CN105716196A

CN105716196A - Control system and method of air conditioner

Info

Publication number: CN105716196A
Application number: CN201510752045.9A
Authority: CN
Inventors: 李忠华
Original assignee: Midea Group Co Ltd
Current assignee: Midea Group Co Ltd
Priority date: 2015-11-04
Filing date: 2015-11-04
Publication date: 2016-06-29

Abstract

The invention discloses a control system of an air conditioner. In the control system, a monitoring device is used for monitoring human physiological signals; a cloud end sends the human physiological signals to a control device; the control device is used for judging the sleeping state of a human body according to the human physiological signals; the control device sends a first control instruction to the cloud end if the human body does not fall asleep; if the human body falls asleep, the control device judges the sleep stage of the human body according to the human physiological signals and sends a second control instruction to the cloud end according to the sleep stage, and the cloud end sends the first control instruction or the second control instruction to the air conditioner; a controller controls the air conditioner to operate at a set air conditioner temperature and a set fan rotating speed according to the first control instruction and regulates the temperature of the air conditioner and the rotating speed of a fan according to the second control instruction. The control system of the air conditioner judges different human body stages so as to control operation of the air conditioner according to the monitored human physiological signals so that the air conditioner can provide comfortable use experience for the human body. The invention further discloses a control method of the air conditioner.

Description

The control system of air-conditioner and the control method of air-conditioner

Technical field

The present invention relates in household appliance technical field, more specifically, relate to the control system of a kind of air-conditioner and the control method of a kind of air-conditioner.

Background technology

Comfortable sleeping is that everyone dreams of, but is as the day by day fierce of social competition, and people's study and work pressure is big, stays up late, and the poor sleeping quality caused even insomnia etc. is increasing, and sleep bad and snoring of middle age old people causes that asphyxia is unexpected multiple.

The quality of sleep quality is affected by several factors, and except the internal factors such as physiology emotion, outside environment temperature and humidity noise light is according to all producing impact.In recent years the popularity rate of air-conditioning rises year by year, helps people to obtain better sleep in the winter of hot summer or cool, damp to a certain extent.

But the puzzlement produced therewith also has, such as air-conditioning Sleep stages is uncomfortable, and cold awake or heat is waken up.Although existing air-conditioning develops some sleep patterns for the sleep quality improving people, but it is all the unidirectional pattern set in advance, is usually simple adjustment based on time change according to user's design temperature and provides certain deviation value and obtain a rough temperature curve of revising and be used as the sleep curve of user.

And such sleep temperature curve is to set according to unidirectional experience, and not according to user, ambient temperature actual demand being adjusted, it has significant limitation.

Existing air-conditioning can not identify the physiological parameter change during sleep quality, more can not judge the sleep state that user is actual.Before causing a lot of user to sleep after setting air-conditioner temperature, sleep a period of time finds that the temperature of air-conditioning is supercool or overheated so that it is be roused from sleep from sleeping, it has to again to air-conditioning again homoiothermic, and then the ortho sleep of excuse me user, make user's experience sense be substantially reduced.

On the other hand, old man is variant with youngster child and anemia of pregnant woman to the demand of temperature.Existing air-conditioning sleep pattern does not all take into account crowd and the individual differentiation requirement to air-conditioner temperature rotating speed.Meanwhile, existing air-conditioning sleep pattern is difficult to meet outside user's comfort need, is also easy to make people produce air conditioning disease.

Summary of the invention

The embodiment of the present invention is intended at least solve one of technical problem of existence in prior art.For this, the embodiment of the present invention needs to provide the control method of the control system of a kind of air-conditioner and a kind of air-conditioner.

The control system of a kind of air-conditioner includes air-conditioner, monitoring device, controls device and high in the clouds.This air-conditioner includes controller.This monitoring device monitoring physiology signal.This high in the clouds receives this physiology signal that this monitoring device sends.This control device receives this physiology signal that this high in the clouds sends, and judges the sleep state of human body according to this physiology signal.If this human body is not fallen asleep, this control device sends the first control instruction to this high in the clouds, and this first control instruction is sent to this air-conditioner by this high in the clouds.If this human body is fallen asleep, the stage that this control device is residing after judging the sleep of this human body according to this physiology signal, and send the second control instruction to this high in the clouds according to this residing stage, this second control instruction is sent to this air-conditioner by this high in the clouds.This controller, according to this first control instruction, controls this air-conditioner with the temperature of this air-conditioner set and the rotating speed of blower fan and runs, and according to this second control instruction, regulate the temperature of this air-conditioner and the rotating speed of blower fan.

The control system of above-mentioned air-conditioner is according to the physiology signal monitored, it is judged that human body different stage, to control the operation of air-conditioner, enables air-conditioner to provide comfortable Consumer's Experience for human body.

The control method of a kind of air-conditioner, comprises the following steps:

Monitoring physiology signal, and this physiology signal is sent to high in the clouds, this physiology signal is sent to controlling device by this high in the clouds；

This control device receives this physiology signal, and judges the sleep state of human body according to this physiology signal；

If this human body is not fallen asleep, this control device sends the first control instruction to this high in the clouds, this first control instruction is sent to air-conditioner by this high in the clouds, and the controller of this air-conditioner, according to this first control instruction, controls this air-conditioner with the temperature of this air-conditioner set and the rotating speed of blower fan and runs；

If this human body is fallen asleep, the stage that this control device is residing after judging the sleep of this human body according to this physiology signal, and send the second control instruction to this high in the clouds according to this residing stage, this second control instruction is sent to this air-conditioner by this high in the clouds, this controller, according to this second control instruction, regulates the temperature of this air-conditioner and the rotating speed of blower fan.

