CN106871327A - Air conditioner temperature energy-saving control device and temperature energy-saving control method - Google Patents

Air conditioner temperature energy-saving control device and temperature energy-saving control method Download PDF

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Publication number
CN106871327A
CN106871327A CN201510981694.6A CN201510981694A CN106871327A CN 106871327 A CN106871327 A CN 106871327A CN 201510981694 A CN201510981694 A CN 201510981694A CN 106871327 A CN106871327 A CN 106871327A
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China
Prior art keywords
temperature
air conditioner
saving control
compensation rate
energy
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CN201510981694.6A
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Chinese (zh)
Inventor
林昌民
陆忠宪
许又仁
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Industrial Technology Research Institute ITRI
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Industrial Technology Research Institute ITRI
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Priority to TW104141829A priority patent/TWI577941B/en
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Publication of CN106871327A publication Critical patent/CN106871327A/en
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/30Control or safety arrangements for purposes related to the operation of the system, e.g. for safety or monitoring
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F2110/00Control inputs relating to air properties
    • F24F2110/10Temperature
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F11/00Control or safety arrangements
    • F24F11/62Control or safety arrangements characterised by the type of control or by internal processing, e.g. using fuzzy logic, adaptive control or estimation of values
    • F24F11/63Electronic processing
    • F24F11/64Electronic processing using pre-stored data

Abstract

The invention discloses a kind of air conditioner temperature energy-saving control device and temperature energy-saving control method.Every the first default time, according to outdoor temperature, indoor environment temperature and target temperature compensation rate, indoor objects comfort temperature is calculated.And every the second Preset Time, according to the temperature adjustment amount between current indoor objects comfort temperature and indoor environment temperature, the design temperature for producing the small-sized air-cooler one of air-conditioning new.Wherein, when setting instruction is received, according to setting order-driven air conditioner adjustment indoor environment temperature.Also, obtain indoor objects comfort temperature compensation rate according to the type or number of repetition of setting instruction.

Description

Air conditioner temperature energy-saving control device and temperature energy-saving control method
Technical field
The present invention is on a kind of air conditioner temperature energy-saving control device and temperature energy-saving control method.
Background technology
The integrated planning constructed for convenience or built, central air conditioner system has been not in current building programming The ring that can or lack, in addition to being seen everywhere in commerce-create building, even the central air conditioner system of family expenses also already emerges.Though Right central air conditioner system also can take into account the problem of energy-saving and carbon-saving in programming at the beginning, but due to user practical operation often Right and wrong ideally or irrationallyly, and cause that central air conditioner system still results in extra energy consumption in practice.
For example, when user has just enter into a different space of temperature, to ask fast cooling or intensification, often greatly Amplitude ground adjustment design temperature, but after room temperature is too low or too high, design temperature is adjusted again.Between back and forth, in Centre air-conditioning system may waste extra power reduction temperature, or the temperature that must be paid extra power and will rise by mistake is adjusted again Drop.On the other hand, user is likely to be experienced uncomfortable because the significantly change of temperature is experienced.
The content of the invention
The invention reside in providing a kind of air conditioner temperature energy-saving control device and temperature energy-saving control method, with energy-conservation it Yu Gengneng overcomes air-conditioning system allows indoor environment temperature significantly to float because of the irrational adjustment of user, and allows user to feel Uncomfortable problem.
A kind of air conditioner temperature energy-saving control device disclosed in this invention and temperature energy-saving control method, it is adaptable to control Air conditioner., first every the first Preset Time, foundation utilizes family for air conditioner temperature energy-saving control device and temperature energy-saving control method Outer temperature (To), indoor environment temperature (Ti) and target temperature compensation rate (x), calculate indoor objects comfort temperature (Tc); Every the second Preset Time, adjusted according to the temperature between current indoor objects comfort temperature (Tc) and indoor environment temperature (Ti) Whole amount, the new design temperature (Ts) of the small-sized air-cooler one of output air-conditioning.Transmission design temperature makes indoor environment temperature to air conditioner Close to indoor objects comfort temperature.Wherein, when setting instruction is received, according to the setting order-driven indoor ring of air conditioner adjustment Border temperature, and type or number of repetition acquirement indoor objects comfort temperature compensation rate according to setting instruction.
In sum, the invention provides a kind of air conditioner temperature energy-saving control device and temperature energy-saving control method, remove In air-conditioning system being controlled to obtain appropriate indoor objects comfort temperature by detecting indoor environment temperature and outdoor temperature Air conditioner so that air-conditioning system is provided outside comfortable indoor environment temperature, more by discriminating user to the manual of air-conditioning system Control, further adjusts foregoing indoor objects comfort temperature according to the instruction that user gave.So that indoor objects are comfortably warm Degree can more change according to the expectation of user, and on the premise of comfort is not lost, indoor environment temperature is leveled off to easypro Suitable indoor objects comfort temperature.
More than explanation on present invention and the explanation of following implementation method be used to the present invention that demonstrates and explain Spirit and principle, and claims of the present invention be provided further explain.
Brief description of the drawings
Figure 1A is the functional block diagram of the air conditioner temperature energy-saving control device according to depicted in one embodiment of the invention.
