CN106918113A - The management method and system of a kind of smart home - Google Patents
The management method and system of a kind of smart home Download PDFInfo
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- CN106918113A CN106918113A CN201710046820.8A CN201710046820A CN106918113A CN 106918113 A CN106918113 A CN 106918113A CN 201710046820 A CN201710046820 A CN 201710046820A CN 106918113 A CN106918113 A CN 106918113A
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/30—Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/50—Air quality properties
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F11/00—Control or safety arrangements
- F24F11/62—Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
- F24F11/63—Electronic processing
- F24F11/64—Electronic processing using pre-stored data
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/50—Air quality properties
- F24F2110/64—Airborne particle content
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F24—HEATING; RANGES; VENTILATING
- F24F—AIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
- F24F2110/00—Control inputs relating to air properties
- F24F2110/50—Air quality properties
- F24F2110/65—Concentration of specific substances or contaminants
- F24F2110/70—Carbon dioxide
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Abstract
The present embodiments relate to purification of air treatment technology, more particularly to the management method and system of a kind of smart home, in the management method of one of which smart home, first determine whether PM2.5 concentration, the concentration of dust pollution thing, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide, according to PM2.5 concentration, the concentration of dust pollution thing, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide is compared with the threshold value for matching, and first kind control signal or Equations of The Second Kind control signal or the 3rd class control signal are selected according to comparative result, suitable purification style is selected by different ambient conditions, cause that smart machine is cooperated with each other simultaneously to be operated, improve purification efficiency.
Description
Technical field
The present embodiments relate to purification of air treatment technology, more particularly to a kind of smart home management method and be
System.
Background technology
With the improvement of living standards, requirement more and more higher of the people to living environment.Water pollution, air pollution by
Gradually by extensive concern.In recent years, Inhalable Particulate (PM2.5) concentration become weigh one of air quality it is main
Index.
Due to reasons such as vehicle exhaust, burnings, the concentration of PM2.5 is maintained at Gao Shui in more time in outdoor air
It is flat.People take various safeguard procedures for the PM2.5 for preventing suction excessive, for example, go out and wear masks, reduce outgoing and seal
Door and window etc. is closed, in the case that door and window off-period is more long, in order that the concentration that room air circulation reduces carbon dioxide is obtained, generally
Carry out windowing ventilation.But, this windowing ventilation inevitably introduces PM2.5, so as to cause the PM2.5 in room air to contain
Amount is also very high.
Understood through analysis, the main matter (it is important that harmful substance) for causing PM2.5 in air to contain has:Microorganism, change
Learn gas or peculiar smell, the particulate of physics state;What microorganism was floated in air indoors including bacterium, virus, mould and spore etc.
Active harmful microorganism;The size range of microorganism is generally between 0.02 micron to 10 microns.Chemical gas/peculiar smell includes room
Interior decoration ornament materials, furniture, daily use chemicals product, food spoilage, human body, pet etc. can produce the volatile harmful of harm health
Gas and peculiar smell, such as:Formaldehyde, benzene homologues, TVOC etc.;The size range of chemical gas/peculiar smell generally at 0.0001 micron extremely
Between 0.001 micron;The particulate of physics state includes being capable of very tiny solid or liquid particles of the long-term suspension in air.
It is made up of dust, soft flocks (scurf), flue dust, pollen and smoke particle;The size range of the particulate of physics state is generally 0.01
Micron is between 100 microns.
With the raising that living standard is pursued, many families or public office space are mounted on air cleaning system, sky
Tune, humidification/dehumidification equipment, in the prior art, also disclose that and join between air cleaning unit, air-conditioning and other functional equipment
Dynamic control, but the technical scheme that coordinated signals of the prior art are used is by reading the mark in each functional equipment
Information, obtains the control authority with the smart machine of identification information match, by a control device to every according to the identification information
Individual functional equipment carries out coordinated signals, in short, coordinated signals of the prior art are only terminated in the power of several home equipments
Limit is concentrated in same control device, one or more home equipments is controlled simultaneously by the control device, this kind of control
Under mode, each home equipment is under the state of working independently, it is impossible to realize a control effect for entirety.Its entirety
Clean-up effect it is relatively low.
The content of the invention
The present invention provides a kind of management method and system of smart home, it is intended to realize the mutual cooperation between smart machine
Operation, improves air purification efficiency.