The control method of above-mentioned air-conditioner is according to the physiology signal monitored, it is judged that human body different stage, to control the operation of air-conditioner, enables air-conditioner to provide comfortable Consumer's Experience for human body.

The additional aspect of the embodiment of the present invention and advantage will part provide in the following description, and part will become apparent from the description below, or is recognized by the practice of the embodiment of the present invention.

Accompanying drawing explanation

Above-mentioned and/or the additional aspect of the embodiment of the present invention and advantage are from conjunction with will be apparent from easy to understand the accompanying drawings below description to embodiment, wherein:

Fig. 1 is the configuration diagram of the control system of the air-conditioner of the present invention the first preferred embodiment；

Fig. 2 is the module diagram of the control system of the air-conditioner of the present invention the first preferred embodiment；

Fig. 3 is the control flow schematic diagram of the control system of the air-conditioner of the present invention the first preferred embodiment；

Fig. 4 is another control flow schematic diagram of the control system of the air-conditioner of the present invention the first preferred embodiment；

Fig. 5 is another control flow schematic diagram of the control system of the air-conditioner of the present invention the first preferred embodiment；

Fig. 6 is the configuration diagram of the control system of the air-conditioner of the present invention the second preferred embodiment；

Fig. 7 is the module diagram of the control system of the air-conditioner of the present invention the second preferred embodiment；

Fig. 8 is the structural representation of the monitoring device of the control system of the air-conditioner of the present invention the second preferred embodiment；

Fig. 9 is the control flow schematic diagram of the control system of the air-conditioner of the present invention the second preferred embodiment；

Figure 10 is the configuration diagram of the control system of the air-conditioner of the present invention the 3rd preferred embodiment；

Figure 11 is the module diagram of the control system of the air-conditioner of the present invention the 3rd preferred embodiment；

Figure 12 is the structural representation of the monitoring device of the control system of the air-conditioner of the present invention the 3rd preferred embodiment；

Figure 13 is the control flow schematic diagram of the control system of the air-conditioner of the present invention the 3rd preferred embodiment；

Figure 14 is the schematic flow sheet of the control method of the air-conditioner of the present invention the 4th preferred embodiment.

Detailed description of the invention

Being 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 the element of same or like function from start to finish.The embodiment described below with reference to accompanying drawing is illustrative of, and only explains the present invention, and is not considered as limiting the invention.

In describing the invention, it is to be understood that term " first ", " second " only describe purpose, and it is not intended that instruction or hint relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include one or more described features.In describing the invention, " multiple " are meant that two or more, unless otherwise expressly limited specifically.

In describing the invention, it is necessary to explanation, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, for instance, it is possible to it is fixing connection, it is also possible to be removably connect, or connect integratedly；Can be mechanically connected, it is also possible to be electrically connect or can intercom mutually；Can be joined directly together, it is also possible to be indirectly connected to by intermediary, it is possible to be connection or the interaction relationship of two elements of two element internals.For the ordinary skill in the art, it is possible to understand above-mentioned term concrete meaning in the present invention as the case may be.

Following disclosure provides many different embodiments or example for realizing the different structure of the present invention.In order to simplify disclosure of the invention, hereinafter to the parts of specific examples and be set for describe.Certainly, they are only merely illustrative, and are not intended to the restriction present invention.Additionally, the present invention can in different examples repeat reference numerals and/or reference letter, this repetition is for purposes of simplicity and clarity, the relation between itself not indicating discussed various embodiment and/or setting.Additionally, the example of the various specific technique that the invention provides and material, but those of ordinary skill in the art are it can be appreciated that the use of the application of other techniques and/or other materials.

Referring to Fig. 1 and Fig. 2, the control system 100 of the air-conditioner of present pre-ferred embodiments includes air-conditioner 102, monitoring device 104, controls device 106 and high in the clouds 108.Air-conditioner 102 includes controller 110.

This monitoring device 104 monitors physiology signal.This high in the clouds 108 receives this physiology signal that this monitoring device 104 sends.This control device 106 receives this physiology signal that this high in the clouds 108 sends, and judges the sleep state of human body according to this physiology signal.

If this human body is not fallen asleep, this control device 106 sends the first control instruction to this high in the clouds 108, and this first control instruction is sent to this air-conditioner 102 by this high in the clouds 108.

If this human body is fallen asleep, the stage that this control device 106 is residing after judging the sleep of this human body according to this physiology signal, and send the second control instruction to this high in the clouds 108 according to this residing stage, this second control instruction is sent to this air-conditioner 102 by this high in the clouds 108.

This controller 110 is according to this first control instruction, and the temperature of this air-conditioner 102 and the rotating speed of blower fan to set control this air-conditioner 102 and run, and according to this second control instruction, regulate the temperature of this air-conditioner 102 and the rotating speed of blower fan.

Specifically, air-conditioner 102 includes indoor apparatus of air conditioner 112, air conditioner wireless mixed-media network modules mixed-media 114 and air-conditioner outdoor unit 116.Indoor apparatus of air conditioner 112 is installed on indoor, and to indoor air-supply.

Air-conditioner 102 is preset with multiple mode of operation, such as refrigeration mode and heating mode etc..User can pass through the operational mode of the mode key selection air-conditioner 102 of the remote controller of air-conditioner 102.

Controller 110 may be installed on indoor apparatus of air conditioner 112, and controller 110 receives remote controller or the control instruction of high in the clouds 108 transmission, and controls the operation of air-conditioner 102 according to the control instruction received.

