CN104235997A - Air conditioner control method and air conditioner system - Google Patents

Abstract

The invention discloses an air conditioner control method and an air conditioner system. The air conditioner control method includes the following steps that a wearing type device collects body temperature and heart rate information of a user and transmits the body temperature and the heart rate information to an air conditioner control device to enable the air conditioner control device to adjust the temperature of an air conditioner according to the body temperature, the heart rate information and the environment temperature. The method and the system can adjust the operation state of the air conditioner according to the thermal comfort condition of a human body and solve various problems caused by program solidification, enables air conditioner operation to be humanized and intelligent and further enables the air conditioner to be more comfortable in performance and save energy.

Description

Air conditioning control method and air-conditioning system

Technical field

The present invention relates to air-conditioning technical field, particularly air conditioning control method and air-conditioning system.

Background technology

Since air-conditioning is born, air-conditioning is reference temperature sensor and the change of environment temperature is made to the control of corresponding refrigerating/heating, is a kind of control model based on variation of ambient temperature.Although there is the hommization control mode (as sleep curve) of solidification, be all to temperature pleasant scope with reference to General Population, air-conditioning inside is run with the program circuit of solidification, all all the time, air-conditioning cannot be allowed for leading with the comfortableness situation of user's human body to adjust the real-world operation state of air-conditioning, and then adjusting ambient parameter is to meet the comfortableness requirement of human body.

In former warm and humid dual control comfortableness project, data can find by experiment: indoor environment temperature is also uneven, and the geographical position different in room generally exists the temperature contrast of (-3 ,+3) degree Celsius.This difference causes the reference parameter T1(indoor temperature controlling operation of air conditioner) variant with the temperature of the position residing for user's reality, and then cause the running of air-conditioning to be that the drive manner that deviate from human body comfort runs, thus there is not humane operational mode, cause the temperature residing for user's reality to be not at user's design temperature.In this case, a kind of air-conditioning having sense is with oneself proposed, by the sensor of sense temperature dress on a remote control, and the position that remote controller is placed generally neither position residing for user's reality, thus, the control model of band with oneself sense can not with human peripheral's actual temperature for reference to the running controlling air-conditioning.

As above two technical problems, existing air-conditioning is caused to have following shortcoming: to make the inconvenience on using on the one hand, on the other hand because of program Solidification, and cause the problems such as " inferior health ", " air conditioner disease " and " flu that air-conditioning causes " more and more received much concern.Simultaneously because run solidification, run unreasonable, and cause the phenomenon occurring air-conditioning waste energy.

Summary of the invention

Object of the present invention is intended to solve the problems of the technologies described above at least to a certain extent.

For this reason, one object of the present invention is to propose a kind of air conditioning control method, the working order regulating and controlling air-conditioning according to the thermal comfort situation of human body can be realized, the various problems caused because of program Solidification can be overcome, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

Another object of the present invention is to propose a kind of air-conditioning system.

For achieving the above object, first aspect present invention embodiment proposes a kind of air conditioning control method, comprises the steps:

Wearable gathers body temp and the heart rate information of user;

Described body temp and heart rate information are sent to air-conditioner controller by described Wearable, adjust according to described body temp, heart rate information and the environment temperature temperature to described air-conditioning to make described air-conditioner controller.

According to the air conditioning control method that the embodiment of the present invention proposes, according to the physiological parameter of user and environment temperature, air-conditioner controller can judge that the thermal comfort situation of human body is to realize adjusting the temperature of air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

In one embodiment of the invention, described environment temperature is gathered by described Wearable, or described environment temperature is gathered by described air-conditioner controller.

In one embodiment of the invention, described heart rate information is heart rate mutation information.

In one embodiment of the invention, when described environment temperature is greater than the first temperature threshold, judge whether described body temp is greater than the first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of heart rate; If so, then the compressor that described air-conditioner controller controls described air-conditioning carries out refrigeration work with predeterminated frequency; If not, then described air-conditioner controller controls described air-conditioning and carries out refrigeration work according to the first temperature, and wherein, described first temperature is the difference that the design temperature of described air-conditioning and the first temperature adjust threshold value.

In one embodiment of the invention, when described environment temperature is less than or equal to described first temperature threshold and is more than or equal to the second temperature threshold, judge whether described body temp is greater than described first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second temperature threshold is less than described first temperature threshold; If so, then described air-conditioner controller controls described air-conditioning and carries out refrigeration work according to described first temperature; If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

In one embodiment of the invention, when described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, judge whether described body temp is greater than described first body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 3rd temperature threshold is less than described second temperature threshold; If so, then described air-conditioner controller controls described air-conditioning and carries out refrigeration work according to described first temperature; If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

In one embodiment of the invention, when described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, also judge whether described body temp is less than described second body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second body temp threshold value is less than described first body temp threshold value; If so, then described air-conditioner controller controls described air-conditioning and carries out heating work according to the second temperature, and wherein, described second temperature is that the design temperature of described air-conditioning and the second temperature adjust threshold value sum; If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

In one embodiment of the invention, when described environment temperature is less than described 3rd temperature threshold and is more than or equal to the 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 4th temperature threshold is less than described 3rd temperature threshold; If so, then described air-conditioner controller controls described air-conditioning and carries out heating work according to described second temperature; If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

In one embodiment of the invention, when described environment temperature is less than described 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate; If so, then the compressor that described air-conditioner controller controls described air-conditioning carries out heating work with described predeterminated frequency; If not, then described air-conditioner controller controls described air-conditioning and carries out heating work according to described second temperature.

For reaching above-mentioned purpose, second aspect present invention embodiment proposes a kind of air conditioning control method, comprises the steps:

Wearable gathers the body temp of user, heart rate information and environment temperature;

Described body temp, heart rate information and environment temperature are generated temperature adjustment instructions by described Wearable, and described temperature adjustment instructions is sent to air-conditioner controller.

According to the air conditioning control method that the embodiment of the present invention proposes, Wearable can judge the thermal comfort situation of human body according to the physiological parameter of user and environment temperature and generate corresponding temperature adjustment instructions, air-conditioner controller adjusts according to the temperature of temperature adjustment instructions to air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

In one embodiment of the invention, described heart rate information is heart rate mutation information.

In one embodiment of the invention, when described environment temperature is greater than the first temperature threshold, judge whether described body temp is greater than the first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of heart rate; If so, then described Wearable generates the compressor controlling described air-conditioning carries out refrigeration work the first temperature adjustment instructions with predeterminated frequency; If not, then described Wearable generates and controls described air-conditioning carries out refrigeration work the second temperature adjustment instructions according to the first temperature, and wherein, described first temperature is the difference that the design temperature of described air-conditioning and the first temperature adjust threshold value.

In one embodiment of the invention, when described environment temperature is less than or equal to described first temperature threshold and is more than or equal to the second temperature threshold, judge whether described body temp is greater than described first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second temperature threshold is less than described first temperature threshold; If so, then described Wearable generates described second temperature adjustment instructions; If not, then described Wearable generates the 3rd temperature adjustment instructions controlling described air-conditioning and keep the current operating parameters of described air-conditioning to run.

In one embodiment of the invention, when described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, judge whether described body temp is greater than described first body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 3rd temperature threshold is less than described second temperature threshold; If so, then described Wearable generates described second temperature adjustment instructions; If not, then described Wearable generates described 3rd temperature adjustment instructions.

