CN105717952A - Temperature control system and temperature control method - Google Patents

Abstract

The invention discloses a temperature control system and a temperature control method, and the system and method are used in an indoor space, so as to enable the temperature of the indoor space to reach target temperature in a target time. The method comprises the following steps: obtaining the target time, target temperature and operation data of indoor equipment; obtaining an environment factor; obtaining the current temperature of the indoor space through a temperature sensor; calculating an operation strategy according to the target time, target temperature, operation data, environment factor and current temperature; and carrying out the operation strategy so as to control the indoor equipment to switch among a plurality of operation states. Through the calculation and execution of the operation strategy, the method can enable the indoor space to reach the target temperature in the target time in an energy-saving operation mode.

Description

Temperature control system and temperature-controlled process

Technical field

The present invention relates to temperature control system and temperature-controlled process, particularly to for the interior space can be made to reach temperature control system and the temperature-controlled process of target temperature within the object time.

Background technology

Refer to Figure 1A, for existing temperature control system variations in temperature schematic diagram in operation process.As shown in Figure 1A, the main purpose of existing temperature control system is to make an indoor temperature T1 of an interior space reach and maintain a target temperature T2.The main purpose of this temperature control system existing is to make this indoor temperature T1 be rapidly achieved this target temperature T2.In order to reach above-mentioned purpose, this temperature control system existing often just carries out cold-room operating with bigger running power upon actuation, by producing the cold air having lower than this target temperature T2 in a large number so that this indoor temperature T1 can be reduced rapidly to this target temperature T2 with this cold air after mixing.

But, aforementioned relative power consumption in the way of bigger running power carries out cold-room operating, therefore the real electric cost adding user of this temperature control system existing.Further, aforementioned drive manner does not consider the actual demand of user completely.

For example, this user is likely to be only required in scheduled time T (such as 5 minutes) and makes this indoor temperature T1 reach this target temperature T2, but this temperature control system existing is owing to using transport maximum power to carry out cold-room operating, and this indoor temperature T1 will be made namely to reach this target temperature T2 in time TA (such as 3 minutes) ahead of time.

In sum, for this user, and pay no attention to waiting that scheduled time T or shorter time TA is to make this indoor temperature T1 reach this target temperature T2, what this user was more paid attention to is to make this indoor temperature T1 reach this target temperature T2, the increase of the electric cost caused ahead of time.

Therefore, existing temperature control system does not consider the actual demand of user completely, and urgently more effective scheme is suggested.

Summary of the invention

A kind of temperature control system making the interior space reach target temperature within the object time of offer and temperature-controlled process are provided.

Another object of the present invention is to reach object defined above with the most energy-conservation drive manner.

For reaching above-mentioned purpose, the present invention provides a kind of temperature control system, makes the temperature of an interior space reach a target temperature within an object time, including an indoor equipment, according to temperature-sensitive sticker and the control device connecting this indoor equipment and this temperature-sensitive sticker.This indoor equipment adjusts the temperature of this interior space, and has the several operation modes being respectively corresponding to several running power.This temperature-sensitive sticker senses a Current Temperatures of this interior space.This control device performs an operating policy calculation program to calculate an operating strategy according to this object time, this target temperature, a service data of this indoor equipment, this Current Temperatures and an envirment factor, and perform this operating strategy and switch between those operation modes to control this indoor equipment, it is desirable to minimize the total running power that this indoor equipment consumes in this object time.

The present invention further provides a kind of temperature-controlled process, the temperature making an interior space reaches a target temperature within an object time, including: a) obtaining a service data of this object time, this target temperature and an indoor equipment, wherein this indoor equipment has the several operation modes being respectively corresponding to several running power；B) envirment factor is obtained；C) Current Temperatures of this interior space is obtained；D) operating strategy according to this object time, this target temperature, this service data, this envirment factor and this current temperature computation one, wherein this operating strategy system minimizes the total running power that this indoor equipment consumes in this object time；And e) perform this operating strategy and switch between those operation modes to control this indoor equipment.

