CN115183358B - Chlorine dioxide disinfection fresh air system based on Internet of things and artificial intelligence - Google Patents

Abstract

The invention discloses a chlorine dioxide disinfection fresh air system based on the Internet of things and artificial intelligence, which analyzes the air pollution indexes of each monitoring point in a target family residential area by detecting the quantity of various air viruses of each monitoring point in the target family residential area, and carries out quantitative disinfection treatment in turn according to the sequence from large to small of the air pollution indexes, thereby effectively preventing and controlling the indoor air viruses of the family residential area, improving the quality of the family life of family members, monitoring the air environment parameters of each monitoring point after the air disinfection treatment of each monitoring point is finished by a chlorine dioxide disinfection device corresponding to the target family residence, analyzing the air disinfection effect evaluation index of each monitoring point, and carrying out corresponding treatment, thereby intuitively knowing the air disinfection effect of the chlorine dioxide disinfection fresh air system, further ensuring the physical and mental health of the family members, and meeting the healthy family life requirements of the family members.

Description

Chlorine dioxide disinfection fresh air system based on Internet of things and artificial intelligence

Technical Field

The invention relates to the technical field of fresh air system management, in particular to a chlorine dioxide disinfection fresh air system based on the Internet of things and artificial intelligence.

Background

With the development of social economy and technology, the living standard of people is continuously improved, and the quality requirements of people on the domestic living environment are higher and higher. When the indoor air of the household residence is not circulated, the number of microorganisms in the indoor air is increased, and various diseases are easily caused. Therefore, the disinfection system which is not only ventilated, but also can coexist in man-machine, and has initiative, high efficiency and no dead angle becomes necessary for the work and life of people in the future.

However, most of the existing fresh air disinfection systems cannot realize active and man-machine coexistence disinfection, so that the phenomenon that air in indoor corners is difficult to be added into circulating disinfection treatment exists, indoor air in a residential area of a family cannot be disinfected comprehensively without dead angles, and a disinfection blind area easily exists; meanwhile, the existing fresh air disinfection system basically adopts ultraviolet rays or hydrogen peroxide for disinfection, but can only be used when no one is in the residential area of a family, so that the applicable scene is limited, the propagation of indoor aerosol viruses when the family members gather cannot be blocked, and further the effective prevention and control of the indoor air viruses in the residential area of the family cannot be realized, the quality of the family life of the family members is further influenced, and the existing fresh air disinfection system is mainly used for disinfection treatment in a passive and defensive mode, namely the fresh air disinfection system is required to be manually controlled to disinfect the indoor air, and the indoor air cannot be disinfected intelligently and scientifically, so that the disinfection efficiency and the disinfection activity are reduced, and further the high-efficiency air disinfection effect of the fresh air disinfection system cannot be met;

the air after the regional indoor air of family's house is disinfected to current new trend disinfection system, lacks the air of indoor disinfection processing and rechecks to can not understand new trend disinfection system's air disinfection effect directly perceivedly, the not good and not in time condition of finding of disinfection effect appears easily, has further increased invalid sterile incidence, and then brings certain influence for family member's physical and mental health, can't satisfy family member's healthy life demand at home.

Disclosure of Invention

In view of the problems in the prior art, the invention provides a chlorine dioxide disinfection fresh air system based on the internet of things and artificial intelligence, which is used for solving the technical problems.

The technical scheme adopted by the invention for solving the technical problems is as follows:

the invention provides a chlorine dioxide disinfection fresh air system based on the Internet of things and artificial intelligence, which comprises:

the household residence area scanning module is used for scanning a target household residence area to obtain an indoor household type graph corresponding to the target household residence area, and monitoring point arrangement is carried out according to the indoor household type graph corresponding to the target household residence area;

the monitoring route planning module is used for acquiring the position coordinates of each monitoring point in the target family residential area and planning the monitoring route of the chlorine dioxide disinfection device corresponding to the target family residence;

the air disinfection management database is used for storing the allowable quantity threshold values of various air viruses in the environment air suitable for the family residence and the natural extinction rates of the various air viruses in the corresponding unit time, and storing the standard air disinfection effect evaluation index of the chlorine dioxide disinfection device corresponding to the target family residence in single quantitative disinfection treatment;

the air virus quantity detection module is used for detecting the quantity of various air viruses at each monitoring point in the target household residential area according to the monitoring route of the chlorine dioxide disinfection device corresponding to the target household residence;

the air pollution index analysis processing module is used for analyzing the air pollution indexes of all monitoring points in the target home residential area, sequentially arranging the air pollution indexes from large to small to obtain the killing sequence of all monitoring points in the target home residential area, and further carrying out quantitative killing processing on the air at all the monitoring points according to the killing sequence of all the monitoring points;

the system comprises a chlorine dioxide preparation component monitoring module, a chlorine dioxide disinfection device and a control module, wherein the chlorine dioxide preparation component monitoring module is used for monitoring the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to a target household residence area when the chlorine dioxide disinfection device corresponding to the target household residence carries out quantitative disinfection treatment on each monitoring point;

the chlorine dioxide preparation component comparison module is used for carrying out corresponding treatment after comparison and analysis according to the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target household residence area;

the air environment parameter rechecking module is used for monitoring the air environment parameters of each monitoring point in the target family residential area after the chlorine dioxide disinfection device corresponding to the target family residential completes the air disinfection treatment of each monitoring point;

and the air disinfection effect analysis module is used for analyzing the air disinfection effect evaluation index of each monitoring point in the target household residential area and carrying out corresponding treatment.

