CN109631243A - Environmental temperature monitoring method, device and unit - Google Patents

Abstract

The invention discloses a method, a device and a unit for monitoring environmental temperature, wherein the method comprises the following steps: acquiring a first environment temperature acquired by a remote controller and a second environment temperature acquired by a unit; judging whether the first environment temperature is successfully acquired or not; if yes, determining the ambient temperature according to the first ambient temperature and the second ambient temperature; if not, determining the ambient temperature according to the second ambient temperature. Therefore, when the first environment temperature is acquired successfully, the environment temperature can be determined according to the first environment temperature and the second environment temperature instead of the environment temperature determined according to the first environment temperature or the second environment temperature singly, and the reference parameter for determining the environment temperature is increased, so that the finally determined environment temperature is more accurate. On the premise of accurately determining the ambient temperature, the operation of the unit is controlled, so that the comfort of a user is further ensured.

Description

A kind of monitoring method of environment temperature, device and unit

Technical field

The present invention relates to unit fields, in particular to a kind of monitoring method of environment temperature, device and unit.

Background technique

Currently, needing to detect indoor environment temperature when operation of air conditioner, for the control of air-conditioning, air conditioner surroundings temperature detection dress Set (such as: temperature sensor) it is arranged at interior machine return air inlet, it can detecte indoor environment temperature.But what the method detected Environment temperature, lower than the environment temperature of human perception, when being in heating mode, is higher than interior when air-conditioning is in refrigeration mode The environment temperature of human perception.Indoor environment temperature can also be detected by remote controler, but because of the placement location of remote controler, power supply The problems such as, will cause remote controler air conditioner can not be communicated in real time, cause that current indoor temperature can not be obtained.Above two side The environment temperature determined in formula is inaccurate, and fixed frequency air conditioner is controlled according to the environment temperature that aforesaid way determines shuts down, also It is not met with actual temperature conditions, reduces the comfort of user.To solve this problem, the method used in the related technology Are as follows: first judge whether that the temperature of remote controler acquisition can be got, if it is then the temperature that revised remote controler is acquired is made For environment temperature.If it is not possible, then using the temperature of the temperature sensor detection at revised return air inlet as environment temperature. Even if accuracy may not can also guarantee but after the environment temperature amendment of remote controler determination.

It is directed to the environment temperature to remote controler acquisition in the related technology or the temperature to the temperature sensor acquisition on unit The problem of degree is modified, and accuracy cannot be guaranteed in a manner of determining environment temperature not yet proposes effective solution side at present Case.

Summary of the invention

For solution being acquired to the environment temperature of remote controler acquisition or to the temperature sensor on unit in the related technology The problem of temperature is modified, and accuracy cannot be guaranteed in a manner of determining environment temperature, the embodiment of the present invention provide a kind of ring Monitoring method, device and the unit of border temperature.

In a first aspect, the embodiment of the present invention provides a kind of monitoring method of environment temperature, which comprises

Obtain the first environment temperature of remote controler acquisition and the second environment temperature of unit acquisition；

Judge whether successfully to get the first environment temperature；

If it is, determining environment temperature according to the first environment temperature and the second environment temperature；

If it is not, then determining the environment temperature according to the second environment temperature.

Further, the first environment temperature of the remote controler acquisition and the second environment temperature of unit acquisition are obtained Include:

Every preset time period obtains the first environment temperature of the remote controler acquisition；And

Every preset time period obtains the second environment temperature of the acquisition of the ambient temperature detection device on the unit；Its In, the ambient temperature detection device is located at the return air inlet of the unit.

Further, determine that environment temperature includes: according to the first environment temperature and the second environment temperature

Judge whether unit is currently running；

If it is, being modified respectively to the first environment temperature and the second environment temperature, environment temperature is determined Degree；

If it is not, then the average value of the first environment temperature and the second environment temperature is determined as the environment temperature Degree.

