CN107576010A - Progress control method, system, computer equipment, readable storage medium storing program for executing and air-conditioning - Google Patents

Progress control method, system, computer equipment, readable storage medium storing program for executing and air-conditioning Download PDF

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Publication number
CN107576010A
CN107576010A CN201710726494.5A CN201710726494A CN107576010A CN 107576010 A CN107576010 A CN 107576010A CN 201710726494 A CN201710726494 A CN 201710726494A CN 107576010 A CN107576010 A CN 107576010A
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air
conditioning
temperature
operational factor
air quantity
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CN107576010B (en
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喻晓
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Midea Group Co Ltd
Guangdong Midea HVAC Equipment Co Ltd
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Midea Group Co Ltd
Guangdong Midea HVAC Equipment Co Ltd
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Abstract

The present invention proposes a kind of progress control method, system, computer equipment, readable storage medium storing program for executing and air-conditioning, wherein, progress control method, for air-conditioning, including:When air-conditioning is run with parameter preset, stove side temperature and indoor temperature are detected in real time;Determine that stove side temperature subtracts the temperature difference of indoor temperature;The operational factor of air-conditioning is adjusted according to temperature difference;Control air-conditioning is run with operational factor.Technical scheme is realized by determining the heat radiation of stove side, correspondingly adjust the service ability of air-conditioning, the heat that stove radiates during so as to reduce stir-frying in kitchen raises the possibility influenceed to stove side small range temperature, reduce the fluctuation of indoor temperature when kitchen uses air-conditioning, make indoor temperature constant comfortable, make one more comfortable, and when the change of stove radiation temperature is small, air quantity can lower automatically, lift human sense of comfort, reduce the noise of operation of air conditioner.

Description

Progress control method, system, computer equipment, readable storage medium storing program for executing and air-conditioning
Technical field
The present invention relates to field of air conditioning, in particular to a kind of progress control method, a kind of operation control system, one Kind computer equipment, a kind of computer-readable recording medium and a kind of air-conditioning.
Background technology
At present, in order to solve the problems, such as summer cook it is awfully hot, some start kitchen install air-conditioning.But people do Gas-cooker burning can release substantial amounts of heat when meal, and indoor refrigeration can be affected.For these problems, related skill In art, strong, the weak both of which of air-conditioning point, " strong " pattern is used when opening stove cooking, gas-cooker nearby fills an air port, against stove The people of platform blows, and allows people quickly to feel pleasantly cool.
But above solution has some shortcomings:User just needs strength to freeze when opening big fire cooking, such as only opens Small fire is smouldered, then need not de-regulation be again also strongly " weak ", repeatedly adjustment can produce the mechanical manipulation of repetition, more Trouble, uncomfortable and cause fluctuations in indoor temperature big, extreme influence Consumer's Experience.
The content of the invention
It is contemplated that at least solves one of technical problem present in prior art or correlation technique.
Therefore, it is an object of the present invention to propose a kind of progress control method.
Another object of the present invention is to propose a kind of operation control system.
A further object of the present invention is to propose a kind of computer equipment.
A further object of the present invention is to propose a kind of computer-readable recording medium.
A further object of the present invention is to propose a kind of air-conditioning.
In view of this, the technical scheme of first aspect present invention proposes a kind of progress control method, for air-conditioning, bag Include:When air-conditioning is run with parameter preset, stove side temperature and indoor temperature are detected in real time;Determine that stove side temperature subtracts indoor temperature Temperature difference;The operational factor of air-conditioning is adjusted according to temperature difference;Control air-conditioning is run with operational factor.
In the technical scheme, when air-conditioning is run with parameter preset, indoor temperature and stove side temperature are gathered in real time, it is indoor Temperature is used to perceive whether room temperature has reached target temperature set by parameter preset, and stove side temperature is mainly used in understanding dissipating for stove Enthusiasm condition;Temperature difference is calculated by processor again, foundation is provided for the adjustment of air conditioner operation parameters;Then by temperature difference come really Determine the adjustment of air conditioner operation parameters, the regulation of air quantity is carried out by adjusting air conditioner operation parameters, during so as to reduce stir-frying in kitchen The heat of stove radiation raises the possibility influenceed to stove side small range temperature, reduces the ripple of indoor temperature when kitchen uses air-conditioning It is dynamic, make indoor temperature constant comfortable, make one more comfortable, and when stove radiation temperature becomes small, air quantity can lower automatically, carry Human sense of comfort is risen, reduces operation of air conditioner energy consumption.
It should be noted that by adjusting air conditioner operation parameters to adjust air quantity be total to by indoor apparatus of air conditioner and outdoor unit It is same to adjust to realize.