On the one hand, the present invention provides a kind of management method of smart home, wherein, including;
The state of the air pollutants of current environment is obtained, and forms a detection number for matching air condition in current environment
According to output;
Judge whether the detection data matches prefabricated threshold range, in the unmatched threshold value of the detection data
In the state of scope, the detection numerical value in abnormality is obtained;According in abnormality detection numerical value formed with it is described
Detect the control command output of values match.
Preferably, the management method of above-mentioned smart home, wherein, also include,
Smart machine in current environment receives the control command, and is performed in the presence of the control command corresponding
Operation.
Preferably, the management method of above-mentioned smart home, wherein, the detection data at least includes:PM2.5 concentration,
Wherein, judge whether the detection data matches prefabricated threshold range, in the unmatched threshold value model of the detection data
In the state of enclosing, the detection numerical value in abnormality is obtained;Formed and the inspection according to the detection numerical value in abnormality
The control command output of values match is surveyed, is specifically included:
Obtain the PM2.5 concentration in current environment;
Judge the PM2.5 concentration whether more than PM2.5 rated maximums;It is specified more than the PM2.5 in PM2.5 concentration
The output of first kind control signal is formed in the state of maximum;
It is not more than the state of the PM2.5 rated maximums in PM2.5 concentration;Continue calculate each pollutant monitoring value with
Difference between the pollutant threshold value of pollutant matching, and form one group of pollutant difference data collection;
In the pollutant difference data Integrated query difference maximum, difference minimum value;
Calculate and to form difference coefficient according to the difference maximum, the difference minimum value;
In the difference coefficient output of Equations of The Second Kind control signal is formed not less than the state of the first difference predetermined value;
In the difference coefficient output of the 3rd class control signal is formed less than the state of the first difference predetermined value.
Preferably, the management method of above-mentioned smart home, wherein, the detection data at least also includes dust pollution thing
Concentration, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide;Wherein, in
PM2.5 concentration is not more than the state of the PM2.5 rated maximums;Continue to calculate each pollutant monitoring value and the pollutant
Difference between the pollutant threshold value matched somebody with somebody, and formed one group of pollutant difference data collection specifically include:
Concentration according to the dust pollution thing forms dust pollution thing difference with prefabricated dust pollution thing concentration threshold;
Concentration according to the formaldehyde pollutants forms formaldehyde pollutants difference with prefabricated formaldehyde pollutants concentration threshold;
Concentration according to the microorgranic contaminant forms microorganism pollution with prefabricated microorgranic contaminant concentration threshold
Thing difference;
Concentration according to the chemical gas forms chemical gas difference with prefabricated chemical gas concentration threshold;
Concentration according to the carbon dioxide forms carbon dioxide difference with prefabricated gas concentration lwevel threshold value;
According to the dust pollution thing difference, the formaldehyde pollutants difference, the microorgranic contaminant difference, describedization
Learn gas difference, the carbon dioxide difference and form the pollutant difference data collection.
Preferably, the management method of above-mentioned smart home, wherein, the smart machine is at least filled including purification of air
Put, air-conditioning, humidifier.
On the other hand, the present invention provides a kind of management system of smart home again, wherein, including;
Detection unit, is used to obtain the state of the air pollutants of current environment, and it is hollow to form a matching current environment
The detection data output of gaseity;
Control unit, is used to judge whether the detection data matches prefabricated threshold range, in the detection data not
In the state of the threshold range of matching, the detection numerical value in abnormality is obtained;According to the detection in abnormality
Numerical value is formed and exported with the control command of the detection values match.
Preferably, the management system of above-mentioned smart home, wherein, also include,
Smart machine, is used to receive the control command, and perform corresponding operation in the presence of the control command.
Preferably, the management system of above-mentioned smart home, wherein, the detection data at least includes:PM2.5 concentration,
Wherein, described control unit includes:
PM2.5 concentration collecting units, obtain the PM2.5 concentration in current environment;
Whether the first judging unit, judge the PM2.5 concentration more than PM2.5 rated maximums;It is more than in PM2.5 concentration
The output of first kind control signal is formed in the state of the PM2.5 rated maximums;
First computing unit, the state of the PM2.5 rated maximums is not more than in PM2.5 concentration;Continue to calculate each
Difference between the pollutant threshold value that pollutant monitoring value is matched with the pollutant, and form one group of pollutant difference data collection;
First query unit, in the pollutant difference data Integrated query difference maximum, difference minimum value;
Difference coefficient calculation unit, calculates and to form difference coefficient according to the difference maximum, the difference minimum value;
First processing units, Equations of The Second Kind control letter is formed in the difference coefficient not less than the state of the first difference predetermined value
Number output;In the difference coefficient output of the 3rd class control signal is formed less than the state of the first difference predetermined value.
