CN112856764A - Humidity control system for improving user experience - Google Patents

Abstract

The invention discloses a humidity control system for improving user experience, which comprises a user database, an indoor building information database, a humidity presetting module, a humidity acquisition module, a figure image acquisition module and an indoor humidity adjusting module, the user database is used for storing identity information and health information of a user, the health information comprises respiratory disease conditions, skin disease conditions and rheumatism disease conditions, the indoor building information database is used for storing the interval duration between the current time and the indoor decoration completion time, the humidity presetting module is used for presetting a standard value range of indoor environment humidity, the humidity acquisition module is used for acquiring the current indoor environment humidity, the figure image acquisition module is used for acquiring the current indoor figure image, and the indoor humidity adjusting module adjusts and controls the indoor humidity according to the current indoor environment humidity W1 and the indoor figure image.

Description

Humidity control system for improving user experience

Technical Field

The invention relates to the field of humidity control, in particular to a humidity control system for improving user experience.

Background

Humidity, a physical quantity representing the degree of dryness of the atmosphere. The less water vapor contained in a certain volume of air at a certain temperature, the drier the air; the more water vapor, the more humid the air. Along with the improvement of the living regulation of people, people not only pursue the comfort on the temperature, but also pursue the comfort on the humidity, and during winter and spring, people like humidifying the air by using an air humidifier, and during plum rain season, people like dehumidifying the air by using a dehumidifier. However, too high or too low humidity is not good for human health.

Disclosure of Invention

The present invention is directed to a humidity control system and method for improving user experience, so as to solve the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme:

a humidity control system for improving user experience comprises a user database, an indoor building information database, a humidity presetting module, a humidity acquisition module, a figure image acquisition module and an indoor humidity adjusting module, the user database is used for storing identity information and health information of a user, the health information comprises respiratory disease conditions, skin disease conditions and rheumatism disease conditions, the indoor building information database is used for storing the interval duration between the current time and the indoor decoration completion time, the humidity presetting module is used for presetting a standard value range of indoor environment humidity, the humidity acquisition module is used for acquiring the current indoor environment humidity, the figure image acquisition module is used for acquiring the current indoor figure image, and the indoor humidity adjusting module adjusts and controls the indoor humidity according to the current indoor environment humidity W1 and the indoor figure image.

Preferably, the humidity control module comprises a figure checking module, an unmanned humidity control module and an unmanned humidity control module, the figure checking module judges whether a person exists in the room according to the acquisition result of the figure image acquisition module, the unmanned humidity control module transmits information under the condition that the person does not exist in the room, the humidity control module transmits information under the condition that the person exists in the room, the unmanned humidity control module comprises an interval duration judgment module and a first regulation output module, and the interval duration judgment module outputs a corresponding humidity control mode for the first regulation output module according to the interval duration length transmission information of the current time and the indoor decoration completion time.

Preferably, the people humidity adjusting module comprises an indoor people counting module, a face information extracting module, an age group judging module, a database comparing module, a health index acquiring module, a body information extracting module, a skin exposure area judging module, a moving state judging module, a humidity evaluation index calculating module, a humidity evaluation index comparing module and a second adjusting output module, wherein the indoor people counting module counts the current indoor people number n according to the collected image of the people image collecting module, the face information extracting module extracts the face information from the collected image of the people image collecting module, the age group judging module judges whether the people are children or old people according to the face information extracted by the face information extracting module, and the database comparing module compares the face information extracted by the face information extracting module with the face information of the user in the user database, judging whether the current indoor figure belongs to a user in a user database, wherein the health index acquisition module acquires the respiratory disease condition, the skin disease condition and the rheumatism condition of the user from the user database when judging that the current indoor figure belongs to the user in the user database, outputs the respiratory index, the skin index and the rheumatism index according to the respiratory disease condition, and outputs the default respiratory index, the skin index and the rheumatism index when judging that the current indoor figure does not belong to the user in the user database; the body information extraction module extracts body information from the captured image of the person image capturing module, the skin exposure area judging module extracts the body information from the body information extracting module to obtain the size of the skin exposure area of the indoor person, and outputting the skin exposure index according to the relationship between the size of the area exposed to the skin and the area threshold, the movement state judgment module extracts the body information from the body information extraction module to acquire the movement state of the indoor person, and outputting rest index according to whether the indoor figures are in static state or in motion state, wherein the humidity evaluation index calculation module calculates humidity evaluation index according to the breathing index, skin index, rheumatism index, skin exposure index and rest index of the indoor task, the humidity evaluation index comparison module is used for comparing the humidity evaluation index, and transmitting information to the second regulation output module according to the comparison result to output a corresponding humidity regulation mode.