Figure 1B is the schematic diagram of the setting environment of the air conditioner according to depicted in one embodiment of the invention.
Fig. 1 C are the functional block diagram of the air conditioner temperature energy-saving control device according to depicted in another embodiment of the present invention.
Fig. 2 is the stream of air conditioner temperature energy-saving control device according to one embodiment of the invention and temperature energy-saving control method Cheng Tu.
Fig. 3 is in each according to air conditioner temperature energy-saving control device in one embodiment of the invention and temperature energy-saving control method Use the schematic diagram of each time point sequencing in situation.
Fig. 4 A are the temperature experimental data figure corresponding to prior art.
Fig. 4 B are the air conditioner temperature energy-saving control device and temperature energy-saving control method institute according to one embodiment of the invention Corresponding temperature experimental data figure.
Fig. 5 A are the wind velocity test datagram corresponding to prior art.
Fig. 5 B are the air conditioner temperature energy-saving control device and temperature energy-saving control method institute according to one embodiment of the invention Corresponding wind velocity test datagram.
Fig. 6 A are the frozen water valve opening experimental data figure corresponding to prior art.
Fig. 6 B are the air conditioner temperature energy-saving control device and temperature energy-saving control method institute according to one embodiment of the invention Corresponding frozen water valve opening experimental data figure.
【Symbol description】
12 air conditioner temperature energy-saving control devices
122 processing modules
14th, 14b control devices
16th, 16a~16e air conditioners
18 detecting modules
22nd, 24 first transmitting device
26th, 28 first control device
30th, 32,34 second transmitting device
40~48 second control devices
A compensation rates
DT differences
Tc indoor objects comfort temperatures
Ti indoor environment temperatures
To outdoor temperatures
Ts design temperatures
Tsa design temperature adjustment amounts
T1, t11, t12, t2, t21, t22, t3, tsm, tsm ' time point
X indoor objects comfort temperature compensation rates
The extra tares of y
Zia, Zib interior space
The Zo exterior spaces
Specific embodiment
Hereinafter detailed features of the invention and advantage are described in detail in embodiments, its content is enough to make any be familiar with Relevant art understands technology contents of the invention and implements according to this, and according to content disclosed in this specification, claim Protection domain and schema, it is any to be familiar with relevant art and be readily understood upon the purpose and advantage of correlation of the invention.Following reality Apply example and further describe viewpoint of the invention, but it is non-anyways limiting scope of the invention.
The invention provides a kind of air conditioner temperature energy-saving control device and temperature energy-saving control method, described air conditioner Temperature energy-saving control device and temperature energy-saving control method are applied to control air conditioner.Please also refer to Figure 1A illustrating air conditioner Framework, Figure 1A is the functional block diagram of the air conditioner temperature energy-saving control device according to depicted in one embodiment of the invention.Air-conditioning Machine temperature energy-saving control device 12 includes detecting module 18, control module 14 and processing module 122, detecting module 18, control mould Block 14 and air conditioner 16.Detecting module 18 is used to detect indoor environment temperature Ti and outdoor temperature To.Air conditioner 16 is electrically connected with Control module 14 simultaneously adjusts indoor environment temperature Ti according to design temperature Ts.Air conditioner temperature energy-saving control device 12 includes treatment Module 122.Processing module 122 is electrically connected with detecting module 18, control module 14 and air conditioner 16, and according to indoor environment temperature Ti and outdoor temperature To obtains indoor objects comfort temperature Ts.Processing module 122 is utilized every the first Preset Time according to current Outdoor temperature (To), indoor environment temperature (Ti) and temperature adjustmemt amount (x), calculate indoor objects comfort temperature (Tc).Place Reason module 122 is more according to design temperature adjustment amount Tsa adjustment design temperature Ts, and processing module 122 is every the second Preset Time, According to current indoor environment temperature Ti design temperature is updated with current design temperature adjustment amount indoor objects comfort temperature Tsa Ts.Wherein, when control module 14 receives setting instruction, control module 14 adjusts room according to setting order-driven air conditioner 16 Interior environment temperature, and processing module 122 obtains mesh in design temperature adjustment amount room according to the type or number of repetition of setting instruction Mark comfort temperature Tsa.
Figure 1B is refer to, Figure 1B is the schematic diagram of the setting environment of the air conditioner according to depicted in one embodiment of the invention. As shown in Figure 1B, interior can divide into interior space Zia and distinguish with interior space Zib, interior space Zia and interior space Zib With indoor environment temperature Ti1, Ti2.And exterior space Zo corresponds to outdoor temperature To.Air conditioner 16 is arranged at the interior space Zia.In one embodiment, user can optionally adjust by the wind speed of remote control control air conditioner 16a or leaving air temp Indoor environment temperature Ti.And interior space Zib for example corresponds to another air conditioner 16b (not scheming red), air conditioner 16b such as positions In another computer room space, and interior space Zib is given through pipeline air-out, and be not directly exposed to interior space Zib.Indoors The user of space Zib can control the wind speed or leaving air temp of air conditioner 16b by manipulation control module 14b, and then optionally Adjustment indoor environment temperature Ti.Control module 14b is, for example, the control panel being arranged on wall, but is not limited thereto.