In addition, the progress control method in above-mentioned technical proposal provided by the invention can also have following supplementary technology special Sign:
In the above-mentioned technical solutions, it is preferable that the operational factor of air-conditioning is adjusted according to temperature difference, is specifically included:It is it is determined that empty Adjust default air quantity when being run with parameter preset;The air quantity variable according to corresponding to temperature difference determines air-conditioning;It is determined that default air quantity with Institute's air quantity variable sum is adjustment air quantity;It is determined that the operational factor of air-conditioning corresponding to adjustment air quantity.
In the technical scheme, the operational factor of air-conditioning is adjusted by temperature difference.Specifically, by determining air-conditioning to preset Default air quantity when parameter is run, when obtaining being not turned on stove heat compensation function, the machine script air quantity to be exported;Further according to Temperature difference determines air quantity variable corresponding to air-conditioning, obtains after opening stove heat compensation function, and machine needs extra increased wind Amount;Then it is adjustment air quantity by determining default air quantity with institute's air quantity variable sum, obtains after opening stove heat compensation function, The actual operation air quantity of air-conditioning;Afterwards by adjusting air quantity (i.e. the actual operation air quantity of air-conditioning) operation of air-conditioning corresponding to determination Parameter, and according to the operation of operational factor control air-conditioning.
It should be noted that above technical scheme can also obtain the work(of kitchen range for heating by being linked with gas-cooker Rate, the air quantity that needs to compensate is calculated under stove radiation to realize;It can not also be compensated by calculating air quantity, and pass through calculating Mode that unit operation ability compensates is realized.
In the above-mentioned technical solutions, it is preferable that stove temperature or by detecting kitchen range when temperature is by directly detecting stove Power calculation heat radiation is run to determine.
In the technical scheme, by directly detect stove side temperature or by detect kitchen range run power calculation heat radiation be Air-conditioning adjustment operational factor provides foundation.
In the above-mentioned technical solutions, it is preferable that when adjustment air quantity is not less than maximum quantity of wind, determine corresponding to maximum quantity of wind First operational factor of air-conditioning, control air-conditioning are run with the first operational factor;And when adjustment air quantity is less than maximum quantity of wind, really Set the tone the second operational factor of air-conditioning corresponding to rectification campaign amount, control air-conditioning is run with the second operational factor.
It is (i.e. empty by comparing adjustment air quantity (i.e. the actual operation air quantity of air-conditioning) and maximum quantity of wind in the technical scheme Adjust available maximum quantity of wind) size, when adjusting air quantity and being not less than maximum quantity of wind, the air quantity that can be provided due to air-conditioning Limitation, air-conditioning can not be run with the corresponding parameter of the adjustment air quantity calculated, it is thus determined that air-conditioning corresponding to maximum quantity of wind First operational factor, control air-conditioning are run with the first operational factor, when adjustment air quantity is less than maximum quantity of wind, it is determined that adjustment air quantity Second operational factor of corresponding air-conditioning, control air-conditioning are run with the second operational factor.
It should be noted that maximum quantity of wind is the available maximum quantity of wind of air-conditioning.When the adjustment air quantity calculated is not less than During the available maximum quantity of wind of air-conditioning, air-conditioning ensure that the reduction of the indoor temperature during cooking with maximum quantity of wind operation, carry Consumer's Experience is risen;When the adjustment air quantity calculated is less than the available maximum quantity of wind of air-conditioning, the air-conditioning then tune to calculate Rectification campaign amount is run, and is reduced the wasting of resources caused by air-conditioning is still run with maximum quantity of wind, is advantageous to energy-conserving and environment-protective.
The technical scheme of second aspect of the present invention proposes a kind of operation control system, including:Temperature detecting unit, it is used for When air-conditioning is run with parameter preset, stove side temperature and indoor temperature are detected in real time;Temperature difference determining unit, for determining stove side temperature Degree subtracts the temperature difference of indoor temperature;Operational factor adjustment unit, for adjusting the operational factor of air-conditioning according to temperature difference.
In the technical scheme, when air-conditioning is run with parameter preset, Indoor Temperature is gathered by temperature detecting unit in real time Degree and stove side temperature, indoor temperature are used to perceive whether room temperature has reached target temperature set by parameter preset, stove side temperature It is mainly used in understanding the heat dispersal situations of stove;It is poor by temperature difference determining unit temperature again, carried for the adjustment of air conditioner operation parameters For foundation;Then by operational factor adjustment unit, the adjustment of air conditioner operation parameters is further determined that according to the value of temperature difference, and According to the operation of the operational factor control air-conditioning after adjustment, the heat of stove radiation cools to space during so as to compensate stir-frying in kitchen The influence of effect, reduce the fluctuation of indoor temperature when kitchen uses air-conditioning, make indoor temperature constant comfortable, make one more comfortable;And And when stove radiation temperature becomes small, air quantity can lower automatically, reduce the noise of air conditioner used in kitchen work.