Preferably, the management system of above-mentioned smart home, wherein, the detection data at least also includes dust pollution thing
Concentration, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide;Wherein, it is described
First computing unit includes:
First calculator, the concentration according to the dust pollution thing forms dust with prefabricated dust pollution thing concentration threshold
Pollutant difference;
Second calculator, the concentration according to the formaldehyde pollutants forms formaldehyde with prefabricated formaldehyde pollutants concentration threshold
Pollutant difference;
3rd calculator, the concentration according to the microorgranic contaminant is formed with prefabricated microorgranic contaminant concentration threshold
Microorgranic contaminant difference;
4th calculator, the concentration according to the chemical gas forms chemical gas with prefabricated chemical gas concentration threshold
Difference;
5th calculator, the concentration according to the carbon dioxide forms carbon dioxide with prefabricated gas concentration lwevel threshold value
Difference;
Processor, it is poor according to the dust pollution thing difference, the formaldehyde pollutants difference, the microorgranic contaminant
Value, the chemical gas difference, the carbon dioxide difference form the pollutant difference data collection.
Preferably, the management system of above-mentioned smart home, wherein, the smart machine is at least filled including purification of air
Put, air-conditioning, humidifier.
Compared with prior art, beneficial aspects of the invention are:
In the present invention, in above-mentioned technical proposal, PM2.5 concentration, the concentration of dust pollution thing, formaldehyde pollutants are first determined whether
Concentration, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide, according to PM2.5 concentration, dust pollution thing
Concentration, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide and the threshold for matching
Value is compared, and selects first kind control signal or Equations of The Second Kind control signal or the 3rd class control signal according to comparative result,
Suitable purification style is selected by different ambient condition, while so that smart machine is cooperated with each other is operated, improving net
Change efficiency.
Brief description of the drawings
Fig. 1 is a kind of management method schematic flow sheet of smart home of offer in the embodiment of the present invention;
Fig. 2 is a kind of management method schematic flow sheet of smart home of offer in the embodiment of the present invention;
Fig. 3 is a kind of management method schematic flow sheet of smart home of offer in the embodiment of the present invention;
Fig. 4 is a kind of management system structural representation of smart home of offer in the embodiment of the present invention;
Fig. 5 is a kind of management system structural representation of smart home of offer in the embodiment of the present invention;
Fig. 6 is a kind of management system structural representation of smart home of offer in the embodiment of the present invention.
Specific embodiment
The present invention is described in further detail with reference to the accompanying drawings and examples.It is understood that this place is retouched
The specific embodiment stated is used only for explaining the present invention, rather than limitation of the invention.It also should be noted that, in order to just
Part rather than entire infrastructure related to the present invention is illustrate only in description, accompanying drawing.
Based on this, the present invention provides a kind of management method of smart home, it is intended to realize whole between each smart machine
Body is controlled, and to cause to be cooperated between each smart machine, improves the clean-up effect to present air.
As shown in Figure 1, on the one hand, the present invention provides a kind of management method of smart home, wherein, including;
Step S110, the state of the air pollutants of acquisition current environment, and it is hollow vaporous to form a matching current environment
The detection data output of state;
Step S120, judge whether the detection data matches prefabricated threshold range, mismatched in the detection data
The threshold range in the state of, obtain in abnormality detection numerical value;According to the detection numerical value in abnormality
Formed and exported with the control command of the detection values match;Further, the detection data at least includes:PM2.5
Concentration, specifically includes:As shown in Fig. 2
Step S1201, the PM2.5 concentration obtained in current environment;
Step S1202, judge the PM2.5 concentration whether more than PM2.5 rated maximums;It is more than institute in PM2.5 concentration
State formation first kind control signal output in the state of PM2.5 rated maximums;First kind control signal is controlled for overall, when
PM2.5 concentration is more than in the state of the PM2.5 rated maximums, it is possible to determine that the pollution level of current environment is of a relatively high,
So needing to do current environment comprehensive decontamination treatment, i.e., give overall control equivalent to all smart machines in current environment
System.Wherein PM2.5 rated maximums can be by user's sets itself, it is necessary to explanation is that PM2.5 rated maximums can be for user not
Receivable pollution minimum value.