In the present embodiment, this air conditioner wireless mixed-media network modules mixed-media 114 is integrated on indoor apparatus of air conditioner 112, and it can be communicatively coupled with high in the clouds 108.Such as, air conditioner wireless mixed-media network modules mixed-media 114 may utilize WIFI (WLAN) network and is connected with high in the clouds 108, and receives the control instruction that high in the clouds 108 sends.

Air-conditioner outdoor unit 116 is installed on outdoor, and it utilizes compressor that the coolant in the pipeline of air-conditioner 102 is processed, and inputs the coolant after processing to indoor apparatus of air conditioner 112.

Indoor apparatus of air conditioner 112 and coolant generation heat exchange, and then make through the air heating of indoor apparatus of air conditioner 112 or turn cold.Indoor apparatus of air conditioner 112 includes indoor fan 118, and indoor fan 118 adjustable is through the air velocity of indoor apparatus of air conditioner 112.

In the present embodiment, monitoring device 104 includes signal picker 120, processing module 122 and monitoring side wireless network module 124.

This signal picker 120 gathers the transducing signal of this human body.This processing module 122 is identified as this physiology signal according to this transducing signal.This physiology signal is sent to this high in the clouds 108 by this monitoring side wireless network module 124.

In one example, signal picker 120 can be piezoelectric transducer.Piezoelectric transducer can use piezoceramic material (Piezoelectricceramicsmaterial) as sensor.Can by piezoelectric transducer and related accessories, include under mattress 500 such as associated transport line etc. or, under medicated pillow 600 or among, make by mattress 500 or medicated pillow 600, body pressure to be transferred to piezoelectric transducer during sleep quality.Therefore, piezoelectric transducer can collect the pressure signal of human body and as the transducing signal of human body.

Processing module 122 is such as micro-control unit (MCU), it receives the pressure signal of human body that signal picker 120 sends, and decomposition pressure signal is to identify body weight static pressure signal because health action of gravity produces and the heart rate dynamic pressure signal because of the dynamic dynamic pressure signal of body that health body movable property is raw, breathings dynamic pressure signal that respiratory movement produces and heart beating generation.In the present embodiment, these pressure signals constitute physiology signal.

Such as, pressure signal can be decomposed by processing module 122 according to the pulse number of pressure signal and amplitude.For body weight static pressure signal, when human body lies on a bed, human bady gravitational will be produced, the amplitude now producing pressure signal can increase to a certain value, forming a pulse, and the amplitude of this pulse is essentially without change, its pulse number produced within a certain period of time is less, and the change of the amplitude of pulse is less, processing module 122 can determine whether that this kind of pressure signal is body weight static pressure signal.

For the dynamic dynamic pressure signal of body, when human body lies on a bed, when standing up, the amplitude now producing pressure signal can change, and as first increased, reducing afterwards, or first reduces, increases afterwards, therefore, the pulse number produced within a certain period of time is more, and the amplitude of pulse changes greatly, and processing module 122 can determine whether that this kind of pressure signal is the dynamic dynamic pressure signal of body.

The identification of other pressure signal can be joined described above, is no longer developed in details at this.It is pointed out that in other embodiments, processing module 122 also can only identify body weight static pressure signal and the dynamic dynamic pressure signal of body.

Additionally, in the present embodiment, the pressure signal that signal picker 120 collects is analogue signal, pressure signal as analogue signal can be processed by processing module 122, process such as filtering etc., then transfer the pressure signal after process to digital signal, obtain the characteristic quantity of signal, and then identify various pressure signal.

This monitoring side wireless network module 124 is connected with processing module 122, and sends physiology signal to high in the clouds 108.

High in the clouds 108 receives, by network, the physiology signal that monitoring device 104 sends, and sends these physiology signals to controlling device 106.High in the clouds 108 can be cloud server (Data Management Analysis system), and it has the storage of data, analysis, forwarding and produces the functions such as control instruction.

It addition, monitoring device 104 includes memory module 126, memory module 126 can store the data such as the various signal collected and the parameter of setting, threshold value.

Controlling device 106 is such as the electronic installations such as mobile phone (particularly smart mobile phone), panel computer or notebook computer.Control device 106 and can pass through the physiology signal that the mixed-media network modules mixed-media reception high in the clouds 108 of control device 106 sends, and judge the sleep state (stage such as whether fall asleep and residing for after falling asleep) of human body according to this physiology signal.

Such as, the mixed-media network modules mixed-media controlling device 106 can be mobile communications network module (such as 3G network module) or Wireless LAN module (such as WIFI module).

Please joining Fig. 3, in a kind of example, user opens air-conditioner 102, and air-conditioner 102 runs in a chiller mode, for instance controller 110 controls the operation of air-conditioner 102 with the cryogenic temperature T0 of the air-conditioner 102 of the setting of user and the rotating speed V0 of blower fan.

When user just goes to bed, signal picker 120 monitors body weight static pressure signal and the dynamic dynamic pressure signal of body of user, control device 106 and receive, by controlling the mixed-media network modules mixed-media of device 106, body weight static pressure signal and the dynamic dynamic pressure signal of body that high in the clouds 108 sends, and judge that human body is not fallen asleep, it is in wake states.

Now, control device 106 and send the first control instruction to high in the clouds 108.First control instruction is the operation that the cryogenic temperature of this air-conditioner 102 of the setting with user and the rotating speed of blower fan control air-conditioner 102, and namely maintaining the rotating speed that cryogenic temperature is T0 and blower fan is V0.

Along with user is tranquil gradually, signal picker 120 monitors the dynamic dynamic pressure signal of body and is reduced to the first pulse number n1 at the first pulse number set in the time period, control device 106 and judge that human body is fallen asleep and was in for the first sleep stage, and the second control instruction when being sent in for the first sleep stage is to high in the clouds 108.