Further, the first environment temperature and the second environment temperature are modified respectively, determine environment temperature Degree includes:

The first environment temperature and the second environment temperature are modified respectively according to environment temperature correction value；

Revised first environment temperature value and revised second environment temperature value are compared；According to comparison result Determine the environment temperature.

Further, according to environment temperature correction value respectively to the first environment temperature and the second environment temperature into Row is corrected

Determine first environment temperature corrected value and second environment temperature corrected value；Wherein, the environment temperature correction value packet Include the first environment temperature corrected value and the second environment temperature corrected value；

And the current operational mode of the unit is detected, and determine correction strategy corresponding with the operational mode；

According to the correction strategy, the first environment temperature corrected value and the second environment temperature corrected value point are utilized It is other that the first environment temperature and the second environment temperature are modified.

Further, it is determined that first environment temperature corrected value and second environment temperature corrected value, are realized by following formula:

ΔT_Xi-1=(T_hi-1-T_Xi-1)；

The second environment temperature value correction value is determined by following formula:

ΔT_hi-1=(T_hi-1-T_Xi-1)/2；

Wherein, the T_hi-1For the preceding second environment temperature once obtained；T_Xi-1For the preceding first environment temperature once obtained Degree；When_iWhen being 1, T_hi-1、T_Xi-1Respectively indicate the last second environment temperature that obtains of the unit before operation and the One environment temperature.

Further, the operational mode includes: cooling operation mode and heating operation mode.

Further, when the operational mode is cooling operation mode, according to the correction strategy, described first is utilized Environment temperature correction value and the second environment temperature corrected value are respectively to the first environment temperature and the second environment temperature Degree is modified to be realized by following formula:

T_ix=T_Xi+ΔT_Xi-1；

T_ih=T_hi+ΔT_hi-1；

Wherein, the T_ixFor revised first environment temperature value；The T_ihFor revised second environment temperature value； The T_XiFor first environment temperature value, the T_hiFor second environment temperature value；The Δ T_Xi-1For first environment temperature corrected value； The Δ T_hi-1For second environment temperature corrected value；I is positive integer, and i indicates to obtain the first environment temperature and described second The number of environment temperature.

Further, when the operational mode is heating operation mode, according to the correction strategy, described first is utilized Environment temperature correction value and the second environment temperature corrected value are respectively to the first environment temperature and the second environment temperature Degree is modified to be realized by following formula:

T_ix=T_Xi-ΔT_Xi-1；

T_ih=T_hi-ΔT_hi-1；

Wherein, the T_ixFor revised first environment temperature value；The T_ihFor revised second environment temperature value； The T_XiFor first environment temperature value, the T_hiFor second environment temperature value；The Δ T_Xi-1For first environment temperature corrected value； The Δ T_hi-1For second environment temperature corrected value；I is positive integer, and i indicates to obtain the first environment temperature and described second The number of environment temperature.

Further, revised first environment temperature value and revised second environment temperature value are compared；Root Determine that environment temperature includes: according to comparison result

More revised first environment temperature value whether≤revised second environment temperature value；

If it is, determining that the first environment temperature value is the environment temperature；

If it is not, then determining that the second environment temperature value is the environment temperature.

Further, if it is not, then determining that the environment temperature includes: according to the second environment temperature

The second environment temperature is modified according to second environment temperature corrected value；

Revised second environment temperature value is determined as the environment temperature.

Second aspect, the embodiment of the present invention provide a kind of monitoring device of environment temperature, and described device is for executing first Method described in aspect, described device include:

Module is obtained, for obtaining the first environment temperature of remote controler acquisition and the second environment temperature of unit acquisition；

Judgment module successfully gets the first environment temperature for judging whether；If it is, according to described first Environment temperature and the second environment temperature determine environment temperature；If it is not, then according to second environment temperature determination Environment temperature.

Further, the judgment module, is also used to judge whether unit is currently running；If it is, to described first Environment temperature and the second environment temperature are modified respectively, determine environment temperature；If it is not, then by the first environment temperature Degree and the average value of the second environment temperature are determined as the environment temperature.