In one embodiment of the invention, when described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, also judge whether described body temp is less than described second body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second body temp threshold value is less than described first body temp threshold value; If so, then described Wearable generates and controls described air-conditioning carries out the work that heats the 4th temperature adjustment instructions according to the second temperature, and wherein, described second temperature is that the design temperature of described air-conditioning and the second temperature adjust threshold value sum; If not, then described Wearable generates described 3rd temperature adjustment instructions.

In one embodiment of the invention, when described environment temperature is less than described 3rd temperature threshold and is more than or equal to the 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 4th temperature threshold is less than described 3rd temperature threshold; If so, then described Wearable generates described 4th temperature adjustment instructions; If not, then described Wearable generates described 3rd temperature adjustment instructions.

In one embodiment of the invention, when described environment temperature is less than described 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate; If so, then described Wearable generates the compressor controlling described air-conditioning carries out the work that heats the 5th temperature adjustment instructions with described predeterminated frequency; If not, then described Wearable generates described 4th temperature adjustment instructions.

For reaching above-mentioned purpose, third aspect present invention embodiment proposes a kind of air-conditioning system, comprising: Wearable, for gathering body temp and the heart rate information of user; Air-conditioner controller, described air-conditioner controller is arranged in the indoor set of described air-conditioning, radio communication is carried out between described air-conditioner controller and described Wearable, described air-conditioner controller for receiving described body temp and the heart rate information of the collection of described Wearable, and adjusts according to described body temp, heart rate information and the environment temperature temperature to described air-conditioning.

According to the air-conditioning system that the embodiment of the present invention proposes, according to the physiological parameter of user and environment temperature, air-conditioner controller judges that the thermal comfort situation of human body is to realize adjusting the temperature of air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

In one embodiment of the invention, described environment temperature is gathered by described Wearable.

In one embodiment of the invention, described environment temperature is gathered by described air-conditioner controller.

In one embodiment of the invention, described Wearable comprises: first detection module, for detecting body temp and the heart rate information of described user; Second detection module, for detecting described environment temperature; Sending module, for by carrying out radio communication so that described body temp, heart rate information and described environment temperature are sent to described air-conditioner controller with described air-conditioner controller; Power module, described power module is connected with described sending module with described first detection module, the second detection module, powers for giving described first detection module, the second detection module and described sending module.

For reaching above-mentioned purpose, fourth aspect present invention embodiment proposes a kind of air-conditioning system, comprise Wearable and air-conditioning, described air-conditioning comprises described air-conditioner controller, radio communication is carried out between described air-conditioner controller and described Wearable, wherein, described Wearable, for gathering the body temp of user, heart rate information and environment temperature, and generate temperature adjustment instructions according to described body temp, heart rate information and environment temperature, and described temperature adjustment instructions is sent to described air-conditioner controller; Described air-conditioner controller, for adjusting according to the temperature of described temperature adjustment instructions to described air-conditioning.

According to the air-conditioning system that the embodiment of the present invention proposes, Wearable judges the thermal comfort situation of human body according to the physiological parameter of user and environment temperature and generates corresponding temperature adjustment instructions, air-conditioner controller adjusts according to the temperature of temperature adjustment instructions to air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

In one embodiment of the invention, described Wearable comprises: first detection module, for detecting body temp and the heart rate information of described user; Second detection module, for detecting described environment temperature; Control module, described control module is connected with described second detection module respectively with described first detection module, for generating described temperature adjustment instructions according to described body temp, heart rate information and environment temperature; Sending module, described sending module is connected with described control module, for by carrying out radio communication so that described temperature adjustment instructions is sent to described air-conditioner controller with described air-conditioner controller; Power module, described power module is connected with described sending module respectively with described first detection module, the second detection module, control module, powers for giving described first detection module, the second detection module, control module and described sending module.

In one embodiment of the invention, described Wearable also comprises key-press module and display module.

The aspect that the present invention adds and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

The present invention above-mentioned and/or additional aspect and advantage will become obvious and easy understand from the following description of the accompanying drawings of embodiments, wherein:

Fig. 1 is the flow chart of air conditioning control method according to an embodiment of the invention;

Fig. 2 (a) is the analysis process figure of the thermal comfort situation according to the human body in the air conditioning control method of the present invention's specific embodiment;

Fig. 2 (b) is the pleasant climate flow chart according to the thermal comfort situation based on human body in the air conditioning control method of the present invention's specific embodiment;

Fig. 3 is the flow chart of air conditioning control method in accordance with another embodiment of the present invention;

Fig. 4 is the flow chart of the air conditioning control method according to another specific embodiment of the present invention;

Fig. 5 is the block diagram of air-conditioning system according to an embodiment of the invention;

Fig. 6 is the structural representation of the Wearable in Fig. 5;

Fig. 7 is the block diagram of air-conditioning system in accordance with another embodiment of the present invention; And

Fig. 8 is the structural representation of the Wearable in Fig. 7.

Reference numeral:

Wearable 100, air-conditioner controller 200; First detection module 10, the second detection module 20, sending module 30, power module 40, control module 50, key-press module 60 and display module 70.

Detailed description of the invention

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

Disclosing hereafter provides many different embodiments or example is used for realizing different structure of the present invention.Of the present invention open in order to simplify, hereinafter the parts of specific examples and setting are described.Certainly, they are only example, and object does not lie in restriction the present invention.In addition, the present invention can in different example repeat reference numerals and/or letter.This repetition is to simplify and clearly object, itself does not indicate the relation between discussed various embodiment and/or setting.In addition, the various specific technique that the invention provides and the example of material, but those of ordinary skill in the art can recognize the property of can be applicable to of other techniques and/or the use of other materials.In addition, fisrt feature described below second feature it " on " structure can comprise the embodiment that the first and second features are formed as directly contact, also can comprise other feature and be formed in embodiment between the first and second features, such first and second features may not be direct contacts.

In describing the invention, it should be noted that, unless otherwise prescribed and limit, term " installation ", " being connected ", " connection " should be interpreted broadly, such as, can be mechanical connection or electrical connection, also can be the connection of two element internals, can be directly be connected, also indirectly can be connected by intermediary, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

With reference to description below and accompanying drawing, these and other aspects of embodiments of the invention will be known.Describe at these and in accompanying drawing, specifically disclose some particular implementation in embodiments of the invention, representing some modes of the principle implementing embodiments of the invention, but should be appreciated that the scope of embodiments of the invention is not limited.On the contrary, embodiments of the invention comprise fall into attached claims spirit and intension within the scope of all changes, amendment and equivalent.

With reference to the accompanying drawings to the embodiment of the present invention propose air conditioning control method and air-conditioning system be described.

First the air conditioning control method property entered that to the first aspect of the present invention embodiment proposes describes.Fig. 1 is the flow chart of air conditioning control method according to an embodiment of the invention.

As shown in Figure 1, the air conditioning control method that one embodiment of the invention proposes, comprises the steps:

Step S101, Wearable gathers body temp and the heart rate information of user.

In one embodiment of the invention, heart rate information is heart rate mutation information.Particularly, heart rate mutation is obtained by the situation of change of heart rate.When heart rate mutation Hr is greater than the different denaturation thresholds Hm of heart rate, it is the uncomfortable heart rate of heat; When heart rate mutation Hr is less than or equal to Hm, it is thermal comfort heart rate.Wherein, Hm is 0.87+/-0.01, and preferably, in an example of the present invention, the different denaturation thresholds Hm of heart rate is 0.87.