A humidity control method for enhancing a user experience, the humidity control method comprising the steps of:

step S1: a user database and an indoor building information database are established in advance;

step S2: the standard value range of the indoor environment humidity is preset from humidity Wp to humidity Wq, the current indoor environment humidity W1 and the indoor person condition are obtained, and the indoor humidity is adjusted and controlled according to the current indoor environment humidity W1 and the indoor person condition.

Preferably, the step S1 further includes: the user database is used for storing identity information and health information of a user, the identity information is face information, the health information comprises respiratory disease conditions, skin disease conditions and rheumatism disease conditions, and the indoor building information database is used for storing the interval duration ys between the current time and the indoor decoration completion time.

Preferably, the step S2 further includes:

judging the situation of people in the current room, when no people exist in the current room,

if the interval time is less than 3 years, the humidifying system keeps working,

if the interval duration is more than or equal to 3 years and the interval duration is less than or equal to 15 years, the humidifying system and the dehumidifying system work so that the ambient humidity W1= Wq;

if the interval time ys is longer than 15 years, the humidifying system and the dehumidifying system operate such that the ambient humidity W1 is between the humidity Wp and the humidity Wq;

when people exist in the current room, the indoor humidity is controlled according to the conditions of the people in the current room. The dissolution of the toxic substance in the indoor air of indoor air humidity influences, and the improvement of indoor air humidity helps reducing the concentration of indoor ammonia class and formaldehyde, and when nobody is in the room, the improvement of indoor humidity helps accelerating the release of formaldehyde to accelerate the discharge of formaldehyde, reduce the threat that formaldehyde caused to human health.

Preferably, the step S2 further includes:

collecting image information of people in the current room, acquiring the number n of people in the current room,

extracting facial information from the image information, judging whether the person is a child or an elderly person according to the facial information, comparing the facial information with facial information of a user in a user database, judging whether an indoor person belongs to the user in the user database, acquiring health information of the user when the indoor person belongs to the user in the user database, acquiring a respiratory index H1=1 if the user has a respiratory disease, acquiring a skin index H2=0.6 if the user has a skin disease, acquiring a rheumatism index H3= -1 if the user has a rheumatism disease, and acquiring a respiratory index H1, a skin index H2 and a rheumatism index H3 which are all 0 when the indoor person does not belong to the user in the user database;

the method comprises the steps of extracting body information from image information, extracting the size of an area of an indoor person exposed to the skin and the moving state of the indoor person according to the body information, wherein when the size of the area of the indoor person exposed to the skin is larger than or equal to an area threshold value, an exposed skin index L = -1, when the size of the area of the indoor person exposed to the skin is smaller than or equal to the area threshold value, the exposed skin index L =0.3, when the indoor person is in a static state, a rest index X =0.2, when the indoor person is in a moving state, the rest index X = -1, when the exposed skin area of a human body is large, or when sweat is generated in the moving state, the human body needs to be dehumidified, and if the indoor humidity is too high, the.

