filtering the air outlet of the mask;

the gas outlet control module is used for controlling the gas outlet quantity of the filtered gas;

the air outlet processor is used for collecting air outlet data of the air outlet gas after the air outlet quantity control and analyzing the air outlet data to obtain air outlet physiological index data of a user associated with the mask;

the method has the advantages that the purity of the gas outlet gas can be guaranteed, and the physiological index data of the user associated with the gas outlet of the mask can be collected by the method, wherein the physiological index data are low in price and convenient to carry, and do not need to be guided by professionals.

In this embodiment, the outlet processor may acquire the outlet data of the outlet gas after the outlet amount control, including outlet respiratory frequency data, outlet tidal volume data, outlet respiration rate supplementing data, outlet residual volume data, outlet vital capacity data, and the like, to obtain outlet physiological index data of the user associated with the mask, including outlet respiratory frequency data, outlet tidal volume data, outlet respiration rate supplementing data, outlet residual volume data, outlet vital capacity data, and the like, which is not limited in the present invention.

Optionally, the smart mask 11 may further include:

the mask fixing module (not shown) is used for fixing the head of a user associated with the mask, so that the intelligent mask can be conveniently carried and used by the user.

In this embodiment, this filter module admits air, can use special filter core, can have the plastics to support the skeleton, and this filter module admits air can be the movable part, can dismantle when not needing.

In this embodiment, the air intake control module may include a pipe and an air intake control portion, the pipe may be a cylindrical pipe, the cylindrical pipe may have a smooth inner wall, the air intake control portion may be disposed in front of the air intake hole, the size of the air intake area may be adjusted to control the air intake amount, a preset number of gears for adjusting the speed of the air intake amount may be provided, and the air intake control module may be a movable part and may be detached when not needed.

In this embodiment, the air intake control part may adjust the size of the air intake area by adjusting the infusion hose, or may adjust the size of the air intake area by adjusting the switch valve, and the invention is not limited.

In this embodiment, the circuit board of the air intake processor may be disposed in parallel with the air intake hole of the air intake control module, and may be closely attached to the air intake duct of the air intake control module, and the circuit board may be communicated with the opening of the air intake duct of the air intake control module.

In this embodiment, this filter module of giving vent to anger can use special filter core, can have the plastics to support the skeleton, and this filter module of giving vent to anger can be the movable part, can dismantle when not needing.

In this embodiment, this control module of giving vent to anger can include the pipeline and give vent to anger the control part, and this pipeline can be cylindrical pipeline, and this cylindrical pipeline can be that the inner wall is smooth, and this control part of giving vent to anger can set up in the venthole preceding, can adjust the area size of giving vent to anger to control the air output, can set up the gear of the predetermined quantity of air output speed governing, and this control module of giving vent to anger can be for the movable part, can dismantle when not needing.

In this embodiment, the air outlet control portion may adjust the size of the air outlet area through an adjustment mode of the infusion hose, or may adjust the size of the air outlet area through an adjustment mode of the switch valve, and the like, which is not limited in the present invention.

In this embodiment, the circuit board of the air outlet processor may be disposed in parallel with the air outlet hole of the air outlet control module, and may be closely attached to the air outlet pipe of the air outlet control module, and the circuit board may be communicated with the opening of the air outlet pipe of the air outlet control module.

In this embodiment, this fixed module of gauze mask can have elastic fitting, and length and width can be adjusted according to shape, the size of user's head to this elastic fitting, and the user can conveniently use this intelligence gauze mask.

In this embodiment, the elastic assembly may include at least one of elastic string, elastic band, etc., but the invention is not limited thereto.

In this embodiment, the mask fixing module may be an elastic cord or an elastic band, and the shape and the elastic configuration of the elastic cord or the elastic band that matches the shape and the size of the head of the user may be adjusted according to the shape and the size of the head of the user, so that the user can conveniently use the intelligent mask, and the like, which is not limited in the present invention.

In this embodiment, the intelligent mask 11 can be made of waterproof material, so that the service life of the intelligent mask can be prolonged.

It can be found that, in this embodiment, the lung function training system based on the smart mask may include the smart mask, a cloud platform, and an intelligent terminal; the intelligent mask can collect physiological index data of a user related to air inlet and outlet of the mask and send the physiological index data to the cloud platform; the cloud platform is in wireless connection with the intelligent mask and the intelligent terminal respectively, can receive the physiological index data, performs real-time data analysis on the received physiological index data, analyzes to obtain lung function training guidance data of the user, and transmits the lung function training guidance data to the intelligent terminal; this intelligent terminal, with this cloud platform and this intelligent gauze mask wireless connection respectively can collect this lung function training guide data, and instruct the user that this intelligent gauze mask is correlated with to carry out the lung function training according to this lung function training guide data, can realize that low price portable again and need not the professional and guide to carry out the lung function training to the user.