The second control instruction sent in the first sleep stage comprises the cryogenic temperature T1 of the air-conditioner 102 and rotating speed V1 of blower fan.

Fall asleep the stage first, control device 106 and judge that the heart rate of user somewhat slows down also by breathing dynamic pressure signal and heart rate dynamic pressure signal, metabolism perspires enhancing, in order to help people to fall asleep as early as possible, the rotating speed of the blower fan of the now suitable cryogenic temperature reducing air-conditioner 102 and raising air-conditioner 102, that is, T1<T0, V1>V0.

Along with the increase of the length of one's sleep, user's heart rate and breathing slow down further, metabolism slows down, and signal picker 120 monitors the dynamic dynamic pressure signal of body and is reduced to the second pulse number n2 from the first pulse number n1 within the second setting time period.Control device 106 and set the second pulse number n2 in the time period according to the dynamic dynamic pressure signal of body second, it is judged that human body was in for the second sleep stage, and the second control instruction when being sent in for the second sleep stage is to high in the clouds 108.

The second control instruction sent in the second sleep stage comprises the cryogenic temperature T2 of the air-conditioner 102 and rotating speed V2 of blower fan.This second sleep stage can be regarded as either shallow Sleep stages.

Falling asleep the stage second, the heart rate of user slows down further, and metabolism slows down, and body temperature declines, the rotating speed of the blower fan of the now suitable cryogenic temperature improving air-conditioner 102 and reduction air-conditioner 102, i.e. T2>T0>T1, V2<V0<V1.

Along with the increase further of the length of one's sleep, user's heart rate and breathing slow down further, and body is dynamic also fainter, and signal picker 120 monitors the dynamic dynamic pressure signal of body and is reduced to the 3rd pulse number n3 from the second pulse number n2 within the 3rd setting time period.Control device 106 and set the 3rd pulse number n3 in the time period according to the dynamic dynamic pressure signal of body the 3rd, it is judged that human body was in for the 3rd sleep stage, and the second control instruction when being sent in for the 3rd sleep stage is to high in the clouds 108.

The second control instruction sent in the 3rd sleep stage comprises the cryogenic temperature T3 of the air-conditioner 102 and rotating speed V3 of blower fan.3rd sleep stage can be regarded as deep sleep stages.

Falling asleep the stage the 3rd, the metabolism of user is remarkably decreased, high when the ambient temperature needed for user is than first and second sleep stage.Therefore, the sleep body-sensing in order to reduce user is cold and reduces flu generation, so the cryogenic temperature of air-conditioner 102 and the rotating speed of the blower fan of reduction air-conditioner 102, i.e. T3>T2>T0>T1, V3<V2<V0<V1 need to be improved further.

Additionally, further increase along with the length of one's sleep, due to physiology natural cause, standing up of user increases, sleep quality body is dynamic to be increased, processing module 122 recognizes the dynamic dynamic pressure signal of body and strengthens, and the dynamic dynamic pressure signal pulse number within the second setting time of body increases to the second pulse number n2 from the 3rd pulse number n3.

Therefore, control device 106 and judge that human body was in for the second sleep stage, and the second control instruction when being sent in for the second sleep stage is to high in the clouds 108, to promote that user enters the next 3rd sleep stage as early as possible.

It is preferred that above-mentioned first setting time period, the second setting time period and the 3rd setting time period, the rule according to people's sleep, can arranging for the first setting time period slightly shorter, the second setting time period is the longest, and the 3rd setting time period is the shortest.And the concrete numerical value of pulse number n1, n2 and n3 is determined by sleep experiments.

User is after the first sleep stage every night, can repeat to enter the second sleep stage (such as either shallow Sleep stages) and the 3rd sleep stage (such as deep sleep stages), and the control strategy in each stage is ibid.

Additionally, please join Fig. 4, during falling asleep, user stands up from bed, and signal picker 120 perceives the body weight static pressure signal of human body and is greatly reduced, and controls device 106 according to the body weight static pressure signal being greatly reduced, judge that human body is from bed, and send this first control instruction to this air-conditioner 102 by this high in the clouds 108, and make air-conditioner 102 keep running status when not falling asleep, namely the cryogenic temperature of air-conditioner 102 becomes the cryogenic temperature T0 of air-conditioner 102 that user sets and the rotating speed of blower fan becomes V0.

Further, user can be arranged in device 106 controlling, human body from bed more than the first setting time time whether close air-conditioner 102.If the saving energy, user setup human body from bed more than the first setting time time close air-conditioner 102.So, when judging human body from bed, control device 106 and start timing, and human body from bed more than the first setting time time, send out code to high in the clouds 108.First setting time can be set by the user.Such as first set the time as 10 minutes.

Such as, when human body is from bed, start timing moment be Ta_0, first sets the time as Ta_set, and current time is Ta_n, then at Ta_n-Ta_0 > Ta_set time, control device 106 send out code to high in the clouds 108.

Further, Fig. 5 please be join, for point out user's air-conditioner 102 state, control device 106 human body from bed more than the second setting time time, send alarm.Second sets the time more than the first setting time.Such as, second the time is set as 15 minutes.

Such as, when human body is from bed, the moment starting timing is Ta_0, second sets the time as Tc_set, and Tc_set > Ta_set, and current time is Ta_n, so at Ta_n-Ta_0 > Tc_set time, control device 106 send alarm, otherwise return the judgement to sleep quality state.The alarm sent can be sound and/or light alarm.

It is to be noted, control device 106 and the application program controlling air-conditioner 102 can be installed, application program (APP) such as sleep state assessment, this application program provides various user interfaces and setting, is available for user and checks in the conditioners running conditions in each moment and arrange various parameter and setting.It addition, the rotating speed of above-mentioned blower fan refers to the rotating speed of indoor fan 118.