Calculating humidity assessment parameters

. Where i denotes the ith person, a =1 when the ith person is a child or an elderly person, and a =0.8, H1 when the ith person is neither a child nor an elderly personi denotes a respiration index of the ith person, H2i denotes a skin index of the ith person, H3i denotes a rheumatism index of the ith person, Li denotes a skin exposure index of the ith person, and Xi denotes a rest index of the ith person. Children and the elderly are physically fragile and sensitive to changes in humidity, and therefore their influence should be considered more when adjusting the humidity control.

Preferably, the step S2 further includes:

when the humidity evaluation parameter D is greater than 0, the humidification system and the dehumidification system operate such that the ambient humidity W1 is between humidity (Wp + Wq)/2 and humidity Wq;

when the humidity evaluation parameter D is equal to 0, the humidification system and the dehumidification system operate such that the ambient humidity W1= (Wp + Wq)/2;

when the humidity evaluation parameter D is less than 0, the humidification system and the dehumidification system operate such that the ambient humidity W1 is located between the humidity Wp and the humidity (Wp + Wq)/2.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, different humidity control modes are selected according to the existence of the indoor people, so that the humidity control is more reasonable, when people exist in the room, the humidity is controlled according to the age of the indoor people, the physical health condition, the movement condition and the like of the indoor people, the humidity control is more targeted, and the humidity experience of the indoor people is further improved.

Drawings

FIG. 1 is a block diagram of a humidity control system for enhancing user experience according to the present invention

FIG. 2 is a flow chart illustrating a humidity control method for improving user experience according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 2, in an embodiment of the present invention, a humidity control system and a method for improving user experience include a user database, an indoor building information database, a humidity presetting module, a humidity acquisition module, a character image acquisition module, and an indoor humidity adjustment module, where the user database is used to store user identification information and health information, the health information includes respiratory disease conditions, skin disease conditions, and rheumatism disease conditions, the indoor building information database is used to store interval duration between current time and indoor decoration completion time, the humidity presetting module is used to preset a standard value range of indoor environment humidity, the humidity acquisition module is used to acquire current indoor environment humidity, the character image acquisition module is used to acquire current indoor character images, and the indoor humidity adjustment module adjusts and controls indoor environment humidity according to current indoor environment humidity W1 and indoor character images Humidity.

Preferably, the humidity control module comprises a figure checking module, an unmanned humidity control module and an unmanned humidity control module, the figure checking module judges whether a person exists in the room according to the acquisition result of the figure image acquisition module, the unmanned humidity control module transmits information under the condition that the person does not exist in the room, the humidity control module transmits information under the condition that the person exists in the room, the unmanned humidity control module comprises an interval duration judgment module and a first regulation output module, and the interval duration judgment module outputs a corresponding humidity control mode for the first regulation output module according to the interval duration length transmission information of the current time and the indoor decoration completion time.

Preferably, the people humidity adjusting module comprises an indoor people counting module, a face information extracting module, an age group judging module, a database comparing module, a health index acquiring module, a body information extracting module, a skin exposure area judging module, a moving state judging module, a humidity evaluation index calculating module, a humidity evaluation index comparing module and a second adjusting output module, wherein the indoor people counting module counts the current indoor people number n according to the collected image of the people image collecting module, the face information extracting module extracts the face information from the collected image of the people image collecting module, the age group judging module judges whether the people are children or old people according to the face information extracted by the face information extracting module, and the database comparing module compares the face information extracted by the face information extracting module with the face information of the user in the user database, judging whether the current indoor figure belongs to a user in a user database, wherein the health index acquisition module acquires the respiratory disease condition, the skin disease condition and the rheumatism condition of the user from the user database when judging that the current indoor figure belongs to the user in the user database, outputs the respiratory index, the skin index and the rheumatism index according to the respiratory disease condition, and outputs the default respiratory index, the skin index and the rheumatism index when judging that the current indoor figure does not belong to the user in the user database; the body information extraction module extracts body information from the captured image of the person image capturing module, the skin exposure area judging module extracts the body information from the body information extracting module to obtain the size of the skin exposure area of the indoor person, and outputting the skin exposure index according to the relationship between the size of the area exposed to the skin and the area threshold, the movement state judgment module extracts the body information from the body information extraction module to acquire the movement state of the indoor person, and outputting rest index according to whether the indoor figures are in static state or in motion state, wherein the humidity evaluation index calculation module calculates humidity evaluation index according to the breathing index, skin index, rheumatism index, skin exposure index and rest index of the indoor task, the humidity evaluation index comparison module is used for comparing the humidity evaluation index, and transmitting information to the second regulation output module according to the comparison result to output a corresponding humidity regulation mode.

