Specific embodiment
The characteristics of in order to more fully hereinafter understand the embodiment of the present disclosure and technology contents, with reference to the accompanying drawing to this public affairs
The realization for opening embodiment is described in detail, appended attached drawing purposes of discussion only for reference, is not used to limit the embodiment of the present disclosure.
In technical description below, for convenience of explanation for the sake of, disclosed embodiment is fully understood with providing by multiple details.
However, one or more embodiments still can be implemented in the case where without these details.It in other cases, is simplification
Attached drawing, well known construction and device can simplify displaying.
Each embodiment herein is described in a progressive manner, and the highlights of each of the examples are implement with other
The difference of example, the same or similar parts in each embodiment may refer to each other.
It is understood that the apparatus of air conditioning of the disclosure refers to the air that processing is fed past to designated space,
To keep defined temperature, humidity, the equipment for controlling the content of dust, pernicious gas, for example, air-conditioning, humidifier, fan etc..
The embodiment of the present disclosure provides a kind of control method of apparatus of air conditioning, as shown in Figure 1, specifically including following step
It is rapid:
S101: it is modified according to scene template of the motion characteristic of target object to the apparatus of air conditioning.
Optionally, motion characteristic includes type of action feature or action intensity feature.
Optionally, type of action feature includes sitting quietly, walk and running.It can use detection device detected target object
The type of action of (user).Specifically, interval setting time acquisition image capture device acquisition includes target object key portion
The image of position, it is special to the target object key position in image after getting the image comprising target object key position
Sign extracts analysis, by the target object key position feature of extraction and the last target object key position feature extracted
It compares, may thereby determine that the variation that the key position of target object occurs, may further determine the target object
Type of action feature.Optionally, target object key position includes arm, leg, trunk etc..For example, being obtained at interval of one second
Image capture device acquisition the image comprising target object key position, by the target object key position feature of extraction with it is upper
The target object key position feature once extracted compares, and determines that the leg of target object changed further according to one minute
The occurrence frequency of the leg variation of interior target object determines that the type of action of target object is to walk or run.
Optionally, action intensity feature includes strongest, second-order intensity and three-level intensity.It can be according to target object
Cardiac frequency determines the exercise intensity of target object movement.Specifically, target can be obtained by the wearable device of target object
The cardiac frequency of object determines exercise intensity corresponding with cardiac frequency, for example, when cardiac frequency is 70-80 beats/min,
Exercise intensity is strongest;When cardiac frequency is 81-85 beats/min, exercise intensity is second-order intensity;Cardiac frequency is 86-
At 90 beats/min, exercise intensity is three-level intensity.Optionally, the wearable device of target object is to be able to detect target object
Cardiac frequency physiological characteristic monitoring device, for example, utilizing the cardiac frequency of Intelligent bracelet detected target object.
S102: it is run according to the revised scene template contral apparatus of air conditioning.
In the present embodiment, simultaneously root is modified according to scene template of the motion characteristic of target object to the apparatus of air conditioning
It is run according to the revised scene template contral apparatus of air conditioning, can preferably meet sky of the user under different active states
Gas regulatory demand.
In some embodiments, scene template includes the trigger condition and control instruction of predetermined registration operation.
When the trigger condition of scene template meets, the apparatus of air conditioning start predetermined registration operation, and according to control instruction into
The specific air conditioning operation of row.
For example, the predetermined registration operation of the apparatus of air conditioning is " starting refrigeration ", trigger condition is " room temperature is 28 DEG C ", control
System instruction is " room temperature is adjusted to 26 DEG C ";Alternatively, the predetermined registration operation of the apparatus of air conditioning is " starting dehumidifying ", item is triggered
Part is " indoor humidity 50% ", and control instruction is " indoor humidity is adjusted to 40% ";Alternatively, the apparatus of air conditioning is default
Operation is " starting fresh air ", and trigger condition is that " indoor PM2.5 concentration is 90 μ g/m3(microgram/cubic meter) ", control instruction is
" time of exchanging gas is 20min (minute) ".The apparatus of air conditioning can carry out air conditioning operation according to scene template, complete intelligent family
Occupy the air conditioning function in scene.
In some embodiments, the scene template of the apparatus of air conditioning is modified, comprising: to trigger condition, control
Instruction one of or more than one be modified.
Optionally, the scene template of the apparatus of air conditioning is modified, including trigger condition is modified, alternatively,
Control instruction is modified, alternatively, being modified to trigger condition and control instruction.