Further, in this embodiment, the smart mask may include: the mask comprises a mask body, a main control module, an air inlet module, an air outlet module and a processor; the main control module can control the air inlet module to collect air inlet data of the mask and control the air outlet module to collect air outlet data of the mask; the air inlet module can acquire air inlet data of the mask according to the control of the main control module and analyze the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the air outlet module can collect air outlet data of the mask according to the control of the main control module, and analyze the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the processor can analyze the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and send the physiological index data to the cloud platform; the mask air inlet and outlet device has the advantages that the physiological index data of the user related to the air inlet and outlet of the mask can be collected and sent to the cloud platform, and the mask air inlet and outlet device is low in price and convenient to carry without the guidance of professionals.

Further, in the present embodiment, the intake module may include an intake air filtering module, an intake air control module, and an intake air processor; the air filtering module can filter the inlet air of the mask; the air inlet control module can control the air inlet amount of the air filtered by the air; the air inlet processor can acquire air inlet data of the air inlet gas subjected to air inlet amount control and analyze the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the mask air inlet device has the advantages that the purity of the inlet air can be guaranteed, and the physiological index data of a user related to the inlet air of the mask can be acquired at low price and conveniently carried without the guidance of professionals.

Further, in this embodiment, the air outlet module may include an air outlet filtering module, an air outlet control module, and an air outlet processor; the gas outlet filtering module can filter the gas outlet of the mask; the gas outlet control module can control the gas outlet quantity of the filtered gas; the air outlet processor can acquire air outlet data of the air outlet gas after the air outlet amount control, and analyze the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the method has the advantages that the purity of the gas outlet gas can be guaranteed, and the physiological index data of the user associated with the gas outlet of the mask can be collected by the method, wherein the physiological index data are low in price and convenient to carry, and do not need to be guided by professionals.

Further, in this embodiment, this intelligent gauze mask can also include the fixed module of gauze mask, can fix the user's that this gauze mask is concerned head, and such advantage can realize that the user can be convenient carry and use this intelligent gauze mask.

The invention also provides an intelligent mask which is low in price, convenient to carry and free of guidance of professionals for lung function training of a user.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an embodiment of the intelligent mask of the present invention. The smart mask 20 is the smart mask of the above embodiment. In this embodiment, the intelligent mask 20 includes: the mask comprises a mask 201, a main control module 202, an air inlet module 203, an air outlet module 204 and a processor 205.

The main control module 202 is configured to control the air inlet module 203 to collect air inlet data of the mask 201, and control the air outlet module 204 to collect air outlet data of the mask 201;

the air intake module 203 is configured to acquire air intake data of the mask 201 according to the control of the main control module 202, and analyze the air intake data to obtain air intake physiological index data of a user associated with the mask 201;

the air outlet module 204 is configured to collect air outlet data of the mask 201 according to the control of the main control module 202, and analyze the air outlet data to obtain air outlet physiological index data of a user associated with the mask 201;

the processor 205 is configured to analyze the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask 201, and send the physiological index data to the cloud platform 12;

the mask air inlet and outlet device has the advantages that the physiological index data of the user related to the air inlet and outlet of the mask can be collected and sent to the cloud platform, and the mask air inlet and outlet device is low in price and convenient to carry without the guidance of professionals.

Alternatively, the air intake module 203 may include:

an intake air filtering module (not shown), an intake air control module (not shown) and an intake air processor (not shown);

the air filtering module is used for filtering the intake air of the mask 201;

the air inlet control module is used for controlling the air inlet amount of the air filtered by the air;

the air inlet processor is used for collecting air inlet data of the air inlet gas subjected to air inlet amount control and analyzing the air inlet data to obtain air inlet physiological index data of a user associated with the mask 201;

the mask air inlet device has the advantages that the purity of the inlet air can be guaranteed, and the physiological index data of a user related to the inlet air of the mask can be acquired at low price and conveniently carried without the guidance of professionals.