A humidity control method for enhancing a user experience, the humidity control method comprising the steps of:

step S1: a user database and an indoor building information database are established in advance, wherein the user database is used for storing identity information and health information of a user; the identity information is face information, the health information comprises respiratory disease conditions, skin disease conditions and rheumatism disease conditions, and the indoor building information database is used for storing the interval duration ys between the current time and the indoor decoration completion time

Step S2: presetting the standard value range of the indoor environment humidity as humidity Wp to humidity Wq, acquiring the current indoor environment humidity W1 and the indoor person condition,

judging the situation of people in the current room, when no people exist in the current room,

if the interval time is less than 3 years, the humidifying system keeps working,

if the interval duration is more than or equal to 3 years and the interval duration is less than or equal to 15 years, the humidifying system and the dehumidifying system work so that the ambient humidity W1= Wq;

if the interval time ys is longer than 15 years, the humidifying system and the dehumidifying system operate such that the ambient humidity W1 is between the humidity Wp and the humidity Wq;

when people exist in the current room, collecting the image information of the people in the current room to obtain the number n of people in the current room,

extracting facial information from the image information, judging whether the person is a child or an elderly person according to the facial information, comparing the facial information with facial information of a user in a user database, judging whether an indoor person belongs to the user in the user database, acquiring health information of the user when the indoor person belongs to the user in the user database, acquiring a respiratory index H1=1 if the user has a respiratory disease, acquiring a skin index H2=0.6 if the user has a skin disease, acquiring a rheumatism index H3= -1 if the user has a rheumatism disease, and acquiring a respiratory index H1, a skin index H2 and a rheumatism index H3 which are all 0 when the indoor person does not belong to the user in the user database;

extracting body information from the image information, extracting an area size of an exposed skin of an indoor person and a moving state of the indoor person based on the body information, wherein an exposure index L = -1 when the area size of the exposed skin of the indoor person is equal to or greater than an area threshold, the exposure index L =0.3 when the area of the exposed skin of the indoor person is equal to or less than the area threshold, a rest index X =0.2 when the indoor person is in a stationary state, and the rest index X = -1 when the indoor person is in a moving state,

calculating humidity assessment parameters

. Wherein i represents an ith person, a =1 when the ith person is a child or an elderly person, a =0.8 when the ith person is neither a child nor an elderly person, H1i represents a respiratory index of the ith person, H2i represents a skin index of the ith person, H3i represents a rheumatic index of the ith person, Li represents a skin exposure index of the ith person, and Xi represents a resting index of the ith person;

when the humidity evaluation parameter D is greater than 0, the humidification system and the dehumidification system operate such that the ambient humidity W1 is between humidity (Wp + Wq)/2 and humidity Wq;

when the humidity evaluation parameter D is equal to 0, the humidification system and the dehumidification system operate such that the ambient humidity W1= (Wp + Wq)/2;

when the humidity evaluation parameter D is less than 0, the humidification system and the dehumidification system operate such that the ambient humidity W1 is located between the humidity Wp and the humidity (Wp + Wq)/2.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (2)