Please joining Fig. 4, in the dormant process of above-mentioned judgement, if controller 110 receives the control instruction that remote controller sends, then controller 110 controls the operation of air-conditioner 102 according to the control instruction that remote controller sends.

The various instructions that high in the clouds 108 is sent by network receiving control device 106, such as the first control instruction, the second control instruction and out code etc., and send these instructions to air-conditioner 102.

The air conditioner wireless mixed-media network modules mixed-media 114 of air-conditioner 102 receives the various instructions that high in the clouds 108 sends, and controller 110 can control the operation of air-conditioner 102 according to these instructions.

Such as, when air conditioner wireless mixed-media network modules mixed-media 114 receives the first control instruction, first control instruction is sent to controller 110 by air conditioner wireless mixed-media network modules mixed-media 114, controller 110 is according to the first control instruction, and the cryogenic temperature T0 of air-conditioner 102 set with user and the wind speed V0 of blower fan controls the operation of air-conditioner 102.

When air conditioner wireless mixed-media network modules mixed-media 114 receives when the second control instruction of the first sleep stage transmission, second control instruction is sent to controller 110 by air conditioner wireless mixed-media network modules mixed-media 114, controller 110 is according to the second control instruction, the operation of air-conditioner 102 is controlled with the wind speed V1 of the cryogenic temperature T1 of air-conditioner 102 and blower fan, it is reduced to T1 by cryogenic temperature from T0, the rotating speed of blower fan is brought up to V1 from V0.

When air conditioner wireless mixed-media network modules mixed-media 114 receives when the second control instruction of the second sleep stage transmission, second control instruction is sent to controller 110 by air conditioner wireless mixed-media network modules mixed-media 114, controller 110 is according to the second control instruction, the operation of air-conditioner 102 is controlled with the wind speed V2 of the cryogenic temperature T2 of air-conditioner 102 and blower fan, bring up to T2 by cryogenic temperature from T1, the rotating speed of blower fan is reduced to V2 from V1.

When air conditioner wireless mixed-media network modules mixed-media 114 receives when the second control instruction of the 3rd sleep stage transmission, second control instruction is sent to controller 110 by air conditioner wireless mixed-media network modules mixed-media 114, controller 110 is according to the second control instruction, the operation of air-conditioner 102 is controlled with the wind speed V3 of the cryogenic temperature T3 of air-conditioner 102 and blower fan, bring up to T3 by cryogenic temperature from T2, the rotating speed of blower fan is reduced to V3 from V2.

When air conditioner wireless mixed-media network modules mixed-media 114 receives out code, out code is sent to controller 110 by air conditioner wireless mixed-media network modules mixed-media 114, and controller 110, according to out code, cuts out air-conditioner 102.

In another kind of example, user opens air-conditioner 102, and air-conditioner 102 runs with heating mode, and controller 110 controls the operation of air-conditioner 102 with the rotating speed V10 heating temperature T10 and blower fan of the air-conditioner 102 of the setting of user.

When controlling device 106 and judging that human body is not fallen asleep according to physiology signal, control device 106 and send the first control instruction to high in the clouds 108.First control instruction is the operation of the rotating speed V10 control air-conditioner 102 heating temperature T10 and blower fan of this air-conditioner 102 of the setting with user.

Judging that human body is fallen asleep and when being in for the first sleep stage when controlling device 106 according to physiology signal, the second control instruction when control device 106 was sent in for the first sleep stage is to high in the clouds 108.The second control instruction sent in the first sleep stage comprises the rotating speed V11 heating temperature T11 and blower fan of air-conditioner 102.

Falling asleep the stage first, the heart rate of user somewhat slows down, and metabolism perspires enhancing, in order to help people to fall asleep as early as possible, and the rotating speed of the now suitable blower fan heating temperature and raising air-conditioner 102 reducing air-conditioner 102.That is, T11<T10, V11>V10.

When control device 106 according to human body process signal judge that human body was in for the second sleep stage time, the second control instruction when control device 106 was sent in for the second sleep stage is to high in the clouds 108.The second control instruction sent in the second sleep stage comprises the rotating speed V12 heating temperature T12 and blower fan of air-conditioner 102.This second sleep stage can be regarded as either shallow Sleep stages.

Falling asleep the stage second, the heart rate of user slows down further, and metabolism slows down, temperature decline, the rotating speed of the now suitable blower fan heating temperature and reduction air-conditioner 102 improving air-conditioner 102, i.e. T12>T10>T11, V12<V10<V11.

When control device 106 according to physiology signal judge human body be in the 3rd sleep the stage time, control device 106 be sent in the 3rd fall asleep the stage time the second control instruction to high in the clouds 108.The second control instruction sent in the 3rd sleep stage comprises the rotating speed V13 heating temperature T13 and blower fan of air-conditioner 102.3rd sleep stage can be regarded as deep sleep stages.

Fall asleep the stage the 3rd, user's hypothermia, in order to prevent flu, improves the rotating speed heating temperature and the blower fan reducing air-conditioner 102 of air-conditioner 102, i.e. T13>T12>T10>T11, V13<V12<V10<V11 further.

Additionally, further increase along with the length of one's sleep, due to physiology natural cause, standing up of user increases, sleep quality body is dynamic to be increased, control device 106 and judge that human body was in for the second sleep stage according to body dynamic dynamic pressure signal, and the second control instruction when being sent in for the second sleep stage is to high in the clouds 108, to promote that user enters the 3rd sleep stage of the next one as early as possible.

