CN106705365B - A kind of air conditioning control method and air-conditioning - Google Patents

Abstract

The invention discloses a kind of air conditioning control method and air-conditionings, comprising: processor, to obtain the sleeping quarter zones of user；Infrared temperature probe, to obtain the ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_pWith target temperature value T；In the case of refrigeration, processor is also to choose ambient temperature value T everywhere in infrared temperature probe acquisition₁, T₂, T₃... ... T_pIn maximum of T_max, processor is also to compare T_maxValue and T value, work as T_maxWhen greater than target temperature value T, processor is also T to adjust the outlet air of air-conditioning to blow to temperature_maxRegion；Work as T_maxWhen less than T, processor blows to region other than user sleeping quarter zones to adjust the outlet air of air-conditioning.The compressor frequency and air-out direction that the present invention passes through adjusting air-conditioning, the ambient temperature value around user at this is enabled to reach the requirement of comfort level, environment temperature everywhere can be adjusted according to the different sleeping quarter zones of user, therefore can guarantee that the temperature value of the user whole body everywhere meets the requirement of comfort level when user sleeps.

Description

A kind of air conditioning control method and air-conditioning

Technical field

The present invention relates to air-conditioning technical fields, in particular to a kind of air conditioning control method and air-conditioning.

Background technique

Air conditioner indoor unit wind pushing mechanism is all mostly temperature sensing by installing on air-conditioning to the measurement of circumstance temperature degree at present Device is realized, and temperature sensor can only measure the temperature of the control of very little around indoor unit in practice, with entire environment Temperature especially user's body around environment temperature have biggish error.

In currently available technology can only according to infrared sensor obtain average ambient temperature or average human body temperature come The air-supply for adjusting air-conditioning can not have when user's sleep according to the difference of user sleeping quarter zones ambient enviroments temperature everywhere Body adjusts the air supply direction of air-conditioning, cannot also guarantee that temperature value obtains comfort level requirement everywhere on the whole body when user's sleep.

Summary of the invention

The invention discloses a kind of air conditioning control methods, it is intended to solve how to guarantee the user whole body when user sleeps everywhere Temperature value meets the requirement of comfort level.

In order to solve problem above, the present invention the following steps are included:

Obtain the sleeping quarter zones of user；

Obtain the ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_pWith target temperature value T；

Wherein, P is the integer more than or equal to 1；T_maxFor T₁, T₂, T₃... ... T_pIn maximum value, T_minFor T1, T2, Minimum value in T3 ... ... Tp；

In the case of refrigeration, work as T_maxWhen more than or equal to target temperature value T, it is T that the outlet air for adjusting air-conditioning, which blows to temperature,_max's Region；Work as T_maxWhen less than target temperature value T, the outlet air for adjusting air-conditioning blows to region other than user sleeping quarter zones；

The invention also discloses a kind of air-conditionings, it is intended to solve how to guarantee the environment of the user whole body everywhere in user's sleep Temperature value meets the requirement of comfort level.

In order to solve problem above, the invention discloses a kind of air-conditionings, comprising: processor, to determine the sleep of user Region；Infrared sensor, for obtaining the ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_p；Wherein, P For the integer more than or equal to 1；Processor is also to obtain target temperature T；

In the case of refrigeration, ambient temperature value T of the processor also to choose infrared temperature probe acquisition₁, T₂, T₃... ... T_pIn maximum of T_max, processor is also to compare T_maxValue and T value, work as T_maxWhen more than or equal to target temperature value T, place Reason device is also T to adjust the outlet air of air-conditioning to blow to temperature_maxRegion；Work as T_maxWhen less than T, processor goes out to adjust air-conditioning Wind is to the region other than user sleeping quarter zones.