Further, the judgment module is also used to according to environment temperature correction value respectively to the first environment temperature It is modified with the second environment temperature；By revised first environment temperature value and revised second environment temperature value into Row compares；The environment temperature is determined according to comparison result.

The third aspect, the embodiment of the present invention provide a kind of unit, which is characterized in that the unit includes described in second aspect Device, the unit be air-conditioner with fixed frequency.

It applies the technical scheme of the present invention, obtains the first environment temperature of remote controler acquisition and the second environment of unit acquisition Temperature；Judge whether successfully to get first environment temperature；If it is, true according to first environment temperature and second environment temperature Determine environment temperature；If it is not, then determining environment temperature according to second environment temperature.Successfully getting first environment temperature as a result, When spending, environment temperature can be determined according to first environment temperature and second environment temperature, rather than it is single according to first environment Temperature or second environment temperature determine environment temperature, increase the reference parameter of determining environment temperature, so that finally determine Environment temperature is more accurate.Under the premise of accurate determining environment temperature, to control the operation of unit, to further ensure The comfort of user.

Detailed description of the invention

Fig. 1 is a kind of flow chart of the monitoring method of environment temperature according to an embodiment of the present invention；

Fig. 2 is a kind of flow chart of the monitoring method of environment temperature according to an embodiment of the present invention；

Fig. 3 is a kind of flow chart of the monitoring method of environment temperature according to an embodiment of the present invention；

Fig. 4 is a kind of flow chart of the monitoring method of environment temperature according to an embodiment of the present invention；

Fig. 5 is a kind of flow chart of the monitoring method of environment temperature according to an embodiment of the present invention；

Fig. 6 is a kind of structural block diagram of the monitoring device of environment temperature according to an embodiment of the present invention.

Specific embodiment

Present invention is further described in detail in the following with reference to the drawings and specific embodiments, it should be understood that described herein Specific embodiment be only used to explain the present invention, be not intended to limit the present invention.

In subsequent description, it is only using the suffix for indicating such as " module ", " component " or " unit " of element Be conducive to explanation of the invention, itself there is no a specific meaning.Therefore, " module ", " component " or " unit " can mix Ground uses.

In order to solve the environment temperature to remote controler acquisition in the related technology or to the temperature sensor acquisition on unit The problem of temperature is modified, and accuracy cannot be guaranteed in a manner of determining environment temperature, the embodiment of the present invention provide a kind of ring The monitoring method of border temperature, as shown in Figure 1, method includes:

Step S101, the first environment temperature of remote controler acquisition and the second environment temperature of unit acquisition are obtained；

Step S102, judge whether successfully to get first environment temperature；If so, thening follow the steps S103；If not, Then follow the steps S104；

Step S103, environment temperature is determined according to first environment temperature and second environment temperature；

Step S104, environment temperature is determined according to second environment temperature.

In the present embodiment, the first environment temperature of remote controler acquisition and the second environment temperature of unit acquisition are obtained；Sentence It is disconnected whether successfully to get first environment temperature；If it is, determining environment according to first environment temperature and second environment temperature Temperature；If it is not, then determining environment temperature according to second environment temperature.It, can as a result, when successfully getting first environment temperature Environment temperature is determined according to first environment temperature and second environment temperature, rather than it is single according to first environment temperature or Two environment temperatures determine environment temperature, increase the reference parameter of determining environment temperature, so that finally determining environment temperature It is more accurate.Under the premise of accurate determining environment temperature, to control the operation of unit, to further ensure relaxing for user Adaptive.

It should be noted that the second ring of step S101, the first environment temperature for obtaining remote controler acquisition and unit acquisition Border temperature includes: the first environment temperature that every preset time period obtains remote controler acquisition, and, each preset time period obtains The second environment temperature of ambient temperature detection device acquisition on unit.