The present invention further provides a kind of temperature-controlled process, the temperature making an interior space reaches a target temperature within the first object time, including: a) obtaining a service data of this first object time, this target temperature and an indoor equipment, wherein this indoor equipment has the several operation modes being respectively corresponding to several running power；B) a first environment factor is obtained；C) one first Current Temperatures of this interior space is obtained；D) calculating one first operating strategy according to this first object time, this target temperature, this service data, this first environment factor and this first Current Temperatures, wherein this tactful system of the first operating minimizes the total running power that this indoor equipment consumes in this first object time；E) perform this first operating strategy to switch between those operation modes controlling this indoor equipment；F) in an interval time through and this object time not yet through out-of-date, according to this interval time and this first object Time Calculation one remaining time；G), after step f, a second environment factor is calculated；H), after step f, one second Current Temperatures is obtained；I) using this remaining time as this first object time；And j) re-execute step d according to this second environment factor, this second Current Temperatures and this object time, to calculate one second operating strategy.

The present invention calculates best operating strategy according to many kinds of parameters, and performs the tactful operation mode controlling indoor equipment of operating, and drive manner that so can be the most energy-conservation makes the temperature in the interior space reach target temperature within the object time.

Accompanying drawing explanation

Figure 1A is existing temperature control system variations in temperature schematic diagram in operation process.

Figure 1B is the temperature control system of first embodiment of the invention variations in temperature schematic diagram in operation process.

Fig. 2 is the temperature control system Organization Chart of first embodiment of the invention.

Fig. 3 is the temperature-controlled process flow chart of first embodiment of the invention.

Fig. 4 is the temperature-controlled process flow chart of second embodiment of the invention.

Fig. 5 is the temperature-controlled process flow chart of third embodiment of the invention.

Wherein, description of reference numerals is as follows:

2 ... temperature control system

20 ... indoor equipment

22 ... temperature-sensitive sticker

24 ... control device

240 ... processing unit

2400 ... operating policy calculation program

2402 ... envirment factor calculation procedure

242 ... memory element

2420 ... the object time

2422 ... target temperature

2424 ... the alternative circumstances factor

244 ... timer

26 ... man machine interface

T ... object time

TA ... time

T1 ... indoor temperature

T2 ... target temperature

T3 ... leaving air temp

Z1 ... the interior space

S300-S308 ... the first temperature controlling step

S400-S412 ... the second temperature controlling step

S500-S526 ... the 3rd temperature controlling step

Detailed description of the invention

Hereby with regard to preferable embodiment, coordinate accompanying drawing, describe in detail as after.

Illustrating before technological means used in the present invention, first refer to temperature control system that Figure 1B, Figure 1B the are first embodiment of the invention variations in temperature schematic diagram in operation process, in order to the object of the invention to be described and uses situation.

The temperature control system (temperature control system 2 as shown in Figure 2) of the present invention can be divided into two phase runs in operation process, and one is the quick cooling-heating room stage, and one is the thermostatic control stage.Example will be operated as with cold-room at this, be described separately this temperature control system 2 Detailed Operation mode in this quick cooling-heating room stage and this thermostatic control stage.

In this quick cooling-heating room stage, the main purpose of this temperature control system 2 is to make an indoor temperature T1 reach a target temperature T2 in a scheduled time T.For reaching above-mentioned purpose, this temperature control system 2 need to strategically carry out cold-room operating in this quick cooling-heating room stage, by suitably producing the cold air having lower than this target temperature T2 so that this indoor temperature T1 can be reduced to this target temperature T2 after mixing with this cold air in scheduled time T.

In this thermostatic control stage, the main purpose of this temperature control system 2 is to make this indoor temperature T1 stably be maintained at this target temperature T2.In order to reach above-mentioned purpose, this temperature control system 2 has this cold air of a leaving air temp T3 by stable output, makes this indoor temperature T1 be stably maintained at this target temperature T2.

From the above, present invention is primarily intended to make this temperature control system 2 when this quick cooling-heating room stage operates, this indoor temperature T1 can be made to reach this target temperature T2 in scheduled time T by the most energy-conservation drive manner.

Then will at large illustrate that the present invention reaches the technological means that object defined above uses.

Continue and refer to Fig. 2, for the temperature control system Organization Chart of first embodiment of the invention.As in figure 2 it is shown, this temperature control system 2 of the present embodiment mainly includes indoor equipment 20, temperature-sensitive sticker 22 and controls device 24.This temperature control system 2 applies to an interior space Z1, so that the temperature in this interior space Z1 can reach a target temperature 2422 within an object time 2420.

Indoor equipment 20 is the equipment (such as air conditioner, warming machine, fan or cold valves etc.) being used for adjusting the temperature of this interior space Z1.Specifically, this indoor equipment 20 is operated by the control of this control device 24, to adjust the temperature of this interior space Z1, and then makes the temperature of this interior space Z1 reach this target temperature.