Additionally, during falling asleep, user stands up from bed, signal picker 120 perceives the body weight static pressure signal of human body and is greatly reduced, control device 106 according to the body weight static pressure signal being greatly reduced, it is judged that human body is from bed, and sends this first control instruction to this air-conditioner 102 by this high in the clouds 108, make air-conditioner 102 keep running status when not falling asleep, namely air-conditioner 102 heat temperature become user set the cryogenic temperature T10 of air-conditioner 102 and the rotating speed of blower fan become V10.

Further, user can be arranged in device 106 controlling, human body from bed more than the first setting time time whether close air-conditioner 102.If the saving energy, user setup human body from bed more than the first setting time time close air-conditioner 102.So, when judging human body from bed, control device 106 and start timing, and human body from bed more than the first setting time time, send out code to high in the clouds 108.First setting time can be set by the user.

Further, for point out user's air-conditioner 102 state, control device 106 human body from bed more than the second setting time time, send alarm.Second sets the time more than the first setting time.

The air conditioner wireless mixed-media network modules mixed-media 114 of air-conditioner 102 receives the various instructions that high in the clouds 108 sends, and controller 110 can control the operation of air-conditioner 102 according to the control instruction that these instructions and remote controller send.Concrete process can join explanation when running in a chiller mode with means for air conditioner 102, does not repeat them here.

Additionally, in order to more adapt to the sleep habit of user, control device 106 and record the rotating speed of temperature and the blower fan controlling this air-conditioner 102 when this air-conditioner 102 runs according to this second control instruction, and form corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this air-conditioner 102 by this high in the clouds 108.

Such as, control device 106 and record the rotating speed of the temperature (such as cryogenic temperature or heat temperature) at each sleep stage air-conditioner 102 and blower fan, as recorded T1, V1, T2, V2, T3 and V3, and T11, V11, T12, V12, T13 and V13, so controlling device 106 and can learn temperature curve and the speed curves in user's difference sleep stage, the recommended temperature/rotary speed parameter as user's sleep pattern next time is sent to air-conditioner 102 by high in the clouds 108.

Further, in order to make condition when user conveniently watches sleep, this control device 106 receives this breathing dynamic pressure signal and this heart rate dynamic pressure signal, and according to this breathing dynamic pressure signal, generate and display breath data, and according to this heart rate dynamic pressure signal, generate and display heart rate data.

Such as, control the available display screen controlling device 106 of device 106 and show breath data and heart rate data in the user interface of the application program controlling air-conditioner 102.The mode that the display mode of these data such as shows for curve.

In sum, the control system 100 of above-mentioned air-conditioner is according to the physiology signal monitored, it is judged that human body different stage, to control the operation of air-conditioner 102, makes air-conditioner 102 can provide comfortable Consumer's Experience for human body.

Further, the signal picker of the present embodiment include under mattress 500 or, under medicated pillow 600 or among, therefore, the control system 100 of air-conditioner utilizes non-wearing mode to monitor physiological parameter to judge sleep quality, it is to avoid human body causes discomfort because dressing signal picker.

It addition, in other embodiments, signal picker is used as that microwave detection bodies is dynamic breathes, or mike is monitored the mode of mode or accelerometer monitoring acceleration that body moves breathing and substituted.

Please joining Fig. 6～Fig. 9, the present invention the second preferred embodiment provides the control system 200 of a kind of air-conditioner.The control system 100 of the control system 200 of this air-conditioner and the air-conditioner of the first preferred embodiment is essentially identical, it is different in that, in the control system 200 of the air-conditioner of the present embodiment, this monitoring device 202 is medicated pillow, and this monitoring device 202 also includes speaker 204.This speaker 204 sends this sleeping music.

Specifically, in one example, signal picker 206, monitoring side wireless network module 208, speaker 204, processing module 210 and memory module 211 may be provided in monitoring device 202 (medicated pillow).

This control device 212 sets the 4th pulse number n4 in the time period according to the dynamic dynamic pressure signal of body the 4th, it is judged that this human body difficulty falling asleep, and controls this speaker 204 by high in the clouds 214 and send sleeping music.4th pulse number is more than this first pulse number.

It is preferred that can according to the rule of people's sleep, the above-mentioned 4th setting time period is shorter than the first setting time period, and the concrete numerical value of pulse number n4 can be determined by sleep experiments.

After user goes to bed, not resting if the dynamic dynamic pressure signal of body sets in the time period the 4th, its pulse number meets or exceeds the 4th pulse number n4 (n4 > n1), controls device 212 and judges human body difficulty falling asleep.Control device 212 to modulate sleeping music and send corresponding control signal to processing module 210 by high in the clouds 214, processing module 210 controls speaker 204 according to control signal and plays sleeping music, so that monitoring device 202 sends sleeping music, human body is helped to fall asleep as early as possible.

Further, in order to make human body enter for the second sleep stage from the first sleep stage as soon as possible, when this human body be in this first fall asleep the stage time, this control device 212 controls this speaker 204 by high in the clouds 214 and sends this sleeping music.

Yet further, in order to make human body as soon as possible from the second the 3rd sleep stage of entrance sleep stage, when this human body is in this second sleep stage, this control device 212 controls this speaker 204 by high in the clouds 214 and sends this sleeping music.

In sum, the control system 200 of the air-conditioner of the present embodiment, by increasing speaker 204 in monitoring device 202, make when human body difficulty falling asleep, control speaker 204 and send sleeping music, make human body fall asleep as early as possible.Meanwhile, the control system 200 of above-mentioned air-conditioner utilizes medicated pillow monitoring physiology signal, does not result in the discomfort that user causes during sleeping because wearing.