Fig. 1 C are refer to, Fig. 1 C are the air conditioner temperature energy-saving control device according to depicted in another embodiment of the present invention Functional block diagram.Fig. 1 C have invented air conditioner temperature energy-saving control device 12 and have further included transmitting device.As shown in Figure 1 C, air conditioner Temperature energy-saving control device 12 is electrically connected at the first transmitting device 22,24, and the first transmitting device 22,24 is electrically connected with One control module 26,28.First control module 26 is electrically connected with the second transmitting device 30,32, and the first control module 28 is electrical Connect the second transmitting device 34.Second transmitting device 30 is electrically connected with the second control module 40, and the second transmitting device 32 electrically connects The second control module 42 is connect, the 4446, second transmitting device 24 is electrically connected with the second control module 48.Second control module 40,42, 44,46,48 are electrically connected with air conditioner 16a~16e.
Air conditioner 16a~16e is for example arranged at the same interior space or the different interior spaces.First control module 26 is used To carry out region setting, unified setting is carried out with to air conditioner 16a~16d.It is right that second control module 40,42,44,46 is used to Air conditioner 16a~16d carries out man-to-man setting, and in other words, user can respectively by the second control module 40,42,44,46 An other setting is carried out to air conditioner 16a~16d.First control module 26 and the second control module 40,42,44,46 can be such as The control panel on wall, or moveable remote control are disposed on, even it is the intelligent row that operation has corresponding application program Device.Citing demonstration is above are only, the actual aspect and quantity of each device are not limited.
Under above-mentioned framework, air conditioner temperature energy-saving control device 12 is obtained via each device and is associated with air conditioner 16a The relevant parameter of~16e.Described relevant parameter is, for example, air conditioner 16a~corresponding indoor environment temperatures of 16e and its setting Temperature, or the setting instruction that user gives, but be not limited thereto.Additionally, in another embodiment, air conditioner temperature energy-conservation control Device processed 12 is electrically connected with an at least region server, described region server be electrically connected with the first transmitting device 22, 24.A described at least region server obtains the relevant parameter of air conditioner 16a~16e from above-mentioned structure, and air conditioner temperature Degree energy-saving control device 12 then obtains the relevant parameter of air conditioner 16a~16e from a described at least region server.
Temperature Energy Saving Control temperature Energy Saving Control temperature Energy Saving Control temperature Energy Saving Control temperature Energy Saving Control temperature energy-conservation Please referring next to Fig. 2, Fig. 2 is the air conditioner temperature energy-saving control device and temperature energy-conservation control according to one embodiment of the invention for control The flow chart of method processed.Each step of air conditioner temperature energy-saving control device and temperature energy-saving control method is disclosed directly below.In step In rapid S201, outdoor temperature (To) and indoor environment temperature (Ti) are detected and collected.In step S203, when first is default Between, according to periodically detecting and collection outdoor temperature (To) and indoor environment temperature (Ti) and target temperature compensation rate (x), calculate Go out indoor objects comfort temperature (Tc).It is comfortably warm according to current indoor objects every the second Preset Time in step S205 Temperature difference (dT) between degree (Tc) and indoor environment temperature (Ti), the design temperature for producing the small-sized air-cooler one of air-conditioning new (Ts).In step S207, transmission design temperature makes indoor environment temperature close to indoor objects comfort temperature to air conditioner. In step S209, when setting instruction is received, according to setting order-driven air conditioner adjustment indoor environment temperature, and according to setting The type or number of repetition of fixed instruction obtain indoor objects comfort temperature compensation rate.In fact, Fig. 2 only be briefly lists air conditioner The step of temperature energy-saving control device and temperature energy-saving control method, the detailed content and relative timing of each step are see follow-up interior Hold, subsequently illustrated with Figure 1A, Figure 1B.
In foregoing teachings, air conditioner 16 is for example used to adjust the temperature of an interior space.Indoor environment temperature Ti and family Outer temperature To is respectively the temperature inside and outside the interior space, and indoor objects comfort temperature Tc is to expect to make indoor environment temperature Ti The temperature value for reaching, design temperature Ts is then the temperature value that air conditioner 14a is actually set.Briefly, actual overhead Tune machine 16 adjusts indoor environment temperature Ti according to design temperature Ts, and in air conditioner temperature energy-saving control device and temperature energy-conservation control Expect indoor environment temperature Ti can be adjusted to indoor objects comfort temperature Tc, therefore by indoor environment temperature Ti in method processed Difference dT with indoor objects comfort temperature Tc produces design temperature adjustment amount Tsa to adjust design temperature Ts.
Therefore, when the operation behavior of indoor environment temperature Ti, outdoor temperature To or user changes, indoor objects are comfortable Temperature Tc can increase and decrease, and then have influence on the difference dT of indoor environment temperature Ti and indoor objects comfort temperature Tc, and related Influence design temperature adjustment amount Tsa, so as to be able to accordingly adjust design temperature Ts according to design temperature adjustment amount Tsa.Wherein, First Preset Time is more long, for example, the first Preset Time 30 minutes, and the second Preset Time is shorter, for example, 10 minutes, i.e., Each 10 minutes in three times in the first Preset Time 30 minutes, readjust design temperature Ts again respectively, so actually not with This is limited.