Preferably, the household residence area scanning module is used for scanning a target household residence area through a high-definition camera, wherein the high-definition camera is installed on the chlorine dioxide disinfection device corresponding to the target household residence to obtain an indoor household type diagram corresponding to the target household residence area, and meanwhile, the plurality of monitoring points are respectively arranged in the indoor household type diagram corresponding to the target household residence area according to a uniform arrangement mode.

Preferably, the specific planning mode corresponding to the monitoring route planning module is as follows:

according to an indoor house type graph corresponding to a target household house area, a plane coordinate system is established by taking a designated point in the indoor house type graph as an original point, position coordinates of all monitoring points in the target household house area are obtained, position coordinates of a chlorine dioxide disinfection device corresponding to the target household house are obtained, the distance between each monitoring point in the target household house area and the position coordinate of the chlorine dioxide disinfection device is analyzed, a monitoring point closest to the position coordinates of the chlorine dioxide disinfection device in the target household house area is screened, the monitoring point is marked as a first monitoring point in a monitoring route of the chlorine dioxide disinfection device corresponding to the target household house, the position coordinate of the first monitoring point in the monitoring route of the chlorine dioxide disinfection device corresponding to the target household house is compared with the position coordinates of other monitoring points, the monitoring point closest to the position coordinates of the first monitoring point in the target household house area is screened, the monitoring point is marked as a second monitoring point in the monitoring route of the chlorine dioxide disinfection device corresponding to the target household house, all monitoring points in the monitoring route of the disinfection device corresponding to the target household house are sequentially obtained, and the monitoring route of the chlorine dioxide disinfection device corresponding to the target household is planned.

Preferably, the detecting the number of the air viruses in the air virus number detecting module at each monitoring point in the target home residential area specifically includes:

according to the monitoring route of the chlorine dioxide disinfection device corresponding to the target family house, sequentially extracting monitoring points in the monitoring route of the chlorine dioxide disinfection device corresponding to the target family house according to the sequence, and living the target family house through an air microorganism monitorMonitoring air at each monitoring point in the residential area, wherein the air microorganism monitor is installed on a chlorine dioxide disinfection device corresponding to a target family residence to obtain the initial quantity of various air viruses at each monitoring point in the target family residence, and marking the initial quantity of various air viruses at each monitoring point in the target family residence as x ⁱ _j I =1, 2.. N, i denotes the number of the i-th monitoring point, and j =1, 2.. M, j denotes the number of the j-th air virus.

Preferably, the air pollution index analyzing and processing module analyzes the air pollution index at each monitoring point in the target home residential area in the following manner:

extracting the threshold value of the allowable quantity of various air viruses in the suitable ambient air of the family house stored in the air disinfection management database, and marking the allowable quantity of the various air viruses in the suitable ambient air of the family house as X _j ′；

The initial number x of various air viruses at each monitoring point in the target home residential area is determined ⁱ _j Substituted into the air pollution index analysis formula

Obtaining the air pollution index xi of each monitoring point in the target family residential area _i Where mu is expressed as a predetermined air pollution index compensation factor, delta _j Is represented by a preset air pollution influence weight coefficient delta x 'corresponding to the j-th air virus' _j Expressed as a preset deviation value of the allowed number of jth air viruses.

Preferably, the comparison mode corresponding to the chlorine dioxide preparation component comparison module comprises the following steps:

the method comprises the steps of obtaining the required amount of each chlorine dioxide preparation component of a chlorine dioxide disinfection device corresponding to a target household residence during single disinfection treatment, comparing the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target household residence area with the required amount of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device during single disinfection treatment, and if the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target household residence area is larger than or equal to the required amount of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device during single disinfection treatment, performing disinfection treatment by the chlorine dioxide disinfection device corresponding to the target household residence area; if the current weight of a certain chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target family residence area is smaller than the required amount of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device in single disinfection treatment, an early warning prompt is sent out through the chlorine dioxide disinfection device corresponding to the target family residence area.