Please joining Figure 10～Figure 13, the present invention the 3rd preferred embodiment provides the control system 300 of a kind of air-conditioner.The control system 200 of the control system 300 of this air-conditioner and the air-conditioner of the second preferred embodiment is essentially identical, and it is different in that, in the control system 300 of the air-conditioner of the present embodiment, monitoring device 302 also includes mike 304 and vibrating motor 306.

This mike 304 records the sound of snoring of this human body and generates sound of snoring signal.According to this sound of snoring signal, this processing module 308 judges whether this human body snores.If so, this processing module 308 controls this vibrating motor 306 and vibrates.

Specifically, when this processing module 308 judges that the sound pressure level of this sound of snoring signal is more than setting threshold value, and the sound of snoring frequency is more than when setting the frequency within the unit interval, and this processing module 308 judges that this human body is snored.

Such as, please joining Figure 13, when user entered for the second sleep stage, processing module 308 controls mike 304 and records the sound of snoring, and the sound of snoring signal that mike 304 collects sends processing module 308 to.Processing module 308 according to the sound pressure level L_real of the sound of snoring signal analysis sound of snoring whether more than setting threshold value L_set.

If sound pressure level L_real > L_set, then processing module 308 determines whether that whether the sound of snoring frequency N_real in the unit interval is more than setting frequency N_set.If sound of snoring frequency N_real > N_set, then processing module 308 judges that user needs sound of snoring intervention, and processing module 308, according to the power of the sound of snoring of user and the frequency, sends suitable vibratory stimulation instruction to vibrating motor 306.Vibrating motor 306 vibrates according to vibratory stimulation instruction, helps the user of snoring suitably to intervene sleeping.

Further, in order to realize the arousal function of the control system 300 of air-conditioner, control device 310 and according to the time of setting and set oscillation intensity, send vibration signal to processing module 308 by this high in the clouds 312.

Processing module 308 controls this vibrating motor 306 according to this vibration signal and vibrates.

Specifically, in one example, the setting time can be the time of getting up of user, and user can pass through to control device 310 (such as mobile phone or panel computer) and sets the time of getting up and set oscillation intensity.When the time of getting up arrives, control device 310 and set suitable oscillation intensity transmission vibration signal to high in the clouds 312 according to user.

Vibration signal is sent to processing module 308 by high in the clouds 312, and processing module 308 receives vibration signal, and controls the vibrating motor 306 oscillation intensity with user preference to body massaging according to vibration signal, in order to soft wakes user up, and leaves the people of surrounding alone.

Other not deployed part of the control system 300 of the air-conditioner of the present embodiment, can join the part that the control system 200 of the control system 100 of the air-conditioner of the first preferred embodiment and the air-conditioner of the second preferred embodiment is same or like, not repeat them here.

In sum, in the control system 300 of the air-conditioner of the present embodiment, it is possible to the human body for snoring carries out appropriateness vibratory stimulation and gives to reduce degree of snoring, improves the comfortableness of sleep quality, simultaneously, it is also possible to user is waken up.

Please joining Figure 14, the control method of the air-conditioner of the present invention the 4th preferred embodiment comprises the following steps:

S11: monitoring physiology signal, and this physiology signal is sent to high in the clouds 108, this physiology signal is sent to controlling device 106 by this high in the clouds 108；

S12: control device 106 and receive this physiology signal, and judge the sleep state of human body according to this physiology signal；

S13: if this human body is not fallen asleep, control device 106 and send the first control instruction to high in the clouds 108, this first control instruction is sent to air-conditioner 102 by this high in the clouds 108, the controller 110 of this air-conditioner 102 is according to this first control instruction, and the temperature of this air-conditioner and the rotating speed of blower fan to set control this air-conditioner 102 and run；

S14: if this human body is fallen asleep, control the stage residing after device 106 judges the sleep of this human body according to this physiology signal, and send the second control instruction to this high in the clouds 108 according to this residing stage, this second control instruction is sent to this air-conditioner 102 by this high in the clouds 108, this controller 110, according to this second control instruction, regulates the temperature of this air-conditioner 102 and the rotating speed of blower fan.

Specifically, the control method of the air-conditioner of the present embodiment can be realized by the control system 100 of the air-conditioner of above example.

In step s 11, monitoring device 104 monitors physiology signal.Specifically, this signal picker 120 gathers the transducing signal of this human body.This processing module 122 is identified as this physiology signal according to this transducing signal.This physiology signal is sent to high in the clouds 108 by this monitoring side wireless network module 124.This physiology signal is sent to controlling device 106 by this high in the clouds 108.

Further, described it is identified as this physiology signal according to this transducing signal, including:

This transducing signal is identified as the breathing dynamic pressure signal that body moves dynamic pressure signal, respiratory movement produces of the body weight static pressure signal including human bady gravitational effect generation and the life of body movable property and this physiology signal of the heart rate dynamic pressure signal that heart beating produces.

Specifically, processing module 122 receives the pressure signal (transducing signal) of human body that signal picker 120 sends, and decomposition pressure signal is to identify body weight static pressure signal because health action of gravity produces and the heart rate dynamic pressure signal because of the dynamic dynamic pressure signal of body that health body movable property is raw, breathings dynamic pressure signal that respiratory movement produces and heart beating generation.In the present embodiment, these pressure signals constitute physiology signal.

It is pointed out that in other embodiments, processing module 122 also can only identify body weight static pressure signal and the dynamic dynamic pressure signal of body.

In step s 12, control device 106 and can pass through the physiology signal that the mixed-media network modules mixed-media reception high in the clouds 108 of control device 106 sends, and judge the sleep state (stage such as whether fall asleep and residing for after falling asleep) of human body according to this physiology signal.