Step S1203, the state for being not more than the PM2.5 rated maximums in PM2.5 concentration;Continue to calculate each pollution
Difference between the pollutant threshold value that quality testing measured value is matched with the pollutant, and form one group of pollutant difference data collection;In
PM2.5 concentration is not more than in the state of the PM2.5 rated maximums, can determine that current environment is the receivable pollution model of user
Enclose, now the detected value according to pollutant targetedly does independent purified treatment or overall purified treatment.
Step S1204, in the pollutant difference data Integrated query difference maximum, difference minimum value;
Step S1205, calculate and to form difference coefficient according to the difference maximum, the difference minimum value;Wherein difference
The computational methods of coefficient are:
K=Qmin/Qmax;
Wherein, the K is difference coefficient;
Qmin is the difference minimum value;
Qmax is the difference maximum.
Step S1206, the state for being not less than the first difference predetermined value in the difference coefficient form Equations of The Second Kind control signal
Output;When state of the difference coefficient not less than the first difference predetermined value, the first difference threshold can be 0.7 to 1, i.e., described difference
Value minimum value and the difference maximum are close, and each pollutant in present air is can be determined that under this kind of state occupies ratio
It is similar, under this kind of state, then using overall purifying treatment method.I.e. Equations of The Second Kind control signal remains as overall control signal, right
Each smart machine is effective, but from unlike first kind control signal, the working condition of smart machine is different.Letter speech
It, smart machine is operated in the presence of first kind control signal with peak power, to realize the purpose of fast purification, intelligence
Energy equipment is operated in the presence of Equations of The Second Kind control signal with the power less than peak power, to realize the purpose of energy-conservation.
Step S1207, in the difference coefficient less than the first difference predetermined value state formed the 3rd class control signal it is defeated
Go out.When state of the difference coefficient less than the first difference predetermined value, it is possible to determine that each pollutant occupies in present air
Ratio gap is larger, and under this kind of state, then using targeted purified treatment, emphasis purification is matched with the difference maximum
Pollutant, with most pollutants matter in fast purification present air, quickly improves current air mass.That is the 3rd class control signal
Can be some smart machine or the enabling signal of certain several smart machine.
Smart machine in step S130, current environment receives the control command, and in the effect of the control command
It is lower to perform corresponding operation.The smart machine at least includes air cleaning unit, air-conditioning, humidifier.Connect on smart machine
The technical scheme of controlled order has been announced in the prior art, is not specifically described herein.
In above-mentioned technical proposal, first determine whether PM2.5 concentration and other pollutant concentrations, according to PM2.5 concentration, with
And other pollutant concentrations selection preferably purification of air mode.
As further preferred embodiment, the management method of above-mentioned smart home, wherein, the detection data is at least
Also include concentration, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the carbon dioxide of dust pollution thing
Concentration;Wherein, step S1203, be not more than the state of the PM2.5 rated maximums in PM2.5 concentration;Continue to calculate each
Difference between the pollutant threshold value that pollutant monitoring value is matched with the pollutant, and form one group of pollutant difference data collection tool
Body includes:As shown in figure 3,
Step S12031, the concentration according to the dust pollution thing form dust with prefabricated dust pollution thing concentration threshold
Pollutant difference;Wherein, dust can carry out purified treatment using electrostatic adsorption device, and electrostatic adsorption device can set for individually intelligent
It is standby, can also be integrated in inside air cleaning facility.