In the above-mentioned technical solutions, it is preferable that operational factor adjustment unit, specifically include:Default air quantity determining unit, is used Default air quantity when it is determined that air-conditioning is run with parameter preset;Air quantity variable determination unit, for determining air-conditioning according to temperature difference Corresponding air quantity variable;Air quantity determining unit is adjusted, for determining that default air quantity and air quantity variable sum are adjustment air quantity;Operation Parameter determination unit, for determining the operational factor of air-conditioning corresponding to adjustment air quantity;Execution unit, for controlling air-conditioning to run Parameter is run.
In the technical scheme, the operational factor of air-conditioning is adjusted by temperature difference.Specifically, determined by default air quantity single Member determines default air quantity when air-conditioning is run with parameter preset, and when obtaining being not turned on stove heat compensation function, machine originally will The air quantity of output;Again by air quantity variable determination unit, the air quantity variable according to corresponding to temperature difference determines air-conditioning, obtain opening stove After burning hot amount compensation function, machine needs extra increased air quantity;Then by adjusting air quantity determining unit, it is determined that default air quantity It is adjustment air quantity with institute's air quantity variable sum, obtains after opening stove heat compensation function, the actual operation air quantity of air-conditioning;Afterwards By operational factor determining unit, it is determined that the operational factor of air-conditioning corresponding to adjustment air quantity (i.e. the actual operation air quantity of air-conditioning), And by execution unit, the operation of air-conditioning is controlled according to operational factor.
It should be noted that above technical scheme can also obtain the work(of kitchen range for heating by being linked with gas-cooker Rate, the air quantity that needs to compensate is calculated under stove radiation to realize;It can not also be compensated by calculating air quantity, and pass through calculating Mode that unit operation ability compensates is realized.
In the above-mentioned technical solutions, it is preferable that stove temperature determining unit when temperature is by stove directly detects stove side temperature Degree detects kitchen range operation power calculation heat radiation to determine by heat radiation determining unit.
In the technical scheme, by stove when temperature determining unit directly detects stove temperature or pass through heat radiation determine it is single Member detection kitchen range operation power calculation heat radiation adjusts operational factor for air-conditioning and provides foundation.
In the above-mentioned technical solutions, it is preferable that the first operational factor adjustment unit, for being not less than maximum in adjustment air quantity During air quantity, the first operational factor of air-conditioning corresponding to maximum quantity of wind is determined, control air-conditioning is run with the first operational factor;And the Two operational factor adjustment units, for adjust air quantity be less than maximum quantity of wind when, it is determined that adjust air quantity corresponding to air-conditioning second Operational factor, control air-conditioning are run with the second operational factor.
It is (i.e. empty by comparing adjustment air quantity (i.e. the actual operation air quantity of air-conditioning) and maximum quantity of wind in the technical scheme Adjust available maximum quantity of wind) size, when adjusting air quantity and being not less than maximum quantity of wind, the air quantity that can be provided due to air-conditioning Limitation, air-conditioning can not be run with the corresponding parameter of the adjustment air quantity calculated, therefore pass through the first operational factor adjustment unit The first operational factor of air-conditioning corresponding to maximum quantity of wind is determined, control air-conditioning is run with the first operational factor;When adjustment air quantity is small When maximum quantity of wind, the second operational factor of air-conditioning corresponding to adjustment air quantity, control are determined by the second operational factor adjustment unit Air-conditioning processed is run with the second operational factor.
It should be noted that maximum quantity of wind is the available maximum quantity of wind of air-conditioning.When the adjustment air quantity calculated is not less than During the available maximum quantity of wind of air-conditioning, air-conditioning ensure that the reduction of the indoor temperature during cooking with maximum quantity of wind operation, carry Consumer's Experience is risen;When the adjustment air quantity calculated is less than the available maximum quantity of wind of air-conditioning, the air-conditioning then tune to calculate Rectification campaign amount is run, and is reduced the wasting of resources caused by air-conditioning is still run with maximum quantity of wind, is advantageous to energy-conserving and environment-protective.
The technical scheme of third aspect present invention proposes a kind of computer equipment, including memory, processor and storage On a memory and the computer program that can run on a processor, any of the above-described is performed during computing device computer program Progress control method.