In one embodiment, air conditioner temperature energy-saving control device 12 and temperature energy-saving control method take by regression equation Obtain indoor objects comfort temperature Tc or indoor objects comfort temperature Tc is updated by regression equation.If described regression equation is with brief Ground is if representing:Tc=(0.48 × Ti+0.14 × To+9.22)+x, wherein Tc are indoor objects comfort temperature, and Ti is room Interior environment temperature, To is outdoor temperature, and x is indoor objects comfort temperature compensation rate.From for another angle, indoor objects relax Suitable amount of temperature compensation x is also denoted as:X=k1 × Ti+k2 × To+c.Therefore, above-mentioned regression equation is rewritable is:Tc= (0.48+k1)Ti+(0.14+k2)+(9.22+c).In other words, indoor objects comfort temperature compensation rate x also can be to a certain degree On have influence on the coefficient of regression equation, and change the weight of indoor environment temperature Ti or outdoor temperature To in regression equation.
And in one embodiment, with the difference dT of indoor environment temperature Ti and indoor objects comfort temperature Tc and contrast extension Function obtains design temperature adjustment amount Tsa.If contrast spread function is if briefly being represented with label:Above are only citing demonstration, described regression equation and the form for contrasting spread function or be Number is actually not limited thereto.
In in practice, can more come more according to the size of indoor environment temperature Ti and the difference dT of indoor objects comfort temperature Tc Subtly with design temperature adjustment amount Tsa control design temperatures Ts.In one embodiment, when indoor objects comfort temperature Tc and room When the difference dT of interior environment temperature Ti is more than higher limit, design temperature Ts is added into design temperature adjustment amount Tsa.Work as indoor objects When the difference of comfort temperature Tc and indoor environment temperature Ti is less than lower limit, design temperature Ts is deducted into design temperature adjustment amount Tsa.And the difference dT for working as indoor objects comfort temperature Tc and indoor environment temperature Ti is not more than higher limit nor less than lower limit Between when, then using current design temperature Ts as new design temperature Ts, that is, do not change design temperature Ts.
For example, higher limit is, for example, 0.5 degree Celsius, and lower limit is, for example, 0 degree Celsius.That is, when difference dT is more than At 0.5 degree Celsius, the result that new design temperature Ts is added for temperature adjustment amount Tsa with current design temperature Ts.And be on duty When value dT is less than 0 degree Celsius, new design temperature Ts is the temperature that temperature adjustment amount Tsa is subtracted from current design temperature Ts Value.And when difference dT is not more than 0.5 degree Celsius nor less than 0 degree Celsius, then do not change design temperature Ts.Additionally, another In embodiment, when the difference of indoor objects comfort temperature Tc and indoor environment temperature Ti is less than lower limit, more by design temperature Ts deducts extra tare y.Extra tare y is, for example, 0.5 degree Celsius.For example, difference dT is worked as less than 0 degree Celsius When, new design temperature Ts is after subtracting design temperature adjustment amount Tsa and subtract extra tare y from current design temperature Ts Temperature value.Above-mentioned each numerical value is only for example demonstration, is not limitation with above-mentioned demonstration example.
Wherein, indoor objects comfort temperature compensation rate x is associated with how user manually sets air conditioner.Come in more detail Say, when user manually sets air conditioner 16 with a setting instruction, region server 12a can be according to the type of setting instruction or weight Again number produces a compensation rate a, and compensation rate a superpositions are entered into indoor objects comfort temperature compensation rate x, is relaxed with updating indoor objects The numerical value of suitable amount of temperature compensation x.As earlier mentioned, because indoor objects comfort temperature Tc is associated with indoor environment temperature Ti, open air Temperature To and indoor objects comfort temperature compensation rate x, now indoor objects comfort temperature Tc can accordingly increase and decrease.
Described setting instruction is, for example, to increase design temperature Ts, downgrade design temperature Ts, increase wind speed or downgrade wind speed, But it is not limited thereto.Therefore the type or number of repetition of setting instruction can reflect the behavior of user, and reflect user couple In the expectation of indoor environment temperature Ti.For example, when user downgrades design temperature Ts or increase wind speed to set instruction, representing and using Family thinks that current indoor environment temperature needs too high are downgraded, and works as user and downgrade more multiple design temperature Ts to set instruction Represent user and wish that the expectation for downgrading indoor environment temperature Ti is relatively more strong.
Air conditioner temperature energy-saving control device 12 links the operation behavior of user in the way of look-up table in one embodiment With the relation of the numerical value of compensation rate.Described look-up table is, for example, shown in following table:
Six kinds of user behaviors are had as described in upper table, each user behavior has the numerical value of corresponding compensation rate a.Work as benefit The numerical value of the amount of repaying a is for just, then therefore the indoor objects comfort temperature compensation rate x after this compensation rate of superposition a can increase.In turn Say, when the numerical value of compensation rate a is negative, then therefore the indoor objects comfort temperature compensation rate x after this compensation rate of superposition a can be reduced. In this embodiment, from the point of view of turning down wind speed manually and heightening two kinds of user behaviors of wind speed manually, wind speed being turned down manually corresponding The absolute value of compensation rate a can be less than the absolute value that tune manually forces the corresponding compensation rate a of wind speed.Because, when user heightens wind Also represent when fast user feel indoor environment temperature Ti it is more pre- it is interim come high, now time of the meeting for the psychological angle of user Treat that indoor environment temperature Ti can be allowed to decline as soon as possible.Therefore, temporarily can be adjusted with larger adjustment amplitude by larger compensation rate a Whole indoor objects comfort temperature Tc and indoor environment temperature Ti is declined as soon as possible, to give user comfort.