Wherein, remote controler may be line control machine, and remote controler can be subordinated to unit, or independently of one of unit Device.Any one position where remote controler can be at unit in space only needs that communication connection can be established between unit ?.Second environment temperature can be acquired by the ambient temperature detection device being located on unit, and ambient temperature detection device can position At the return air inlet of unit.Ambient temperature detection device can be temperature sensor or temperature sensing package.Unit can be air conditioner.And Preset time period can be set with environment locating for unit according to actual needs as user.When environmental temperature fluctuation is larger, Two preset time periods can be shorter, such as: preset time period all can be 10 minutes.And two preset time periods can also be with It is different.Preset time period can be fixed the period, be also possible to the different periods.For example, be spaced ten minutes every time. Alternatively, be spaced ten minutes, five minutes, three minutes, etc..It can achieve accurate and timely acquisition first environment temperature and the second ring The effect of border temperature.

In one possible implementation, as shown in Fig. 2, step S103, according to first environment temperature and second environment Temperature determines that environment temperature includes:

Step S201, judge whether unit is currently running；If so, thening follow the steps S202；If not, thening follow the steps S203；

Step S202, first environment temperature and second environment temperature are modified respectively, determine environment temperature；

Step S203；The average value of first environment temperature and second environment temperature is determined as environment temperature.

It will be appreciated that the temperature if unit is currently running, due to unit refrigeration or heating etc., near unit Can be had a certain difference with environment temperature so that first environment temperature and second environment temperature differed with actual ambient temperature compared with It greatly, then can be by modified mode, to determine environment temperature.If unit and not running, can directly take first environment temperature With the average value of second environment temperature.To reduce error.The accuracy of determining environment temperature can be improved as a result,.Following embodiments How specific introduce is modified first environment temperature and second environment temperature.

In one possible implementation, as shown in figure 3, step S202, to first environment temperature and second environment temperature Degree is modified respectively, determines that environment temperature includes:

Step S2021, first environment temperature and second environment temperature are modified respectively according to environment temperature correction value；

Step S2022, revised first environment temperature value and revised second environment temperature value are compared；Root Environment temperature is determined according to comparison result.

Wherein, as shown in figure 4, step S2021, according to environment temperature correction value respectively to first environment temperature and the second ring Border temperature, which is modified, includes:

Step S401, first environment temperature corrected value and second environment temperature corrected value are determined；

Wherein, environment temperature correction value includes first environment temperature corrected value and second environment temperature corrected value；

Step S402, the current operational mode of detection unit, and determine correction strategy corresponding with operational mode；

Step S403, according to correction strategy, distinguished using first environment temperature corrected value and second environment temperature corrected value First environment temperature and second environment temperature are modified.

Wherein, operational mode includes: cooling operation mode and heating operation mode.

It should be noted that first environment temperature corrected value and second environment temperature corrected value can be by many experiments come really It is fixed, different model, different regions unit, correction value may there is some difference.And when unit is in heating mode, return Temperature at air port can be higher than actual ambient temperature, and when unit is in refrigeration mode, the temperature at return air inlet can be lower than practical Environment temperature.Therefore, if you need to make revised temperature closer to environment temperature, under different operational modes, difference need to be taken Correction strategy.After amendment, revised first environment temperature value and revised second environment temperature value can be carried out Compare；Environment temperature is determined according to comparison result.The reference parameter of determining environment temperature is increased as a result, so that final determine Environment temperature it is more accurate.Under the premise of accurate determining environment temperature, to control the operation of unit, to be further ensured that The comfort of user.Such as: when unit is air-conditioner with fixed frequency, when environment temperature reaches set temperature, unit can be shut down. Then accurately determine that environment temperature may make unit to shut down without shutting down too long, or suitably, to guarantee the comfort of user.

