KR101981618B1 - Health care system according to air quality - Google Patents

Abstract

The present invention relates to a health management system according to air quality, and is intended to measure the concentration of air pollutants contained in the air and provide various health management guidance to users according to the measured air pollutant concentration.
In addition, the present invention shows how much the user is exposed to the atmospheric environment in which the air pollutant concentration is high, and shows how long the user can be active in the atmospheric environment, so that the user can continuously grasp his / her health condition.
Particularly, since the user can move to a destination through a path having a relatively low air pollutant concentration when the user moves a specific place, there is an advantage that the user can minimize exposure to a bad air environment when he / have.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a health management system,

The present invention relates to a health management system according to an air quality, and more particularly, to measure a concentration of air pollutants contained in the air and provide various health management guidance to users according to the measured air pollutant concentration.

Particularly, in guiding the route to the destination designated by the user, the present invention preferentially guides the user to move along a clean route with a relatively low air pollutant concentration, thereby improving the air quality And a health management system according to the present invention.

Dust refers to particulate matter that floats or falls down in the atmosphere. It is often present in burning fossil fuels such as coal and oil, as well as in exhaust gases from factories and automobiles.

Dust is classified into Total Suspended Particles (TSP) and Particulate Matter (PM) with a particle size of 50 μm or less depending on the particle size. The fine dust is again divided into fine dust (PM10) having a diameter smaller than 10 μm and fine dust (PM2.5) having a diameter smaller than 2.5 μm. If PM10 is about 1/5 to 1/7 smaller than human hair diameter (50 ~ 70㎛), PM2.5 is very small, about 1/20 ~ 1/30 of hair.

Because fine dust is so small that it is so small that it can not be seen, it stays in the air. It can affect your health by entering the lungs through the respiratory tract or moving into the body along the blood vessels.

The World Health Organization (WHO) has proposed air quality guidelines for fine dust (PM10, PM2.5) since 1987, and in 2013, the International Agency for Research on Cancer (IARC) , The fine dusts were designated as group 1 carcinogens (Group 1), which were identified as carcinogenic to humans.

Recently, as the environmental pollution becomes serious, the frequency of occurrence of such fine dust alarm is high, and as a result, the health of modern people is seriously threatened. In order to maintain health, attention is focused on the concentration of fine dust in outdoor and indoor areas. It is difficult to confirm the information on the concentration of fine dust on the position.

In spite of the low concentration of fine dust, there is a problem that external activity is required in a state of being uneasy about health. On the other hand, there is a problem that the dust is mistaken as being low and exposed for a long time in a bad air environment Respectively.

For example, in moving to a destination, it is difficult to visually check the extent of exposure to a bad atmospheric environment, so it is difficult to feel the risk of fine dust. Therefore, most people neglect health care There is a problem that is being done.

Korean Patent Laid-Open Publication No. 10-2015-0070692 entitled " Method for Measuring Fine Dust Concentration Using a Fine Dust Sensor Apparatus Combined with a Smartphone Application and a Smart Phone "

In order to solve the above-mentioned problems, the present invention provides a method of measuring the concentration of air pollutants contained in the air and providing various health care methods to the user according to the measured air pollutant concentration, And to provide a health management system according to the air quality.

In addition, the present invention shows how much the user is exposed to the air environment with high air pollutant concentration, and shows how long the user can be active in the atmospheric environment, so that the user can continuously understand his or her health condition Health management system.

Particularly, according to the present invention, when a user moves a specific place, when the place is designated as a destination, the user can search for a route with a relatively low air pollutant concentration, thereby minimizing exposure to a bad air environment Health management system.

In order to achieve the above object, the health management system according to the present invention is characterized by comprising: an air measuring device capable of measuring the air pollutant concentration contained in the air, And executes at least one health management mode using the received air quality data.