Optionally, trigger condition includes temperature condition, damp condition or particle concentration condition.
Optionally, control instruction includes temperature adjustment instructions, humidity regulation instruction or fresh air regulating command.
The trigger condition and control instruction of scene template are uniformly configured.But target object is in motion characteristic difference
In the case where, trigger condition or control instruction are had different needs.According to the motion characteristic of target object to trigger condition,
One of control instruction or more than one be modified and air tune controlled according to revised trigger condition and control instruction
Equipment operation is saved, air conditioning requirements of the target object under different active states can be better adapted to.
When trigger condition be temperature condition when, one embodiment of the control method of the apparatus of air conditioning as shown in Fig. 2-1,
The following steps are included:
S211: the start-up temperature default value in temperature condition is corrected according to the motion characteristic of target object.
Wherein, start-up temperature default value refers to the temperature value that start-up temperature is adjusted in scene template.
Optionally, start-up temperature default value is revised as temperature value corresponding to motion characteristic.
For example, start-up temperature default value is 28 DEG C, and when the motion characteristic of target object is running, corresponding temperature of running
Value is 26 DEG C, then start-up temperature default value is revised as 26 DEG C;Alternatively, when the motion characteristic of target object is second-order intensity,
The corresponding temperature value of second-order intensity is 26 DEG C, then start-up temperature default value is revised as 26 DEG C.
Optionally, the first temperature correction coefficient according to corresponding to motion characteristic corrects start-up temperature default value.
Optionally, start-up temperature default value is corrected according to the first temperature correction coefficient, comprising:
T2=1×T0
Wherein, T2For revised start-up temperature default value, T0For start-up temperature default value, α1For the first temperature adjustmemt system
Number.
For example, start-up temperature default value is 28 DEG C, and when the motion characteristic of target object is running, running corresponding first
Temperature correction coefficient is 0.93, then start-up temperature default value is revised as 26 DEG C;Alternatively, when the motion characteristic of target object is two
When grade intensity, corresponding first temperature correction coefficient of second-order intensity is 0.9, then start-up temperature default value is revised as 25.2 DEG C.
S212: apparatus of air conditioning operation is controlled according to revised start-up temperature default value.
Start-up temperature default value in temperature condition is the temperature value of unified configuration.But target object is in motion characteristic difference
In the case where, start-up temperature default value is had different needs.It is silent that start-up temperature is adjusted according to the motion characteristic of target object
Recognize value and apparatus of air conditioning operation is controlled according to revised start-up temperature default value, target object can be better adapted to and existed
Temperature requirements under different active states.
When control instruction is temperature adjustment instructions, one embodiment of the control method of the apparatus of air conditioning such as Fig. 2-2
It is shown, comprising the following steps:
S221: the target temperature default value in temperature adjustment instructions is corrected according to the motion characteristic of target object.
Wherein, target temperature default value refers to the target temperature value that temperature adjusting is carried out in scene template.
Optionally, the second temperature correction factor according to corresponding to motion characteristic corrects target temperature default value.
Optionally, target temperature default value is corrected according to second temperature correction factor, comprising:
T11=α2×T10
Wherein, T11For revised target temperature default value, T10For target temperature default value, α2It is corrected for second temperature and is
Number.
For example, target temperature default value is 26 DEG C, and when the motion characteristic of target object is running, running corresponding second
Temperature correction coefficient is 1.07, then target temperature default value is revised as 28 DEG C;Alternatively, when the motion characteristic of target object is two
When grade intensity, the corresponding second temperature correction factor of second-order intensity is 1.15, then target temperature default value is revised as 30 DEG C.
Optionally, when motion characteristic is two or more, according to temperature value corresponding to each motion characteristic and
Third temperature correction coefficient corrects target temperature default value.
Optionally, the temperature value according to corresponding to each motion characteristic and third temperature correction coefficient amendment target temperature are silent
Recognize value, comprising:
T21=α31×T11+...+α3n×T1n
Wherein, T21For revised target temperature default value, T11For temperature value corresponding to first element feature, T1n
For temperature value corresponding to n-th of motion characteristic, α31For third temperature correction coefficient, α corresponding to first element feature3n
For third temperature correction coefficient corresponding to n-th of motion characteristic, n is the quantity of motion characteristic, n >=2.