In an embodiment of the present invention, Wearable can be watch, and body temp is detected by watch, and detecting position is set to the wrist place of user, and the temperature at wrist place generally best embodies the body temp of people.

Wherein, body temp Tb is divided into three temperature grades.When body temp Tb is greater than the first body temp threshold value Tr1, it is the uncomfortable temperature range of heat; When body temp Tb is less than the second body temp threshold value Tr2, it is cold uncomfortable temperature range; When body temp Tb is more than or equal to the second body temp threshold value Tr2 and is less than or equal to the first body temp threshold value Tr1, for cold and hot comfort temperature is interval.Wherein, Tr1 > Tr2, and Tr1 is (33.66+/-0.5) DEG C, Tr2 is (32.49+/-0.5) DEG C, preferably, in an example of the present invention, first body temp threshold value Tr1 is 33.6 DEG C, and the second body temp threshold value Tr2 is 32.5 DEG C.

Therefore, the present invention the relation of com-parison and analysis body temp Tb and the first body temp threshold value Tr1 and the second body temp threshold value Tr2 can obtain the temperature grade of body temp Tb.

Step S102, body temp and heart rate information are sent to air-conditioner controller by Wearable, adjust according to body temp, heart rate information and the environment temperature temperature to air-conditioning to make air-conditioner controller.

In one embodiment of the invention, environment temperature can be gathered by Wearable, or environment temperature also can be gathered by air-conditioner controller.

Wherein, environment temperature Th is divided into five temperature grades.When environment temperature Th is greater than the first temperature threshold Tm, it is very hot temperature range; When environment temperature Th is more than or equal to the second temperature threshold Tm1 and is less than or equal to the first temperature threshold Tm, it is hotter temperature range; When environment temperature Th is more than or equal to the 3rd temperature threshold Tn1 and is less than the second temperature threshold Tm1, for comfort temperature is interval; When environment temperature Th is more than or equal to the 4th temperature threshold Tn and is less than the 3rd temperature threshold Tn1, it is colder temperature range; When environment temperature Th is less than the 4th temperature threshold Tn, it is extremely cold temperature range.Wherein, Tm > Tm1 > Tn1 > Tn, and 40 DEG C of > Tm > Tm1 > 20 DEG C, 24 DEG C of > Tn1 > Tn > 0 DEG C, preferably, in an example of the present invention, the first temperature threshold Tm is 30 DEG C, the second temperature threshold Tm1 is 26 DEG C, the 3rd temperature threshold Tn1 is 22 DEG C, the 4th temperature threshold Tn is 15 DEG C.

Therefore, the present invention the relation of com-parison and analysis environment temperature Th and the first temperature threshold Tm, the second temperature threshold Tm1, the 3rd temperature threshold Tn1 and the 4th temperature threshold Tn can obtain the temperature grade of environment temperature Th.

In an embodiment of the present invention, air-conditioner controller can be such as shell temperature, heart rate information according to body temp is such as the thermal comfort situation of the physiological parameter information such as heart rate mutation and ambient temperature information comprehensive descision human body.Namely say, judge that the foundation of the thermal comfort situation of human body is: body temp Tb, heart rate mutation Hr and environment temperature Th.

The thermal comfort situation of human body can be divided into five intervals by the comprehensive analysis based on the different brackets of body temp Tb, heart rate mutation Hr and environment temperature Th tri-parameters: A3, colder uncomfortable interval A4, extremely cold uncomfortable interval A5 between very hot uncomfortable interval A1, hotter uncomfortable interval A2, comfort zone.Air-conditioner controller adjusts the operational situation of air-conditioning accordingly by the thermal comfort situation analyzing human body.

Fig. 2 (a) pleasant climate flow chart that to be the analysis process figure of the thermal comfort situation according to the human body in the air conditioning control method of the present invention's specific embodiment, Fig. 2 (b) be according to the thermal comfort situation based on human body in the air conditioning control method of the present invention's specific embodiment.

As shown in Figure 2 (a) shows, the analysis process of the thermal comfort situation of human body comprises the following steps:

Step S201, air-conditioning is started shooting.

Step S202, air-conditioner controller obtains body temp Tb and the heart rate mutation Hr and environment temperature Th of user.

Wherein, the body temp Tb of Wearable such as watch collection user and heart rate mutation Hr also sends to air-conditioner controller, environment temperature Th is gathered by Wearable or air-conditioner controller collection, with the body temp Tb and the heart rate mutation Hr and environment temperature Th that make air-conditioner controller obtain user.

Step S203, judges whether environment temperature Th is greater than the first temperature threshold Tm, if so, then performs step S204, otherwise performs step S205.

Step S204, judge whether body temp Tb is greater than the first body temp threshold value Tr1 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, if so, then judge that user is in very hot uncomfortable interval A1, otherwise judge that user is in hotter uncomfortable interval A2.

That is, under environment temperature Th is in very hot temperature range, if body temp Tb is hot uncomfortable temperature range or heart rate mutation Hr is hot uncomfortable heart rate, then judge that now user is as very hot uncomfortable situation; Otherwise judge that now user is as hotter uncomfortable situation.

Step S205, judges whether environment temperature Th is less than or equal to the first temperature threshold Tm and is more than or equal to the second temperature threshold Tm1, if so, then performs step S206, otherwise performs step S207.

Step S206, judges whether body temp Tb is greater than the first body temp threshold value Tr1 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, if so, then judges that user is in hotter uncomfortable interval A2, otherwise judge that user is in A3 between comfort zone.

That is, under environment temperature Th is in hotter temperature range, if body temp Tb is hot uncomfortable temperature range or heart rate mutation Hr is hot uncomfortable heart rate, then judge that now user is as hotter uncomfortable situation; Otherwise judge that now user is as internal consistency of general comfort.

Step S207, judges whether environment temperature Th is less than the second temperature threshold Tm1 and is more than or equal to the 3rd temperature threshold Tn1, if so, then performs step S208 and step S209, otherwise performs step S210.

Step S208, judges whether body temp Tb is greater than the first body temp threshold value Tr1 and whether heart rate mutation Hr is greater than the different denaturation thresholds Hm of heart rate, if so, then judges that user is in hotter uncomfortable interval A2, otherwise judges that user is in A3 between comfort zone.

That is, under environment temperature Th is in comfort temperature interval, if body temp Tb is hot uncomfortable temperature range or heart rate mutation Hr is hot uncomfortable heart rate, then judge that now user is as hotter uncomfortable situation; Otherwise judge that now user is as internal consistency of general comfort.

Step S209, judges whether body temp Tb is less than the second body temp threshold value Tr2 and whether heart rate mutation Hr is greater than the different denaturation thresholds Hm of heart rate, if so, then judges that user is in colder uncomfortable interval A4, otherwise judges that user is in A3 between comfort zone.

That is, under environment temperature Th is in comfort temperature interval, if body temp Tb is cold uncomfortable temperature range and heart rate mutation Hr is hot uncomfortable heart rate, then judge that now user is as colder uncomfortable situation; Otherwise judge that now user is as internal consistency of general comfort.

Step S210, judges whether environment temperature Th is less than the 3rd temperature threshold Tn1 and is more than or equal to the 4th temperature threshold Tn, if so, then performs step S211, otherwise performs step S212.

Step S211, judges whether body temp Tb is less than the second body temp threshold value Tr2 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, if so, then judges that user is in colder uncomfortable interval A4, otherwise judge that user is in A3 between comfort zone.