In the health management mode, if the air pollutant of the air quality data exceeds the atmospheric environment reference value, it is classified into the atmospheric pollutant state. If the air pollutant is below the atmospheric environment reference value, And an exposure verification mode to indicate the time of exposure to the atmospheric environment of the dangerous state.

In addition, the health management mode may include a safety movement mode in which a route of the atmospheric safety state is preferentially analyzed and the optimal safety route is guided when the user inputs a destination.

In addition, in the safe movement mode, if the route that can reach the destination includes at least a part of the atmospheric bad state path, a mask confirmation screen is displayed. If it is determined that the mask is not possessed, You can find and display your store.

In addition, in the safety movement mode, if the route that can reach the destination includes at least a part of the atmospheric bad state route, it predicts future air pollutant concentration and determines whether the optimal safe route can arrive at the destination when starting You can tell.

In addition, in the safety movement mode, if the path of the shortest distance that can reach the destination within at least the maximum exposure allowable time includes at least part of the waiting poor state, the user can display a recommended route selection screen have.

The safe movement mode may further include a recommendation route calculating unit that calculates an exposure amount for each recommended route by multiplying the air pollutant concentration of each recommended route by the travel time and calculates a recommendation route in which the calculated exposure amount exceeds a maximum exposure allowable reference amount set by the user And can be displayed on the recommended route selection screen.

The safe movement mode may further include a step of identifying a shortest path to a distance or time among the recommended paths and calculating a longest allowable condition including at least one of the longest permitted distance and the longest permitted time based on the shortest path, It may be filtered to remove the recommended route exceeding the longest allowable condition and displayed on the recommended route selection screen.

The air cleaner may further include an air cleaner capable of measuring an air pollutant concentration and discharging ions by sucking air. The air cleaner may be capable of wireless communication with at least one of the air meter and the portable terminal .

The health management mode may include an air purifying mode for operating the air purifier if the air quality data measured by the air purifier is in a poor air condition.

According to the above-described solution, the present invention measures the air pollutant concentration contained in the air and provides various health care methods to the user according to the measured air pollutant concentration, thereby improving the user's health .

In addition, the present invention has the advantage of being able to efficiently manage the health since the user can visually indicate how much the user is exposed to the atmospheric environment with high air pollutant concentration.

In particular, since the present invention can confirm how much the air pollutant can be activated in an atmospheric environment having a high air pollutant concentration, there is an advantage that a user can continuously grasp his / her health condition.

1 is a conceptual diagram illustrating an embodiment of a health management system according to an air quality according to the present invention.
2 is a flowchart showing an embodiment of an exposure confirmation mode according to the present invention.
3 is a conceptual diagram illustrating an optimal safety path in a safe movement mode according to an embodiment of the present invention.
4 is a flowchart illustrating an embodiment of the safe movement mode execution according to the present invention.
FIG. 5 is a conceptual diagram showing an optimal safety path including a part of a bad state path. FIG.
FIG. 6 is a conceptual diagram schematically showing a safe movement mode for displaying a mask shop near a user.
7 is a conceptual diagram illustrating another embodiment of a health management system according to the present invention.

The health management system according to the present invention can be variously applied to the health management system according to the present invention. Hereinafter, the most preferred embodiments will be described with reference to the accompanying drawings.

1 is a conceptual diagram illustrating an embodiment of a health management system according to an air quality according to the present invention.

Referring to FIG. 1, a health management system according to an air quality according to the present invention includes an air meter 100 capable of measuring air pollutant concentration and a portable terminal 200 executing at least one health management mode.

The air measuring instrument 100 is for measuring air contaminants such as fine dust, VOC (Volitile Organic Compound) and the like contained in the air, and concentration such as temperature / humidity. The air contaminant and the temperature / humidity concentration And at least one sensor (not shown) capable of detecting it can be provided.

The air meter 100 may be carried by an individual, and may be installed in a place where the user desires to measure the air pollutant concentration.