When user is in sleep, sleeping quarter zones may be not fixed, and in the present invention, processor is used to determine the sleep of user Region, infrared temperature probe obtain the environment temperature T around user₁, T₂,

T₃... ... T_p, processor is also to obtain target temperature value T, and processor is also to compare T₁, T₂, T₃... ... T_pWith T；As ambient temperature value T everywhere₁, T₂, T₃... ... T_pIn maximum of T_maxWhen with target value T difference, processor is empty by adjusting The air-out direction of tune, enables ambient temperature value at this reach the requirement of comfort level, and the present invention can be according to the different sleep areas of user Domain adjusts the environment temperature around user sleeping quarter zones everywhere, therefore can guarantee the user whole body everywhere when user sleeps Temperature value meets the requirement of comfort level.

Detailed description of the invention

The drawings described herein are used to provide a further understanding of the present invention, constitutes part of this application, this hair Bright illustrative embodiments and their description are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1 is the flow chart of the air conditioning control method of one embodiment of the invention；

Fig. 2 is that the air conditioning control method of one embodiment of the invention determines the schematic diagram of user sleeping quarter zones；

Fig. 3 is the air conditioning structure diagram of one embodiment of the invention.

Description of symbols: 1, infrared temperature probe；2, processor；3, compressor.

Specific embodiment

The following description and drawings fully show specific embodiments of the present invention, to enable those skilled in the art to Practice them.Embodiment only represents possible variation.Unless explicitly requested, otherwise individual components and functionality is optional, and And the sequence of operation can change.The part of some embodiments and feature can be included in or replace other embodiments Part and feature.The range of embodiment of the present invention includes the entire scope of claims and the institute of claims There is obtainable equivalent.Herein, each embodiment can individually or generally be indicated that this is only with term " invention " It is merely for convenience, and if in fact disclosing the invention more than one, it is not meant to automatically limit the range of the application For any single invention or inventive concept.Herein, relational terms such as first and second and the like are used only for one Entity, which is perhaps operated, to be distinguished and exists without requiring or implying between these entities or operation with another entity or operation Any actual relationship or sequence.Moreover, the terms "include", "comprise" or its any other variant be intended to it is non-exclusive Property include so that include a series of elements process, method or equipment not only include those elements, but also including Other elements that are not explicitly listed.Each embodiment herein is described in a progressive manner, and each embodiment stresses Be the difference from other embodiments, the same or similar parts in each embodiment may refer to each other.For implementing For structure, product etc. disclosed in example, since it is corresponding with part disclosed in embodiment, so being described relatively simple, phase Place is closed referring to method part illustration.

The invention discloses a kind of air conditioning control method and air-conditionings, it is intended to solve how to guarantee user's week when user sleeps The temperature value of body meets the requirement of comfort level.

First embodiment of the invention discloses a kind of control method of air-conditioning, as shown in Figure 1, including the following steps:

Step S101: user sleeping quarter zones are obtained.

Step S102: the ambient temperature value T around user sleeping quarter zones at P is obtained₁, T₂, T₃... ... T_pAnd target temperature Value T.

Wherein, P is the integer more than or equal to 1；T_maxFor T₁, T₂, T₃... ... T_pIn maximum value, T_minFor T₁, T₂, T₃... ... T_pIn minimum value.

The region away from user sleeping quarter zones boundary set distance is referred to around user sleeping quarter zones, wherein in order to enable environment Temperature value can more accurately reflect the sendible temperature of user, and set distance is the smaller the better, it is contemplated that technical conditions Limitation, set distance cannot take too small, therefore the value range of set distance is between 0.01cm to 0.1m.Set herein away from From specific value set and do not constitute a limitation of the invention, as long as environment temperature can be enabled more accurately to reflect that user sleeps Temperature in dormancy region.

Step S103: in the case of refrigeration, work as T_maxWhen greater than target temperature value T, the outlet air for adjusting air-conditioning blows to temperature and is T_maxRegion；Work as T_maxWhen less than target temperature value T, the outlet air for adjusting air-conditioning blows to region other than user sleeping quarter zones.

When user is in sleep, sleeping quarter zones may be not fixed, the sleeping quarter zones of available user, and then obtain user Ambient temperature value T around body at P₁, T₂, T₃... ... T_p, work as T₁, T₂, T₃... ... T_pMiddle maximum of T_maxWith setting value not Meanwhile the air-out direction by adjusting air-conditioning, enable the ambient temperature value around user sleeping quarter zones reach the requirement of comfort level, this Invention can adjust environment temperature everywhere according to the different sleeping quarter zones of user, therefore can guarantee to use when user sleeps The temperature value of the family whole body everywhere meets the requirement of comfort level.