That is, under environment temperature Th is in colder temperature range, if body temp Tb is cold uncomfortable temperature range or heart rate mutation Hr is hot uncomfortable heart rate, then judge that now user is as colder uncomfortable situation; Otherwise judge that now user is as internal consistency of general comfort.

Step S212, environment temperature Th are less than the 4th temperature threshold Tn, enter next step.

Step S213, judge whether body temp Tb is less than the second body temp threshold value Tr2 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, if so, then judge that user is in extremely cold uncomfortable interval A5, otherwise judge that user is in colder uncomfortable interval A4.

That is, under environment temperature Th is in extremely cold temperature range, if body temp Tb is cold uncomfortable temperature range or heart rate mutation Hr is hot uncomfortable heart rate, then judge that now user is as extremely cold uncomfortable situation; Otherwise judge that now user is as colder uncomfortable situation.

In an embodiment of the present invention, analysis environments temperature Th, body temp Tb and heart rate mutation Hr was come every T3 minute to obtain the thermal comfort situation of user.Wherein, T3 can be 2 ~ 10 minutes, and preferably, T3 is 5 minutes.

Therefore, after analyzing the thermal comfort situation of human body, perform following steps.

Step S214, the adjustment waiting timer TM3 time resets, and timing starts.

Step S215, judges whether the time arrives T3, if so, returns step S202.

In an embodiment of the present invention, obtained the thermal comfort situation of human body by above-mentioned steps, and then control the working order of air-conditioning according to the thermal comfort situation of human body.

As shown in Fig. 2 (b), the method that the present invention is based on the pleasant climate air-conditioning of the thermal comfort situation of human body comprises the following steps:

Step S301, air-conditioning is started shooting.

Step S302, start timer TM1 resets, and timing starts.

Step S303, air-conditioning runs well.

Step S304, judges whether available machine time TM1 reaches D1 minute, if so, then enters next step, otherwise return step S303.

In an embodiment of the present invention, the operational situation adjusting air-conditioning based on five thermal comfort situations of human body performs after air-conditioning start runs D1 minute.Wherein, D1 can be 1 ~ 30 minute.

Step S305, obtains the thermal comfort situation of human body.

Step S306, judges whether user is in very hot uncomfortable interval A1, if so, then performs step S307, otherwise performs step S308.

Step S307, air-conditioning runs in a chiller mode, and compressor is with peak frequency, and indoor fan operates with maximum (top) speed.

That is, if user is in very hot uncomfortable interval A1, then the compressor of air-conditioner controller control air-conditioning carries out refrigeration work with predeterminated frequency and peak frequency.

Step S308, judges whether user is in hotter uncomfortable interval A2, if so, then performs step S309, otherwise performs step S310.

Step S309, air-conditioning runs in a chiller mode, and design temperature Ts reduces N DEG C, and namely design temperature is Ts=Ts-N DEG C and carrys out controlling run.Wherein, Ts=Ts-N DEG C is the first temperature, and N is the first temperature adjustment threshold value.Wherein, N can be 1 ~ 5 DEG C.

That is, if user is in hotter uncomfortable interval A2, then air-conditioner controller controls air-conditioning and carries out refrigeration work according to the first temperature, and wherein, the first temperature is the difference that the design temperature of air-conditioning and the first temperature adjust threshold value.

Step S310, judges whether user is in extremely cold uncomfortable interval A5, if so, then performs step S311, otherwise performs step S312.

Step S311, air-conditioning runs with heating mode, and compressor is with peak frequency, and indoor fan operates with maximum (top) speed.

That is, if user is in extremely cold uncomfortable interval A5, then the compressor of air-conditioner controller control air-conditioning carries out heating work with predeterminated frequency and peak frequency.

Step S312, judges whether user is in colder uncomfortable interval A4, if so, then performs step S313, otherwise performs step S314.

Step S313, air-conditioning runs with heating mode, and design temperature Ts raises M DEG C, and namely design temperature is Ts=Ts+M DEG C and carrys out controlling run, and wherein, Ts=Ts+M DEG C is the second temperature, and M is the second temperature adjustment threshold value.Wherein, M can be 1 ~ 5 DEG C.

That is, if user is in colder uncomfortable interval A4, then air-conditioner controller controls air-conditioning and carries out heating work according to the second temperature, and wherein, the second temperature is that the design temperature of air-conditioning and the second temperature adjust threshold value sum.

Step S314, user is in A3 between comfort zone, enters next step S315.

Step S315, the parameter that air-conditioning maintains current operation is run.

That is, if user is in A3 between comfort zone, then air-conditioner controller controls the current operating parameters operation that air-conditioning keeps air-conditioning.

In an embodiment of the present invention, when air-conditioner controller adjusts accordingly according to the operational situation of five of human body thermal comfort situations to air-conditioning, after adjustment, continue to adjust by new human body five thermal comfort situations after running T2 minute, T2 minute according to new controling parameters.Wherein, T2 can be 5 ~ 30 minutes, and preferably, T2 is 15 minutes.

Therefore, after the operational situation of air-conditioning is adjusted accordingly, perform following steps.

Step S316, the adjustment waiting timer TM2 time resets, and timing starts.

Step S317, judges whether the time arrives T2, if so, returns step S205.

As shown in Fig. 2 (a) He Fig. 2 (b), the present invention is by the thermal comfort physiological parameter of human body, air-conditioner controller and then analysis obtain the thermal comfort situation of human body, and adjust the operating parameters of air-conditioning according to the thermal comfort situation of human body, and reaching with human comfort is the running of leading.

In sum, in an embodiment of the present invention, when environment temperature is greater than the first temperature threshold, judge whether body temp is greater than the first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of heart rate; If so, then the compressor of air-conditioner controller control air-conditioning carries out refrigeration work with predeterminated frequency; If not, then air-conditioner controller controls air-conditioning and carries out refrigeration work according to the first temperature, and wherein, the first temperature is the difference that the design temperature of air-conditioning and the first temperature adjust threshold value.

In an embodiment of the present invention, when environment temperature is less than or equal to the first temperature threshold and is more than or equal to the second temperature threshold, judge whether body temp is greater than the first body temp threshold value or whether heart rate mutation is greater than the different denaturation thresholds of heart rate, wherein, the second temperature threshold is less than described first temperature threshold; If so, then air-conditioner controller control air-conditioning carries out refrigeration work according to the first temperature; If not, then air-conditioner controller controls the current operating parameters operation of air-conditioning maintenance air-conditioning.

In an embodiment of the present invention, when environment temperature is less than the second temperature threshold and is more than or equal to the 3rd temperature threshold, judge whether body temp is greater than the first body temp threshold value and whether heart rate mutation is greater than the different denaturation thresholds of heart rate, wherein, the 3rd temperature threshold is less than the second temperature threshold; If so, then air-conditioner controller control air-conditioning carries out refrigeration work according to the first temperature; If not, then air-conditioner controller controls the current operating parameters operation of air-conditioning maintenance air-conditioning.

In an embodiment of the present invention, when environment temperature is less than the second temperature threshold and is more than or equal to the 3rd temperature threshold, also judge whether body temp is less than the second body temp threshold value and whether heart rate mutation is greater than the different denaturation thresholds of heart rate, wherein, the second body temp threshold value is less than the first body temp threshold value; If so, then air-conditioner controller controls air-conditioning and carries out heating work according to the second temperature, and wherein, the second temperature is that the design temperature of air-conditioning and the second temperature adjust threshold value sum; If not, then air-conditioner controller controls the current operating parameters operation of air-conditioning maintenance air-conditioning.