The air meter 100 may be configured to wirelessly communicate the measured concentration information to at least one of the user's portable terminal 200 and the air quality management server 300 through the wireless communication network 400. [

Meanwhile, the air gauge 100 may be connected to the portable terminal 200 through wireless communication such as Bluetooth, RFID, Zigbee, WIFI, and so on.

The air quality management server 300 is provided to store and manage air quality information measured and received by an air quality measuring instrument or an air cleaner 500 to be described later.

The portable terminal 200 may include various devices including a smart phone, a wearable device, and the like including a wireless communication and a location sensing function (GPS, not shown). In an embodiment of the present invention, A mobile phone will be described as an example.

It is preferable that the calculation and analysis of the air quality data to be described later are performed in at least one of the air quality management server 300 and the portable terminal 200 to be provided in a health management mode to be described later.

The health management system according to the air quality according to the present invention can make it possible to confirm atmospheric environmental conditions at detailed positions by sharing information among users using the system. That is, according to the present invention, the air quality data measured by the air meter 100 installed by each user is managed by the air quality management server 300 so that users can share with each other by using SNS (Social Networking Service) It is possible to check the air pollutant concentration at the same detailed position.

Meanwhile, the health management system according to the present invention according to the present invention may be applied to a distributed environment or a divided region within a region, such as a sensor network composed of a sensor node and a sink node, Each of the air measuring devices 100 takes charge of the information, acquires the information through the sensor, reconstructs the information in the integrated environment of the network, and processes the information.

 Hereinafter, users who use the health management system according to the air quality according to the present invention will be referred to as 'members'.

The mobile terminal 200 includes an app for the user to check the air pollutant concentration measured by the air meter 100 of the user or to confirm or share the shared atmospheric environment condition among the members, And at least one health care mode provided to enable a user to efficiently manage health.

2 is a flowchart showing an embodiment of an exposure confirmation mode according to the present invention.

Referring to FIG. 2, the health management mode of the present invention includes an exposure confirmation mode provided to allow the user to see how much the user is exposed to an air pollutant concentration environment.

Prior to the description, the atmospheric environment with high air pollutant concentration is classified as the atmospheric pollutant, and the atmospheric environment with low air pollutant concentration is classified as atmospheric safety.

In an embodiment of the present invention, the classification criteria of the atmospheric environment condition will be described with reference to the atmospheric environment reference value. If the measured air pollutant concentration exceeds the atmospheric environment reference value, And a safety state.

Atmospheric environment standard value is set for the protection of human health and pleasant environment, and it is prescribed that carbon monoxide is less than 25ppm, nitrogen dioxide is less than 0.10ppm, sulfurous acid gas is less than 0.15ppm and ozone is less than 0.1ppm for one hour average. , Fine dusts have an average value of 100 μg / m 3 for 24 hours, 0.5 μg / m 3 of lead per year and 5 μg / m 3 of benzene per year.

In one embodiment of the present invention, the health management mode will be described on the basis of the above-described atmospheric environment reference value, but the reference may be selectively applied through a setting desired by the user.

For example, the air pollutant concentration can be applied based on the World Health Organization (WHO) standards or the concentration recommended by the specialist.

In addition, in one embodiment of the present invention, the atmospheric environment state will be described as two states, that is, a standby state and a standby state, and the state of the atmospheric environment may be divided into various criteria according to the user's setting .

In the exposure confirmation mode according to an embodiment of the present invention, the user is exposed to the atmospheric environment through the location determination function of the user portable terminal 200, the air environment measured by the air meter 100 is determined, It can indicate how much the user has been exposed to the poor atmospheric environment.

For example, the time during which the mobile terminal 200 is exposed to the poor standby state can be grasped as a time period confirmed by the mobile terminal 200, and the time from when the mobile terminal 200 is confirmed to be exposed to the poor standby state to when the standby safe state is confirmed And the total time of exposure to the poor state can be grasped.