In the technical scheme, the computer program for performing the progress control method of any of the above-described is stored in memory On, during computing device computer program, the progress control method in any of the above-described technical scheme can be achieved, therefore with as above Whole beneficial effects of the progress control method in any one technical scheme are stated, will not be repeated here.
The technical scheme of fourth aspect present invention proposes a kind of computer-readable recording medium, is stored thereon with computer Program, the progress control method of any of the above-described is realized when computer program is executed by processor.
In the technical scheme, processor realizes that progress control method is needed by computer program, this computer journey Sequence needs to be stored in computer-readable medium.This computer-readable medium ensure that computer program can be processed Device performs, it is achieved thereby that the progress control method in any of the above-described technical scheme, therefore with any one technical side as described above Whole beneficial effects of progress control method in case, will not be repeated here.
The technical scheme of fifth aspect present invention, which is proposed in a kind of air-conditioning, including second aspect of the present invention technical scheme, appoints One operation control system.
In the technical scheme, air-conditioning includes the operation control system in any embodiment, it is achieved thereby that any of the above-described Progress control method in technical scheme, therefore the whole with the progress control method in any one technical scheme as described above has Beneficial effect, will not be repeated here.
The additional aspect and advantage of the present invention will become obvious in following description section, or the practice by the present invention Recognize.
Brief description of the drawings
The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination accompanying drawings below to embodiment Substantially and it is readily appreciated that, wherein:
Fig. 1 shows the schematic flow sheet of progress control method according to an embodiment of the invention;
Fig. 2 shows the schematic flow sheet of progress control method according to an embodiment of the invention;
Fig. 3 shows the structural representation of operation control system according to an embodiment of the invention;
Fig. 4 shows the structural representation of computer equipment according to an embodiment of the invention;
Fig. 5 shows the structural representation of air-conditioning according to an embodiment of the invention.
Embodiment
It is below in conjunction with the accompanying drawings and specific real in order to be more clearly understood that the above objects, features and advantages of the present invention Mode is applied the present invention is further described in detail.It should be noted that in the case where not conflicting, the implementation of the application Feature in example and embodiment can be mutually combined.
Many details are elaborated in the following description to facilitate a thorough understanding of the present invention, still, the present invention may be used also To be different from other modes described here using other to implement, therefore, protection scope of the present invention is not by described below Specific embodiment limitation.
Carried out specifically with reference to Fig. 1 to Fig. 5 progress control methods according to an embodiment of the invention and control system It is bright.
Embodiment 1:
As shown in figure 1, the schematic flow sheet of progress control method according to an embodiment of the invention, including:
Step S102, when air-conditioning is run with parameter preset, stove side temperature and indoor temperature are detected in real time;
Step S104, determine the temperature difference that stove side temperature subtracts indoor temperature;
Step S106, the operational factor of air-conditioning is adjusted according to temperature difference;
Step S108, control air-conditioning are run with operational factor.
In this embodiment, by step S102 when air-conditioning is run with parameter preset, stove side temperature and room are detected in real time Interior temperature, realizes the measurement for indoor temperature T1 and stove side temperature T2, and indoor temperature T1 is used to perceive whether room temperature reaches Target temperature set by parameter preset, stove side temperature T2 are mainly used in understanding the heat dispersal situations of stove;It is true by step S104 again Determine the temperature difference that stove side temperature subtracts indoor temperature, specifically, temperature difference △ T (△ T=T2-T1) are calculated by processor, are The adjustment of air conditioner operation parameters provides foundation;Then the operational factor of air-conditioning is adjusted according to temperature difference by step S106, is passed through Temperature difference determines the adjustment of air conditioner operation parameters;Control air-conditioning to be run with operational factor by step S108 afterwards, pass through tune Whole operational factor carries out the regulation of air quantity, and the heat of stove radiation is to stove side small range temperature liter during so as to reduce stir-frying in kitchen The possibility that height influences, reduce the fluctuation of indoor temperature when kitchen uses air-conditioning, make indoor temperature constant comfortable, make one more easypro Clothes, and when stove radiation temperature becomes small, air quantity can lower automatically, lift human sense of comfort, reduce operation of air conditioner energy consumption.
It should be noted that by adjusting air conditioner operation parameters to adjust air quantity be total to by indoor apparatus of air conditioner and outdoor unit It is same to adjust to realize.