Same reason, the numerical value for the offset a corresponding to the 3rd, 4 kind of user behavior is also same as the 1st, 2 kind The consideration of user behavior.And for the numerical value of the offset a corresponding to the 5th, 6 kind of user behavior, then more consider user Meaning representated by behavior number of repetition.For for example with the 3rd kind of user behavior and the 5th kind of user behavior, both difference exist Whether the number of times of design temperature is increased manually more than the first door number of times in user.When user increases the number of times of design temperature manually During more than default first threshold value, user may be represented desire most ardently and increase indoor environment temperature Ti.Accordingly, with respect to the 3rd kind User behavior, the absolute value of the offset a corresponding to the 5th kind of user behavior can be larger, therefore by corresponding to the 5th kind of user behavior Offset a superpositions when entering indoor objects comfort temperature adjustment amount x, indoor objects comfort temperature can be improved with bigger amplitude Adjustment amount x, to can rapidly increase indoor environment temperature Ti.Art tool usually intellectual is when can be from above-mentioned interior Appearance pushes away to obtain the 4th kind of user behavior and the 6th kind of numerical value meaning of the corresponding offset a of user behavior, is no longer repeated in this.On The first threshold value and the second threshold value stated are, for example, 1 time, but are not limited thereto.
The mode of the above-mentioned numerical value for linking user behavior and offset a by look-up table is only for example demonstration, but actually Whether using stored user behavior in look-up table, or look-up table and the numerical value of offset a corresponding relation, also or use The size of the numerical value of the corresponding offset a of family behavior, is limitation all not with above-mentioned demonstration example.
Fig. 3 be refer to carry out the explanation of various use situations, Fig. 3 is according to air conditioner temperature in one embodiment of the invention The schematic diagram of each time point sequencing of energy-saving control device and temperature energy-saving control method in each use situation.Please first join According to the time shaft shown in (a) in Fig. 3.As shown in (a) in Fig. 3, when time point t1, t2, t3 interval time is first default Between, and interval time is the second Preset Time between interval time and time point t21, t22 between time point t11, t12.One In using situation, the indoor objects comfort temperature Tc in time point t1 is 26 degree originally, design temperature Ts and indoor environment temperature Ti can be close to indoor objects comfort temperature Tc, but due to the actually used unit of air conditioner 16 or the place ring of air conditioner 16 The influence in border, design temperature Ts and indoor environment temperature Ti can't be directly equivalent to indoor objects comfort temperature Tc.
In this embodiment, the first Preset Time is 30 minutes, and the second Preset Time is 10 minutes.And as shown in figure 3, when Between point t11, t12 by three equal parts between time point t1 and time point t2, time point t21, t22 by time point t2 and time point t3 it Between three equal parts.This measure implies, and design temperature adjustment amount Tsa and design temperature Ts is except in time point t11, t12, t21, t22 Outside being adjusted, when indoor objects comfort temperature Tc is when time point, t1, t2, t3 were updated, design temperature adjustment amount Tsa Also it is adjusted together with design temperature Ts.
Referring again to the time shaft shown in (b) in Fig. 3.In using situation one, when user enters described Interior Space Between, now user thinks that indoor environment temperature Ti is too high and feels scorching, therefore user in time point tsm manually by design temperature Ts comes down to 23 degree Celsius.Now, indoor environment temperature Ti can be downgraded the design temperature that user manually adjusts by air conditioner 16 Ts.But due to the limitation in practice, air conditioner 16 is not limited herein must downgrade design temperature within the time how long.And Time point t12, air conditioner temperature energy-saving control device 12 can be according to indoor objects comfort temperature Tc instantly and indoor environment temperature Degree Ti adjustment design temperatures Ts.Further, as previously mentioned, indoor objects comfort temperature Tc can be updated in time point t2, now Air conditioner temperature energy-saving control device 12 can first according to current indoor environment temperature Ti and indoor objects comfort temperature compensation rate x Indoor objects comfort temperature Tc is updated, then according to the difference of new indoor objects comfort temperature Tc and current indoor environment temperature Ti Design temperature adjustment amount Tsa is obtained to update design temperature Ts.Therefore in time point t2, new design temperature Ts is adjusted manually for user Design temperature Ts after whole adds design temperature adjustment amount Tsa.Additionally, in time point t21, t22, air conditioner temperature Energy Saving Control Indoor environment temperature Ti generation of the meeting of device 12 again according to indoor objects comfort temperature Tc with time point t21, t22 instantly is corresponding Design temperature adjustment amount Tsa adjusts design temperature Ts.That is, when user has manually adjusted design temperature Ts in time point tsm Afterwards, in time point t12, t2, t21, t22, air conditioner temperature energy-saving control device 12 can be according to time point t12, t2, t21, t22 Instantly indoor environment temperature Ti and indoor objects comfort temperature Tc adjusts design temperature Ts again.