This indoor equipment 20 farther includes several operation mode.Respectively this operation mode is respectively corresponding to a running power and a temperature adjustment capability value.In more detail, this running power is directly proportional to this temperature adjustment capability value.Preferably, this running power is the power consumption (such as kilowatt-hour (KWH)) of this indoor equipment 20 unit interval under this operation mode specific, this temperature adjustment capability value can absorb the heat (such as British thermal unit (Britishthermalunit, BTU)) of (in cold-room operates)/increase (in greenhouse operates) under specifically this operation mode for this indoor equipment 20 or can reduce the Temperature Quantity (such as Celsius temperature (DEG C)) of (in cold-room operates)/increase (in greenhouse operates).It is preferred that the difference that this temperature adjustment capability value is this indoor equipment 20 inlet air temperatures under respectively this operation mode and a leaving air temp, but do not limit with this.

For example, if this indoor equipment 20 is fan, and this indoor equipment 20 includes the Three models such as little wind speed pattern, apoplexy fast mode, strong wind fast mode.In this Three models, this running power of this little wind speed pattern is minimum and this temperature adjustment capability value is also minimum (namely when this indoor equipment 20 runs under this little wind speed pattern, electrical power spent per hour minimum (namely most power saving), but cooling capacity is worst), this apoplexy fast mode takes second place, this running power of this strong wind fast mode is the highest and this temperature adjustment capability value is also the highest (namely when this indoor equipment 20 runs on this strong wind fast mode, electrical power spent per hour (namely most power consumption) at most, but cooling capacity is best).

This temperature-sensitive sticker 22 is used for sensing a Current Temperatures of this interior space Z1, and sends this Current Temperatures sensed to this control device 24, carries out subsequent treatment for this control device 24.

This control device 24 connects this indoor equipment 20 and this temperature-sensitive sticker 22.This control device 24 can be electrically connected this indoor equipment 20 and this temperature-sensitive sticker 22 via transmission line, or set up wireless network via network with this indoor equipment 20 and this temperature-sensitive sticker 22 and be connected, and is not limited.

This control device 24 mainly includes processing unit 240 and a memory element 242, and this memory element 242 is electrically connected this processing unit 240.This memory element 242 stores this object time 2420 and this target temperature 2422.This processing unit 240 can obtain this Current Temperatures of this interior space Z1 via this temperature-sensitive sticker 22, and performs an operating policy calculation program 2400, to calculate an operating strategy.Then, this processing unit 240 performs this operating strategy and switches between those operating conditions to control this indoor equipment 20, so that the total running power that this indoor equipment 20 consumes in this object time 2420 minimizes.

Specifically, this operating policy calculation program 2400 calculates this operating strategy according to this object time 2420, this target temperature 2422, a service data of this indoor equipment 20, this Current Temperatures and an envirment factor.This service data can include this indoor equipment 20 and operate on running power and the temperature adjustment capability value that those operation modes possess respectively.

It is preferred that this operating strategy includes several time value, those time values are respectively corresponding to a duration of runs of those operation modes, and the summation of those time values is less than or equal to this object time.

For example, if this indoor equipment 20 is fan, and this indoor equipment 20 includes little wind speed pattern, apoplexy fast mode, strong wind fast mode, and this object time is 300 seconds.This processing unit 240 calculates this operating strategy of gained can include this duration of runs (being 150 seconds in the present embodiment) of this duration of runs (being 100 seconds in the present embodiment) of this little wind speed pattern, this duration of runs (being 50 seconds in the present embodiment) of this apoplexy fast mode and this strong wind fast mode.When this control device 24 performs this operating strategy, first control this indoor equipment 20 to operate 150 seconds with strong wind fast mode, control this indoor equipment 20 again switch to this apoplexy fast mode and operate 50 seconds, finally control this indoor equipment 20 and switch to this little wind speed pattern and operate 100 seconds.After this indoor equipment 20 accepts the control of this control device 24 and operated this object time 2420, the temperature in this interior space Z1 can be made to reach this target temperature 2422.

This envirment factor is the numerical value obtained after a Quantity of heat of the factor (the volume size of personnel amount or this interior space Z1 as entered this interior space Z1) being likely to affect temperature in this interior space Z1 is carried out quantification treatment.Specifically, this processing unit 240 performs an envirment factor calculation procedure 2402, to calculate this envirment factor.Wherein this envirment factor calculation procedure 2402 is based on this Quantity of heat above-mentioned to calculate this envirment factor.