Wherein, T is chosen₁, T₂, T₃... ... T_pIn maximum of T_maxIt is to find out user sleeping quarter zones ambient enviroment temperature Spend maximum region, that is, the region that user surrounding environment is most warm.When temperature herein is greater than target temperature value, adjust empty Recall wind hitherward.The most hot region for needing most refrigeration of user surrounding environment is namely blowed to, comfort level can be effectively improved. Work as T_maxWhen less than target temperature value T, that is to say, that the maximum value of user surrounding environment temperature is less than target set point.Illustrate to use Family ambient temperature is lower, in order to guarantee that the outlet air of comfort tuning air-conditioning blows to the region other than user sleeping quarter zones.It can Choosing, in the above-described embodiments, in the case that air-conditioning is heated, work as T_minWhen less than or equal to target temperature value T, adjust empty Recall wind to temperature be T_minRegion；Work as T_minWhen greater than target temperature value T, the outlet air for adjusting air-conditioning blows to user's sleep area Region other than domain.It therefore, still can be according to the environment temperature around user sleeping quarter zones in the case where air-conditioning is heated Degree adjusts the wind direction of air-conditioning, still can satisfy the demand of users'comfort in the case of guarantee air-conditioning heating.

Wherein, T is chosen₁, T₂, T₃... ... T_pIn minimum value T_minIt is the smallest in order to find out user surrounding environment temperature Region, that is, the coldest region of user surrounding environment.When temperature herein is less than target temperature value, the outlet air of air-conditioning is adjusted Direction direction herein, that is, the outlet air of air-conditioning blows to the most cold region for needing most heating of user surrounding environment, can be effective Improve comfort level.Work as T_maxWhen greater than target temperature value T, that is, the maximum value of user surrounding environment temperature is greater than target temperature When value T, illustrate that user surrounding environment temperature is higher.In order to guarantee the outlet air of comfort tuning air-conditioning blow to user sleeping quarter zones with Outer region.

Optionally, obtaining user sleeping quarter zones, there are many implementations, and one of optional embodiment is illustrated below, Include:

Determine M horizontal axis and the N longitudinal axis, wherein M, N are the integer greater than 1.

Wherein, as a kind of illustrative examples, M horizontal axis and the N longitudinal axis can be determined in the S of region.S can be room Interior bed, sofa etc., when the area of region S is equal to the area of bed in bedroom, the position of region S is exactly the position of bed in bedroom When, the infrared temperature probe on air-conditioning can be set according to the area of bed in bedroom and position, guarantee infrared measurement of temperature sensing The sample temperature region of device effectively improves the accuracy of control in the S of region.

As shown in Fig. 2, M horizontal axis and the N longitudinal axis have been determined in the S of region, M 6, N 8, specific value is set herein Determine and do not constitute a limitation of the invention, value those skilled in the art about M and N in the specific implementation process can root It is set according to actual needs, as long as M, N are the integer greater than 1.Choose an intersection point T of M horizontal axis and the N longitudinal axis (i, j), wherein i is horizontal axis coordinate, and the value of i is the integer greater than 1 and less than M, and j is ordinate of orthogonal axes, and the value of j is greater than 1 and small In the integer of N；Then 4 intersection points adjacent thereto are respectively as follows: T₁(i, j-1), T₂(i+1,j)、T₃(i, j+1) and T₄(i-1, j), The temperature for comparing T (i, j) 4 intersection points adjacent thereto determines that the difference of T (i, j) point any intersection point temperature value adjacent thereto is big It is sleeping quarter zones in the closed area that the line of the point of threshold value is surrounded, determines that T (i, j) point is the point at human region edge, The number of the point at middle sleeping quarter zones edge is P.