In one possible implementation, when operational mode is cooling operation mode, according to correction strategy, the is utilized One environment temperature correction value and second environment temperature corrected value are respectively modified first environment temperature and second environment temperature It is realized by following formula:

T_ix=T_Xi+ΔT_Xi-1；

T_ih=T_hi+ΔT_hi-1；

In one possible implementation, when operational mode is heating operation mode, according to correction strategy, the is utilized One environment temperature correction value and second environment temperature corrected value are respectively modified first environment temperature and second environment temperature It is realized by following formula:

T_ix=T_Xi-ΔT_Xi-1；

T_ih=T_hi-ΔT_hi-1；

Wherein, T_ixFor revised first environment temperature value；T_ihFor revised second environment temperature value；T_XiIt is first Ambient temperature value, T_hiFor second environment temperature value；ΔT_Xi-1For first environment temperature corrected value；ΔT_hi-1For second environment temperature Correction value；I is positive integer, and i indicates to obtain the number of first environment temperature and second environment temperature.

It will be appreciated that when unit is in refrigeration mode, the temperature at return air inlet can be lower than actual ambient temperature, and machine When group is in heating mode, the temperature at return air inlet can be higher than actual ambient temperature.Then in heating mode, first environment temperature Value, second environment temperature value are higher than environment temperature, then correction strategy is that first environment temperature value subtracts first environment temperature adjustmemt Value, second environment temperature value subtracts second environment temperature corrected value, to obtain more accurate environment temperature.

It should be noted that first environment temperature corrected value is determined by following formula:

ΔT_Xi-1=(T_hi-1-T_Xi-1)；

Second environment temperature value correction value is determined by following formula:

ΔT_hi-1=(T_hi-1-T_Xi-1)/2；

Wherein, T_hi-1For the preceding second environment temperature once obtained；T_Xi-1For the preceding first environment temperature once obtained；Work as i When being 1, T_hi-1、T_Xi-1Respectively indicate the last second environment temperature and first environment temperature that obtain of the unit before operation. Above-mentioned formula can be determined before unit dispatches from the factory by many experiments, to further determine that accurate correction value, so that final true Fixed environment temperature is closer to actual environment temperature.

In one possible implementation, as shown in figure 5, step S2022, by revised first environment temperature value and Revised second environment temperature value is compared；Determine that environment temperature includes: according to comparison result

Step S501, more revised first environment temperature value whether≤revised second environment temperature value；If It is to then follow the steps S502；If not, thening follow the steps S503；

Step S502, determine that first environment temperature value is environment temperature；

Step S503, determine that second environment temperature value is environment temperature.

It will be appreciated that lesser value is determined as environment temperature, can further decrease by revised two temperature values Error improves the accuracy for determining environment temperature.

In one possible implementation, step S104, if it is not, then determining environment temperature according to second environment temperature It include: to be modified according to second environment temperature corrected value to second environment temperature；Revised second environment temperature value is true It is set to environment temperature.

As a result, when placement location, the not enough power supply because of situations such as remote controler can not get first environment temperature, Second environment temperature can be modified, and revised second environment temperature is determined as environment temperature.

Fig. 6 shows a kind of monitoring device of environment temperature according to an embodiment of the present invention, and device is for executing above-mentioned reality Method shown in example is applied, device includes:

Module 601 is obtained, for obtaining the first environment temperature of remote controler acquisition and the second environment temperature of unit acquisition；

Judgment module 602 successfully gets first environment temperature for judging whether；If it is, according to first environment Temperature and second environment temperature determine environment temperature；If it is not, then determining environment temperature according to second environment temperature.

In one possible implementation, judgment module 602, are also used to judge whether unit is currently running；If so, First environment temperature and second environment temperature are modified respectively then, determine environment temperature；If it is not, then by first environment temperature Degree and the average value of second environment temperature are determined as environment temperature.

If unit and not running, can directly take the average value of first environment temperature and second environment temperature.To reduce Error.The accuracy of determining environment temperature can be improved as a result,.

In one possible implementation, judgment module 602 are also used to according to environment temperature correction value respectively to first Environment temperature and second environment temperature are modified；By revised first environment temperature value and revised second environment temperature Value is compared；Environment temperature is determined according to comparison result.