Though in the present embodiment, this envirment factor system obtains via performing this envirment factor calculation procedure 2402, but is not limited.In another embodiment of the invention, this memory element 242 stores several alternative circumstances factor 2424 further.This control device 24 selects at least one as this envirment factor and to calculate this operating strategy according to situation in those alternative circumstances factors 2424.In the present embodiment, those alternative circumstances factors 2424 can be respectively corresponding to the different execution time (such as summer, winter, high noon or dusk).

Produced it is preferred that those alternative circumstances factors 2424 are based on previous execution experience.In other words, this temperature control system 2 after having performed the operating of cold-room operating/greenhouse (namely after the temperature of this interior space Z1 reaches this target temperature 2422) every time, this alternative circumstances factor 2424 can be calculated according to this performed operating strategy, this object time 2420, this target temperature 2422 and this service data, and store to this memory element 242, to use as this envirment factor when this operating strategy of subsequent calculations.This temperature control system 2 of the present embodiment can have learning functionality, can automatically select this envirment factor optimal.

In an alternative embodiment of the invention, those alternative circumstances factors 2424 are alternatively this user and set in advance and store to this memory element 242.

In an alternative embodiment of the invention, this control device 24 farther includes a timer 244, is electrically connected this processing unit 240.This timer 244 is in order to calculate an interval time.This processing unit 24 every time this interval time through later, re-execute this envirment factor calculation procedure 2402 to obtain this new envirment factor, a remaining time is calculated according to this interval time and this object time, and using this remaining time as this object time 2424, re-execute this operating policy calculation program 2400 to calculate this new operating strategy according to this new envirment factor and this object time, wherein this interval time and this remaining time are smaller than this object time 2424.This temperature control system 2 of the present embodiment can have instant debugging functions, can in the process performing the operating of cold-room operating/greenhouse, because of should the change (as this interior space Z1 enters large quantities of personnel suddenly) of this Quantity of heat of interior space Z1, instant this operating strategy of correction, and can ensure that the temperature of this interior space Z1 can reach this target temperature 2422 within this object time 2420.

In an alternative embodiment of the invention, this temperature control system 2 farther includes a man machine interface 26 (such as Touch Screen or button), connects this control device 24.This man machine interface 26 can accept this user and inputs an input operation of this object time 2420 and this target temperature 2422, and this object time 2420 inputted by this user and this target temperature 2422 are sent to this control device 24 and store.Further, this man machine interface 26 also this user acceptable directly inputs this service data or this alternative circumstances factor 2424, and this service data inputted by this user and this alternative circumstances factor 2424 are sent to this control device 24 and store.

Continue and refer to Fig. 3, for the temperature-controlled process flow chart of first embodiment of the invention.The temperature-controlled process of the present embodiment mainly applies to this temperature control system 2 of Fig. 2.

Step S300: obtain this service data of this object time 2420, this target temperature 2422 and this indoor equipment 20.Specifically, this control device 24 can read the service data of this object time 2420, this target temperature 2422 and this indoor equipment 20 from this memory element 242, or accept this user via this man machine interface 26 and input this service data of this object time 2420, this target temperature 2422 and this indoor equipment 20.Wherein this service data can include the running power and/or the temperature adjustment capability value that possess when this indoor equipment 22 operates on different operation mode.

Step S302: obtain envirment factor.Specifically, this control device 24 can select to be best suitable for one of them as this envirment factor in those alternative circumstances factors 2424 stored by this memory element 242, or calculate this envirment factor via performing this envirment factor calculation procedure 2402 according to this Quantity of heat of this interior space Z1, or accept this user via this man machine interface 26 and directly input this envirment factor.

Step S304: obtain this Current Temperatures of this interior space Z1.Specifically, this control device 24 obtains this Current Temperatures of this interior space Z1 through this temperature-sensitive sticker 22.

Step S306: calculate this operating strategy.Specifically, this control device 24 performs this operating policy calculation program 2400, with according to those running powers in this object time 2420, this target temperature 2422, this service data, this envirment factor and this operating strategy of this current temperature computation, wherein this operating strategy is that this total running power making this indoor equipment 20 consume in this object time 2420 minimizes.It is preferred that this operating strategy includes several time value, those time values are respectively corresponding to this indoor equipment 20 this duration of runs in those operation modes.This control device 24 calculates this operating strategy according to following formula 1.