Please referring next to the time shaft shown in (c) in Fig. 3.In another use situation, user is in time point tsm ' hand It is dynamic to have adjusted design temperature Ts.As earlier mentioned, region server 12a can be in time point t2 again according to indoor objects comfort temperature Tc With indoor environment temperature Ti adjustment design temperatures Ts.But as shown in (c) in Fig. 3, because time point tsm is quite close to time point T2, therefore after user has set, 16 design temperature Ts manually adjusted according to users of air conditioner work one section very short when Between, design temperature Ts is and by the distancing desired temperature value of user.Air conditioner 16 also can be to meet user when stable state is reached Desired temperature, but there may be drop the time with expected from user due to reaching the time of stable state, and allow the user may The one uncomfortable time of experience.
Therefore, in another embodiment, region server 12a can make air conditioner 16 be specified for one section according to setting instruction works Control interval.Word is come with (c) in Fig. 3, specified control interval can cover time point t2 since time point tsm '. That is, do not adjust design temperature Ts in time point t2.Depending on actually required, specified control interval can also cover time point t21, Time point t22 or time point t3, but be not limited thereto.For example, specified control interval is terminated since time point tsm ' Between time point t21 and time point t22, therefore specified control interval covers time point t2, t21.In this demonstration example, directly An another time point for setting after to time point t22, time point t3 or specified control interval, air conditioner temperature Energy Saving Control Device 12 is just again according to foregoing method adjustment design temperature Ts.
Temperature experimental data figures of Fig. 4 A~Fig. 6 B, Fig. 4 A corresponding to prior art is refer to, Fig. 4 B are according to this hair Temperature experimental data figure corresponding to the air conditioner temperature energy-saving control device and temperature energy-saving control method of a bright embodiment, figure 5A is the wind velocity test datagram corresponding to prior art, and Fig. 5 B are the air conditioner temperature energy-conservation control according to one embodiment of the invention Wind velocity test datagram corresponding to device processed and temperature energy-saving control method, Fig. 6 A are that the frozen water valve corresponding to prior art is opened Degree experimental data figure, Fig. 6 B are the air conditioner temperature energy-saving control device and temperature Energy Saving Control side according to one embodiment of the invention Frozen water valve opening experimental data figure corresponding to method.Fig. 4 A~Fig. 6 B are the experiment in certain office respectively between certain two week Know phase acquired by prior art and air conditioner temperature energy-saving control device provided by the present invention and temperature energy-saving control method The schematic diagram of the experimental data of related parameter.
As shown in Figure 4 A and 4 B shown in FIG., in the temperature profile corresponding to prior art, indoor environment temperature Ti is in big portion Point time on all there is a segment difference with design temperature Ts away from and failing closer in design temperature Ts.And indoor objects are comfortable Temperature Tc is even more all one section of obvious gap with indoor environment temperature i.e. design temperature all the time, and fails verily prospective users Expectation.And as shown in Figure 4 B, by air conditioner temperature energy-saving control device provided by the present invention and temperature Energy Saving Control side Method can be such that indoor environment temperature Ti, indoor objects comfort temperature Tc and design temperature Ts more presses close to, so that indoor environment temperature Ti changes according to the expectation of user.Additionally, the statistics series of tables of Fig. 4 A and Fig. 4 B is as follows:
And as shown in Fig. 5 A~Fig. 5 B, medium wind speed is defined as wherein 132 are defined as high wind speed, 130, and 129 quilts It is defined as low wind speed.In the prior art, wind speed nearly all maintains high wind speed or medium wind speed, is only adjusted at some moment Into small wind speed, therefore considerably expend the energy.And by air conditioner temperature energy-saving control device provided by the present invention and temperature Energy-saving control method, wind speed is more uniformly adjusted between high wind speed, medium wind speed and low wind speed, and is able to energy-conservation.Fig. 5 A Statistics series of tables with Fig. 5 B is as follows:
For another example shown in Fig. 6 A~Fig. 6 B, in the prior art, frozen water valve opening nearly all maintains 3, only at some moment It is adjusted to 1.Wherein, frozen water valve opening represents frozen water valve and is opened for 3, and frozen water valve opening represents frozen water valve and be opened for 1. In in other words, in the prior art, frozen water valve is almost constantly opened, and allow ice water host computer to have to last for operate.By By air conditioner temperature energy-saving control device provided by the present invention and temperature energy-saving control method, frozen water valve is according to actually required and dynamic State it is opened or closed.Because the frozen water valve pent time increases, the power consumption of ice water host computer is also reduced.Fig. 6 A and Fig. 6 B Statistics series of tables it is as follows:
And comprehensive each statistics, air conditioner temperature energy-saving control device provided by the present invention and temperature Energy Saving Control side Method can more in the past reduce by 50 about percent frozen water valve opening time, and blower fan power consumption then saves about 1 12.It is whole For body, because frozen water valve opening time is greatly reduced, air conditioner temperature energy-saving control device and temperature energy-conservation that this is provided The more conventional practice of control method can reduce by 50 about percent power consumption.In other words, in view of user behavior providing While user's comfort, air conditioner temperature energy-saving control device provided by the present invention and temperature energy-saving control method can also be compared with The conventional practice saves more power consumption.