Wherein the value of M and N can be set according to different sampling areas, however, to ensure that the human region finally obtained More accurate, M and N can be the integer greater than 1.About the value of threshold value, with reference to human body, temperature is different everywhere, but temperature becomes The part of change is all to change in gradient, and fixation is compared in general every 2 degree of variations, therefore can be with selected threshold for 2 DEG C~5 DEG C.It can Much smaller than human body and environment temperature difference, and the temperature gap of human body close positions can be greater than.The point of the screening finally obtained connects Closed area made of connecing is human region, that is, user sleeping quarter zones.

Optionally, as a kind of illustrative examples, the ambient temperature value T around user sleeping quarter zones at P is obtained₁, T₂, T₃... ... T_pThere are many implementation methods, and one such optional embodiment is illustrated below, comprising:

It is respectively 0 point with P point of edges of regions, obtains the 4 points of ± D distance on horizontally and vertically direction at this 0 point Temperature；Temperature minimum value is as ambient temperature value T during selection is 4 points described above₁, T₂, T₃... ... T_p, just obtained user Ambient temperature value T around sleeping quarter zones at P₁, T₂, T₃... ... T_p。

Wherein the value of D is related with the precision of selected infrared temperature probe, in order to guarantee the value of the accurate D of result The trueness error value of infrared temperature probe should be greater than or equal to.Because human body temperature is higher than environment temperature, four direction is total One point is external point, this ensure that environment temperature not mispick value, by 4 medium temperatures around the temperature spot filtered out Minimum value is spent as ambient temperature value, is conducive to the comfort level for fully ensuring that environment temperature.

Optionally, after the step S103 of above-described embodiment, further includes:

Work as T_maxGreater than T_lmaxWhen, adjust compressor frequency raising frequency；Work as T_maxLess than or equal to T_lminWhen, adjust compressor frequency Rate frequency reducing.

T_maxGreater than T_lmaxWhen, it adjusts compressor frequency raising frequency and fully ensures that refrigeration effect.T_lmaxValue generally by user Comfort level determine, general temperature be higher than T_lmaxWhen, user just may feel that heat.Comfortable in order to guarantee, ambient temperature is answered T should be less than_lmax, T_lmaxValue be 28 DEG C to 30 DEG C between.

T_maxLess than or equal to T_lminWhen, it adjusts compressor frequency frequency reducing and reaches energy-efficient purpose.T_lminValue generally by The comfort level of user determines.General temperature is lower than T_lminWhen, user just may feel that cold.It is comfortable and energy saving in order to guarantee, week T should be greater than by enclosing environment temperature_lmin, T_lminValue be 22 DEG C to 26 DEG C between.

Optionally, in the case of heating, work as T_minWhen less than or equal to target temperature value T, adjusting air conditioning exhausting blows to temperature and is T_minRegion；Work as T_minWhen greater than target temperature value T, adjust air-conditioning outlet air blow to other than user sleeping quarter zones region packet It includes: working as T_maxLess than T_rminWhen, adjust compressor frequency raising frequency；Work as T_maxMore than or equal to T_rmaxWhen, adjust compressor frequency drop Frequently.

T_maxLess than T_rminWhen, it adjusts compressor frequency raising and fully ensures that heating effect.T_rminValue generally by user Comfort level determine.Lower than T_rminWhen user just may feel that cold, comfortable in order to guarantee, ambient temperature should be greater than T_rmin, T_rminValue be 15 DEG C to 20 DEG C between.

If T_maxMore than or equal to T_rmaxWhen, it reduces compressor frequency and reaches energy-efficient purpose.T_rmaxValue generally by The comfort level of user determines.General temperature is higher than T_rmaxWhen, user just may feel that heat.Comfortable, the ambient enviroment temperature in order to guarantee Degree should be less than T_rmax, T_rmaxValue be 20 DEG C to 25 DEG C between.