Preferably, the air environment parameter rechecking module monitors the air environment parameters at each monitoring point in the target home residential area, and specifically includes:

after the chlorine dioxide disinfection device corresponding to the target family house finishes the air sterilization treatment of each monitoring point, respectively rechecking the air at each monitoring point through the chlorine dioxide disinfection device corresponding to the target family house to obtain the air environment parameters at each monitoring point in the target family house area, wherein the air environment parameters comprise the rechecking quantity of various air viruses, the environment temperature and the environment humidity, and the rechecking quantity, the environment temperature and the environment humidity of various air viruses at each monitoring point in the target family house area are respectively marked as y ⁱ _j 、w ⁱ ₁ 、w ⁱ ₂ 。

Preferably, the corresponding specific analysis of the air disinfection effect analysis module comprises:

the initial number of various air viruses at each monitoring point within the target home residence area is labeled x ⁱ _j ；

Extracting the natural extinction rate of various air viruses in the suitable environment air of the family residence in the air disinfection management database in unit time, and marking the natural extinction rate as sigma _j ；

Acquiring the time point of the chlorine dioxide disinfection device corresponding to the target family house when the chlorine dioxide disinfection device disinfects and kills the air at each monitoring point and the time point when the air at each monitoring point is rechecked, and comparing the time points to obtain the air disinfection of each monitoring point in the target family house areaLength of action, marked as T _i ；

Evaluation index for analyzing air disinfection effect of each monitoring point in target household residential area

Wherein λ _j Expressed as a preset disinfection effect compensation coefficient corresponding to the jth air virus killing rate, epsilon ₁ 、ε ₂ Respectively expressed as the influence weight factors of the natural air virus extinction rates corresponding to the preset regional environmental temperature and the regional environmental humidity, epsilon ₁ +ε ₂ ＝1，w ₁ ′ _{Is suitable for} 、w′ _{2 is suitable for} Respectively, the temperature and humidity are suitable for the ambient air suitable for the home.

Preferably, the corresponding specific analysis of the air disinfection effect analysis module further includes:

extracting standard air disinfection effect evaluation index of chlorine dioxide disinfection device corresponding to target family house stored in air disinfection management database during single quantitative disinfection treatment, obtaining standard air disinfection effect evaluation index of each monitoring point in target family house area according to air disinfection action duration of each monitoring point in target family house area, and marking the standard air disinfection effect evaluation index as psi _i ′；

And if the evaluation index of the air disinfection effect of a certain monitoring point in the target family residential area is smaller than the evaluation index of the standard air disinfection effect of the corresponding monitoring point, the evaluation index of the air disinfection effect of the certain monitoring point in the target family residential area indicates that the air disinfection effect of the monitoring point in the target family residential area reaches the expected effect, and if the evaluation index of the air disinfection effect of the certain monitoring point in the target family residential area is smaller than the evaluation index of the standard air disinfection effect of the corresponding monitoring point, the evaluation index of the air disinfection effect of the monitoring point in the target family residential area indicates that the air disinfection effect of the monitoring point in the target family residential area does not reach the expected effect, the target family residential members are informed to carry out corresponding investigation treatment.

Compared with the prior art, the chlorine dioxide disinfection fresh air system based on the Internet of things and artificial intelligence has the following beneficial effects:

the invention obtains the indoor household graph corresponding to the target family residence area, lays the monitoring points according to the indoor household graph corresponding to the target family residence area, obtains the position coordinates of each monitoring point in the target family residence area, plans the monitoring route of the chlorine dioxide disinfection device corresponding to the target family residence, thereby avoiding the phenomenon that the air at the indoor corner is difficult to be added into the circular disinfection treatment, further avoiding the disinfection blind area, realizing the comprehensive disinfection treatment without dead angles on the indoor air of the family residence area, simultaneously detecting the quantity of various air viruses at each monitoring point in the target family residence area, analyzing the air pollution index at each monitoring point in the target family residence area, and sequentially arranging according to the sequence of the air pollution indexes from large to small, carrying out the quantitative disinfection treatment on the air at each monitoring point in the target family residence area, thereby solving the problem of indoor virus propagation when the family members gather, expanding the application scene of the disinfection fresh air system, improving the applicability of the fresh air disinfection system, having the characteristics of the household disinfection system, realizing the effective control on the indoor air viruses in the family residence area, improving the quality, further improving the high-efficiency and the disinfection effect of the fresh air disinfection system, and the practicability of the fresh air disinfection.

According to the invention, when the chlorine dioxide disinfection device corresponding to the target household residence carries out quantitative disinfection treatment on each monitoring point, the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target household residence area is monitored, and the current weight is correspondingly treated after comparative analysis, so that the problem of insufficient chlorine dioxide supply in the disinfection treatment process of the chlorine dioxide disinfection fresh air system is avoided, and the chlorine dioxide disinfection fresh air system is further ensured to carry out sufficient disinfection treatment on indoor air.

According to the invention, after the chlorine dioxide disinfection device corresponding to the target family house completes the air disinfection treatment of each monitoring point, the air environment parameters of each monitoring point in the target family residential area are monitored, the air disinfection effect evaluation index of each monitoring point in the target family residential area is analyzed, and the corresponding treatment is carried out, so that the air disinfection effect of the chlorine dioxide disinfection fresh air system is intuitively known, further treatment can be carried out on the air disinfection effect of the fresh air disinfection system timely and effectively, the physical and mental health of family members is ensured to the greatest extent, and the healthy family life requirements of the family members are met.