Embodiment 2:
As shown in Fig. 2 the schematic flow sheet of progress control method according to still a further embodiment, including:Step Rapid S202, when air-conditioning is run with parameter preset, stove side temperature and indoor temperature are detected in real time;Step S204 determines stove side temperature Subtract the temperature difference of indoor temperature;Step S206, determine default air quantity when air-conditioning is run with parameter preset;Step S208, root Air quantity variable corresponding to air-conditioning is determined according to temperature difference;Step S210, it is determined that default air quantity is adjustment air quantity with air quantity variable sum; Step S212, when adjustment air quantity is not less than maximum quantity of wind, determine the first operational factor of air-conditioning corresponding to maximum quantity of wind, control Air-conditioning is run with the first operational factor;Step S214, when adjustment air quantity is less than maximum quantity of wind, it is determined that empty corresponding to adjustment air quantity The second operational factor adjusted, control air-conditioning are run with the second operational factor.
In this embodiment, by step S202 when air-conditioning is run with parameter preset, stove side temperature and room are detected in real time Interior temperature, realizes the measurement for indoor temperature T1 and stove side temperature T2, and indoor temperature T1 is used to perceive whether room temperature reaches Target temperature set by parameter preset, stove side temperature T2 are mainly used in understanding the heat dispersal situations of stove;It is true by step S204 again Determine the temperature difference that stove side temperature subtracts indoor temperature, specifically, temperature difference △ T (△ T=T2-T1) are calculated by processor, are The adjustment of air conditioner operation parameters provides foundation;Default wind when then determining that air-conditioning is run with parameter preset by step S206 Amount, when obtaining being not turned on stove heat compensation function, the machine script air quantity WS to be exported;Afterwards by step S208 according to temperature Air quantity variable corresponding to degree difference determination air-conditioning, is obtained after opening stove heat compensation function, machine needs extra increased air quantity WSC;Determine that it is adjustment air quantity to preset air quantity with institute's air quantity variable sum, obtains opening stove heat benefit by step S210 afterwards After repaying function, the actual operation air quantity S of air-conditioning;Afterwards by step S212 when adjustment air quantity is not less than maximum quantity of wind, due to The limitation for the air quantity that air-conditioning can be provided, air-conditioning can not be run with the corresponding parameter of the adjustment air quantity calculated, it is thus determined that First operational factor of air-conditioning corresponding to maximum quantity of wind, control air-conditioning are run with the first operational factor, are realized and are worked as adjustment air quantity not During less than maximum quantity of wind (i.e. S=WS+WSC >=Smax), the first operational factor of air-conditioning corresponding to maximum quantity of wind, control sky are determined Adjust and run with the first operational factor, i.e. S=Smax;Afterwards by step S214 when adjustment air quantity is less than maximum quantity of wind, it is determined that The second operational factor of air-conditioning corresponding to air quantity is adjusted, control air-conditioning is run with the second operational factor, is realized when adjustment air quantity is small When maximum quantity of wind (i.e. S=WS+WSC < Smax), it is determined that the second operational factor of air-conditioning corresponding to adjustment air quantity, controls air-conditioning Run with the second operational factor, i.e. S=WS+WSC.
It should be noted that (i.e. machine needs extra increased air quantity WSC to the air quantity variate-value determined according to temperature difference Value) it is to be set according to the experimental result of reality and the condition of stove side temperature sensor actual installation.Suitable WSC values can To realize energy-conserving and environment-protective while ensureing and obtaining suitable indoor temperature to lift Consumer's Experience.
In addition, it should also be noted that, above example can also obtain kitchen range for heating by being linked with gas-cooker Power, calculate under stove radiation the air quantity that needs to compensate to realize;It can not also be compensated, and passed through by calculating air quantity The mode that compensates of unit service ability is calculated to realize.
In addition it is also necessary to explanation, Smax is the available maximum quantity of wind of air-conditioning.When the adjustment air quantity calculated is not small When air-conditioning available maximum quantity of wind, air-conditioning ensure that the reduction of the indoor temperature during cooking with maximum quantity of wind operation, Improve Consumer's Experience;When the adjustment air quantity calculated is less than the available maximum quantity of wind of air-conditioning, air-conditioning is then to calculate Adjustment air quantity is run, and is reduced the wasting of resources caused by air-conditioning is still run with maximum quantity of wind, is advantageous to energy-conserving and environment-protective.
In the above embodiment, it is preferable that stove when temperature is by directly detecting stove temperature or by detect kitchen range transport Row power calculation heat radiation determines.
In this embodiment, by directly detecting stove side temperature or running power calculation heat radiation by detecting kitchen range as sky The whole operational factor of key provides foundation.
Specific embodiment one:
The air-conditioning of the present invention, including stove side temperature sensor, indoor temperature inductor, processor, order transmitter, order Receiver.