The computational methods of dust pollution thing difference are:
Q1=QPowder-QPowder threshold;
Q1:It is the dust pollution thing difference;
QPowder:It is the concentration of the dust pollution thing;
QPowder threshold:It is the dust pollution thing concentration threshold;
Step S12032, the concentration according to the formaldehyde pollutants form formaldehyde with prefabricated formaldehyde pollutants concentration threshold
Pollutant difference;Wherein,
The computational methods of the formaldehyde pollutants difference are:
Q2=QFirst-QFirst threshold;
Q2:It is the formaldehyde pollutants difference;
QFirst:It is the concentration of the formaldehyde pollutants;
QFirst threshold:It is the formaldehyde pollutants concentration threshold;
Step S12033, the concentration according to the microorgranic contaminant are formed with prefabricated microorgranic contaminant concentration threshold
Microorgranic contaminant difference;Wherein,
The computational methods of the microorgranic contaminant difference are:
Q3=QIt is micro--QMicro- threshold;
Q3:It is the microorgranic contaminant difference;
QIt is micro-:It is the concentration of the microorgranic contaminant;
QMicro- threshold:It is the microorgranic contaminant concentration threshold;
Step S12034, the concentration according to the chemical gas form chemical gas with prefabricated chemical gas concentration threshold
Difference;Wherein,
The computational methods of the chemical gas difference are:
Q4=QChange-QChange threshold;
Q4:It is the chemical gas difference;
QChange:It is the concentration of the chemical gas;
QChange threshold:It is the chemical gas concentration threshold;
Step S12035, the concentration according to the carbon dioxide form carbon dioxide with prefabricated gas concentration lwevel threshold value
Difference;Wherein,
The computational methods of the carbon dioxide difference are:
Q5=QTwo-QTwo thresholds;
Q5:It is the carbon dioxide difference;
QTwo:It is the concentration of the carbon dioxide;
QTwo thresholds:It is the gas concentration lwevel threshold value;
Step S12036, according to the dust pollution thing difference, the formaldehyde pollutants difference, the microorgranic contaminant
Difference, the chemical gas difference, the carbon dioxide difference form the pollutant difference data collection, wherein:
It is M={ Q that the pollutant difference data integrates1、Q2、Q3、Q4、Q5}。
In above-described embodiment, such as the concentration of the carbon dioxide in current environment is higher, then the 3rd class control signal is then defeated
The enabling signal for going out to drive air-conditioning to open, is transmitted to indoor, it is necessary to what is illustrated is outdoor fresh air by air-conditioning, although the 3rd class
Control signal only drives air-conditioning, but other smart machines are still within working condition, but is not at peak power running status,
The smart machine for only being matched with the 3rd class control signal is in peak power running status.
Supplementary notes, can wrap in above-mentioned first kind control signal, Equations of The Second Kind control signal and the 3rd class control signal
Containing multiple control commands, but first kind control signal, Equations of The Second Kind control signal can drive all of smart machine, first kind control
Signal processed causes that all smart machines are operated with peak power, and Equations of The Second Kind control signal causes that all smart machines are equal
It is operated with normal power.3rd class control signal can only part smart machine, the 3rd class control signal is according to time detecting
The equipment that data selection drives, selection course is the common knowledge of those skilled in the art, is not particularly limited herein.
In addition, all steps in the present invention are only the once-through operation in circulation step, in short, intelligent air purifying sets
It is standby at predetermined intervals to circulate the above-mentioned all steps of implementation.Simultaneously because the purified treatment to air needs the regular hour, when
Air result in purification process between previous minute and next minute is not obvious, based on this, in the present invention, and intelligent air purifying
The predetermined interval time of equipment matches current air purification efficiency, for example, obtain current empty in real time in purification pretreatment stage
The speed of gas purification, predetermined interval time is calculated according to the purification speed, and because of predetermined interval time, simultaneously non-invention will be solved
Key technique problem certainly, so the present invention is not described in detail to the technical scheme.
Embodiment two
On the other hand, the present invention provides a kind of management system of smart home again, wherein, including;
Detection unit, is used to obtain the state of the air pollutants of current environment, and it is hollow to form a matching current environment
The detection data output of gaseity;
Control unit, is used to judge whether the detection data matches prefabricated threshold range, in the detection data not
In the state of the threshold range of matching, the detection numerical value in abnormality is obtained;According to the detection in abnormality
Numerical value is formed and exported with the control command of the detection values match.
As further preferred embodiment, the management system of above-mentioned smart home, wherein, also include,
Smart machine, is used to receive the control command, and perform corresponding operation in the presence of the control command.