Optionally, third temperature correction coefficient α3nMeet following relationship:
α31+α32+...+α3n=1
For example, corresponding temperature value of sitting quietly is 28 DEG C when motion characteristic is to sit quietly and run, sit quietly corresponding to the
Three temperature correction coefficients are 0.56, and corresponding temperature value of running is 24 DEG C, and corresponding third temperature correction coefficient of running is
0.44, according to above-mentioned formula, it is 26.2 DEG C that revised target temperature default value, which is calculated,.
Optionally, third temperature correction coefficient carries out different settings with the difference of the quantity of motion characteristic.For example, when dynamic
Making feature includes when sitting quietly and run two kinds, and corresponding third temperature correction coefficient of sitting quietly and run is respectively 0.56 He
0.44;When motion characteristic includes sitting quietly, walk and running three kinds, corresponding third temperature adjustmemt of sitting quietly, walk and run
Coefficient is respectively 0.48,0.28 and 0.24.
When motion characteristic is two or more, repaired according to temperature value corresponding to each motion characteristic and third temperature
Positive coefficient corrects target temperature default value.Different temperatures demand of the target object under different active states is comprehensively considered to correct
Target temperature default value can preferably meet the temperature requirements under target object difference active state.
S222: apparatus of air conditioning operation is controlled according to revised target temperature default value.
Target temperature default value in temperature adjustment instructions is the temperature value of unified configuration.But target object is in motion characteristic
In the case where difference, target temperature default value is had different needs.Target temperature is adjusted according to the motion characteristic of target object
It spends default value and apparatus of air conditioning operation is controlled according to revised target temperature default value, target pair can be better adapted to
As the temperature requirements under different active states.
When trigger condition be damp condition when, one embodiment of the control method of the apparatus of air conditioning as shown in figure 3-1,
The following steps are included:
S311: the starting humidity default value in damp condition is corrected according to the motion characteristic of target object.
Wherein, starting humidity default value refers to the humidity value for starting humidity regulation in scene template.
Optionally, starting humidity default value is revised as humidity value corresponding to motion characteristic.
For example, starting humidity default value is 50%, and when the motion characteristic of target object is running, corresponding humidity of running
Value is 46%, then starting humidity default value is revised as 46%;Alternatively, when the motion characteristic of target object is second-order intensity,
The corresponding humidity value of second-order intensity is 48%, then starting humidity default value is revised as 48%.
Optionally, the amendment of the first humidity correction factor according to corresponding to motion characteristic starting humidity default value.
Optionally, starting humidity default value is corrected according to the first humidity correction factor, comprising:
ψ2=β1×ψ0
Wherein, ψ2For revised starting humidity default value, ψ0To start humidity default value, β1It is corrected for the first humidity and is
Number.
For example, starting humidity default value is 40%, and when the motion characteristic of target object is running, running corresponding first
Humidity correction factor is 0.92, then starting humidity default value is revised as 37%;Alternatively, when the motion characteristic of target object is two
When grade intensity, corresponding first humidity correction factor of second-order intensity is 0.96, then starting humidity default value is revised as 38%.
S312: apparatus of air conditioning operation is controlled according to revised starting humidity default value.
Starting humidity default value in damp condition is the humidity value of unified configuration.But target object is in motion characteristic difference
In the case where, starting humidity default value is had different needs.It is silent that starting humidity is adjusted according to the motion characteristic of target object
Recognize value and apparatus of air conditioning operation is controlled according to revised starting humidity default value, target object can be better adapted to and existed
Moisture requirement under different active states.
When control instruction is that humidity regulation instructs, one embodiment of the control method of the apparatus of air conditioning such as Fig. 3-2
It is shown, comprising the following steps:
S321: the target humidity default value in humidity regulation instruction is corrected according to the motion characteristic of target object.
Wherein, target humidity default value refers to the target humidity value that humidity regulation is carried out in scene template.
Optionally, the second humidity correction factor according to corresponding to motion characteristic corrects target humidity default value.
Optionally, target humidity default value is corrected according to the second humidity correction factor, comprising:
ψ11=β2×ψ10
Wherein, ψ11For revised target humidity default value, ψ10For target humidity default value, β2It is corrected for the second humidity and is
Number.
For example, target humidity default value is 50%, and when the motion characteristic of target object is running, running corresponding second
Humidity correction factor is 0.8, then target humidity default value is revised as 40%;Alternatively, when the motion characteristic of target object is two
When grade intensity, corresponding second humidity correction factor of second-order intensity is 0.9, then target humidity default value is revised as 45%.
Optionally, when motion characteristic is two or more, according to humidity value corresponding to each motion characteristic and
Third humidity correction factor corrects target humidity default value.