In summary described, the present invention provides a kind of air conditioner temperature energy-saving control device and temperature energy-saving control method, Except putting forward air-conditioning system to obtain appropriate indoor objects comfort temperature with outdoor temperature by detecting indoor environment temperature Outside for comfortable indoor environment temperature, the manual control more by discriminating user to air-conditioning system is further given according to user The instruction crossed and a regression equation adjust foregoing indoor objects comfort temperature.Wherein, more number is contained and to divide according to contrast extension The mode of secondary segmentation, the design temperature of air-conditioning system is little by little adjusted to indoor objects comfort temperature so that indoor objects relax Thermophilic degree little by little can more change gentlely according to the expectation of user.Therefore, abovementioned steps are more by the behaviour for considering user Make and partial psychological condition, it is interior temperature no longer simply to increase to standard or downgrade, and is able to do not losing comfort On the premise of, indoor environment temperature is leveled off to comfortable indoor objects comfort temperature.

Claims (26)

1. a kind of air conditioner temperature energy-saving control method, it is adaptable to control an air conditioner, the air conditioner temperature energy-saving control method Comprising:
Detecting and collection outdoor temperature (To) and indoor environment temperature (Ti);
Every the first default time, mended according to outdoor temperature (To), indoor environment temperature (Ti) and indoor objects comfort temperature The amount of repaying (x), calculates indoor objects comfort temperature (Tc);
Every the second Preset Time, according between current indoor objects comfort temperature (Tc) and indoor environment temperature (Ti) Design temperature adjustment amount (Tsa), the design temperature (Ts) for producing the small-sized air-cooler one of air-conditioning new;And
The design temperature to the air conditioner is transmitted, makes the indoor environment temperature close to the indoor objects comfort temperature.
2. air conditioner temperature energy-saving control method as claimed in claim 1, wherein when the indoor objects comfort temperature and the room When the difference of interior environment temperature is more than a higher limit, the design temperature adjustment amount is added into the design temperature.
3. air conditioner temperature energy-saving control method as claimed in claim 1, wherein when the indoor objects comfort temperature and the room When the difference of interior environment temperature is less than a lower limit, the design temperature is deducted into the design temperature adjustment amount.
4. air conditioner temperature energy-saving control method as claimed in claim 3, wherein when the indoor objects comfort temperature and the room When the difference of interior environment temperature is less than the lower limit, the design temperature is more deducted into an extra tare.
5. air conditioner temperature energy-saving control method as claimed in claim 1, wherein when receiving a setting and instructing, receiving According to the setting order-driven air conditioner in specified control interval after to setting instruction.
6. air conditioner temperature energy-saving control method as claimed in claim 1, wherein when receiving a setting and instructing, according to should The type and number of repetition for setting instruction obtain a corresponding compensation rate from a look-up table, and the compensation rate is added into the interior Target comfort temperature compensation rate.
7. air conditioner temperature energy-saving control method as claimed in claim 6, further includes:
When setting instruction indicates to turn down when going out wind velocity of the air conditioner, one first compensation rate is obtained from the look-up table to carry The indoor objects comfort temperature high;And
When setting instruction indicates to heighten when going out wind velocity of the air conditioner, one second compensation rate is obtained from the look-up table to adjust The indoor objects comfort temperature drops;
Wherein, absolute value of the absolute value of first compensation rate less than second compensation rate.
8. air conditioner temperature energy-saving control method as claimed in claim 6, further includes:
When the design temperature is heightened in setting instruction instruction, one first compensation rate is obtained from the look-up table to heighten the interior Target comfort temperature;And
When setting instruction instruction downgrades the design temperature, one second compensation rate is obtained from the look-up table to downgrade the interior Target comfort temperature;
Wherein, absolute value of the absolute value of first compensation rate less than second compensation rate.
9. air conditioner temperature energy-saving control method as claimed in claim 8, further includes in Preset Time interval, when this sets When fixed instruction indicates the number of times for heightening the design temperature to reach one first door number of times, set when setting instruction indicates to heighten this again When constant temperature is spent, one the 3rd compensation rate is obtained from the look-up table to improve the indoor objects comfort temperature, the 3rd compensation rate Absolute value is more than first compensation rate.
10. air conditioner temperature energy-saving control method as claimed in claim 9, further includes in another Preset Time interval, when When setting instruction indicates the number of times for downgrading the design temperature to reach one second door number of times, when setting instruction indicates to downgrade again During the design temperature, one the 4th compensation rate is obtained from the look-up table to downgrade the indoor objects comfort temperature, the 4th compensation The absolute value of amount is more than second compensation rate.
11. air conditioner temperature energy-saving control methods as claimed in claim 10, the absolute value of wherein the 4th compensation rate is more than The absolute value of the 3rd compensation rate.
12. air conditioner temperature energy-saving control methods as claimed in claim 1, wherein in every second Preset Time, foundation The indoor environment temperature, the outdoor temperature and the indoor objects comfort temperature compensation rate update the step of the indoor objects comfort temperature In rapid, the room is updated according to a regression equation, the indoor environment temperature, the outdoor temperature and the indoor objects comfort temperature compensation rate Interior target comfort temperature.