(Current Temperatures-target temperature)=envirment factor * Σ iN=1 (the i* service data i duration of runs) ... ... ... ... ... ... ... ... ... (formula 1)

Wherein each this duration of runs 0；Σ iN=1 (duration of runs i) remaining time (namely this object time 2420 deducts the executed time) this object time 2420；All durations of runs, the set of i was this operating strategy；This indoor equipment 20 can switch between this operation mode N number of.

It is noted that this service data in formula 1 can only include should the running power of operation mode, it is possible to include simultaneously to should operation mode running power and to should the temperature adjustment capability value of operation mode, do not limit with this.

This control device 24 can calculate this operating strategy of array according to formula 1, and often organize this operating strategy and all include being respectively corresponding to those time values of those operation modes.Then this control device 24 according to following formula 2 from this operating strategy (even if this total running power of consuming of this indoor equipment 20 minimum this operating strategy) selecting the best in those operating strategies.This operating strategy of aforementioned the best includes this best duration of runs of respectively this operation mode.

Min (Σ iN=1 (running power i* duration of runs i)) ... ... ... (formula 2)

Step S308: perform this operating strategy.Specifically, this control device 24 performs in this calculated for this step S306 operating strategy.This control device 24 switches to this different operation modes in turn according to controlling this indoor equipment 20 those durations of runs of this operating strategy, and to operating in this duration of runs of operation mode.

Continue and refer to Fig. 4, for the temperature-controlled process flow chart of second embodiment of the invention.The temperature-controlled process of the present embodiment mainly applies to this temperature control system 2 of Fig. 2.Compared to the first embodiment shown in Fig. 3, the present embodiment realizes the learning functionality of this envirment factor mainly through increasing step S410 and step S412.Content is identical to the step S300 shown in step S408 and Fig. 3 to step S308 for step S400 shown in Fig. 4, repeats no more in this.

Step S410: calculate this alternative circumstances factor 2424.Specifically, this control device 24, after the temperature of this interior space Z1 reaches this target temperature 2422, can calculate this alternative circumstances factor 2424 of this execution environment (i.e. this Quantity of heat of this interior space Z1) corresponding and this operating strategy according to this performed operating strategy, this object time 2420, this target temperature 2422, this service data and formula 1.

Step S412: store this alternative circumstances factor 2424.Specifically, this alternative circumstances factor 2424 is stored to this memory element 242 by this control device 24, uses as this envirment factor when next time operates for this temperature control system 2.

Therefore, this temperature control system 2 of the present embodiment can after having performed this operating strategy every time, calculate this alternative circumstances factor 2424 of this execution environment corresponding and this operating strategy, during execution environment identical for follow-up experience, this alternative circumstances factor 2424 can be directly selected as this envirment factor, so as to quickly calculating this operating strategy.

Continue and refer to Fig. 5, for the temperature-controlled process flow chart of third embodiment of the invention.The temperature-controlled process of the present embodiment mainly applies to this temperature control system 2 of Fig. 2.Compared to the second embodiment shown in Fig. 3, the present embodiment realizes the instant debugging functions of this operating strategy mainly through increasing step S510-S522.Content is identical to the step S300 shown in step S508 and Fig. 3 to step S308 for step S500 shown in Fig. 5, repeats no more in this.

For avoiding confusion, in the present embodiment, the first object time will be called in this object time acquired by this step S500, it is called the first environment factor in this envirment factor acquired by this step S502, being called the first Current Temperatures at this Current Temperatures acquired by this step S504, this operating strategy computed at this step S506 is called the first operating strategy.

Step S510: judge whether this target temperature 2422 is reached.Specifically, this control device 24 is in time performing this step S508, this Current Temperatures and this target temperature 2422 (i.e. this first object time) can be compared, to judge whether this Current Temperatures (i.e. this first Current Temperatures) reaches this target temperature 2422 simultaneously.

Step S512: judge whether this interval time passes through.Specifically, by this timer 244, this control device 24 calculates whether this interval time passes through.This interval time can be inputted by this man machine interface 26 by systemic presupposition or this user, but does not limit with this.If this, process, then performed step S514 interval time；If this interval time without, then continue executing with this step S508.

Step S514: judge whether this object time 2420 passes through.Specifically, by this timer 244, this control device 24 calculates whether this object time 2420 passes through.If this object time 2420 process, then perform step S524, to calculate this alternative circumstances factor 2424 of this execution environment corresponding；If this object time 2420 without, then perform step S516.