Exposure confirmation mode may display the amount of exposure to the atmospheric bad state in terms of time, but it is not limited to this, and various forms can be applied to the user to recognize that the user is exposed to air pollutants.

The user can perceive that he / she is exposed to the atmospheric environment in poor air condition, so that he / she may be aware of his or her health exposed to the air environment condition.

The Exposure Verification Mode allows you to manage your health by setting a maximum exposure tolerance time that will allow exposure to poor atmospheric conditions.

Here, the maximum exposure time may include the maximum time that an average health person in a particular air quality situation can impair the health of a medical person, and this maximum time may be determined by the opinion of a medical professional, And can be set by a person skilled in the art on the basis thereof.

Exposure confirmation mode can display the remaining exposure time by subtracting the time that the user is exposed to the poor state at the set maximum exposure allowance time, and the user can check the remaining time to perform the external activity or health care more efficiently .

Outside activity here refers to all the activities in the outdoors that contact the atmosphere, such as walking, jogging, driving, and exercise.

Such an exposure confirmation mode may be executed in the portable terminal 200 by a manual operation of the user, but may be set to be executed at any time without any manual operation by setting the portable terminal 200 to receive air quality data continuously.

When the exposure confirmation mode is executed (S100), the maximum exposure allowable time is confirmed (S110). In this case, the maximum exposure allowable time can be inputted by the user directly, and the previously inputted time can be inputted automatically. After the maximum exposure allowable time has been inputted, if it is confirmed that the atmospheric environment state is in the atmospheric state (S120), the maximum exposure allowable time is confirmed (S130). The remaining exposure time is displayed (S140) if the time of exposure to the bad condition is within the maximum exposure allowable time, and the warning sound is output (S150) so that the user can know if the exposure time is exceeded.

The warning sound may be output when the maximum exposure time is approached. When the atmospheric environment is in the atmospheric safety state, the remaining exposure time can be displayed. In addition, the atmospheric environment state can be classified into the color of the atmospheric safety state.

When the exposure confirmation mode is manually performed, the user can perform the exposure check mode through the portable terminal 200, perform the external activity while setting the maximum exposure allowable time, And the remaining exposure time on the portable terminal 200. [0033] FIG. In addition, the exposure confirmation mode can output a warning sound when the exposure time to the standby poor state is close to or equal to the maximum exposure allowable time set by the user.

FIG. 3 is a conceptual diagram illustrating an optimal safety path in a safe movement mode according to an embodiment of the present invention. FIG. 4 is a flowchart illustrating an embodiment of a safe movement mode according to an embodiment of the present invention. And FIG. And FIG. 6 is a conceptual diagram schematically showing a safe movement mode for displaying a mask shop near the user.

Referring to FIG. 3, in the health management mode of the present invention, when a user desires to move a specific place to a destination, a path having a relatively low air pollutant concentration is calculated so that the user can move via an atmospheric environment path in an atmospheric stable state And a safety movement mode provided by the user.

A simple movement route is shown so that the user can move to a specific place, and a description of the technique is generally a normal navigation technology, and a detailed description thereof will be omitted here.

3, the safety movement mode analyzes the path of the atmospheric safety state through the air quality data measured through the air meter 100 of each member, and determines the safety state from the current position L to the destination D, The optimal safety path (SC) can be made so that the user can move to an optimal safety path with a low air pollutant concentration.

Referring to FIG. 4, when the user executes the safe movement mode in order to receive the optimal safety path (S200) and designates a destination to be moved (S210), analysis of the air pollutant concentration measured by the air meter 100 S220) may be preferentially selected and provided as an optimal safety path (S230).

The safety movement mode must continuously check the air quality data to provide an optimal safety path SC. If at least a portion of the optimal safety path SC changes to an atmospheric poor state as shown in FIG. 3 (b) It is desirable to search the path of the atmospheric safety state to provide the user with the optimal safety path SC.