In an embodiment of the present invention, when environment temperature is less than the 3rd temperature threshold and is more than or equal to the 4th temperature threshold, also judge whether body temp is less than the second body temp threshold value or whether heart rate mutation is greater than the different denaturation thresholds of heart rate, wherein, the 4th temperature threshold is less than the 3rd temperature threshold; If so, then air-conditioner controller control air-conditioning carries out heating work according to the second temperature; If not, then air-conditioner controller controls the current operating parameters operation of air-conditioning maintenance air-conditioning.

In an embodiment of the present invention, when environment temperature is less than the 4th temperature threshold, also judge whether body temp is less than the second body temp threshold value or whether heart rate mutation is greater than the different denaturation thresholds of heart rate; If so, then the compressor of air-conditioner controller control air-conditioning carries out heating work with predeterminated frequency; If not, then air-conditioner controller control air-conditioning carries out heating work according to the second temperature.

According to the air conditioning control method that the embodiment of the present invention proposes, according to the physiological parameter of user and environment temperature, air-conditioner controller can judge that the thermal comfort situation of human body is to realize adjusting the temperature of air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems such as " inferior health ", " air conditioner disease " and " flu that air-conditioning causes " caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

Below the air conditioning control method property entered that second aspect present invention embodiment proposes is described.Fig. 3 is the flow chart of air conditioning control method in accordance with another embodiment of the present invention.

As shown in Figure 3, the air conditioning control method that another embodiment of the present invention proposes, comprises the steps:

Step S401, Wearable gathers the body temp of user, heart rate information and environment temperature;

Wherein, heart rate information is heart rate mutation information.Particularly, heart rate mutation is obtained by the situation of change of heart rate.When heart rate mutation Hr is greater than the different denaturation thresholds Hm of heart rate, it is the uncomfortable heart rate of heat; When heart rate mutation Hr is less than or equal to Hm, it is thermal comfort heart rate.Wherein, Hm is 0.87+/-0.01, and preferably, in an example of the present invention, the different denaturation thresholds Hm of heart rate is 0.87.

In an embodiment of the present invention, Wearable can be watch, and body temp is detected by watch, and detecting position is set to the wrist place of user, and the temperature at wrist place generally best embodies the body temp of people.Wherein, body temp Tb is divided into three temperature grades.When body temp Tb is greater than the first body temp threshold value Tr1, it is the uncomfortable temperature range of heat; When body temp Tb is less than the second body temp threshold value Tr2, it is cold uncomfortable temperature range; When body temp Tb is more than or equal to the second body temp threshold value Tr2 and is less than or equal to the first body temp threshold value Tr1, for cold and hot comfort temperature is interval.Wherein, Tr1 > Tr2, and Tr1 is (33.66+/-0.5) DEG C, Tr2 is (32.49+/-0.5) DEG C, preferably, in an example of the present invention, first body temp threshold value Tr1 is 33.6 DEG C, and the second body temp threshold value Tr2 is 32.5 DEG C.

In an embodiment of the present invention, environment temperature Th is divided into five temperature grades.When environment temperature Th is greater than the first temperature threshold Tm, it is very hot temperature range; When environment temperature Th is more than or equal to the second temperature threshold Tm1 and is less than or equal to the first temperature threshold Tm, it is hotter temperature range; When environment temperature Th is more than or equal to the 3rd temperature threshold Tn1 and is less than the second temperature threshold Tm1, for comfort temperature is interval; When environment temperature Th is more than or equal to the 4th temperature threshold Tn and is less than the 3rd temperature threshold Tn1, it is colder temperature range; When environment temperature Th is less than the 4th temperature threshold Tn, it is extremely cold temperature range.Wherein, Tm > Tm1 > Tn1 > Tn, and 40 DEG C of > Tm > Tm1 > 20 DEG C, 24 DEG C of > Tn1 > Tn > 0 DEG C, preferably, in an example of the present invention, the first temperature threshold Tm is 30 DEG C, the second temperature threshold Tm1 is 26 DEG C, the 3rd temperature threshold Tn1 is 22 DEG C, the 4th temperature threshold Tn is 15 DEG C.

Step S402, body temp, heart rate information and environment temperature are generated temperature adjustment instructions by Wearable, and temperature adjustment instructions is sent to air-conditioner controller.

In an embodiment of the present invention, Wearable can be such as shell temperature, heart rate information according to body temp is such as the thermal comfort situation of the physiological parameter information such as heart rate mutation and ambient temperature information comprehensive descision human body, and generates corresponding temperature adjustment instructions.

Judge that the foundation of the thermal comfort situation of human body is: body temp Tb, heart rate mutation Hr and environment temperature Th.The thermal comfort situation of human body can be divided into five intervals by the comprehensive analysis based on the different brackets of body temp Tb, heart rate mutation Hr and environment temperature Th tri-parameters: A3, colder uncomfortable interval A4, extremely cold uncomfortable interval A5 between very hot uncomfortable interval A1, hotter uncomfortable interval A2, comfort zone.Wearable generates corresponding temperature adjustment instructions by the thermal comfort situation analyzing human body, and temperature adjustment instructions is sent to air-conditioner controller, to adjust the operational situation of air-conditioning.

Fig. 4 is the flow chart of the air conditioning control method according to another specific embodiment of the present invention.

As shown in Figure 4, the air conditioning control method of another specific embodiment of the present invention comprises the following steps:

Step S501, air-conditioning is started shooting, and opens the comfortable function of Wearable.

Step S502, Wearable gathers body temp Tb and the heart rate mutation Hr and environment temperature Th of user.Wherein, Wearable can be watch.

In an embodiment of the present invention, after the body temp Tb that Wearable obtains user and heart rate mutation Hr and environment temperature Th, obtain the thermal comfort situation of human body through following steps generalized analysis, and generate corresponding temperature adjustment instructions and be sent to air-conditioner controller.

Step S503, judges whether environment temperature Th is greater than the first temperature threshold Tm, if so, then performs step S504, otherwise performs step S505.

Step S504, judge whether body temp Tb is greater than the first body temp threshold value Tr1 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, if so, then Wearable generates the compressor controlling air-conditioning carries out refrigeration work the first temperature adjustment instructions with predeterminated frequency; If not, then Wearable generates and controls air-conditioning and carry out the second temperature adjustment instructions of refrigeration work according to the first temperature, and wherein, the first temperature is the difference that the design temperature of air-conditioning and the first temperature adjust threshold value.Wherein, predeterminated frequency is peak frequency.

In an embodiment of the present invention, when environment temperature is greater than the first temperature threshold, namely under environment temperature is in very hot temperature range, if body temp is greater than the first body temp threshold value or heart rate mutation is greater than the different denaturation thresholds of heart rate, then judge that now user is in very hot uncomfortable interval A1, Wearable generates the first temperature adjustment instructions; Otherwise judge that now user is in hotter uncomfortable interval A2, Wearable generates the second temperature adjustment instructions.

Step S505, judges whether environment temperature Th is less than or equal to the first temperature threshold Tm and is more than or equal to the second temperature threshold Tm1, if so, then performs step S506, otherwise performs step S507.

Step S506, judges whether body temp Tb is greater than the first body temp threshold value Tr1 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, and if so, then Wearable generates the second temperature adjustment instructions; If not, then Wearable generates the 3rd temperature adjustment instructions controlling air-conditioning and keep the current operating parameters of air-conditioning to run.