Drawings

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

FIG. 1 is a system block diagram of the present invention;

fig. 2 is a schematic view of a chlorine dioxide sterilizing apparatus 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, the invention provides a chlorine dioxide disinfection fresh air system based on internet of things and artificial intelligence, which comprises a family housing area scanning module, a monitoring route planning module, an air disinfection management database, an air virus quantity detection module, an air pollution index analysis processing module, a chlorine dioxide preparation component monitoring module, a chlorine dioxide preparation component comparison module, an air environment parameter rechecking module and an air disinfection effect analysis module.

The household residence area scanning module is connected with the monitoring route planning module, the air virus quantity detection module is respectively connected with the monitoring route planning module and the air pollution index analysis processing module, the air pollution index analysis processing module is respectively connected with the air disinfection management database, the chlorine dioxide preparation component monitoring module and the air environment parameter rechecking module, the chlorine dioxide preparation component comparison module is connected with the chlorine dioxide preparation component monitoring module, and the air disinfection effect analysis module is respectively connected with the air environment parameter rechecking module and the air disinfection management database.

The family residence area scanning module is used for scanning a target family residence area to obtain an indoor household type graph corresponding to the target family residence area, and monitoring points are distributed according to the indoor household type graph corresponding to the target family residence area.

On the basis of the above embodiment, the home zone scanning module is configured to scan a target home zone through a high-definition camera, where the high-definition camera is installed on a chlorine dioxide disinfection device corresponding to the target home zone, to obtain an indoor house type map corresponding to the target home zone, and meanwhile, a plurality of monitoring points are respectively arranged in the indoor house type map corresponding to the target home zone in a uniformly distributed manner.

The monitoring route planning module is used for acquiring the position coordinates of each monitoring point in the target family residence area and planning the monitoring route of the chlorine dioxide disinfection device corresponding to the target family residence.

On the basis of the above embodiment, the specific planning mode corresponding to the monitoring route planning module is as follows:

according to an indoor house type graph corresponding to a target household residence area, a plane coordinate system is established by taking a designated point in the indoor house type graph as an origin, position coordinates of all monitoring points in the target household residence area are obtained, position coordinates of a chlorine dioxide disinfection device corresponding to the target household residence are obtained, the position coordinate distance between each monitoring point in the target household residence area and the chlorine dioxide disinfection device is analyzed, a monitoring point closest to the chlorine dioxide disinfection device in the target household residence area is screened, the monitoring point is marked as a first monitoring point in a monitoring route of the chlorine dioxide disinfection device corresponding to the target household residence, the position coordinate of the first monitoring point in the monitoring route of the chlorine dioxide disinfection device corresponding to the target household residence is compared with the position coordinates of other monitoring points, a monitoring point closest to the first monitoring point in the target household residence area is screened, the monitoring point is marked as a second monitoring point in the monitoring route of the chlorine dioxide disinfection device corresponding to the target household residence, and then all monitoring points in the monitoring route of the disinfection device corresponding to the target household residence are sequentially obtained, and the monitoring route of the disinfection device corresponding to the target household residence is planned.

Further, the analysis formula of the position coordinate distance between each monitoring point in the target household residential area and the chlorine dioxide disinfection device is as follows

Wherein d is _i Expressed as the position coordinate distance, p, of the chlorine dioxide disinfection unit from the ith monitoring point in the target home residential area _i (a _i ,b _i ) Expressed as the location coordinate, p, of the ith monitoring point within the target home residence area ₀ ′(a ₀ ′,b ₀ ') indicates the location coordinates of the chlorine dioxide disinfection unit for the target home.

The air disinfection management database is used for storing the allowable quantity threshold values of various air viruses in the environment air suitable for the home and the natural extinction rates of the various air viruses in unit time, and storing the standard air disinfection effect evaluation index of the chlorine dioxide disinfection device corresponding to the target home in single quantitative disinfection treatment.

The air virus quantity detection module is used for detecting the quantity of various air viruses at each monitoring point in the target household residential area according to the monitoring route of the chlorine dioxide disinfection device corresponding to the target household residence.

On the basis of the foregoing embodiment, the detecting the number of air viruses at each monitoring point in the target home residential area by the air virus number detecting module specifically includes:

according to chlorine dioxide sterilizing device corresponding to target family residenceA monitoring route, which is characterized in that monitoring points in the monitoring route of the chlorine dioxide disinfection device corresponding to the target family house are sequentially extracted according to the sequence, air at each monitoring point in the target family residential area is monitored by an air microorganism monitor, wherein the air microorganism monitor is arranged on the chlorine dioxide disinfection device corresponding to the target family house, the initial quantity of various air viruses at each monitoring point in the target family residential area is obtained, and the initial quantity of various air viruses at each monitoring point in the target family residential area is marked as x ⁱ _j I =1, 2.. N, i denotes the number of the i-th monitoring point, and j =1, 2.. M, j denotes the number of the j-th air virus.

The air pollution index analyzing and processing module is used for analyzing the air pollution indexes of all monitoring points in the target household residential area, sequentially arranging the air pollution indexes from large to small to obtain the killing sequence of all monitoring points in the target household residential area, and further quantitatively killing the air at all the monitoring points according to the killing sequence of all the monitoring points.