Optionally, the humidity value according to corresponding to each motion characteristic and third humidity correction factor amendment target humidity are silent
Recognize value, comprising:
ψ21=β31×ψ11+...+β3n×ψ1n
Wherein, ψ21For revised target humidity default value, ψ11For humidity value corresponding to first element feature, ψ1n
For humidity value corresponding to n-th of motion characteristic, β31For third humidity correction factor, β corresponding to first element feature3n
For third humidity correction factor corresponding to n-th of motion characteristic.
Optionally, third humidity correction factor β3nMeet following relationship:
β31+β32+...+β3n=1
For example, corresponding humidity value of sitting quietly is 46% when motion characteristic is to sit quietly and run, sit quietly corresponding to the
Three humidity correction factors are 0.56, and corresponding humidity value of running is 40%, and corresponding third humidity correction factor of running is
0.44, according to above-mentioned formula, it is 43% that revised target humidity default value, which is calculated,.
Optionally, third humidity correction factor corresponding to motion characteristic carries out not with the difference of the quantity of motion characteristic
With setting.For example, when motion characteristic includes sitting quietly and running two kinds, corresponding third humidity correction factor of sitting quietly and run
Respectively 0.56 and 0.44;When motion characteristic includes sitting quietly, walk and at three kinds of running, sitting quietly, walk and running is corresponding
Third humidity correction factor is respectively 0.48,0.28 and 0.24.
When motion characteristic is two or more, repaired according to humidity value corresponding to each motion characteristic and third humidity
Positive coefficient corrects target humidity default value.Different humidity demand of the target object under different active states is comprehensively considered to correct
Target humidity default value can preferably meet the moisture requirement under target object difference active state.
S322: apparatus of air conditioning operation is controlled according to revised target humidity default value.
Target humidity default value in humidity regulation instruction is the humidity value of unified configuration.But target object is in motion characteristic
In the case where difference, target humidity default value is had different needs.It is wet that target is adjusted according to the motion characteristic of target object
It spends default value and apparatus of air conditioning operation is controlled according to revised target humidity default value, can preferably adapt to target pair
As the moisture requirement under different active states.
When trigger condition is particle concentration condition, one embodiment of the control method of the apparatus of air conditioning such as Fig. 4-
Shown in 1, comprising the following steps:
S411: the starting particle concentration in particle concentration condition is corrected according to the motion characteristic of target object and is defaulted
Value.
Wherein, starting particle concentration default value, which refers to, starts the particle concentration value that fresh air is adjusted in scene template.
Optionally, particle concentration includes PM2.5 concentration, PM10 concentration or HCL concentration.
Optionally, starting particle concentration default value is revised as particle concentration value corresponding to motion characteristic.
For example, starting PM2.5 concentration default value is 90 μ g/m3, when the motion characteristic of target object is running, running pair
The PM2.5 concentration value answered is 80 μ g/m3, then starting PM2.5 concentration default value is revised as 80 μ g/m3;Alternatively, working as target object
Motion characteristic be second-order intensity when, the corresponding PM2.5 concentration value of second-order intensity be 85 μ g/m3, then starting PM2.5 concentration is write from memory
Recognize value and is revised as 85 μ g/m3。
Optionally, the amendment of the particle concentration correction factor according to corresponding to motion characteristic starting particle concentration default
Value.
Optionally, starting particle concentration default value is corrected according to particle concentration correction factor, comprising:
C2=δ1×C0
Wherein, C2For revised starting particle concentration default value, C0To start particle concentration default value, δ1For
Grain object concentration correction coefficient.
For example, starting PM2.5 concentration default value is 90 μ g/m3, when the motion characteristic of target object is running, running pair
The PM2.5 concentration correction coefficient answered is 0.88, then starting PM2.5 concentration default value is revised as 80 μ g/m3;Alternatively, working as target
When the motion characteristic of object is second-order intensity, the corresponding PM2.5 concentration correction coefficient of second-order intensity is 0.94, then will starting
PM2.5 concentration default value is revised as 85 μ g/m3。
S412: apparatus of air conditioning operation is controlled according to revised starting particle concentration default value.
Starting particle concentration default value in particle concentration condition is the particle concentration value of unified configuration.But target
Object has different needs starting particle concentration default value in the case where motion characteristic difference.According to target object
Motion characteristic adjustment starting particle concentration default value and according to revised starting particle concentration default value control air
Adjustment equipment operation, can better adapt to fresh air regulatory demand of the target object under different active states.