In an embodiment of the present invention, when environment temperature is less than or equal to the first temperature threshold and is more than or equal to the second temperature threshold, namely under environment temperature is in hotter temperature range, if body temp is greater than the first body temp threshold value or heart rate mutation is greater than the different denaturation thresholds of heart rate, then judge that now user is in hotter uncomfortable interval A2, Wearable generates the second temperature adjustment instructions; Otherwise judge that now user is in A3 between comfort zone, Wearable generates the 3rd temperature adjustment instructions.

Step S507, judges whether environment temperature Th is less than the second temperature threshold Tm1 and is more than or equal to the 3rd temperature threshold Tn1, if so, then performs step S508 and step S509, otherwise performs step S510.

Step S508, judges whether body temp Tb is greater than the first body temp threshold value Tr1 and whether heart rate mutation Hr is greater than the different denaturation thresholds Hm of heart rate, and if so, then Wearable generates the second temperature adjustment instructions; If not, then Wearable generates the 3rd temperature adjustment instructions.

That is, when environment temperature is less than the second temperature threshold and is more than or equal to the 3rd temperature threshold, namely under environment temperature is in comfort temperature interval, if body temp is greater than the first body temp threshold value and heart rate mutation is greater than the different denaturation thresholds of heart rate, then judge that now user is in hotter uncomfortable interval A2, Wearable generates the second temperature adjustment instructions; Otherwise judge that now user is in A3 between comfort zone, Wearable generates the 3rd temperature adjustment instructions.

Step S509, judge whether body temp Tb is less than the second body temp threshold value Tr2 and whether heart rate mutation Hr is greater than the different denaturation thresholds Hm of heart rate, if, then Wearable generates and controls air-conditioning carries out the work that heats the 4th temperature adjustment instructions according to the second temperature, wherein, the second temperature is that the design temperature of air-conditioning and the second temperature adjust threshold value sum; If not, then Wearable generates the 3rd temperature adjustment instructions.

That is, when environment temperature is less than the second temperature threshold and is more than or equal to the 3rd temperature threshold, namely under environment temperature is in comfort temperature interval, if body temp is less than the second body temp threshold value and heart rate mutation is greater than the different denaturation thresholds of heart rate, then judge that now user is in colder uncomfortable interval A4, Wearable generates the 4th temperature adjustment instructions; Otherwise judge that now user is in A3 between comfort zone, Wearable generates the 3rd temperature adjustment instructions.

Step S510, judges whether environment temperature Th is less than the 3rd temperature threshold Tn1 and is more than or equal to the 4th temperature threshold Tn, if so, then performs step S511, otherwise performs step S512.

Step S511, judges whether body temp Tb is less than the second body temp threshold value Tr2 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, and if so, then Wearable generates the 4th temperature adjustment instructions; If not, then Wearable generates the 3rd temperature adjustment instructions.

That is, when environment temperature is less than the 3rd temperature threshold and is more than or equal to the 4th temperature threshold, namely under environment temperature is in colder temperature range, if body temp is less than the second body temp threshold value and whether heart rate mutation is greater than the different denaturation thresholds of heart rate, then judge that now user is in colder uncomfortable interval A4, Wearable generates the 4th temperature adjustment instructions; Otherwise judge that now user is in A3 between comfort zone, Wearable generates the 3rd temperature adjustment instructions.

Step S512, environment temperature Th are less than the 4th temperature threshold Tn, enter next step.

Step S513, judge whether body temp Tb is less than the second body temp threshold value Tr2 or heart rate mutation Hr and whether is greater than the different denaturation thresholds Hm of heart rate, if so, then Wearable generates the compressor controlling air-conditioning carries out the work that heats the 5th temperature adjustment instructions with predeterminated frequency; If not, then Wearable generates the 4th temperature adjustment instructions.

That is, when environment temperature is less than the 4th temperature threshold, namely under environment temperature is in extremely cold temperature range, if body temp is less than the second body temp threshold value or whether heart rate mutation is greater than the different denaturation thresholds of heart rate, then judge that now user is in extremely cold uncomfortable interval A5, Wearable generates the 5th temperature adjustment instructions; Otherwise judge that now user is in colder uncomfortable interval A4, Wearable generates the 4th temperature adjustment instructions.

It should be noted that, Wearable came analysis environments temperature, body temp and heart rate mutation to generate temperature adjustment instructions every T3 minute, and wherein, T3 can be 2 ~ 10 minutes, and preferably, T3 is 5 minutes.

Therefore, after generation temperature adjustment instructions, following steps are performed.

Step S514, the adjustment waiting timer TM3 time resets, and timing starts.

Step S515, judges whether the time arrives T3, if so, returns step S502.

In an embodiment of the present invention, Wearable generates corresponding temperature adjustment instructions by above-mentioned steps and sends to air-conditioner controller, to adjust accordingly the operational situation of air-conditioning, after adjustment, continue to adjust by new temperature adjustment instructions after running T2 minute, T2 minute according to new controling parameters.Wherein, T2 can be 5 ~ 30 minutes, and preferably, T2 is 15 minutes.

According to the air conditioning control method that the embodiment of the present invention proposes, Wearable can judge the thermal comfort situation of human body according to the physiological parameter of user and environment temperature and generate corresponding temperature adjustment instructions, air-conditioner controller adjusts according to the temperature of temperature adjustment instructions to air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

Below the air-conditioning system that third aspect present invention embodiment proposes is described.Fig. 5 is the block diagram of air-conditioning system according to an embodiment of the invention.

As shown in Figure 5, the air-conditioning system of one embodiment of the invention comprises Wearable 100 and air-conditioner controller 200.Be understandable that, above-mentioned air-conditioning system also comprises other all parts of the indoor set of air-conditioning, off-premises station and remote controller and air-conditioning.

Wearable 100 is for gathering body temp and the heart rate information of user.Air-conditioner controller 200 is arranged in the indoor set of air-conditioning, radio communication is carried out between air-conditioner controller 200 and Wearable 100, air-conditioner controller 200 for receiving body temp and the heart rate information of Wearable 100 collection, and adjusts according to body temp, heart rate information and the environment temperature temperature to air-conditioning.

Wherein, in a concrete example of the present invention, Wearable 100 can be watch, and the model of employing is jWotch-HM021 watch.That is, body temp can be gathered by watch, and collection position can be the wrist place of human body, and, the heart rate information that watch can gather user is such as heart rate mutation information, can also gather other body sense physiological parameter information, such as pulse and environment temperature etc.

In one embodiment of the invention, environment temperature can be gathered by Wearable, or environment temperature also can be gathered by air-conditioner controller 200.

Wherein, in one embodiment of the invention, as shown in Figure 6, Wearable 100 specifically comprises: first detection module 10, second detection module 20, sending module 30 and power module 40.Wherein, first detection module 10 is for detecting body temp and the heart rate information of user; Second detection module 20 is for testing environment temperature; Sending module 30 is for by carrying out radio communication so that body temp, heart rate information and environment temperature are sent to air-conditioner controller 200 with air-conditioner controller 200; Power module 40 is connected with sending module 30 with first detection module 10, second detection module 20, powers for giving first detection module 10, second detection module 20 and sending module 30.

That is, body temp, heart rate information and environment temperature that air-conditioner controller 200 is gathered by reception first detection module 10 and the second detection module 20, and adjust according to body temp, heart rate information and the environment temperature temperature to air-conditioning.Particularly, air-conditioner controller 200 is based on the thermal comfort situation physiological parameter of the human bodies such as body temp, heart rate information and environment temperature, by the thermal comfort evaluation algorithm of human body, obtain the thermal comfort situation of active user, and adjust the operating condition of air-conditioning according to the thermal comfort situation of user, to reach with the level of comfort of user to regulate and control the operating condition of air-conditioning.