On the basis of the above embodiment, the air pollution index analysis processing module analyzes the air pollution index at each monitoring point in the target home residential area in the following manner:

extracting the threshold value of the allowable quantity of various air viruses in the suitable ambient air of the family house stored in the air disinfection management database, and marking the allowable quantity of the various air viruses in the suitable ambient air of the family house as X _j ′；

The initial number x of various air viruses at each monitoring point in the target home residential area is determined ⁱ _j Substituted into an air pollution index analysis formula

Obtaining the air pollution index xi of each monitoring point in the target family residential area _i Where μ is expressed as a predetermined air pollution index compensation factor, δ _j Is expressed as an air pollution influence weight coefficient, delta x 'corresponding to the preset j (th) air virus' _j J (th) air expressed as presetThe allowable number of viruses is biased.

As a specific embodiment of the present invention, the quantitative killing treatment of the air at each monitoring point in the target home residential area in the foregoing description is specifically performed by:

according to the air pollution indexes of all monitoring points in the target household residential area, obtaining an average air pollution index corresponding to the target household residential area through an average value calculation formula, comparing the average air pollution index corresponding to the target household residential area with an air pollution index range corresponding to each preset air disinfection grade, screening the air disinfection grade corresponding to the target household residential area, and according to the required chlorine dioxide gas concentration of unit volume of air corresponding to each preset air disinfection grade, screening to obtain the required chlorine dioxide gas concentration of unit volume of air corresponding to the target household residential area;

screening to obtain the standard demand of each chlorine dioxide preparation component in the air of unit volume corresponding to the target family residence area according to the standard demand of each chlorine dioxide preparation component corresponding to the concentration of each chlorine dioxide gas in the preset air of unit volume;

obtaining the standard indoor volume corresponding to the target family residence area, and analyzing the demand of each chlorine dioxide preparation component of the chlorine dioxide disinfection device corresponding to the target family residence during single disinfection treatment

Wherein g is _r Expressed as the required amount of the r-th chlorine dioxide preparation component of the chlorine dioxide disinfection device corresponding to the target household residence in a single disinfection treatment, r =1,2 _{Sign board} Expressed as a standard indoor volume corresponding to the target residential home zone,

expressing the standard demand of the r-th chlorine dioxide preparation component in unit volume of air corresponding to the target family residential area, and expressing n as the number of monitoring points distributed in the target family residential area;

and carrying out quantitative killing treatment on the air at each monitoring point in the target household residential area according to the required amount of each chlorine dioxide preparation component of the chlorine dioxide disinfection device corresponding to the target household residential during single killing treatment.

In the embodiment, the indoor household type graph corresponding to the target household residential area is obtained, the monitoring points are distributed according to the indoor household type graph corresponding to the target household residential area, the position coordinates of each monitoring point in the target household residential area are obtained, the monitoring route of the chlorine dioxide disinfection device corresponding to the target household residence is planned, so that the phenomenon that air in indoor corners is difficult to enter circular disinfection treatment can be avoided, disinfection blind areas are further avoided, comprehensive and dead-corner-free disinfection treatment of indoor air in the household residential area is realized, the number of various air viruses at each monitoring point in the target household residential area is detected, the air pollution indexes of each monitoring point in the target household residential area are analyzed, the chlorine dioxide is sequentially arranged according to the sequence of the air pollution indexes from large to small, quantitative disinfection treatment is carried out on the air at each monitoring point in the target household residential area, the problem of indoor virus propagation when household members gather is solved, the application scene of the disinfection fresh air system is expanded, the applicability of the fresh air disinfection system is improved, the characteristics of the household residence disinfection are realized, the indoor air in the household area is effectively prevented and the high-efficiency disinfection effect of the fresh air disinfection of the household member is further improved, and the practicability of the fresh air disinfection is further satisfied.

The chlorine dioxide preparation component monitoring module is used for monitoring the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target family residence area through the weight sensor when the chlorine dioxide disinfection device corresponding to the target family residence carries out quantitative disinfection treatment on each monitoring point.

And the chlorine dioxide preparation component comparison module is used for carrying out corresponding treatment after comparison and analysis according to the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target family residence area.

On the basis of the embodiment, the comparison mode corresponding to the chlorine dioxide preparation component comparison module comprises the following steps:

the method comprises the steps that the required quantity of each chlorine dioxide preparation component of a chlorine dioxide disinfection device corresponding to a target family house during single disinfection treatment is obtained, the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to a target family house area is compared with the required quantity of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device during single disinfection treatment, and if the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target family house area is larger than or equal to the required quantity of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device during single disinfection treatment, disinfection treatment is carried out through the chlorine dioxide disinfection device corresponding to the target family house area; and if the current weight of a certain chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target household residence area is less than the required amount of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device in single disinfection treatment, sending out an early warning prompt through the chlorine dioxide disinfection device corresponding to the target household residence area.