When air-conditioning is run with parameter preset, by stove when temperature sensor and indoor temperature inductor detect stove in real time Temperature and indoor temperature, stove side temperature T1 and indoor temperature T2 are determined, determine that stove side temperature T1 subtracts indoor temperature T2 temperature Poor △ T;The default air quantity WS that air-conditioning runs with parameter preset is determined by processor, determines that air-conditioning is corresponding according to temperature difference △ T Air quantity variable WSC, carry database in air-conditioning or temperature difference △ T and air quantity variable WSC phases inquired about in networking in cloud database Corresponding tables of data, as shown in table 1, when temperature difference △ T are less than or equal to minimum temperature difference Nmin, corresponding WSC values are air quantity variable Minimum M min, when temperature difference △ T are more than minimum temperature difference Nmin and when being less than maximum temperature difference Nmax, with temperature difference location Come WSC values corresponding to determining, such as Nmin < △ T≤N1, corresponding WSC values are M1, as Nmax-1 < △ T≤Nmax, Corresponding WSC values are Mmax;Then adjustment air quantity is calculated according to WSC values, adjustment air quantity S=presets air quantity WS+ air quantity variables WSC; Preprocessor calculate air conditioner operation parameters corresponding to adjustment air quantity S, order transmitter send corresponding to operational factor adjustment Order, after order receiver receives the order of adjustment operational factor, control air-conditioning is run with the operational factor after adjusting.
It should be noted that the scope of △ T value and corresponding WSC value can be real by substantial amounts of experimental data and air-conditioning Border service ability is considered to determine.
The scope of △ T value Corresponding WSC value
During △ T≤Nmin Mmin
During Nmin < △ T≤N1 M1
During N1 < △ T≤N2 M2
··· ···
During Nmax-1 < △ T≤Nmax Mmax
Table 1
Embodiment 3:
As shown in figure 3, the structural representation of operation control system 30 according to another embodiment of the invention, including: Temperature detecting unit 32, for when air-conditioning is run with parameter preset, detecting stove side temperature and indoor temperature in real time;The temperature difference determines Unit 34, for determining that stove side temperature subtracts the temperature difference of indoor temperature;Operational factor adjustment unit 36, for according to temperature difference Adjust the operational factor of air-conditioning.
In this embodiment, when air-conditioning is run with parameter preset, Indoor Temperature is gathered by temperature detecting unit 32 in real time Spend T1 and stove side temperature T2, indoor temperature T1 is used to perceiving whether room temperature to have reached target temperature set by parameter preset, stove Side temperature T2 is mainly used in understanding the heat dispersal situations of stove;Pass through temperature difference △ T (the △ T=T2- of temperature difference determining unit 34 again T1), foundation is provided for the adjustment of air conditioner operation parameters;Then by operational factor adjustment unit 36, according to temperature difference △ T value To determine the adjustment of air conditioner operation parameters, the regulation of air quantity is carried out by adjusting operational factor.
In the above embodiment, it is preferable that operational factor adjustment unit 36, is specifically included:Default air quantity determining unit 360, default air quantity during for determining that air-conditioning is run with parameter preset;Air quantity variable determination unit 362, for according to temperature difference Determine air quantity variable corresponding to air-conditioning;Air quantity determining unit 364 is adjusted, for determining that default air quantity and air quantity variable sum are tune Rectification campaign amount;Operational factor determining unit 366, for determining the operational factor of air-conditioning corresponding to adjustment air quantity;Execution unit 368, For controlling air-conditioning to be run with operational factor.
In this embodiment, the operational factor of air-conditioning is adjusted by temperature difference △ T.Specifically, determined by default air quantity Unit 360 determines default air quantity when air-conditioning is run with parameter preset, and when obtaining being not turned on stove heat compensation function, machine is former Originally the air quantity WS to be exported;Again by air quantity variable determination unit 362, the air quantity variable according to corresponding to temperature difference determines air-conditioning, Obtain after opening stove heat compensation function, machine needs extra increased air quantity WSC;Then by adjusting air quantity determining unit 364, it is determined that default air quantity is adjustment air quantity with institute's air quantity variable sum, obtain after opening stove heat compensation function, air-conditioning is real The operation air quantity S on border;Afterwards by operational factor determining unit 366, it is determined that adjustment air quantity (i.e. the actual operation air quantity S of air-conditioning) The operational factor of corresponding air-conditioning, and by execution unit 368, the operation of air-conditioning is controlled according to operational factor.
It should be noted that (i.e. machine needs extra increased air quantity WSC to the air quantity variate-value determined according to temperature difference Value) it is to be set according to the experimental result of reality and the condition of stove side temperature sensor actual installation.Suitable WSC values can To realize energy-conserving and environment-protective while ensureing and obtaining suitable indoor temperature to lift Consumer's Experience.