According to the air-conditioning system that the embodiment of the present invention proposes, according to the physiological parameter of user and environment temperature, air-conditioner controller judges that the thermal comfort situation of human body is to realize adjusting the temperature of air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

Below the air-conditioning system that fourth aspect present invention embodiment proposes is described.Fig. 7 is the block diagram of air-conditioning system according to an embodiment of the invention.

As shown in Figure 7, the air-conditioning system of another embodiment of the present invention comprises Wearable 100 and air-conditioning, wherein, air-conditioning comprises air-conditioner controller 200, carry out radio communication between air-conditioner controller 200 and Wearable 100, wherein, Wearable 100 is for gathering the body temp of user, heart rate information and environment temperature, and generate temperature adjustment instructions according to body temp, heart rate information and environment temperature, and temperature adjustment instructions is sent to air-conditioner controller 200; Air-conditioner controller 200 is for adjusting according to the temperature of temperature adjustment instructions to air-conditioning.

Wherein, in a concrete example of the present invention, Wearable 100 can be watch, and the model of employing is jWotch-HM021 watch.That is, body temp can be gathered by watch, and collection position can be the wrist place of human body, and, the heart rate information that watch can gather user is such as heart rate mutation information, can also gather other body sense physiological parameter information such as such as pulse and environment temperature etc.

In one embodiment of the invention, as shown in Figure 8, Wearable 100 comprises: first detection module 10, second detection module 20, sending module 30, power module 40 and control module 50.

First detection module 10 is for detecting body temp and the heart rate information of user; Second detection module 20 is for testing environment temperature; Control module 50 is connected with the second detection module 20 respectively with first detection module 10, for generating temperature adjustment instructions according to body temp, heart rate information and environment temperature; Sending module 30 is connected with control module 50, for by carrying out radio communication so that temperature adjustment instructions is sent to air-conditioner controller 200 with air-conditioner controller 200; Power module 40 is connected with sending module 30 respectively with first detection module 10, second detection module 20, control module 50, powers for giving first detection module 10, second detection module 20, control module 50 and sending module 30.

That is, Wearable 100 gathers the body temp of user, heart rate information and environment temperature by first detection module 10 and the second detection module 20, and the thermal comfort situation physiological parameter of body temp, heart rate information and environment temperature etc. human body is analyzed by control module 50, by the thermal comfort evaluation algorithm of human body, obtain the thermal comfort situation of active user, and generate corresponding temperature adjustment instructions according to the thermal comfort situation of user, and be sent to air-conditioner controller 200, to reach with the level of comfort of user to regulate and control the operating condition of air-conditioning.

It should be noted that, in an embodiment of the present invention, as shown in Figure 8, Wearable 100 also comprises key-press module 60 and display module 70.Wherein, in an example of the present invention, key-press module 60 comprises comfortable energy-conservation button, can open comfortable power saving function by comfortable energy-conservation button.Display module 70 shows the parameters such as environment temperature, body temp and the heart rate information detected.

According to the air-conditioning system that the embodiment of the present invention proposes, Wearable judges the thermal comfort situation of human body according to the physiological parameter of user and environment temperature and generates corresponding temperature adjustment instructions, air-conditioner controller adjusts according to the temperature of temperature adjustment instructions to air-conditioning, thus realize the operating condition regulating and controlling air-conditioning according to the thermal comfort situation of human body, overcome the various problems caused because of program Solidification, make running hommization and the intellectuality more of air-conditioning, and then make the performance of air-conditioning more comfortable, more energy-conservation.

Describe and can be understood in flow chart or in this any process otherwise described or method, represent and comprise one or more for realizing the module of the code of the executable instruction of the step of specific logical function or process, fragment or part, and the scope of the preferred embodiment of the present invention comprises other realization, wherein can not according to order that is shown or that discuss, comprise according to involved function by the mode while of basic or by contrary order, carry out n-back test, this should understand by embodiments of the invention person of ordinary skill in the field.

In flow charts represent or in this logic otherwise described and/or step, such as, the sequencing list of the executable instruction for realizing logic function can be considered to, may be embodied in any computer-readable medium, for instruction execution system, device or equipment (as computer based system, comprise the system of processor or other can from instruction execution system, device or equipment instruction fetch and perform the system of instruction) use, or to use in conjunction with these instruction execution systems, device or equipment.With regard to this description, " computer-readable medium " can be anyly can to comprise, store, communicate, propagate or transmission procedure for instruction execution system, device or equipment or the device that uses in conjunction with these instruction execution systems, device or equipment.The example more specifically (non-exhaustive list) of computer-readable medium comprises following: the electrical connection section (electronic installation) with one or more wiring, portable computer diskette box (magnetic device), random-access memory (ram), read-only storage (ROM), erasablely edit read-only storage (EPROM or flash memory), fiber device, and portable optic disk read-only storage (CDROM).In addition, computer-readable medium can be even paper or other suitable media that can print described program thereon, because can such as by carrying out optical scanner to paper or other media, then carry out editing, decipher or carry out process with other suitable methods if desired and electronically obtain described program, be then stored in computer storage.

Should be appreciated that each several part of the present invention can realize with hardware, software, firmware or their combination.In the above-described embodiment, multiple step or method can with to store in memory and the software performed by suitable instruction execution system or firmware realize.Such as, if realized with hardware, the same in another embodiment, can realize by any one in following technology well known in the art or their combination: the discrete logic with the logic gates for realizing logic function to data-signal, there is the special IC of suitable combinational logic gate circuit, programmable gate array (PGA), field programmable gate array (FPGA) etc.

Those skilled in the art are appreciated that realizing all or part of step that above-described embodiment method carries is that the hardware that can carry out instruction relevant by program completes, described program can be stored in a kind of computer-readable recording medium, this program perform time, step comprising embodiment of the method one or a combination set of.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing module, also can be that the independent physics of unit exists, also can be integrated in a module by two or more unit.Above-mentioned integrated module both can adopt the form of hardware to realize, and the form of software function module also can be adopted to realize.If described integrated module using the form of software function module realize and as independently production marketing or use time, also can be stored in a computer read/write memory medium.

The above-mentioned storage medium mentioned can be read-only storage, disk or CD etc.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the invention, for the ordinary skill in the art, be appreciated that and can carry out multiple change, amendment, replacement and modification to these embodiments without departing from the principles and spirit of the present invention, scope of the present invention is by claims and equivalency thereof.

Claims (24)

1. an air conditioning control method, is characterized in that, comprises the following steps:

Wearable gathers body temp and the heart rate information of user;

Described body temp and heart rate information are sent to air-conditioner controller by described Wearable, adjust according to described body temp, heart rate information and the environment temperature temperature to described air-conditioning to make described air-conditioner controller.

2. the method for claim 1, is characterized in that, described environment temperature is gathered by described Wearable, or described environment temperature is gathered by described air-conditioner controller.

3. the method for claim 1, is characterized in that, described heart rate information is heart rate mutation information.

4. method as claimed in claim 3, is characterized in that,

When described environment temperature is greater than the first temperature threshold, judge whether described body temp is greater than the first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of heart rate;

If so, then the compressor that described air-conditioner controller controls described air-conditioning carries out refrigeration work with predeterminated frequency;

If not, then described air-conditioner controller controls described air-conditioning and carries out refrigeration work according to the first temperature, and wherein, described first temperature is the difference that the design temperature of described air-conditioning and the first temperature adjust threshold value.