13. air conditioner temperature energy-saving control methods as claimed in claim 12, the wherein regression equation are Tc=(0.48 × Ti+ 0.14 × To+9.22)+x, wherein Tc is the indoor objects comfort temperature, and Ti is the indoor environment temperature, and To is the open air temperature Degree, x is the indoor objects comfort temperature compensation rate.
14. air conditioner temperature energy-saving control methods as claimed in claim 1, wherein according to the indoor environment temperature and the interior The difference of target comfort temperature and a contrast spread function obtain the design temperature adjustment amount.
15. air conditioner temperature energy-saving control methods as claimed in claim 14, wherein the contrast spread function areWherein Tsa is the design temperature adjustment amount, and Tc is the indoor objects comfort temperature, and Ti is The indoor environment temperature.
16. air conditioner temperature energy-saving control methods as claimed in claim 1, wherein first Preset Time are 10 minutes, should Second Preset Time is 30 minutes.
A kind of 17. air conditioner temperature energy-saving control devices, comprising:
One detecting module, is used to detect indoor environment temperature (Ti) and outdoor temperature (To);
One control module, indoor environment temperature (Ti) is adjusted according to design temperature (Ts);And
One processing module, is electrically connected with the detecting module, the control module and an air conditioner, and every the first default time, according to According to outdoor temperature (To), indoor environment temperature (Ti) and indoor objects comfort temperature compensation rate (x), calculate indoor objects and relax Thermophilic degree (Tc), and every the second Preset Time, according to current indoor objects comfort temperature (Tc) and indoor environment temperature (Ti) the design temperature adjustment amount (Tsa) between, the new design temperature (Ts) of the small-sized air-cooler one of output air-conditioning;
Wherein, when the air conditioner temperature energy-saving control device receives a setting to be instructed, air conditioner temperature Energy Saving Control dress Put the air conditioner according to the setting order-driven and adjust the indoor environment temperature (Ti), and the processing module is instructed according to the setting Type or number of repetition obtain indoor objects comfort temperature compensation rate (x).
18. air conditioner temperature energy-saving control devices as claimed in claim 17, wherein when the indoor objects comfort temperature and being somebody's turn to do When the difference of indoor environment temperature is more than a higher limit, the design temperature is added to the design temperature adjustment amount by the processing module.
19. air conditioner temperature energy-saving control devices as claimed in claim 17, wherein when the indoor objects comfort temperature and being somebody's turn to do When the difference of indoor environment temperature is less than a lower limit, the design temperature is deducted the design temperature adjustment amount by the processing module.
20. air conditioner temperature energy-saving control devices as claimed in claim 19, wherein when the indoor objects comfort temperature and being somebody's turn to do When the difference of indoor environment temperature is less than the lower limit, the design temperature is more deducted an extra tare by the processing module.
21. air conditioner temperature energy-saving control devices as claimed in claim 17, wherein when air conditioner temperature Energy Saving Control dress Put receive the setting instruct when, the processing module receive the setting instruction after a specified control interval in set according to this Determine the order-driven air conditioner.
22. air conditioner temperature energy-saving control devices as claimed in claim 17, wherein when air conditioner temperature Energy Saving Control dress Put receive the setting instruct when, the type and number of repetition that the processing module is instructed according to the setting are obtained from a look-up table A corresponding compensation rate, and the compensation rate is added into the indoor objects comfort temperature compensation rate.
23. air conditioner temperature energy-saving control devices as claimed in claim 22, wherein when the sky is turned down in setting instruction instruction When going out wind velocity of tune machine, it is comfortably warm to improve the indoor objects that the processing module obtains one first compensation rate from the look-up table Degree, when setting instruction indicates to heighten when going out wind velocity of the air conditioner, the processing module obtains one second from the look-up table Compensation rate is to downgrade the indoor objects comfort temperature, and the absolute value of first compensation rate is absolute less than second compensation rate Value.
24. air conditioner temperature energy-saving control devices as claimed in claim 22, wherein heighten this when setting instruction instruction setting When constant temperature is spent, the processing module obtains one first compensation rate from the look-up table to heighten the indoor objects comfort temperature, when this When setting instruction instruction downgrades the design temperature, the processing module obtains one second compensation rate from the look-up table to downgrade the room Interior target comfort temperature, and first compensation rate absolute value less than second compensation rate absolute value.
25. air conditioner temperature energy-saving control devices as claimed in claim 24, wherein in default time interval, when this sets When fixed instruction indicates the number of times for heightening the design temperature to reach one first door number of times, set when setting instruction indicates to heighten this again When constant temperature is spent, the processing module obtains one the 3rd compensation rate from the look-up table to improve the indoor objects comfort temperature, and this The absolute value of three compensation rates is more than first compensation rate.
26. air conditioner temperature energy-saving control devices as claimed in claim 25, wherein in default time interval, when this sets When fixed instruction indicates the number of times for downgrading the design temperature to reach one second door number of times, set when setting instruction indicates to downgrade this again When constant temperature is spent, the processing module obtains one the 4th compensation rate from the look-up table to downgrade the indoor objects comfort temperature, and this The absolute value of four compensation rates is more than second compensation rate.
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