When control instruction is fresh air regulating command, one embodiment of the control method of the apparatus of air conditioning such as Fig. 4-2
It is shown, comprising the following steps:
S421: the target time of exchanging gas default value in fresh air regulating command is corrected according to the motion characteristic of target object.
Wherein, target time of exchanging gas default value refers to the target time of exchanging gas value that fresh air adjusting is carried out in scene template.
Optionally, the amendment of the first time of exchanging gas correction factor according to corresponding to motion characteristic target time of exchanging gas default
Value.
Optionally, target time of exchanging gas default value is corrected according to the first time of exchanging gas correction factor, comprising:
Δt11=ω1×Δt10
Wherein, Δ t11For revised target time of exchanging gas default value, Δ t10For target time of exchanging gas default value, ω1For
First time of exchanging gas correction factor.
For example, target time of exchanging gas default value is 20min, when the motion characteristic of target object is running, running is corresponded to
The first time of exchanging gas correction factor be 1.5, then target time of exchanging gas default value is revised as 30min;Alternatively, working as target object
Motion characteristic be second-order intensity when, the corresponding first time of exchanging gas correction factor of second-order intensity be 2, then by target time of exchanging gas
Default value is revised as 40min.
Optionally, when motion characteristic is two or more, according to time of exchanging gas corresponding to each motion characteristic
Value and the second time of exchanging gas correction factor correct target time of exchanging gas default value.
Optionally, the time of exchanging gas value according to corresponding to each motion characteristic and the second time of exchanging gas correction factor correct mesh
Mark time of exchanging gas default value, comprising:
Δt21=ω21×Δt11+...+ω2n×Δt1n
Wherein, Δ t21For revised target time of exchanging gas default value, Δ t11To be changed corresponding to first element feature
Gas time value, Δ t1nFor time of exchanging gas value, ω corresponding to n-th of motion characteristic21It is corresponding to first element feature
Two time of exchanging gas correction factors, ω2nFor the second time of exchanging gas correction factor corresponding to n-th of motion characteristic.
Optionally, the second time of exchanging gas correction factor ω2nMeet following relationship:
ω21+ω22+...+2n=1
For example, corresponding time of exchanging gas value of sitting quietly is 25min when motion characteristic is to sit quietly and run, sit quietly pair
The the second time of exchanging gas correction factor answered is 0.56, and corresponding time of exchanging gas value of running is 30min, corresponding second of running
Time of exchanging gas correction factor is 0.44, and according to above-mentioned formula, revised target time of exchanging gas default value, which is calculated, is
27min。
Optionally, the second time of exchanging gas correction factor corresponding to motion characteristic with the difference of the quantity of motion characteristic and into
The different settings of row.When motion characteristic includes sitting quietly and running two kinds, the second corresponding time of exchanging gas of sitting quietly and run is corrected
Coefficient is respectively 0.56 and 0.44;When motion characteristic includes sitting quietly, walk and running three kinds, institute of sitting quietly, walk and run is right
The the second time of exchanging gas correction factor answered is respectively 0.48,0.28 and 0.24.
When motion characteristic is two or more, according to time of exchanging gas value and second corresponding to each motion characteristic
Time of exchanging gas correction factor corrects target time of exchanging gas default value.Comprehensively consider difference of the target object under different activity conditions
Time of exchanging gas demand can preferably be met new under target object difference active state with correcting target time of exchanging gas default value
Wind regulatory demand.
S422: apparatus of air conditioning operation is controlled according to revised target time of exchanging gas default value.
Target time of exchanging gas default value in fresh air regulating command is the target time of exchanging gas value of unified configuration.But target pair
As being had different needs for target time of exchanging gas default value in the case where motion characteristic difference.According to the dynamic of target object
Make Character adjustment target time of exchanging gas default value and the apparatus of air conditioning is controlled according to revised target time of exchanging gas default value
Operation, can better adapt to fresh air regulatory demand of the target object under different active states.
The embodiment of the present disclosure provides a kind of control device of apparatus of air conditioning, as shown in Figure 5, comprising:
Amending unit 10 is configured as the motion characteristic according to target object, to the scene template of the apparatus of air conditioning into
Row amendment;With
Control unit 20 is configured as being run according to the revised scene template contral apparatus of air conditioning.
In some embodiments, scene template includes that the trigger condition of the predetermined registration operation of the apparatus of air conditioning and control refer to
It enables.
Optionally, amending unit 10 is configured as: to one of trigger condition, control instruction or more than one repair
Just.