In addition, it should also be noted that, above example can also obtain kitchen range for heating by being linked with gas-cooker Power, calculate under stove radiation the air quantity that needs to compensate to realize;It can not also be compensated, and passed through by calculating air quantity The mode that compensates of unit service ability is calculated to realize.
In the above embodiment, it is preferable that stove temperature determining unit 320 when temperature is by stove directly detects stove side temperature Degree detects kitchen range operation power calculation heat radiation to determine by heat radiation determining unit.
In this embodiment, by stove when temperature determining unit 320 directly detects stove temperature or by heat radiation for sky The whole operational factor of key provides foundation.
In the above embodiment, it is preferable that the first operational factor adjustment unit 3660, for being not less than most in adjustment air quantity During Wind Volume, the first operational factor of air-conditioning corresponding to maximum quantity of wind is determined, control air-conditioning is run with the first operational factor;And Second operational factor adjustment unit 3662, for adjust air quantity be less than maximum quantity of wind when, it is determined that adjust air quantity corresponding to air-conditioning The second operational factor, control air-conditioning run with the second operational factor.
In this embodiment, by comparing adjustment air quantity (i.e. the actual operation air quantity S of air-conditioning) and maximum quantity of wind (i.e. air-conditioning Available maximum quantity of wind Smax) size, when adjust air quantity be not less than maximum quantity of wind (i.e. S=WS+WSC >=Smax) when, by In the limitation for the air quantity that air-conditioning can be provided, air-conditioning can not be run with the corresponding parameter of the adjustment air quantity calculated, therefore logical The first operational factor that the first operational factor adjustment unit 3660 determines air-conditioning corresponding to maximum quantity of wind is crossed, control air-conditioning is with first Operational factor is run, i.e. S=Smax;When adjustment air quantity is less than maximum quantity of wind (i.e. S=WS+WSC < Smax), pass through the second fortune Row parameter adjustment unit 3662 determines the second operational factor of air-conditioning corresponding to adjustment air quantity, and control air-conditioning is with the second operational factor Operation, i.e. S=WS+WSC.
It should be noted that Smax is the available maximum quantity of wind of air-conditioning.When the adjustment air quantity calculated is not less than air-conditioning During available maximum quantity of wind, air-conditioning ensure that the reduction of the indoor temperature during cooking with maximum quantity of wind operation, improve Consumer's Experience;When the adjustment air quantity calculated is less than the available maximum quantity of wind of air-conditioning, the air-conditioning then adjustment wind to calculate Amount is run, and is reduced the wasting of resources caused by air-conditioning is still run with maximum quantity of wind, is advantageous to energy-conserving and environment-protective.
Embodiment 4:
As shown in figure 4, according to the structural representation of the computer equipment 40 of further embodiment of the present invention, including memory 42nd, processor 44 and storage are on a memory and the computer program that can be run on processor 44, processor 44 perform calculating The progress control method of any of the above-described is performed during machine program.
In this embodiment, the computer program for performing the progress control method of any of the above-described is stored in memory 42 On, when processor 44 performs computer program, the progress control method in any of the above-described embodiment can be achieved, therefore with as above Whole beneficial effects of the progress control method of any one embodiment are stated, will not be repeated here.
Embodiment 5:
Further embodiment of the present invention proposes a kind of computer-readable recording medium, is stored thereon with computer program, The progress control method of any of the above-described is realized when computer program is executed by processor.
In this embodiment, processor realizes that progress control method is needed by computer program, this computer program Need to be stored in computer-readable medium.This computer-readable medium ensure that computer program can be by processor Perform, it is achieved thereby that the progress control method in any of the above-described embodiment, therefore with the fortune of any one embodiment as described above Whole beneficial effects of row control method, will not be repeated here.
Embodiment 6:
As shown in figure 5, the structural representation of air-conditioning 50 according to still a further embodiment, including above-described embodiment Operation control system 30 in 3.
In this embodiment, air-conditioning 50 includes any operation control system 30 in above-described embodiment 3, it is achieved thereby that above-mentioned Progress control method in any embodiment, therefore the whole with the progress control method of any one embodiment as described above is beneficial Effect, it will not be repeated here.
Be described in detail technical scheme above in association with accompanying drawing, the present invention propose a kind of progress control method, System, computer equipment, readable storage medium storing program for executing and air-conditioning, by technical scheme, realize by determining the hot spoke in stove side Penetrate, correspondingly adjust the service ability of air-conditioning, the heat of stove radiation is to space cooling-down effect during so as to compensate stir-frying in kitchen Influence, reduce the fluctuation of indoor temperature when kitchen uses air-conditioning, make indoor temperature constant comfortable, make one more comfortable;And work as stove Fiery radiation temperature becomes hour, and air quantity can lower automatically, reduces the noise of air conditioner used in kitchen work.