Second embodiment of the invention discloses a kind of air-conditioning, as shown in Figure 3, comprising: processor 2, to determine that user sleeps Dormancy region；Infrared temperature probe 1, temperature value T at the P for obtaining user sleeping quarter zones ambient enviroment₁, T₂, T₃... ... T_p, Processor 2 is to obtain target temperature value T；In the case of refrigeration, processor 2 is also to choose the acquisition of infrared temperature probe 1 Ambient temperature value T everywhere₁, T₂, T₃... ... T_pIn maximum of T_max, processor 2 is also to compare T_maxValue and T value, work as T_max When more than or equal to target temperature value T, processor 2 is also T to adjust the outlet air of air-conditioning to blow to temperature_maxRegion；Work as T_max When less than the T, processor 2 blows to region other than user sleeping quarter zones to adjust the outlet air of air-conditioning.

Wherein, processor 2 chooses T₁, T₂, T₃... ... T_pIn maximum of T_maxIt is to find out user surrounding environment temperature Maximum region, that is, the region that user surrounding environment is most warm, when temperature herein is greater than target temperature value, processor 2 The outlet air for adjusting air-conditioning blows to herein, that is, blows to the most hot region for needing most refrigeration of user surrounding environment, can effectively mention High degree of comfort.Work as T_maxWhen less than target temperature value T, that is to say, that the maximum value of user surrounding environment temperature is less than goal-setting Value, illustrates that user surrounding environment temperature is lower, in order to guarantee that the outlet air of the adjusting air-conditioning of comfort level processor 2 blows to user's sleep area Region other than domain.

It optionally, in the above-described embodiments, further include that the adjustable compressor 3 of frequency works as T_maxGreater than T_lmaxWhen, processor 2 to adjust 3 frequency raising frequency of compressor；Work as T_maxLess than or equal to T_lminWhen, processor 2 is also to adjust 3 frequency of compressor drop Frequently.

T_maxGreater than T_lmaxWhen, processor 2 also fully ensures that refrigeration effect to adjust 3 frequency raising frequency of compressor.T_lmax's Value is generally determined that general temperature is higher than T by the comfort level of user_lmaxWhen, user just may feel that heat, it is comfortable in order to guarantee, Ambient temperature should be less than T_lmax, T_lmaxValue be 28 DEG C to 30 DEG C between.

T_maxLess than T_lminWhen, processor 2 adjusts 3 frequency down of compressor and reaches energy-efficient purpose, T_lminValue it is general It is determined by the comfort level of user, general temperature is lower than T_lminWhen, user just may feel that it is cold, it is comfortable and energy saving in order to guarantee, Ambient temperature should be greater than T_lmin, T_lminValue be 22 DEG C to 26 DEG C between.

Optionally, in the above-described embodiments, in the case that air-conditioning is heated, processor 2 is passed to choose infrared measurement of temperature The ambient temperature value T that sensor 1 obtains₁, T₂, T₃... ... T_pIn minimum value T_min, processor 2 is also to compare T_minValue and mesh Temperature value T is marked, T is worked as_minWhen less than or equal to target temperature value T, processor 2 also blows to temperature adjusting the outlet air of air-conditioning and is T_minRegion；Work as T_minWhen greater than T, the outlet air that processor 2 adjusts air-conditioning blows to the region other than user sleeping quarter zones.Air-conditioning exists In the case of heating, still outlet air can be adjusted according to the environment temperature around user sleeping quarter zones, therefore can guarantee air-conditioning system Environment temperature still meets the requirement of comfort level everywhere for sleeping quarter zones when user sleeps in hot situation.

Wherein, processor 2 chooses T₁, T₂, T₃... ... T_pIn minimum value T_minIt is to find out user surrounding environment temperature The smallest region, that is, the coldest region of user surrounding environment.When temperature herein is less than target temperature value, processor 2 The outlet air for adjusting air-conditioning blows to herein, that is, blows to the most cold region for needing most heating of user surrounding environment, can effectively mention High degree of comfort.Work as T_maxWhen greater than target temperature value T, that is, the maximum value of user surrounding environment temperature is greater than target temperature value T When, illustrate that user surrounding environment temperature is higher.In order to guarantee that the outlet air of the adjusting air-conditioning of comfort level processor 2 blows to user's sleep area Region other than domain.