Optionally, the air outlet module 204 may include:

an outlet filtering module (not shown), an outlet control module (not shown) and an outlet processor (not shown);

the outlet filtering module is used for filtering the outlet gas of the mask 201;

the gas outlet control module is used for controlling the gas outlet quantity of the filtered gas;

the gas outlet processor is used for acquiring gas outlet data of the gas outlet after the gas outlet amount control, and analyzing the gas outlet data to obtain gas outlet physiological index data of a user associated with the mask 201;

the method has the advantages that the purity of the gas outlet gas can be guaranteed, and the physiological index data of the user associated with the gas outlet of the mask can be collected by the method, wherein the physiological index data are low in price and convenient to carry, and do not need to be guided by professionals.

Referring to fig. 3, fig. 3 is a schematic structural view of another embodiment of the intelligent mask of the present invention. Different from the previous embodiment, the smart mask 30 of the present embodiment further includes a mask fixing module 31.

The mask fixing module 31 is used for fixing the head of a user associated with the mask 201, and therefore the intelligent mask can be conveniently carried and used by the user.

According to the scheme, the lung function training system based on the intelligent mask can comprise the intelligent mask, a cloud platform and an intelligent terminal; the intelligent mask can collect physiological index data of a user related to air inlet and outlet of the mask and send the physiological index data to the cloud platform; the cloud platform is in wireless connection with the intelligent mask and the intelligent terminal respectively, can receive the physiological index data, performs real-time data analysis on the received physiological index data, analyzes to obtain lung function training guidance data of the user, and transmits the lung function training guidance data to the intelligent terminal; this intelligent terminal, with this cloud platform and this intelligent gauze mask wireless connection respectively can collect this lung function training guide data, and instruct the user that this intelligent gauze mask is correlated with to carry out the lung function training according to this lung function training guide data, can realize that low price portable again and need not the professional and guide to carry out the lung function training to the user.

Further, above scheme, this intelligence gauze mask can include: the mask comprises a mask body, a main control module, an air inlet module, an air outlet module and a processor; the main control module can control the air inlet module to collect air inlet data of the mask and control the air outlet module to collect air outlet data of the mask; the air inlet module can acquire air inlet data of the mask according to the control of the main control module and analyze the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the air outlet module can collect air outlet data of the mask according to the control of the main control module, and analyze the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the processor can analyze the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and send the physiological index data to the cloud platform; the mask air inlet and outlet device has the advantages that the physiological index data of the user related to the air inlet and outlet of the mask can be collected and sent to the cloud platform, and the mask air inlet and outlet device is low in price and convenient to carry without the guidance of professionals.

Further, according to the above scheme, the air intake module may include an air intake filtering module, an air intake control module and an air intake processor; the air filtering module can filter the inlet air of the mask; the air inlet control module can control the air inlet amount of the air filtered by the air; the air inlet processor can acquire air inlet data of the air inlet gas subjected to air inlet amount control and analyze the air inlet data to obtain air inlet physiological index data of a user associated with the mask; the mask air inlet device has the advantages that the purity of the inlet air can be guaranteed, and the physiological index data of a user related to the inlet air of the mask can be acquired at low price and conveniently carried without the guidance of professionals.

Further, according to the above scheme, the air outlet module may include an air outlet filtering module, an air outlet control module and an air outlet processor; the gas outlet filtering module can filter the gas outlet of the mask; the gas outlet control module can control the gas outlet quantity of the filtered gas; the air outlet processor can acquire air outlet data of the air outlet gas after the air outlet amount control, and analyze the air outlet data to obtain air outlet physiological index data of a user associated with the mask; the method has the advantages that the purity of the gas outlet gas can be guaranteed, and the physiological index data of the user associated with the gas outlet of the mask can be collected by the method, wherein the physiological index data are low in price and convenient to carry, and do not need to be guided by professionals.

Further, above scheme, this intelligent gauze mask can also include the fixed module of gauze mask, can fix the user's that this gauze mask is concerned head, and such advantage can realize that the user can be convenient carry and use this intelligent gauze mask.

In the several embodiments provided in the present invention, it should be understood that the disclosed system, apparatus and method may be implemented in other manners. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of a module or a unit is merely a logical division, and an actual implementation may have another division, for example, a plurality of units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or units, and may be in an electrical, mechanical or other form.

Units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the units can be selected according to actual needs to achieve the purpose of the embodiment.