Optionally, trigger condition includes temperature condition, damp condition or particle concentration condition.
Optionally, control instruction includes temperature adjustment instructions, humidity regulation instruction or fresh air regulating command.
In some embodiments, amending unit 10 is configured as: when trigger condition is temperature condition, according to target object
Motion characteristic amendment temperature condition in start-up temperature default value;Control unit 20 is configured as: according to revised starting
Temperature implied value controls apparatus of air conditioning operation.
Optionally, amending unit 10 is configured as: start-up temperature default value is revised as temperature corresponding to motion characteristic
Value.
Optionally, amending unit 10 is configured as: the amendment of the first temperature correction coefficient according to corresponding to motion characteristic is opened
Dynamic temperature default value.
Optionally, amending unit 10 is configured as:
Revised start-up temperature default value is calculated according to the following formula:
T2=α1×T0
Wherein, T2For revised start-up temperature default value, T0For start-up temperature default value, α1For the first temperature adjustmemt system
Number.
In some embodiments, amending unit 10 is configured as: when trigger condition is damp condition, according to target object
Motion characteristic amendment damp condition in starting humidity default value;Control unit 20 is configured as: according to revised starting
Humidity default value controls apparatus of air conditioning operation.
Optionally, amending unit 10 is configured as: starting humidity default value is revised as humidity corresponding to motion characteristic
Value.
Optionally, amending unit 10 is configured as: the amendment of the first humidity correction factor according to corresponding to motion characteristic is opened
Dynamic humidity default value.
Optionally, amending unit 10 is configured as:
Revised starting humidity default value is calculated according to the following formula:
ψ2=β1×ψ0
Wherein, ψ2For revised starting humidity default value, ψ0To start humidity default value, β1It is corrected for the first humidity and is
Number.
In some embodiments, amending unit 10 is configured as: when trigger condition is particle concentration condition, according to mesh
Mark the starting particle concentration default value in the motion characteristic amendment particle concentration condition of object;Control unit 20 is configured
Are as follows: apparatus of air conditioning operation is controlled according to revised starting particle concentration default value.
Optionally, amending unit 10 is configured as: starting particle concentration default value is revised as corresponding to motion characteristic
Particle concentration value.
Optionally, amending unit 10 is configured as: the amendment of the particle concentration correction factor according to corresponding to motion characteristic
Start particle concentration default value.
Optionally, amending unit 10 is configured as:
Revised starting particle concentration default value is calculated according to the following formula:
C2=δ1×C0
Wherein, C2For revised starting particle concentration default value, C0To start particle concentration default value, δ1For
Grain object concentration correction coefficient.
In some embodiments, amending unit 10 is configured as: when control instruction is temperature adjustment instructions, according to target
Target temperature default value in the motion characteristic amendment temperature adjustment instructions of object;Control unit 20 is configured as: according to amendment
Target temperature default value control apparatus of air conditioning operation afterwards.
Optionally, amending unit 10 is configured as: the second temperature correction factor according to corresponding to motion characteristic corrects mesh
Mark temperature implied value.
Optionally, amending unit 10 is configured as:
Revised target temperature default value is calculated according to the following formula:
T11=α2×T10
Wherein, T11For revised target temperature default value, T10For target temperature default value, α2It is corrected for second temperature and is
Number.
Optionally, amending unit 10 is configured as: special according to each movement when motion characteristic is two or more
The corresponding temperature value of sign and third temperature correction coefficient correct target temperature default value.
Optionally, amending unit 10 is configured as:
Revised target temperature default value is calculated according to the following formula:
T21=α31×T11+...+α3n×T1n
Wherein, T21For revised target temperature default value, T11For temperature value corresponding to first element feature, T1n
For temperature value corresponding to n-th of motion characteristic, α31For third temperature correction coefficient, α corresponding to first element feature3n
For third temperature correction coefficient corresponding to n-th of motion characteristic, n is the quantity of motion characteristic, n >=2.
In some embodiments, amending unit 10 is configured as: when control instruction is that humidity regulation instructs, according to target
Target humidity default value in the motion characteristic amendment humidity regulation instruction of object;Control unit 20 is configured as: according to amendment
Target humidity default value control apparatus of air conditioning operation afterwards.
Optionally, amending unit 10 is configured as: the second humidity correction factor according to corresponding to motion characteristic corrects mesh
Mark humidity default value.