Optionally, in the above-described embodiments, which further includes the adjustable compressor 3 of frequency, works as T_minLess than T_rminWhen, Processor 2 is also to adjust 3 frequency raising frequency of compressor；Work as T_minMore than or equal to T_rmaxWhen, processor 2 is also to adjust compression 3 frequency down of machine.

Work as T_maxLess than T_rminWhen, processor 2 adjusts the raising of 3 frequency of compressor and fully ensures that heating effect.T_rminValue It is generally determined by the comfort level of user, is lower than T_rminWhen user just may feel that cold, comfortable in order to guarantee, ambient temperature is answered T should be greater than_rmin, T_rminValue be 15 DEG C to 20 DEG C between.

T_maxMore than or equal to T_rmaxWhen, processor 2 reduces by 3 frequency of compressor and reaches energy-efficient purpose.T_rmaxValue one As determined by the comfort level of user, general temperature be higher than T_rmaxWhen, user just may feel that heat, surrounding ring comfortable in order to guarantee Border temperature should be less than T_rmax, T_rmaxValue be 20 DEG C to 25 DEG C between.

Optionally, processor 2 is to determine that there are many implementation methods for user sleeping quarter zones, are illustrated below one of optional Embodiment, comprising: determine M horizontal axis and the N longitudinal axis, wherein M, N are the integer greater than 1.

Wherein, processor 2 can obtain M horizontal axis and the N longitudinal axis in the S of region, and region S is as defined above, this In repeat no more.

The intersection point of M horizontal axis and the N longitudinal axis is T (i, j), and wherein i is horizontal axis coordinate, and the value of i is greater than 1 and to be less than The integer of M, j are ordinate of orthogonal axes, and the value of j is the integer greater than 1 and less than N；Infrared temperature probe 1 is to detect T (i, j) point Temperature value and M horizontal axis adjacent with T point and the N longitudinal axis intersection point temperature value, processor 2 is to compare T (i, j) point temperature Value and the intersection point temperature value adjacent with T (i, j) point, processor 2 is to determine T (i, j) point and its any adjoining nodes temperature The closed area that the line that the difference of value is greater than the point of threshold value is surrounded is sleeping quarter zones, and processor 2 is also to determine T (i, j) The point that the difference of point and the temperature value of its any adjoining nodes is greater than threshold value is the point at sleeping quarter zones edge, wherein sleeping quarter zones side The number of the point of edge is P.

Wherein the value of M and N can be set according to different sampling areas.However, to ensure that the human region finally obtained More accurate, M and N can be the integer greater than 1.About the value of threshold value, with reference to human body, temperature is different everywhere, but temperature becomes The part of change is all to change in gradient, and fixation is compared in general every 2 degree of variations.Therefore can be with selected threshold for 2 DEG C~5 DEG C, it can Much smaller than human body and environment temperature difference, and the temperature gap of human body proximate region can be greater than；The screening that last processor obtains The closed area that is formed by connecting of T (i, j) point be human region, that is, the sleeping quarter zones of user.

In the above-described embodiments, infrared temperature probe 1 obtains the ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_pThere are many implementations, and one of optional embodiment is illustrated below:

Optionally, infrared temperature probe 1 obtains the ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_pIt include: with the P point at sleeping quarter zones edge is respectively 0 point, processor 2 is also to determine 0 point of distance horizontally and vertically direction 4 points of position of upper ± D distance；Infrared temperature probe 1 is to obtain 4 points of the temperature；Processor 2 is according to infrared survey 4 temperature that temperature sensor 1 obtains determine that temperature minimum value is as each 0 point of the use in user sleeping quarter zones edge in described 4 points Family sleeping quarter zones ambient temperature value T₁, T₂, T₃... ... T_p, i.e., ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_p。

Wherein the value of D is related with the precision of selected infrared temperature probe, in order to guarantee the value of the accurate D of result The trueness error value of infrared temperature probe should be greater than or equal to.Because human body temperature is higher than environment temperature, four direction is total One point is external point, this ensure that environment temperature not mispick value, processor is by 4 around the temperature spot filtered out Temperature minimum value is conducive to the comfort level for fully ensuring that environment temperature as ambient temperature value in point.