It, can be according to first environment temperature and second environment temperature come really as a result, when successfully getting first environment temperature Determine environment temperature, rather than it is single environment temperature is determined according to first environment temperature or second environment temperature, increase really The reference parameter of environment temperature is determined, so that finally determining environment temperature is more accurate.In the accurate premise for determining environment temperature Under, to control the operation of unit, to further ensure the comfort of user.

The embodiment of the present invention also provides a kind of unit, and including device described in Fig. 6, unit can be air-conditioner with fixed frequency.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or device.

The serial number of the above embodiments of the invention is only for description, does not represent the advantages or disadvantages of the embodiments.

Through the above description of the embodiments, those skilled in the art can be understood that above-described embodiment side Method can be realized by means of software and necessary general hardware platform, naturally it is also possible to by hardware, but in many cases The former is more preferably embodiment.Based on this understanding, technical solution of the present invention substantially in other words does the prior art The part contributed out can be embodied in the form of software products, which is stored in a storage medium In (such as ROM/RAM, magnetic disk, CD), including some instructions are used so that a mobile terminal (can be mobile phone, computer, clothes Business device, air conditioner or the network equipment etc.) execute method described in each embodiment of the present invention.

The embodiment of the present invention is described above in conjunction with figure, but the invention is not limited to above-mentioned specific realities Mode is applied, the above mentioned embodiment is only schematical, rather than restrictive, and those skilled in the art exist Under enlightenment of the invention, without breaking away from the scope protected by the purposes and claims of the present invention, many shapes can be also made Formula, all of these belong to the protection of the present invention.

Claims (17)

1. a kind of monitoring method of environment temperature, which is characterized in that the described method includes:

Obtain the first environment temperature of remote controler acquisition and the second environment temperature of unit acquisition；

Judge whether successfully to get the first environment temperature；

If it is, determining environment temperature according to the first environment temperature and the second environment temperature；

If it is not, then determining the environment temperature according to the second environment temperature.

2. the method according to claim 1, wherein obtaining first environment temperature and the institute of the remote controler acquisition Stating the second environment temperature that unit acquires includes:

Every preset time period obtains the first environment temperature of the remote controler acquisition；And

Every preset time period obtains the second environment temperature of the acquisition of the ambient temperature detection device on the unit；Wherein, institute Ambient temperature detection device is stated to be located at the return air inlet of the unit.

3. the method according to claim 1, wherein according to the first environment temperature and the second environment temperature It spends and determines that environment temperature includes:

Judge whether unit is currently running；

If it is, being modified respectively to the first environment temperature and the second environment temperature, environment temperature is determined；

If it is not, then the average value of the first environment temperature and the second environment temperature is determined as the environment temperature.

4. according to the method described in claim 3, it is characterized in that, to the first environment temperature and the second environment temperature It is modified respectively, determines that environment temperature includes:

The first environment temperature and the second environment temperature are modified respectively according to environment temperature correction value；

Revised first environment temperature value and revised second environment temperature value are compared；It is determined according to comparison result The environment temperature.

5. according to the method described in claim 4, it is characterized in that, according to environment temperature correction value respectively to the first environment Temperature and the second environment temperature are modified and include:

Determine first environment temperature corrected value and second environment temperature corrected value；Wherein, the environment temperature correction value includes institute State first environment temperature corrected value and the second environment temperature corrected value；

And the current operational mode of the unit is detected, and determine correction strategy corresponding with the operational mode；

It is right respectively using the first environment temperature corrected value and the second environment temperature corrected value according to the correction strategy The first environment temperature and the second environment temperature are modified.

6. according to the method described in claim 5, it is characterized in that, determining first environment temperature corrected value and second environment temperature Correction value is realized by following formula:

ΔT_Xi-1=(T_hi-1-T_Xi-1)；

ΔT_hi-1=(T_hi-1-T_Xi-1)/2；

Wherein, the T_hi-1For the preceding second environment temperature once obtained；T_Xi-1For the preceding first environment temperature once obtained；When_i When being 1, T_hi-1、T_Xi-1Respectively indicate the last second environment temperature that obtains and first environment of the unit before operation Temperature.