Optionally, amending unit 10 is configured as:
Revised target humidity default value is calculated according to the following formula:
ψ11=β2×ψ10
Wherein, ψ11For revised target humidity default value, ψ10For target humidity default value, β2It is corrected for the second humidity and is
Number.
Optionally, amending unit 10 is configured as: special according to each movement when motion characteristic is two or more
The corresponding humidity value of sign and third humidity correction factor correct target humidity default value.
Optionally, amending unit 10 is configured as: revised target humidity default value is calculated according to the following formula:
ψ21=β31×ψ11+...+β3n×ψ1n
Wherein, ψ21For revised target humidity default value, ψ11For humidity value corresponding to first element feature, ψ1n
For humidity value corresponding to n-th of motion characteristic, β31For third humidity correction factor, β corresponding to first element feature3n
For third humidity correction factor corresponding to n-th of motion characteristic.
In some embodiments, amending unit 10 is configured as: when control instruction is fresh air regulating command, according to target
Target time of exchanging gas default value in the motion characteristic amendment fresh air regulating command of object;Control unit 20 is configured as: according to
Revised target time of exchanging gas default value control apparatus of air conditioning operation.
Optionally, amending unit 10 is configured as: the first time of exchanging gas correction factor according to corresponding to motion characteristic is repaired
Positive goal time of exchanging gas default value.
Optionally, amending unit 10 is configured as:
Revised target time of exchanging gas default value is calculated according to the following formula:
Δt11=ω1×Δt10
Wherein, Δ t11For revised target time of exchanging gas default value, Δ t10For target time of exchanging gas default value, ω1For
First time of exchanging gas correction factor.
Optionally, amending unit 10 is configured as: special according to each movement when motion characteristic is two or more
The corresponding time of exchanging gas value of sign and the second time of exchanging gas correction factor correct target time of exchanging gas default value.
Optionally, amending unit 10 is configured as: revised target time of exchanging gas default value is calculated according to the following formula:
Δt21=ω21×Δt11+...+ω2n×Δt1n
Wherein, Δ t21For revised target time of exchanging gas default value, Δ t11To be changed corresponding to first element feature
Gas time value, Δ t1nFor time of exchanging gas value, ω corresponding to n-th of motion characteristic21It is corresponding to first element feature
Two time of exchanging gas correction factors, ω2nFor the second time of exchanging gas correction factor corresponding to n-th of motion characteristic.
The embodiment of the present disclosure provides a kind of apparatus of air conditioning, the control device comprising the above-mentioned apparatus of air conditioning.
The embodiment of the present disclosure provides a kind of computer readable storage medium, is stored with computer executable instructions, the meter
Calculation machine executable instruction is arranged to carry out the control method of the above-mentioned apparatus of air conditioning.
The embodiment of the present disclosure provides a kind of computer program product, and the computer program product includes being stored in computer
Computer program on readable storage medium storing program for executing, the computer program include program instruction, when described program is instructed by computer
When execution, the computer is made to execute the control method of the above-mentioned apparatus of air conditioning.
Above-mentioned computer readable storage medium can be transitory computer readable storage medium, be also possible to non-transient meter
Calculation machine readable storage medium storing program for executing.
The embodiment of the present disclosure provides a kind of electronic equipment, and structure is as shown in fig. 6, the electronic equipment includes:
In at least one processor (processor) 60, Fig. 6 by taking a processor 60 as an example;With memory (memory)
61, it can also include communication interface (Communication Interface) 62 and bus 63.Wherein, processor 60, communication connect
Mouth 62, memory 61 can complete mutual communication by bus 63.Communication interface 62 can be used for information transmission.Processor
60 can call the logical order in memory 61, to execute the control method of the apparatus of air conditioning of above-described embodiment.
In addition, the logical order in above-mentioned memory 61 can be realized and as only by way of SFU software functional unit
Vertical product when selling or using, can store in a computer readable storage medium.
Memory 61 is used as a kind of computer readable storage medium, can be used for storing software program, journey can be performed in computer
Sequence, such as the corresponding program instruction/module of the method in the embodiment of the present disclosure.Processor 60 is stored in memory 61 by operation
Software program, instruction and module, thereby executing functional application and data processing, i.e., in realization above method embodiment
The control method of the apparatus of air conditioning.
Memory 61 may include storing program area and storage data area, wherein storing program area can storage program area, extremely
Application program needed for a few function;Storage data area, which can be stored, uses created data etc. according to terminal device.This
Outside, memory 61 may include high-speed random access memory, can also include nonvolatile memory.