Referring to FIG. 5, the safe movement mode may include remaining remaining exposure time described in the exposure confirmation mode and arriving within the remaining exposure time up to the destination, but at least a part of the standby poor state path is included in part of the optimal safety path SC And it is preferable to display a selection screen for selecting whether to move the route.

That is, if the user passes through the poor state route but can arrive at the destination quickly within the maximum exposure permitted time, it is desirable that the user can select whether to move the route.

In addition, if the optimal safety path SC includes a part of the path in a poor standby state, the safety moving mode provides the user with at least one recommended route, and displays a recommended route selection screen so that the user can select a recommended route .

The recommended route may be various routes that can reach the destination within the maximum exposure allowable time even if the route includes some bad air conditions. However, even if the route is allowed to reach the destination in the shortest time or the shortest distance , It can be provided as a recommended route for the user to select.

However, if the recommended route is provided excessively, it may take unnecessary time for the user to select and there may be difficulties in selecting. Therefore, the safe movement mode multiplies the air pollutant concentration of each recommended route by the travel time to calculate the exposure amount by the recommended route, filters the recommended route so that the calculated exposure amount exceeds the maximum exposure allowable reference amount set by the user, It can be displayed on the selection screen.

The maximum exposure limit is based on medical statistical data and is the maximum amount in which the incidence of a specific disease among respiratory diseases does not increase remarkably. The maximum amount depends on the accumulation of statistical data and the opinions of medical experts. Do not.

In the safe movement mode, the shortest path to each distance or time among the recommended paths is identified, and the longest allowable condition including at least one of the longest allowable distance and the longest allowable time is calculated based on the shortest path, It may be filtered to remove the recommended route exceeding the longest allowable condition and displayed on the recommended route selection screen.

For example, when the longest allowable condition is set to be twice or less as long as the movement time of the shortest path, if the total movement time of the shortest path is one hour, the longest acceptable time can be calculated as two hours, Only the route within this 2 hours can be selected and displayed as a recommended route.

Referring to FIG. 6, in the safe movement mode according to the present invention, if the optimal safety path SC includes at least a part of a bad standby state path as shown in FIG. 5, Can be displayed. If it is determined that the user is not carrying the mask, the safe movement mode can display the position of the nearest mask retailer (MS) from the user after grasping the position P of the user.

For example, in the safe movement mode, the mobile terminal can display a screen on which a user can select whether or not to hold a mask. When the user selects to hold the user, And then display the location of the MS nearest to the user. Here, the position of the mask retailer can be acquired by various methods such as a navigation app and a map app, depending on the needs of the person skilled in the art, so that it is not limited to a specific one.

If the optimum safety path includes at least a part of the atmospheric pollution state path, the safety movement mode is provided in the 'real-time air pollution information disclosure system' through at least one of the portable terminal 200 and the air quality management server 300 It is possible to predict the air pollutant concentration in the future and analyze the air pollutant concentration to determine whether the air cleaner can arrive at the destination through the optimal safety path SC when starting.

7 is a conceptual diagram illustrating another embodiment of a health management system according to the present invention.

Referring to FIG. 7, the system according to the present invention includes the air meter 100, the portable terminal 200, the air quality management server 300, and the air cleaner 500.

Air pollutants are very dangerous to health due to heart diseases, respiratory diseases, lung diseases, and carcinogens, and the air quality due to fine dust and nitrogen dioxide affects the efficiency of sleep.

Accordingly, the health management system according to the present invention for air quality further includes an air cleaner 500 to purify air contaminants contained in the indoor air and convert it into fresh air. In order to manage indoor air quality, fine dust, VOC (Not shown) capable of measuring the concentrations of air pollutants such as volatile organic compounds (VOCs) and temperature / humidity, and capable of detecting the air pollutants and the temperature / humidity concentration, It is preferable to measure the air quality in real time.

The health management mode of the portable terminal includes an air purifying mode for operating the air purifier when the air quality data measured by the air purifier is in a poor air condition.