In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean to combine at least one reality that specific features, structure, material or the feature that the embodiment or example describe are contained in the present invention Apply in example or example.In this manual, identical embodiment or reality are not necessarily referring to the schematic representation of above-mentioned term Example.Moreover, description specific features, structure, material or feature can in any one or more embodiments or example with Suitable mode combines.
The preferred embodiments of the present invention are these are only, are not intended to limit the invention, for those skilled in the art For member, the present invention can have various modifications and variations.Any modification within the spirit and principles of the invention, being made, Equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (11)

  1. A kind of 1. progress control method, for air-conditioning, it is characterised in that including:
    When air-conditioning is run with parameter preset, stove side temperature and indoor temperature are detected in real time;
    Determine that stove side temperature subtracts the temperature difference of the indoor temperature;
    The operational factor of the air-conditioning is adjusted according to the temperature difference;
    The air-conditioning is controlled to be run with the operational factor.
  2. 2. progress control method according to claim 1, it is characterised in that described that the sky is adjusted according to the temperature difference The operational factor of tune, is specifically included:
    Determine the default air quantity when air-conditioning is run with the parameter preset;
    The air quantity variable according to corresponding to the temperature difference determines the air-conditioning;
    Determine the default air quantity and the air quantity variable sum for adjustment air quantity;
    Determine the operational factor of the air-conditioning corresponding to the adjustment air quantity.
  3. 3. progress control method according to claim 1, it is characterised in that
    The stove temperature or runs power calculation heat radiation by detecting kitchen range and determined when temperature is by directly detecting stove 's.
  4. 4. progress control method according to any one of claim 1 to 3, it is characterised in that also include:
    When the adjustment air quantity is not less than maximum quantity of wind, the first operation ginseng of the air-conditioning corresponding to the maximum quantity of wind is determined Number, controls the air-conditioning to be run with first operational factor;
    And when the adjustment air quantity is not more than minimum air quantity, determine the second fortune of the air-conditioning corresponding to the minimum air quantity Row parameter, the air-conditioning is controlled to be run with second operational factor.
  5. A kind of 5. operation control system, it is characterised in that including:
    Temperature detecting unit, for when air-conditioning is run with parameter preset, detecting stove side temperature and indoor temperature in real time;
    Temperature difference determining unit, for determining that stove side temperature subtracts the temperature difference of the indoor temperature;
    Operational factor adjustment unit, for adjusting the operational factor of the air-conditioning according to the temperature difference.
  6. 6. operation control system according to claim 5, it is characterised in that the operational factor adjustment unit, specific bag Include:
    Default air quantity determining unit, default air quantity during for determining that the air-conditioning is run with the parameter preset;
    Air quantity variable determination unit, for air quantity variable corresponding to determining the air-conditioning according to the temperature difference;
    Air quantity determining unit is adjusted, for determining that the default air quantity and the air quantity variable sum are adjustment air quantity;
    Operational factor determining unit, for determining the operational factor of the air-conditioning corresponding to the adjustment air quantity;
    Execution unit, for controlling the air-conditioning to be run with the operational factor.
  7. 7. operation control system according to claim 5, it is characterised in that
    Stove temperature determining unit when temperature is by stove directly detects stove side temperature or examined by heat radiation determining unit Kitchen range operation power calculation heat radiation is surveyed to determine.
  8. 8. the operation control system according to any one of claim 5 to 7, it is characterised in that also include:
    First operational factor adjustment unit, for when the adjustment air quantity is not less than maximum quantity of wind, determining the maximum quantity of wind First operational factor of the corresponding air-conditioning, the air-conditioning is controlled to be run with first operational factor;And
    Second operational factor adjustment unit, for when the adjustment air quantity is less than maximum quantity of wind, determining the adjustment air quantity pair Second operational factor of the air-conditioning answered, the air-conditioning is controlled to be run with second operational factor.
  9. 9. a kind of computer equipment, including memory, processor and it is stored on the memory and can be on the processor The computer program of operation, it is characterised in that perform such as Claims 1-4 described in the computing device during computer program Any one of progress control method.
  10. 10. a kind of computer-readable recording medium, is stored thereon with computer program, it is characterised in that the computer program The progress control method as any one of Claims 1-4 is realized when being executed by processor.
  11. 11. a kind of air-conditioning, it is characterised in that including the operation control system as any one of claim 5 to 8.
CN201710726494.5A 2017-08-22 2017-08-22 Operation control method, system, computer device, readable storage medium and air conditioner Active CN107576010B (en)

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