In the embodiment, when the chlorine dioxide disinfection device corresponding to the target household house carries out quantitative disinfection treatment on each monitoring point, the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target household house area is monitored, and the current weight is correspondingly treated after comparison and analysis, so that the problem of insufficient chlorine dioxide supply in the disinfection treatment process of the chlorine dioxide disinfection fresh air system is avoided, and the chlorine dioxide disinfection fresh air system is further ensured to carry out sufficient disinfection treatment on indoor air.

And the air environment parameter rechecking module is used for monitoring the air environment parameters of each monitoring point in the target family residential area after the chlorine dioxide disinfection device corresponding to the target family residential completes the air disinfection treatment of each monitoring point.

On the basis of the foregoing embodiment, the monitoring of the air environment parameters at each monitoring point in the target home residential area in the air environment parameter review module specifically includes:

when the target family house corresponds toAfter the chlorine dioxide disinfection device finishes air sterilization treatment of each monitoring point, air at each monitoring point is respectively rechecked through the chlorine dioxide disinfection device corresponding to the target family residence to obtain air environment parameters at each monitoring point in the target family residence area, wherein the air environment parameters comprise the rechecked quantity of various air viruses, the ambient temperature and the ambient humidity, and the rechecked quantity, the ambient temperature and the ambient humidity of various air viruses at each monitoring point in the target family residence area are respectively marked as y ⁱ _j 、w ⁱ ₁ 、w ⁱ ₂ 。

And the air disinfection effect analysis module is used for analyzing the air disinfection effect evaluation index of each monitoring point in the target household residential area and carrying out corresponding treatment.

On the basis of the above embodiment, the specific analysis corresponding to the air disinfection effect analysis module includes:

the initial number of various air viruses at each monitoring point within the target home residence area is labeled x ⁱ _j ；

Extracting the natural extinction rate of various air viruses in the suitable environment air of the family residence in the air disinfection management database in unit time, and marking the natural extinction rate as sigma _j ；

Acquiring the time point of the chlorine dioxide disinfection device corresponding to the target family house when the chlorine dioxide disinfection device disinfects and kills the air at each monitoring point and the time point when the air at each monitoring point is rechecked, comparing to obtain the air disinfection action duration of each monitoring point in the target family house area, and marking the duration as T _i ；

Evaluation index for analyzing air disinfection effect of each monitoring point in target household residential area

Wherein λ _j Expressed as a disinfection effect compensation coefficient, epsilon, corresponding to the preset jth air virus killing rate ₁ 、ε ₂ Respectively expressed as air virus natural extinction rate influence weight factors, epsilon, corresponding to preset regional environment temperature and regional environment humidity ₁ +ε ₂ ＝1，w ₁ ′ _{Is suitable for} 、w′ _{2 is suitable for} Respectively, the temperature and humidity are suitable for the ambient air suitable for the home.

On the basis of the above embodiment, the specific analysis corresponding to the air disinfection effect analysis module further includes:

extracting standard air disinfection effect evaluation index of chlorine dioxide disinfection device corresponding to target family house stored in air disinfection management database during single quantitative disinfection treatment, obtaining standard air disinfection effect evaluation index of each monitoring point in target family house area according to air disinfection action duration of each monitoring point in target family house area, and marking the standard air disinfection effect evaluation index as psi _i ′；

And if the evaluation index of the air disinfection effect of a certain monitoring point in the target family residential area is smaller than the evaluation index of the standard air disinfection effect of the corresponding monitoring point, the evaluation index of the air disinfection effect of the certain monitoring point in the target family residential area indicates that the air disinfection effect of the monitoring point in the target family residential area reaches the expected effect, and if the evaluation index of the air disinfection effect of the certain monitoring point in the target family residential area is smaller than the evaluation index of the standard air disinfection effect of the corresponding monitoring point, the evaluation index of the air disinfection effect of the monitoring point in the target family residential area indicates that the air disinfection effect of the monitoring point in the target family residential area does not reach the expected effect, the target family residential members are informed to carry out corresponding investigation treatment.

As a specific embodiment of the invention, the standard air disinfection effect evaluation index analysis formula of each monitoring point in the target family residential area is

Wherein psi _i ' evaluation index for standard air sterilization effect, psi ' of ith monitoring point in target home residential area ' _{Sign board} Expressed as a standard air sterilization effect evaluation index, delta T, of the chlorine dioxide sterilization device corresponding to the target family dwelling during a single quantitative sterilization treatment _{Preparation of} Expressed as pre-set chlorine dioxide disinfection reactionAnd (3) removing the solvent.