In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be substantially or partially implemented in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, a network device, or the like) or a processor (processor) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The above description is only a part of the embodiments of the present invention, and not intended to limit the scope of the present invention, and all equivalent devices or equivalent processes performed by the present invention through the contents of the specification and the drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (9)

1. The utility model provides a pulmonary function training system based on intelligence gauze mask which characterized in that includes:

the intelligent mask comprises an intelligent mask, a cloud platform and an intelligent terminal;

the intelligent mask is used for acquiring physiological index data of a user related to air inlet and air outlet of the mask and sending the physiological index data to the cloud platform;

the cloud platform is in wireless connection with the intelligent mask and the intelligent terminal respectively, and is used for receiving the physiological index data, performing real-time data analysis on the received physiological index data, analyzing to obtain lung function training guidance data of the user, and transmitting the lung function training guidance data to the intelligent terminal;

the intelligent terminal is in wireless connection with the cloud platform and the intelligent mask respectively and is used for collecting the lung function training guidance data and guiding a user associated with the intelligent mask to perform lung function training according to the lung function training guidance data.

2. The intelligent mask-based lung function training system of claim 1, wherein the intelligent mask comprises:

the mask comprises a mask body, a main control module, an air inlet module, an air outlet module and a processor;

the main control module is used for controlling the air inlet module to collect air inlet data of the mask and controlling the air outlet module to collect air outlet data of the mask;

the air inlet module is used for acquiring air inlet data of the mask according to the control of the main control module and analyzing the air inlet data to obtain air inlet physiological index data of a user associated with the mask;

the air outlet module is used for acquiring air outlet data of the mask according to the control of the main control module and analyzing the air outlet data to obtain air outlet physiological index data of a user associated with the mask;

the processor is used for analyzing the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and sending the physiological index data to the cloud platform.

3. The intelligent mask-based lung function training system of claim 2, wherein the air intake module comprises:

the air inlet filtering module, the air inlet control module and the air inlet processor are arranged on the air inlet filter;

the air filtering module is used for filtering the inlet air of the mask;

the air inlet control module is used for controlling the air inlet amount of the air filtered by the air;

and the air inlet processor is used for acquiring the air inlet data of the air inlet gas after the air inlet amount control, and analyzing the air inlet data to obtain the air inlet physiological index data of the user associated with the mask.

4. The intelligent mask-based lung function training system of claim 2, wherein the air outlet module comprises:

the device comprises an air outlet filtering module, an air outlet control module and an air outlet processor;

the gas outlet filtering module is used for filtering gas outlet of the mask;

the gas outlet control module is used for controlling the gas outlet quantity of the filtered gas;

the gas outlet processor is used for collecting gas outlet data of the gas outlet after gas outlet control and analyzing the gas outlet data to obtain gas outlet physiological index data of a user associated with the mask.

5. The intelligent mask-based lung function training system according to any one of claims 1 to 4, wherein the intelligent mask further comprises:

the mask fixing module is used for fixing the head of a user related to the mask.

6. An intelligent mask, comprising:

the mask comprises a mask body, a main control module, an air inlet module, an air outlet module and a processor;

the main control module is used for controlling the air inlet module to collect air inlet data of the mask and controlling the air outlet module to collect air outlet data of the mask;

the air inlet module is used for acquiring air inlet data of the mask according to the control of the main control module and analyzing the air inlet data to obtain air inlet physiological index data of a user associated with the mask;

the air outlet module is used for acquiring air outlet data of the mask according to the control of the main control module and analyzing the air outlet data to obtain air outlet physiological index data of a user associated with the mask;

the processor is used for analyzing the air inlet physiological index data and the air outlet physiological index data to obtain physiological index data of a user associated with the mask, and sending the physiological index data to the cloud platform.

7. The intelligent mask of claim 6, wherein said intake module comprises:

the air inlet filtering module, the air inlet control module and the air inlet processor are arranged on the air inlet filter;

the air filtering module is used for filtering the inlet air of the mask;

the air inlet control module is used for controlling the air inlet amount of the air filtered by the air;

and the air inlet processor is used for acquiring the air inlet data of the air inlet gas after the air inlet amount control, and analyzing the air inlet data to obtain the air inlet physiological index data of the user associated with the mask.

8. The intelligent mask of claim 6, wherein said air outlet module comprises:

the device comprises an air outlet filtering module, an air outlet control module and an air outlet processor;

the gas outlet filtering module is used for filtering gas outlet of the mask;

the gas outlet control module is used for controlling the gas outlet quantity of the filtered gas;

the gas outlet processor is used for collecting gas outlet data of the gas outlet after gas outlet control and analyzing the gas outlet data to obtain gas outlet physiological index data of a user associated with the mask.

9. The intelligent mask of claim 6, further comprising:

a mask fixing module;

the mask fixing module is used for fixing the head of a user related to the mask.

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