7. according to the method described in claim 5, it is characterized in that, the operational mode includes: cooling operation mode and heating Operational mode.

8. the method according to the description of claim 7 is characterized in that when the operational mode be cooling operation mode when, foundation The correction strategy, using the first environment temperature corrected value and the second environment temperature corrected value respectively to described first Environment temperature and the second environment temperature are modified and are realized by following formula:

T_ix=T_Xi+ΔT_Xi-1；

T_ih=T_hi+ΔT_hi-1；

Wherein, the T_ixFor revised first environment temperature value；The T_ihFor revised second environment temperature value；It is described T_XiFor first environment temperature value, the T_hiFor second environment temperature value；The Δ T_Xi-1For first environment temperature corrected value；It is described ΔT_hi-1For second environment temperature corrected value；I is positive integer, and i indicates to obtain the first environment temperature and the second environment The number of temperature.

9. the method according to the description of claim 7 is characterized in that when the operational mode be heating operation mode when, foundation The correction strategy, using the first environment temperature corrected value and the second environment temperature corrected value respectively to described first Environment temperature and the second environment temperature are modified and are realized by following formula:

T_ix=T_Xi-ΔT_Xi-1；

T_ih=T_hi-ΔT_hi-1；

Wherein, the T_ixFor revised first environment temperature value；The T_ihFor revised second environment temperature value；It is described T_XiFor first environment temperature value, the T_hiFor second environment temperature value；The Δ T_Xi-1For first environment temperature corrected value；It is described ΔT_hi-1For second environment temperature corrected value；I is positive integer, and i indicates to obtain the first environment temperature and the second environment The number of temperature.

10. according to the method described in claim 4, it is characterized in that, by revised first environment temperature value and revised Second environment temperature value is compared；Determine that environment temperature includes: according to comparison result

More revised first environment temperature value whether≤revised second environment temperature value；

If it is, determining that the first environment temperature value is the environment temperature；

If it is not, then determining that the second environment temperature value is the environment temperature.

11. the method according to claim 1, wherein if it is not, then determining institute according to the second environment temperature Stating environment temperature includes:

The second environment temperature is modified according to second environment temperature corrected value；

Revised second environment temperature value is determined as the environment temperature.

12. a kind of monitoring device of environment temperature, which is characterized in that described device is for any one of right of execution 1 to power 11 The method, described device include:

Module is obtained, for obtaining the first environment temperature of remote controler acquisition and the second environment temperature of unit acquisition；

Judgment module successfully gets the first environment temperature for judging whether；If it is, according to the first environment Temperature and the second environment temperature determine environment temperature；If it is not, then determining the environment according to the second environment temperature Temperature.

13. device according to claim 12, which is characterized in that

The judgment module, is also used to judge whether unit is currently running；If it is, to the first environment temperature and described Second environment temperature is modified respectively, determines environment temperature；If it is not, then by the first environment temperature and second ring The average value of border temperature is determined as the environment temperature.

14. device according to claim 13, which is characterized in that

The judgment module is also used to according to environment temperature correction value respectively to the first environment temperature and the second environment Temperature is modified；Revised first environment temperature value and revised second environment temperature value are compared；According to than Relatively result determines the environment temperature.

15. a kind of unit, which is characterized in that the unit includes weighing device described in any one of 12-14,

The unit is air-conditioner with fixed frequency.

16. a kind of computer equipment including memory, processor and stores the meter that can be run on a memory and on a processor Calculation machine program, which is characterized in that the processor is realized as described in any one of claim 1-11 when executing described program Environment temperature monitoring method.

17. a kind of storage medium comprising computer executable instructions, the computer executable instructions are by computer disposal For executing the monitoring method of the environment temperature as described in any one of claim 1-11 when device executes.