For example, when the air purifying mode is activated, the air purifier can automatically set the air purifier to automatically purge air when the concentration of the air pollutant in the house measured by the air purifier installed in the house is measured in a bad environment.

In the health management mode, even if the air pollutant concentration measured in the air cleaner is measured as the atmospheric safety state, if the air pollutant concentration measured in the air measuring device for measuring the outside air environment is in a poor air condition, The air can be prevented from being contaminated in advance.

The health management system according to the present invention has been described above. It will be understood by those skilled in the art that the technical features of the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof.

It is to be understood, therefore, that the embodiments described above are in all respects illustrative and not restrictive.

100: Air Meter
200: portable terminal
300: air quality management server
400: wireless communication network
500: air cleaner

Claims (2)

An air analyzer including a sensor capable of measuring air concentration, temperature, and humidity of air contaminants including fine dust and VOC (Volatile Organic Compound) contained in the air, and capable of wireless communication;
An air quality management server for storing and managing the air pollutant concentration measured by the air analyzer as air quality data; And
The air pollution concentration measured by the air analyzer and the air quality data from the air quality management server to execute at least one health management mode, and the air pollution concentration is detected through any one of the air quality management server and the air measuring device And a portable terminal for confirming the existence of a user at the identified location by a location determination function and determining what kind of atmospheric environment the user is exposed to,
Wherein one of the portable terminal and the air quality management server comprises:
And classifying the air quality data into an air pollution state if the air pollutant concentration measured by the air analyzer exceeds an air pollution reference value and classifying the air pollutant into an air pollution state if the air pollutant is less than an air pollution reference value, Mode,
The health management mode includes:
An exposure confirmation mode in which when the user sets a maximum exposure allowable time for allowing the user to be exposed to the atmospheric environment in the poor state, And
And a safety movement mode for preferentially analyzing the path of the atmospheric safety state and guiding the optimal safety path when the user inputs a destination,
The time of exposure to the poor state in the exposure confirmation mode is checked from the time from the time when it is confirmed that the exposure has been exposed to the poor state to the time from when the safety state is confirmed to the time until the state of the safety state is confirmed, Is calculated as the time confirmed by the portable terminal,
In the exposure confirmation mode,
A remaining exposure time calculated by subtracting a time when the user is exposed to the poor state at the set maximum exposure allowable time; a warning sound is output so that the user can know when the maximum exposure permitted time is exceeded; In the case of the atmospheric safety state, the remaining exposure time is displayed. The atmospheric state is classified into the color of the atmospheric safety state,
In the safe movement mode,
If the route of the shortest distance that can reach the destination within the maximum exposure permissible time includes at least a part of the waiting poor state, confirms a recommended route that the user can select including the route of the shortest distance,
The remaining exposure time of the exposure confirmation mode can be checked and it is possible to arrive within the remaining exposure time to the destination. However, if at least a part of the standby state is included in the part of the optimal safety path, a selection screen In addition,
Determining a shortest path for each distance or time among the recommended paths, calculating a longest permissible condition including at least one of the longest allowable distance and the longest permissible time based on the shortest path, And displays it on the recommended route selection screen,
If the path that can reach the destination includes at least a part of the atmospheric pollution state path, it predicts future air pollutant concentration, determines when the air pollutant concentration can reach the destination with the optimal safety path,
Multiplying the air pollutant concentration of each recommended route by the travel time to calculate an exposure amount for each recommended route;
Wherein the calculated exposure amount is filtered to remove a recommended route exceeding a maximum exposure allowable reference amount set by the user and displayed on the recommendation route selection screen.
The method according to claim 1,
In the safe movement mode, the portable terminal can display a screen on which a user can select whether to carry a mask. When the portable terminal is not occupied, the position of the user is detected and the position of the closest mask retailer is displayed from the user Health management system based on air quality.

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