The technical solution of the embodiment of the present disclosure can be embodied in the form of software products, which deposits
Storage in one storage medium, including one or more instruction is used so that computer equipment (can be personal computer,
Server or the network equipment etc.) execute embodiment of the present disclosure the method all or part of the steps.And storage above-mentioned is situated between
Matter can be non-transient storage media, comprising: USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), with
Machine accesses a variety of Jie that can store program code such as memory (RAM, Random Access Memory), magnetic or disk
Matter is also possible to transitory memory medium.
Above description and attached drawing sufficiently illustrate embodiment of the disclosure, to enable those skilled in the art to practice
They.Other embodiments may include structure, logic, it is electrical, process and other change.Embodiment only represents
Possible variation.Unless explicitly requested, otherwise individual components and functionality is optional, and the sequence operated can change.
The part of some embodiments and feature can be included in or replace part and the feature of other embodiments.The embodiment of the present disclosure
Range includes the entire scope of claims and all obtainable equivalents of claims.When for the application
When middle, although term " first ", " second " etc. may be used in this application to describe each element, these elements should not be by
To the limitation of these terms.These terms are only used to differentiate an element with another element.For example, not changing description
Meaning in the case where, first element can be called second element, and same, and second element can be called first element,
As long as " first element " that is occurred unanimously renames and " second element " occurred unanimously renames.First
Element and second element are all elements, but can not be identical element.Moreover, word used herein is only used for describing
Embodiment and it is not used in limitation claim.As used in the description in embodiment and claim, unless context
It clearly illustrates, otherwise "one" (a) of singular, "one" (an) and " described " (the) is intended to equally include plural shape
Formula.Similarly, term "and/or" refers to and associated lists comprising one or more as used in this specification
Any and all possible combination.In addition, when in the application, term " includes " (comprise) and its modification " packet
Include " (comprises) and/or feature, entirety, step, operation, element and/or group including the statement such as (comprising) fingers
The presence of part, but it is not excluded for one or more other features, entirety, step, operation, element, component and/or these point
The presence or addition of group.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that
There is also other identical elements in the process, method or equipment for including the element.Herein, each embodiment emphasis
What is illustrated can be the difference from other embodiments, and the same or similar parts in each embodiment can refer to each other.It is right
For the method disclosed in embodiment, product etc., if it is corresponding with method part disclosed in embodiment, related place
It may refer to the description of method part.
In embodiments disclosed herein, disclosed method, product (including but not limited to device, equipment etc.) can be with
It realizes by another way.For example, the apparatus embodiments described above are merely exemplary, for example, the unit
Divide, can be only a kind of logical function partition, there may be another division manner in actual implementation, for example, multiple units or
Component can be combined or can be integrated into another system, or some features can be ignored or not executed.In addition, shown
Or the mutual coupling, direct-coupling or communication connection discussed can be through some interfaces, device or unit it is indirect
Coupling or communication connection can be electrical property, mechanical or other forms.The unit as illustrated by the separation member can be or
Person, which may not be, to be physically separated, and component shown as a unit may or may not be physical unit
With in one place, or may be distributed over multiple network units.Portion therein can be selected according to the actual needs
Point or whole unit realize the present embodiment.In addition, each functional unit in the embodiments of the present disclosure can integrate at one
In processing unit, it is also possible to each unit and physically exists alone, a list can also be integrated in two or more units
In member.
The flow chart and block diagram in the drawings show system, the method and computer program products according to the embodiment of the present disclosure
Architecture, function and operation in the cards.In this regard, each box in flowchart or block diagram can represent one
A part of module, section or code, a part of the module, section or code include it is one or more for realizing
The executable instruction of defined logic function.In some implementations as replacements, function marked in the box can also be with
Occur different from the sequence marked in attached drawing.For example, two continuous boxes can actually be basically executed in parallel, they
Sometimes it can also execute in the opposite order, this can be depended on the functions involved.Flow chart and block diagram institute in the accompanying drawings
In corresponding description, operation corresponding to different boxes or step can also be to be different from sequence hair disclosed in description
Raw, there is no specific sequences between sometimes different operations or step.For example, two continuous operations or step actually may be used
To be basically executed in parallel, they can also be executed in the opposite order sometimes, this can be depended on the functions involved.Block diagram
And/or the combination of each box in flow chart and the box in block diagram and or flow chart, it can the function as defined in executing
Can or the dedicated hardware based system of movement realize, or can come using a combination of dedicated hardware and computer instructions real
It is existing.