As further preferred embodiment, the management system of above-mentioned smart home, wherein, the detection data is at least
Including:PM2.5 concentration, wherein, described control unit includes:As shown in figure 5,
PM2.5 concentration collecting units, obtain the PM2.5 concentration in current environment;
Whether the first judging unit, judge the PM2.5 concentration more than PM2.5 rated maximums;It is more than in PM2.5 concentration
The output of first kind control signal is formed in the state of the PM2.5 rated maximums;
First computing unit, the state of the PM2.5 rated maximums is not more than in PM2.5 concentration;Continue to calculate each
Difference between the pollutant threshold value that pollutant monitoring value is matched with the pollutant, and form one group of pollutant difference data collection;
First query unit, in the pollutant difference data Integrated query difference maximum, difference minimum value;
Difference coefficient calculation unit, calculates and to form difference coefficient according to the difference maximum, the difference minimum value;
First processing units, Equations of The Second Kind control letter is formed in the difference coefficient not less than the state of the first difference predetermined value
Number output;In the difference coefficient output of the 3rd class control signal is formed less than the state of the first difference predetermined value.
As further preferred embodiment, the management system of above-mentioned smart home, wherein, the detection data is at least
Also include concentration, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the carbon dioxide of dust pollution thing
Concentration;Wherein, first computing unit includes:As shown in fig. 6,
First calculator, the concentration according to the dust pollution thing forms dust with prefabricated dust pollution thing concentration threshold
Pollutant difference;
Second calculator, the concentration according to the formaldehyde pollutants forms formaldehyde with prefabricated formaldehyde pollutants concentration threshold
Pollutant difference;
3rd calculator, the concentration according to the microorgranic contaminant is formed with prefabricated microorgranic contaminant concentration threshold
Microorgranic contaminant difference;
4th calculator, the concentration according to the chemical gas forms chemical gas with prefabricated chemical gas concentration threshold
Difference;
5th calculator, the concentration according to the carbon dioxide forms carbon dioxide with prefabricated gas concentration lwevel threshold value
Difference;
Processor, it is poor according to the dust pollution thing difference, the formaldehyde pollutants difference, the microorgranic contaminant
Value, the chemical gas difference, the carbon dioxide difference form the pollutant difference data collection.
The management system of above-mentioned smart home can realize that the institute of the management method of above-mentioned smart home is functional,
To realize the beneficial effect of the management system of above-mentioned smart home, do not do herein and specifically repeat.
Note, above are only presently preferred embodiments of the present invention and institute's application technology principle.It will be appreciated by those skilled in the art that
The invention is not restricted to specific embodiment described here, can carry out for a person skilled in the art various obvious changes,
Readjust and substitute without departing from protection scope of the present invention.Therefore, although the present invention is carried out by above example
It is described in further detail, but the present invention is not limited only to above example, without departing from the inventive concept, also
More other Equivalent embodiments can be included, and the scope of the present invention is determined by scope of the appended claims.
Claims (10)
1. a kind of management method of smart home, it is characterised in that including;
The state of the air pollutants of current environment is obtained, and it is defeated to form the detection data of air condition in a matching current environment
Go out;
Judge whether the detection data matches prefabricated threshold range, in the unmatched threshold range of the detection data
In the state of, obtain the detection numerical value in abnormality;Formed and the detection according to the detection numerical value in abnormality
The control command output of values match.
2. the management method of smart home according to claim 1, it is characterised in that also include,
Smart machine in current environment receives the control command, and corresponding behaviour is performed in the presence of the control command
Make.
3. the management method of smart home according to claim 1, it is characterised in that the detection data at least includes:
PM2.5 concentration, wherein, judge whether the detection data matches prefabricated threshold range, it is unmatched in the detection data
In the state of the threshold range, the detection numerical value in abnormality is obtained;According to the detection numerical value shape in abnormality
Into the control command output with the detection values match, specifically include:
Obtain the PM2.5 concentration in current environment;
Judge the PM2.5 concentration whether more than PM2.5 rated maximums;It is more than the specified maximums of the PM2.5 in PM2.5 concentration
The output of first kind control signal is formed in the state of value;
It is not more than the state of the PM2.5 rated maximums in PM2.5 concentration;Continue to calculate each pollutant monitoring value and the dirt
Difference between the pollutant threshold value of dye thing matching, and form one group of pollutant difference data collection;
In the pollutant difference data Integrated query difference maximum, difference minimum value;
Calculate and to form difference coefficient according to the difference maximum, the difference minimum value;
In the difference coefficient output of Equations of The Second Kind control signal is formed not less than the state of the first difference predetermined value;
In the difference coefficient output of the 3rd class control signal is formed less than the state of the first difference predetermined value.