Step S516: calculate this remaining time.Specifically, this object time 2420 is deducted this interval time by this control device 24, to obtain this remaining time.

Step S518: using this remaining time as this object time 2420.Specifically, this control device 24 is using this remaining time computed in this step S516 as this object time 2420 (that is, being considered as this new object time 2420 (that is, one second object time) this remaining time).

Step S520: calculate this new envirment factor.Specifically, this control device 24 performs this envirment factor calculation procedure 2402 in this interval time again through later, calculates new this envirment factor (that is, a second environment factor) according to this current for this interior space Z1 Quantity of heat.It is preferred that this control device 24 calculates this new envirment factor of corresponding current execution environment (i.e. this Quantity of heat of this interior space Z1) according to this temperature control system 2 at tactful, acquired this object time 2420 of this operating performed by time in the past (as in this interval time in past), this target temperature 2422, this service data and formula 1.

Step S522: obtain new ambient temperature.Specifically, (namely this control device 24 obtains this Current Temperatures of this interior space Z1 by this temperature-sensitive sticker 22, one second Current Temperatures), and perform this step S506 once again, again perform this operating policy calculation program 2400 and calculate new this operating strategy (i.e. one second operating strategy) according to new this envirment factor (i.e. this second environment factor), new this Current Temperatures (i.e. this second Current Temperatures) and this new object time 2420.

Therefore, this temperature-controlled process of the present embodiment can have instant debugging functions, can in the process performing the operating of cold-room operating/greenhouse, because of should the change (as this interior space Z1 enters large quantities of personnel suddenly) of this Quantity of heat of interior space Z1, instant this operating strategy of correction, and can ensure that the temperature of this interior space Z1 can reach this target temperature 2422 within this object time 2420.

It is noted that there is no fixing execution sequence between this step S516-S520, under not violating spirit of the present invention, technical field that the present invention belongs to has usually intellectual from can arbitrarily change sequence of steps.

If judging in this step S510, this target temperature 2422 is reached, or judges this object time 2420 process in this step S514, then perform this step S524.

Step S524: calculate this alternative circumstances factor 2424.

Step S526: store this alternative circumstances factor 2424.

The present invention, via calculating and performing operating strategy, can make indoor equipment operate with the most energy-conservation drive manner in the quick cooling-heating room stage, guarantee that the temperature of the interior space can reach target temperature within the object time simultaneously.

The foregoing is only the preferred embodiments of the present invention, non-the scope of the claims therefore namely limiting to the present invention, therefore such as use the equivalence change for it of present invention institute, be all in like manner all contained in the scope of the present invention, close and give Chen Ming.

Claims (20)

1. a temperature control system, makes the temperature of an interior space reach a target temperature within an object time, including:

One indoor equipment, adjusts the temperature of this interior space, and this indoor equipment has the several operation modes being respectively corresponding to several running power；

One temperature-sensitive sticker, senses a Current Temperatures of this interior space；And

One controls device, connect this indoor equipment and this temperature-sensitive sticker, an operating policy calculation program is performed to calculate an operating strategy according to this object time, this target temperature, a service data of this indoor equipment, this Current Temperatures and an envirment factor, and perform this operating strategy and switch between those operation modes to control this indoor equipment, it is desirable to minimize the total running power that this indoor equipment consumes in this object time.

2. temperature control system as claimed in claim 1, it is characterised in that this temperature control system includes a man machine interface, connects this control device, accepts to input an input operation of this object time and this target temperature.

3. the temperature control system as described in claim 1, it is characterized in that, this control device includes a memory element, stores several alternative circumstances factor, and this control device selects one of them of those alternative circumstances factors as this envirment factor to calculate this operating strategy.

4. the temperature control system as described in claim 3, it is characterized in that, this control device is after the temperature of this interior space reaches this target temperature, calculate this alternative circumstances factor according to this performed operating strategy, this object time, this target temperature and this service data, and store to this memory element.

5. the temperature control system as described in claim 1, it is characterised in that this control device performs an envirment factor calculation procedure to calculate this envirment factor according to a Quantity of heat of this interior space.

6. the temperature control system as described in claim 5, it is characterized in that, this control device includes a timer, calculate an interval time, this control is installed on this interval time through later, re-execute this envirment factor calculation procedure to obtain this new envirment factor, a remaining time is calculated according to this interval time and this object time, using this remaining time as this object time, and re-execute this operating policy calculation program to calculate this new operating strategy according to this new envirment factor and this new object time.