In this embodiment, after the chlorine dioxide disinfection device corresponding to the target family house completes the air disinfection treatment of each monitoring point, the air environment parameters of each monitoring point in the target family residential area are monitored, the air disinfection effect evaluation index of each monitoring point in the target family residential area is analyzed, and corresponding treatment is performed, so that the air disinfection effect of the chlorine dioxide disinfection fresh air system is intuitively known, further treatment can be timely and effectively performed on the air disinfection effect of the fresh air disinfection system, the physical and mental health of family members is guaranteed to the greatest extent, and the healthy family life requirements of the family members are met.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims (7)

1. The utility model provides a chlorine dioxide disinfection new trend system based on thing networking and artificial intelligence which characterized in that includes:

the household residence area scanning module is used for scanning a target household residence area to obtain an indoor household type graph corresponding to the target household residence area, and monitoring point arrangement is carried out according to the indoor household type graph corresponding to the target household residence area;

the monitoring route planning module is used for acquiring the position coordinates of each monitoring point in the target family residential area and planning the monitoring route of the chlorine dioxide disinfection device corresponding to the target family residence;

the air disinfection management database is used for storing the allowable quantity threshold values of various air viruses in the environment air suitable for the family residence and the natural extinction rates of the various air viruses in the corresponding unit time, and storing the standard air disinfection effect evaluation index of the chlorine dioxide disinfection device corresponding to the target family residence in single quantitative disinfection treatment;

the air virus quantity detection module is used for detecting the quantity of various air viruses at each monitoring point in the target household residential area according to the monitoring route of the chlorine dioxide disinfection device corresponding to the target household residence;

the air pollution index analyzing and processing module is used for analyzing the air pollution indexes of all monitoring points in the target household residential area, sequentially arranging the air pollution indexes from large to small to obtain the killing sequence of all monitoring points in the target household residential area, and further quantitatively killing the air at all the monitoring points according to the killing sequence of all the monitoring points;

the system comprises a chlorine dioxide preparation component monitoring module, a chlorine dioxide disinfection device and a control module, wherein the chlorine dioxide preparation component monitoring module is used for monitoring the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to a target household residence area when the chlorine dioxide disinfection device corresponding to the target household residence carries out quantitative disinfection treatment on each monitoring point;

the chlorine dioxide preparation component comparison module is used for carrying out corresponding treatment after comparison and analysis according to the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target family residence area;

the air environment parameter rechecking module is used for monitoring the air environment parameters of each monitoring point in the target family residential area after the chlorine dioxide disinfection device corresponding to the target family residential completes the air disinfection treatment of each monitoring point;

the air environment parameter rechecking module is used for monitoring the air environment parameters of each monitoring point in the target home residential area, and specifically comprises the following steps:

after the chlorine dioxide disinfection device corresponding to the target household house finishes the air sterilization treatment of each monitoring point, the chlorine dioxide disinfection device corresponding to the target household house respectively rechecks the air at each monitoring point to obtain the air environment parameters at each monitoring point in the target household house area, wherein the air environment parameters comprise the recheck quantity, the environment temperature and the environment humidity of various air viruses, and the recheck quantity, the environment temperature and the environment humidity of various air viruses at each monitoring point in the target household house area are respectively marked as y ⁱ _j 、w ⁱ ₁ 、w ⁱ ₂ ；

The air disinfection effect analysis module is used for analyzing the air disinfection effect evaluation index of each monitoring point in the target family residential area and carrying out corresponding treatment;

the corresponding specific analysis of the air disinfection effect analysis module comprises the following steps:

the initial number of various air viruses at each monitoring point within the target home residence area is labeled x ⁱ _j I =1, 2.. N, i denotes the number of the ith monitoring point, j =1, 2.. M, j denotes the number of the jth air virus;

extracting the natural extinction rate of various air viruses in the suitable environment air of the family residence in the air disinfection management database in unit time, and marking the natural extinction rate as sigma _j ；

Acquiring the time point of the chlorine dioxide disinfection device corresponding to the target family house when the chlorine dioxide disinfection device disinfects and kills the air at each monitoring point and the time point when the air at each monitoring point is rechecked, comparing to obtain the air disinfection action duration of each monitoring point in the target family house area, and marking the duration as T _i ；

Evaluation index for analyzing air disinfection effect of each monitoring point in target household residential area

Wherein λ is _j Expressed as a disinfection effect compensation coefficient, epsilon, corresponding to the preset jth air virus killing rate ₁ 、ε ₂ Respectively expressed as air virus natural extinction rate influence weight factors, epsilon, corresponding to preset regional environment temperature and regional environment humidity ₁ +ε ₂ ＝1，w ₁ ′ _{Is suitable for} 、w′ _{2 is suitable for} Respectively, the temperature and humidity are suitable for the ambient air suitable for the home.

2. The chlorine dioxide disinfection fresh air system based on the internet of things and artificial intelligence of claim 1, which is characterized in that: the household residence area scanning module is used for scanning a target household residence area through a high-definition camera, wherein the high-definition camera is installed on the chlorine dioxide disinfection device corresponding to the target household residence to obtain an indoor household type graph corresponding to the target household residence area, and meanwhile, a plurality of monitoring points are respectively distributed in the indoor household type graph corresponding to the target household residence area in an evenly distributed mode.