5. method as claimed in claim 4, is characterized in that,

When described environment temperature is less than or equal to described first temperature threshold and is more than or equal to the second temperature threshold, judge whether described body temp is greater than described first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second temperature threshold is less than described first temperature threshold;

If so, then described air-conditioner controller controls described air-conditioning and carries out refrigeration work according to described first temperature;

If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

6. method as claimed in claim 5, is characterized in that,

When described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, judge whether described body temp is greater than described first body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 3rd temperature threshold is less than described second temperature threshold;

If so, then described air-conditioner controller controls described air-conditioning and carries out refrigeration work according to described first temperature;

If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

7. method as claimed in claim 6, is characterized in that,

When described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, also judge whether described body temp is less than described second body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second body temp threshold value is less than described first body temp threshold value;

If so, then described air-conditioner controller controls described air-conditioning and carries out heating work according to the second temperature, and wherein, described second temperature is that the design temperature of described air-conditioning and the second temperature adjust threshold value sum;

If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

8. method as claimed in claim 7, is characterized in that,

When described environment temperature is less than described 3rd temperature threshold and is more than or equal to the 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 4th temperature threshold is less than described 3rd temperature threshold;

If so, then described air-conditioner controller controls described air-conditioning and carries out heating work according to described second temperature;

If not, then described air-conditioner controller controls described air-conditioning and keeps the current operating parameters of described air-conditioning to run.

9. method as claimed in claim 7, is characterized in that,

When described environment temperature is less than described 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate;

If so, then the compressor that described air-conditioner controller controls described air-conditioning carries out heating work with described predeterminated frequency;

If not, then described air-conditioner controller controls described air-conditioning and carries out heating work according to described second temperature.

10. an air conditioning control method, is characterized in that, comprises the following steps:

Wearable gathers the body temp of user, heart rate information and environment temperature;

Described body temp, heart rate information and environment temperature are generated temperature adjustment instructions by described Wearable, and described temperature adjustment instructions is sent to air-conditioner controller.

11. methods as claimed in claim 10, is characterized in that, described heart rate information is heart rate mutation information.

12. methods as claimed in claim 11, is characterized in that,

When described environment temperature is greater than the first temperature threshold, judge whether described body temp is greater than the first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of heart rate;

If so, then described Wearable generates the compressor controlling described air-conditioning carries out refrigeration work the first temperature adjustment instructions with predeterminated frequency;

If not, then described Wearable generates and controls described air-conditioning carries out refrigeration work the second temperature adjustment instructions according to the first temperature, and wherein, described first temperature is the difference that the design temperature of described air-conditioning and the first temperature adjust threshold value.

13. methods as claimed in claim 12, is characterized in that,

When described environment temperature is less than or equal to described first temperature threshold and is more than or equal to the second temperature threshold, judge whether described body temp is greater than described first body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second temperature threshold is less than described first temperature threshold;

If so, then described Wearable generates described second temperature adjustment instructions;

If not, then described Wearable generates the 3rd temperature adjustment instructions controlling described air-conditioning and keep the current operating parameters of described air-conditioning to run.

14. methods as claimed in claim 13, is characterized in that,

When described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, judge whether described body temp is greater than described first body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 3rd temperature threshold is less than described second temperature threshold;

If so, then described Wearable generates described second temperature adjustment instructions;

If not, then described Wearable generates described 3rd temperature adjustment instructions.

15. methods as claimed in claim 14, is characterized in that,

When described environment temperature is less than described second temperature threshold and is more than or equal to the 3rd temperature threshold, also judge whether described body temp is less than described second body temp threshold value and whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described second body temp threshold value is less than described first body temp threshold value;

If so, then described Wearable generates and controls described air-conditioning carries out the work that heats the 4th temperature adjustment instructions according to the second temperature, and wherein, described second temperature is that the design temperature of described air-conditioning and the second temperature adjust threshold value sum;

If not, then described Wearable generates described 3rd temperature adjustment instructions.

16. methods as claimed in claim 15, is characterized in that,

When described environment temperature is less than described 3rd temperature threshold and is more than or equal to the 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate, wherein, described 4th temperature threshold is less than described 3rd temperature threshold;

If so, then described Wearable generates described 4th temperature adjustment instructions;

If not, then described Wearable generates described 3rd temperature adjustment instructions.

17. methods as claimed in claim 16, is characterized in that,

When described environment temperature is less than described 4th temperature threshold, also judge whether described body temp is less than described second body temp threshold value or whether described heart rate mutation is greater than the different denaturation thresholds of described heart rate;

If so, then described Wearable generates the compressor controlling described air-conditioning carries out the work that heats the 5th temperature adjustment instructions with described predeterminated frequency;

If not, then described Wearable generates described 4th temperature adjustment instructions.

18. 1 kinds of air-conditioning systems, is characterized in that, comprising:

Wearable, for gathering body temp and the heart rate information of user;

Air-conditioner controller, described air-conditioner controller is arranged in the indoor set of described air-conditioning, radio communication is carried out between described air-conditioner controller and described Wearable, described air-conditioner controller for receiving described body temp and the heart rate information of the collection of described Wearable, and adjusts according to described body temp, heart rate information and the environment temperature temperature to described air-conditioning.

19. air-conditioning systems as claimed in claim 18, it is characterized in that, described environment temperature is gathered by described Wearable.

20. air-conditioning systems as claimed in claim 18, it is characterized in that, described environment temperature is gathered by described air-conditioner controller.

21. air-conditioning systems as claimed in claim 19, it is characterized in that, described Wearable comprises:

First detection module, for detecting body temp and the heart rate information of described user;

Second detection module, for detecting described environment temperature;

Sending module, for by carrying out radio communication so that described body temp, heart rate information and described environment temperature are sent to described air-conditioner controller with described air-conditioner controller;

Power module, described power module is connected with described sending module with described first detection module, the second detection module, powers for giving described first detection module, the second detection module and described sending module.

22. 1 kinds of air-conditioning systems, is characterized in that, comprise Wearable and air-conditioning, and described air-conditioning comprises described air-conditioner controller, carry out radio communication between described air-conditioner controller and described Wearable, wherein,

Described Wearable, for gathering the body temp of user, heart rate information and environment temperature, and generates temperature adjustment instructions according to described body temp, heart rate information and environment temperature, and described temperature adjustment instructions is sent to described air-conditioner controller;

Described air-conditioner controller, for adjusting according to the temperature of described temperature adjustment instructions to described air-conditioning.

23. air-conditioning systems as claimed in claim 22, it is characterized in that, described Wearable comprises:

First detection module, for detecting body temp and the heart rate information of described user;

Second detection module, for detecting described environment temperature;

Control module, described control module is connected with described second detection module respectively with described first detection module, for generating described temperature adjustment instructions according to described body temp, heart rate information and environment temperature;

Sending module, described sending module is connected with described control module, for by carrying out radio communication so that described temperature adjustment instructions is sent to described air-conditioner controller with described air-conditioner controller;

Power module, described power module is connected with described sending module respectively with described first detection module, the second detection module, control module, powers for giving described first detection module, the second detection module, control module and described sending module.

24. air-conditioning systems as claimed in claim 23, it is characterized in that, described Wearable also comprises key-press module and display module.