7. the temperature control system as described in claim 1, it is characterized in that, this operating strategy includes several time value, and those time values are respectively corresponding to this indoor equipment and operate on a duration of runs of those operation modes, and the summation of those time values is less than or equal to this object time.

8. a temperature-controlled process, makes the temperature of an interior space reach a target temperature within an object time, including:

A) obtaining a service data of this object time, this target temperature and an indoor equipment, wherein this indoor equipment has the several operation modes being respectively corresponding to several running power；

B) envirment factor is obtained；

C) Current Temperatures of this interior space is obtained；

D) operating strategy according to this object time, this target temperature, this service data, this envirment factor and this current temperature computation one, wherein this operating strategy is minimize the total running power that this indoor equipment consumes in this object time；And

E) perform this operating strategy to switch between those operation modes to control this indoor equipment.

9. the temperature-controlled process as described in claim 8, it is characterised in that this step a selects one of them using as this envirment factor in the several alternative circumstances factors stored in advance.

10. the temperature-controlled process as described in claim 9, it is characterised in that comprise the following steps:

F) this alternative circumstances factor is calculated according to this performed operating strategy, this object time, this target temperature, this service data；

G) this alternative circumstances factor is stored.

11. the temperature-controlled process as described in claim 8, it is characterised in that this step a calculates this envirment factor according to a Quantity of heat of this interior space.

12. the temperature-controlled process as described in claim 8, it is characterised in that this service data includes the several temperature adjustment capability values being respectively corresponding to those operation modes；This step a is for calculate this operating strategy according to this object time, this target temperature, this service data, this envirment factor, this Current Temperatures and those temperature adjustment capability values.

13. the temperature-controlled process as described in claim 8, it is characterized in that, this operating strategy includes several time value, and those time values are respectively corresponding to this indoor equipment and operate on a duration of runs of those operation modes, and the summation of those time values is less than or equal to this object time.

14. a temperature-controlled process, the temperature of an interior space is made to reach a target temperature within the first object time, including:

A) obtaining a service data of this first object time, this target temperature and an indoor equipment, wherein this indoor equipment has the several operation modes being respectively corresponding to several running power；

B) a first environment factor is obtained；

C) one first Current Temperatures of this interior space is obtained；

D) calculating one first operating strategy according to this first object time, this target temperature, this service data, this first environment factor and this first Current Temperatures, wherein this first operating strategy is for minimizing the total running power that this indoor equipment consumes in this first object time；

E) perform this first operating strategy to switch between those operation modes controlling this indoor equipment；

F) in an interval time through and this first object time not yet through out-of-date, according to this interval time and this first object Time Calculation one remaining time；

G), after step f, a second environment factor is calculated；

H), after step f, one second Current Temperatures is obtained；

I) using this remaining time as one second object time；And

J) step d is re-executed according to this second environment factor, this second Current Temperatures and this second object time, to calculate one second operating strategy.

15. the temperature-controlled process as described in claim 14, it is characterised in that this step a selects one of them as this first environment factor in the several alternative circumstances factors stored in advance.

16. the temperature-controlled process as described in claim 15, it is characterised in that comprise the following steps:

K) when the temperature judging this interior space reaches this target temperature, this alternative circumstances factor is calculated according to this performed the first operating strategy, this second operating strategy, this first object time, this second object time, this target temperature and this service data；And

L) this alternative circumstances factor is stored.

17. the temperature-controlled process as described in claim 14, it is characterised in that this step a calculates this first environment factor according to a Quantity of heat of this interior space.

18. the temperature-controlled process as described in claim 14, it is characterised in that this service data includes the several temperature adjustment capability values being respectively corresponding to those operation modes；This step a is for calculating this first operating strategy according to this first object time, this target temperature, this service data, this first environment factor, this first Current Temperatures and those temperature adjustment capability values.

19. the temperature-controlled process as described in claim 18, it is characterised in that respectively this temperature adjustment capability value is the difference of this indoor equipment inlet air temperatures under respectively this operation mode and a leaving air temp.

20. the temperature-controlled process as described in claim 14, it is characterized in that, this the first operating strategy includes several time value, those time values are respectively corresponding to this indoor equipment and operate on a duration of runs of those operation modes, and the summation of those time values is less than or equal to this first object time.