1. A humidity control system for enhancing a user experience, characterized by: the humidity control system comprises a user database, an indoor building information database, a humidity presetting module, a humidity acquisition module, a figure image acquisition module and an indoor humidity adjusting module, wherein the user database is used for storing identity information and health information of a user, the health information comprises respiratory disease conditions, skin disease conditions and rheumatism conditions, the indoor building information database is used for storing interval duration of current time and indoor decoration completion time, the humidity presetting module is used for presetting a standard value range of indoor environment humidity, the humidity acquisition module is used for acquiring current indoor environment humidity, the figure image acquisition module is used for acquiring current indoor figure images, and the indoor humidity adjusting module adjusts and controls indoor humidity according to the current indoor environment humidity and the indoor figure images;

the humidity control method includes the steps of:

step S1: a user database and an indoor building information database are established in advance;

step S2: presetting a standard value range of indoor environment humidity from the humidity Wp to the humidity Wq, acquiring the current indoor environment humidity W1 and the indoor person condition, and adjusting and controlling the indoor humidity according to the current indoor environment humidity W1 and the indoor person condition;

the step S1 further includes: the indoor decoration system comprises a user database, an indoor building information database and an indoor decoration completion time database, wherein the user database is used for storing identity information and health information of a user, the identity information is face information, the health information comprises respiratory disease conditions, skin disease conditions and rheumatism disease conditions, and the indoor building information database is used for storing interval duration ys between the current time and the indoor decoration completion time;

the step S2 further includes:

judging the situation of people in the current room, when no people exist in the current room,

if the interval time is less than 3 years, the humidifying system keeps working,

if the interval duration is more than or equal to 3 years and the interval duration is less than or equal to 15 years, the humidifying system and the dehumidifying system work so that the ambient humidity W1= Wq;

if the interval time ys is longer than 15 years, the humidifying system and the dehumidifying system operate such that the ambient humidity W1 is between the humidity Wp and the humidity Wq;

when people exist in the current room, controlling the indoor humidity according to the conditions of the people in the current room;

the step S2 further includes:

collecting image information of people in the current room, acquiring the number n of people in the current room,

extracting facial information from the image information, judging whether the person is a child or an elderly person according to the facial information, comparing the facial information with facial information of a user in a user database, judging whether an indoor person belongs to the user in the user database, acquiring health information of the user when the indoor person belongs to the user in the user database, acquiring a respiratory index H1=1 if the user has a respiratory disease, acquiring a skin index H2=0.6 if the user has a skin disease, acquiring a rheumatism index H3= -1 if the user has a rheumatism disease, and acquiring a respiratory index H1, a skin index H2 and a rheumatism index H3 which are all 0 when the indoor person does not belong to the user in the user database;

extracting body information from the image information, extracting an area size of an exposed skin of an indoor person and a moving state of the indoor person based on the body information, wherein an exposure index L = -1 when the area size of the exposed skin of the indoor person is equal to or greater than an area threshold, the exposure index L =0.3 when the area of the exposed skin of the indoor person is equal to or less than the area threshold, a rest index X =0.2 when the indoor person is in a stationary state, and the rest index X = -1 when the indoor person is in a moving state,

calculating humidity assessment parameters

；

Where i denotes the ith person, a =1 when the ith person is a child or an elderly person, a =0.8 when the ith person is neither a child nor an elderly person, H1i denotes the respiratory index of the ith person, H2i denotes the skin index of the ith person, H3i denotes the rheumatic index of the ith person, Li denotes the skin exposure index of the ith person, and Xi denotes the resting index of the ith person.

2. A humidity control system for enhancing a user experience as claimed in claim 1, wherein: the step S2 further includes:

when the humidity evaluation parameter D is greater than 0, the humidification system and the dehumidification system operate such that the ambient humidity W1 is between humidity (Wp + Wq)/2 and humidity Wq;

when the humidity evaluation parameter D is equal to 0, the humidification system and the dehumidification system operate such that the ambient humidity W1= (Wp + Wq)/2;

when the humidity evaluation parameter D is less than 0, the humidification system and the dehumidification system operate such that the ambient humidity W1 is located between the humidity Wp and the humidity (Wp + Wq)/2.

Images