4. the management method of smart home according to claim 3, it is characterised in that the detection data at least also includes
The concentration of dust pollution thing, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide;
Wherein, the state of the PM2.5 rated maximums is not more than in PM2.5 concentration;Continue to calculate each pollutant monitoring value and be somebody's turn to do
Pollutant matching pollutant threshold value between difference, and formed one group of pollutant difference data collection specifically include:
Concentration according to the dust pollution thing forms dust pollution thing difference with prefabricated dust pollution thing concentration threshold;
Concentration according to the formaldehyde pollutants forms formaldehyde pollutants difference with prefabricated formaldehyde pollutants concentration threshold;
It is poor that concentration according to the microorgranic contaminant forms microorgranic contaminant with prefabricated microorgranic contaminant concentration threshold
Value;
Concentration according to the chemical gas forms chemical gas difference with prefabricated chemical gas concentration threshold;
Concentration according to the carbon dioxide forms carbon dioxide difference with prefabricated gas concentration lwevel threshold value;
According to the dust pollution thing difference, the formaldehyde pollutants difference, the microorgranic contaminant difference, the chemical gas
Body difference, the carbon dioxide difference form the pollutant difference data collection.
5. the management method of smart home according to claim 2, it is characterised in that the smart machine at least includes sky
Air purifying apparatus, air-conditioning, humidifier.
6. a kind of management system of smart home, it is characterised in that including;
Detection unit, is used to obtain the state of the air pollutants of current environment, and it is hollow vaporous to form a matching current environment
The detection data output of state;
Control unit, is used to judge whether the detection data matches prefabricated threshold range, is mismatched in the detection data
The threshold range in the state of, obtain in abnormality detection numerical value;According to the detection numerical value in abnormality
Formed and exported with the control command of the detection values match.
7. the management system of smart home according to claim 6, it is characterised in that also include,
Smart machine, is used to receive the control command, and perform corresponding operation in the presence of the control command.
8. the management system of smart home according to claim 6, it is characterised in that the detection data at least includes:
PM2.5 concentration, wherein, described control unit includes:
PM2.5 concentration collecting units, obtain the PM2.5 concentration in current environment;
Whether the first judging unit, judge the PM2.5 concentration more than PM2.5 rated maximums;In PM2.5 concentration more than described
The output of first kind control signal is formed in the state of PM2.5 rated maximums;
First computing unit, the state of the PM2.5 rated maximums is not more than in PM2.5 concentration;Continue to calculate each pollution
Difference between the pollutant threshold value that quality testing measured value is matched with the pollutant, and form one group of pollutant difference data collection;
First query unit, in the pollutant difference data Integrated query difference maximum, difference minimum value;
Difference coefficient calculation unit, calculates and to form difference coefficient according to the difference maximum, the difference minimum value;
First processing units, form Equations of The Second Kind control signal defeated in the difference coefficient not less than the state of the first difference predetermined value
Go out;In the difference coefficient output of the 3rd class control signal is formed less than the state of the first difference predetermined value.
9. the management system of smart home according to claim 8, it is characterised in that the detection data at least also includes
The concentration of dust pollution thing, the concentration of formaldehyde pollutants, the concentration of microorganism, the concentration of chemical gas, the concentration of carbon dioxide;
Wherein, first computing unit includes:
First calculator, the concentration according to the dust pollution thing forms dust pollution with prefabricated dust pollution thing concentration threshold
Thing difference;
Second calculator, the concentration according to the formaldehyde pollutants forms formaldehyde pollution with prefabricated formaldehyde pollutants concentration threshold
Thing difference;
3rd calculator, the concentration according to the microorgranic contaminant forms micro- life with prefabricated microorgranic contaminant concentration threshold
Thing pollutant difference;
4th calculator, it is poor that the concentration according to the chemical gas forms chemical gas with prefabricated chemical gas concentration threshold
Value;
5th calculator, it is poor that the concentration according to the carbon dioxide forms carbon dioxide with prefabricated gas concentration lwevel threshold value
Value;
Processor, according to the dust pollution thing difference, the formaldehyde pollutants difference, the microorgranic contaminant difference, institute
State chemical gas difference, the carbon dioxide difference and form the pollutant difference data collection.
10. the management system of smart home according to claim 5, it is characterised in that the smart machine at least includes
Air cleaning unit, air-conditioning, humidifier.
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