3. The chlorine dioxide disinfection fresh air system based on the Internet of things and artificial intelligence as claimed in claim 2, wherein: the monitoring route planning module corresponds to a specific planning mode as follows:

according to an indoor house type graph corresponding to a target household house area, a plane coordinate system is established by taking a designated point in the indoor house type graph as an original point, position coordinates of all monitoring points in the target household house area are obtained, position coordinates of a chlorine dioxide disinfection device corresponding to the target household house are obtained, the distance between each monitoring point in the target household house area and the position coordinate of the chlorine dioxide disinfection device is analyzed, a monitoring point closest to the position coordinates of the chlorine dioxide disinfection device in the target household house area is screened, the monitoring point is marked as a first monitoring point in a monitoring route of the chlorine dioxide disinfection device corresponding to the target household house, the position coordinate of the first monitoring point in the monitoring route of the chlorine dioxide disinfection device corresponding to the target household house is compared with the position coordinates of other monitoring points, the monitoring point closest to the position coordinates of the first monitoring point in the target household house area is screened, the monitoring point is marked as a second monitoring point in the monitoring route of the chlorine dioxide disinfection device corresponding to the target household house, all monitoring points in the monitoring route of the disinfection device corresponding to the target household house are sequentially obtained, and the monitoring route of the chlorine dioxide disinfection device corresponding to the target household is planned.

4. The chlorine dioxide disinfection fresh air system based on the internet of things and artificial intelligence of claim 1, which is characterized in that: the detecting module for the number of the air viruses detects the number of the air viruses at each monitoring point in the target household residential area, and specifically comprises the following steps:

sequentially extracting monitoring points in the monitoring route of the chlorine dioxide disinfection device corresponding to the target household according to the monitoring route of the chlorine dioxide disinfection device corresponding to the target household, and monitoring the air at the monitoring points in the target household area through an air microorganism monitor, wherein the air microorganism monitor is installed on the chlorine dioxide disinfection device corresponding to the target household to obtain the initial number of various air viruses at the monitoring points in the target household area, and the initial number of the various air viruses at the monitoring points in the target household area is marked as x ⁱ _j 。

5. The chlorine dioxide disinfection fresh air system based on the Internet of things and artificial intelligence as claimed in claim 4, wherein: the air pollution index analysis processing module analyzes the air pollution indexes at each monitoring point in the target home residential area in the following modes:

extracting the threshold value of the allowable quantity of various air viruses in the suitable ambient air of the family house stored in the air disinfection management database, and marking the allowable quantity of the various air viruses in the suitable ambient air of the family house as X _j ′；

The initial quantity x of various air viruses at each monitoring point in the target home residential area ⁱ _j Substituted into the air pollution index analysis formula

Obtaining the air pollution index xi of each monitoring point in the target family residential area _i Where μ is expressed as a predetermined air pollution index compensation factor, δ _j Is represented by a preset air pollution influence weight coefficient delta x 'corresponding to the j-th air virus' _j Expressed as a preset deviation value of the allowed number of jth air viruses.

6. The chlorine dioxide disinfection fresh air system based on the Internet of things and artificial intelligence of claim 5, wherein: the corresponding comparison mode of the chlorine dioxide preparation component comparison module comprises the following steps:

the method comprises the steps that the required quantity of each chlorine dioxide preparation component of a chlorine dioxide disinfection device corresponding to a target family house during single disinfection treatment is obtained, the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to a target family house area is compared with the required quantity of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device during single disinfection treatment, and if the current weight of each chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target family house area is larger than or equal to the required quantity of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device during single disinfection treatment, disinfection treatment is carried out through the chlorine dioxide disinfection device corresponding to the target family house area; if the current weight of a certain chlorine dioxide preparation component in the chlorine dioxide disinfection device corresponding to the target family residence area is smaller than the required amount of the corresponding chlorine dioxide preparation component of the chlorine dioxide disinfection device in single disinfection treatment, an early warning prompt is sent out through the chlorine dioxide disinfection device corresponding to the target family residence area.

7. The chlorine dioxide disinfection fresh air system based on the internet of things and artificial intelligence of claim 1, which is characterized in that: the specific analysis that air disinfection effect analysis module corresponds still includes:

extracting standard air disinfection effect evaluation index of chlorine dioxide disinfection device corresponding to target family house stored in air disinfection management database during single quantitative disinfection treatment, obtaining standard air disinfection effect evaluation index of each monitoring point in target family house area according to air disinfection action duration of each monitoring point in target family house area, and marking the standard air disinfection effect evaluation index as psi _i ′；

And if the evaluation index of the air disinfection effect of a certain monitoring point in the target family residential area is smaller than the evaluation index of the standard air disinfection effect of the corresponding monitoring point, the evaluation index of the air disinfection effect of the certain monitoring point in the target family residential area indicates that the air disinfection effect of the monitoring point in the target family residential area reaches the expected effect, and if the evaluation index of the air disinfection effect of the certain monitoring point in the target family residential area is smaller than the evaluation index of the standard air disinfection effect of the corresponding monitoring point, the evaluation index of the air disinfection effect of the monitoring point in the target family residential area indicates that the air disinfection effect of the monitoring point in the target family residential area does not reach the expected effect, the target family residential members are informed to carry out corresponding investigation treatment.

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