The above description of the embodiment is only used to help understand the method for the present invention and its core ideas；Meanwhile for this The those skilled in the art in field, according to the thought of the present invention, there will be changes in the specific implementation manner and application range, In conclusion the contents of this specification are not to be construed as limiting the invention.

It should be understood that the invention is not limited to the process and structure that are described above and are shown in the accompanying drawings, And various modifications and changes may be made without departing from the scope thereof.The scope of the present invention is only limited by the attached claims System.

Claims (12)

1. a kind of air conditioning control method characterized by comprising

Obtain the sleeping quarter zones of user；

Obtain the ambient temperature value T around the user sleeping quarter zones at P₁, T₂, T₃... ... T_pWith target temperature value T；

Wherein, the P is the integer more than or equal to 1；T_maxFor the T₁, T₂, T₃... ... T_pIn maximum value, T_minIt is described T₁, T₂, T₃... ... T_pIn minimum value；

In the case of refrigeration, as the T_maxWhen more than or equal to the target temperature value T, the outlet air for adjusting air-conditioning blows to the ring Border temperature is T_maxRegion；As the T_maxWhen less than the target temperature value T, the outlet air for adjusting air-conditioning blows to the user and sleeps Region other than dormancy region.

2. the method as described in claim 1, which is characterized in that in the case of heating, as the T_minLess than or equal to the target When temperature value T, it is T that the outlet air for adjusting air-conditioning, which blows to the environment temperature,_minRegion；As the T_minGreater than the target temperature When value T, the outlet air for adjusting air-conditioning blows to region other than the user sleeping quarter zones.

3. method according to claim 1 or 2, it is characterised in that the acquisition user sleeping quarter zones include:

Determine M horizontal axis and the N longitudinal axis, wherein M, N are the integer greater than 1, the friendship of the M horizontal axis and the N longitudinal axis Point is T (i, j), and wherein i is horizontal axis coordinate, and the value of i is the integer greater than 1 and less than M, and j is ordinate of orthogonal axes, and the value of j is greater than 1 And it is less than the integer of N；

The difference of the temperature value of T (i, the j) point and its any adjoining nodes is greater than the closing that the line of the point of threshold value is surrounded Region is sleeping quarter zones, determines that T (i, the j) point is greater than the point of the threshold value with the difference of the temperature value of its any adjoining nodes For the point at the sleeping quarter zones edge；Wherein the number of the point at the sleeping quarter zones edge is P.

4. method as claimed in claim 3, it is characterised in that the ambient temperature value obtained around user sleeping quarter zones at P T₁, T₂, T₃... ... T_pInclude:

It is respectively 0 point with the P point at the sleeping quarter zones edge, obtains ± D the distance on horizontally and vertically direction at this 0 point 4 points of temperature；

Choose the ambient temperature value T of temperature minimum value in 4 points described above as each 0 point of user sleeping quarter zones edge₁, T₂, T₃... ... T_p, i.e., ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_p。

5. the method as described in claim 1, which is characterized in that further include:

As the T_maxGreater than T_lmaxWhen, adjust compressor frequency raising frequency；

As the T_maxLess than or equal to T_lminWhen, adjust compressor frequency frequency reducing；

Wherein, T_lmaxFor the body-sensing high temperature preset value in the case of refrigeration, T_lminFor the body-sensing low temperature preset value in the case of refrigeration.

6. method according to claim 2, which is characterized in that further include:

As the T_minLess than T_rminWhen, adjust compressor frequency raising frequency；

As the T_minMore than or equal to T_rmaxWhen, adjust compressor frequency frequency reducing；

Wherein, T_rmaxFor the body-sensing high temperature preset value in the case of heating, T_rminFor the body-sensing low temperature preset value in the case of heating.

7. a kind of air-conditioning characterized by comprising

Processor, to determine user sleeping quarter zones；

Infrared temperature probe, for obtaining the ambient temperature value T around the user sleeping quarter zones at P₁, T₂, T₃... ... T_p； Wherein, P is the integer more than or equal to 1；

The processor is also to obtain target temperature value T；

In the case of refrigeration, the ambient temperature value T of the processor also to choose the infrared temperature probe acquisition₁, T₂, T₃... ... T_pIn maximum of T_max, the processor is also to the T_maxValue and the T value, as the T_maxGreatly When the target temperature value T, the processor also blows to the environment temperature to adjust the outlet air of the air-conditioning For T_maxRegion；As the T_maxWhen less than the T, the processor blows to the user to adjust the outlet air of the air-conditioning Region other than sleeping quarter zones.

8. air-conditioning as claimed in claim 7, it is characterised in that: in the case of heating, the processor is described infrared to choose The ambient temperature value T that temperature transducer obtains₁, T₂, T₃... ... T_pIn minimum value T_min, the processor also to than The T_minWith the target temperature value T, as the T_minWhen less than or equal to the target temperature value T, the processor is also It is T that outlet air to adjust the air-conditioning, which blows to the environment temperature,_minRegion；As the T_minWhen greater than the T, the place Reason device also blows to region other than the user sleeping quarter zones to adjust the outlet air of the air-conditioning.

9. air-conditioning as claimed in claim 7 or 8, which is characterized in that the processor to determine user sleeping quarter zones include: The processor is to determine M horizontal axis and the N longitudinal axis, and wherein M, N are the integer greater than 1, the M horizontal axis and the N The intersection point of the longitudinal axis is T (i, j), and wherein i is horizontal axis coordinate, and the value of i is greater than 1 and to be less than the integer of M, and j is ordinate of orthogonal axes, And the value of j is the integer greater than 1 and less than N；

The infrared temperature probe to detect T (i, j) the point temperature value and with adjacent described of T (i, the j) point The temperature value of horizontal axis and the longitudinal axis intersection point, the processor is to T (i, j) the point temperature value friendship adjacent thereto Point temperature value, the processor are greater than threshold value to the difference of determination T (i, the j) point and any adjacent intersection point temperature value The closed area that is surrounded of line of point be sleeping quarter zones, processor is also any adjacent with its to determination T (i, the j) point The point that the difference of the temperature value of the intersection point is greater than threshold value is the point at sleeping quarter zones edge, wherein the point at the sleeping quarter zones edge Number be P.

10. air-conditioning as claimed in claim 9, it is characterised in that the infrared temperature probe obtains the user sleeping quarter zones Ambient temperature value T at surrounding P₁, T₂, T₃... ... T_pInclude:

Be respectively 0 point with the P point at the sleeping quarter zones edge, the processor also determining apart from 0 horizontal axis and 4 points of position of ± D distance on y direction；

The infrared temperature probe is to obtain 4 points of the temperature value；

The processor is to the minimum value in determination 4 temperature values as each 0 point of user sleeping quarter zones edge Ambient temperature value T₁, T₂, T₃... ... T_p, i.e., ambient temperature value T around user sleeping quarter zones at P₁, T₂, T₃... ... T_p。

11. air-conditioning as claimed in claim 7, which is characterized in that the air-conditioning further includes the adjustable compressor of frequency；

As the T_maxGreater than T_lmaxWhen, the processor is to adjust the compressor frequency raising frequency；

As the T_maxLess than or equal to T_lminWhen, the processor is also to adjust the compressor frequency frequency reducing；

Wherein, T_lmaxFor the body-sensing high temperature preset value in the case of refrigeration, T_lminFor the body-sensing low temperature preset value in the case of refrigeration.

12. air-conditioning as claimed in claim 8, which is characterized in that the air-conditioning further includes the adjustable compressor of frequency；

As the T_minLess than T_rminWhen, the processor is also to adjust the compressor frequency raising frequency；

As the T_minMore than or equal to T_rmaxWhen, the processor is also to adjust the compressor frequency frequency reducing；

Wherein, T_rmaxFor the body-sensing high temperature preset value in the case of heating, T_rminFor the body-sensing low temperature preset value in the case of heating.