Further, the described sleep state judging human body according to this physiology signal, including:

Control device 106 according to the dynamic dynamic pressure signal of this body weight static pressure signal and this body, it is judged that this human body is not fallen asleep；

Control device 106 and set the first pulse number in the time period according to the dynamic dynamic pressure signal of this body first, it is judged that this human body was in for the first sleep stage；

Control device 106 and set the second pulse number in the time period according to the dynamic dynamic pressure signal of this body second, it is judged that this human body was in for the second sleep stage；

Control device 106 and set the 3rd pulse number in the time period according to the dynamic dynamic pressure signal of this body the 3rd, it is judged that this human body was in for the 3rd sleep stage；

This first pulse number is more than this second pulse number, and this second pulse number is more than the 3rd pulse number.

It should be noted that the control method of the explanation of the embodiment of the aforementioned control system 100 to the air-conditioner also air-conditioner of suitable the present embodiment, repeat no more herein.

In step s 13, when user just goes to bed, signal picker 120 monitors body weight static pressure signal and the dynamic dynamic pressure signal of body of user, control device 106 and receive, by controlling the mixed-media network modules mixed-media of device 106, body weight static pressure signal and the dynamic dynamic pressure signal of body that high in the clouds 108 sends, and judge that human body is not fallen asleep, it is in wake states.

Now, control device 106 and send the first control instruction to high in the clouds 108.First control instruction is the operation that the cryogenic temperature of this air-conditioner 102 of the setting with user and the rotating speed of blower fan control air-conditioner 102, and the rotating speed namely maintaining air-conditioner 102 temperature and blower fan is constant.

First control instruction is sent to air-conditioner 102 by high in the clouds 108.

When the air conditioner wireless mixed-media network modules mixed-media 114 of air-conditioner 102 receives the first control instruction, first control instruction is sent to controller 110 by air conditioner wireless mixed-media network modules mixed-media 114, controller 110 is according to the first control instruction, with the operation of the temperature of the air-conditioner 102 of user's setting and the blast velocity control air-conditioner 102 of blower fan.

In step S14, controlling the stage residing after device 106 judges the sleep of this human body according to this physiology signal, and send the second control instruction to this high in the clouds 108 according to this residing stage, this second control instruction is sent to this air-conditioner 102 by this high in the clouds 108.

This controller 110 described, according to this second control instruction, regulates the temperature of this air-conditioner 102 and the rotating speed of blower fan, including:

When this air-conditioner 102 runs in a chiller mode, this controller 110 is according to this second control instruction sent in this first sleep stage, compared to when this human body is not fallen asleep, reduce the cryogenic temperature of this air-conditioner 102, and compared to when this human body is not fallen asleep, improve the rotating speed of the blower fan of this air-conditioner 102；

This controller 110 is according to this second control instruction sent in this second sleep stage, compared to when this human body is not fallen asleep, improving the cryogenic temperature of this air-conditioner 102, and compared to when this human body is not fallen asleep, reduction is at the rotating speed of the blower fan of this air-conditioner 102；

This controller 110 this second control instruction according to stage transmission of falling asleep the 3rd, compared to when this human body is in this second sleep stage, improve the cryogenic temperature of this air-conditioner 102, and compared to when this human body is in this second sleep stage, reduce the rotating speed of the blower fan of this air-conditioner 102.

When the operational mode of another kind of air-conditioner 102, the controller 110 of this air-conditioner 102 described, according to this second control instruction, regulates the temperature of this air-conditioner 102 and the rotating speed of blower fan, including:

When this air-conditioner 102 runs with heating mode, this controller 110 is according to this second control instruction sent in this first sleep stage, compared to when this human body is not fallen asleep, that reduces this air-conditioner 102 heats temperature, and compared to when this human body is not fallen asleep, improve the rotating speed of the blower fan of this air-conditioner 102；

This controller 110 is according to this second control instruction sent in this second sleep stage, compared to when this human body is not fallen asleep, improving the temperature that heats of this air-conditioner 102, and compared to when this human body is not fallen asleep, reduce the rotating speed of the blower fan of this air-conditioner 102；

This controller 110 this second control instruction according to stage transmission of falling asleep the 3rd, compared to when this human body is in this second sleep stage, improve the temperature that heats of this air-conditioner 102, and compared to when this human body is in this second sleep stage, reduce the rotating speed of the blower fan of this air-conditioner 102.

Further, the control method of the air-conditioner of the present embodiment, further comprising the steps of:

Control device 106 according to this physiology signal, judge that this human body is from bed, and by this high in the clouds 108 send this first control instruction to this air-conditioner 102 and this human body from bed more than the first setting time time, send out code to this air-conditioner 102 by this high in the clouds 108；

This controller 110, according to this out code, cuts out this air-conditioner 102.

Specifically, please join Fig. 4, during falling asleep, user stands up from bed, signal picker 120 perceives the body weight static pressure signal of human body and is greatly reduced, and controls device 106 according to the body weight static pressure signal being greatly reduced, it is judged that human body is from bed, and send this first control instruction to this air-conditioner 102 by this high in the clouds 108, make air-conditioner 102 keep running status when not falling asleep.

Further, user can be arranged in device 106 controlling, human body from bed more than the first setting time time whether close air-conditioner 102.If the saving energy, user setup human body from bed more than the first setting time time close air-conditioner 102.So, when judging human body from bed, control device 106 and start timing, and human body from bed more than the first setting time time, send out code to high in the clouds 108.First setting time can be set by the user, such as 10 minutes.

Control device 106 this human body from bed more than the second setting time time, send alarm；

This second setting time is more than this first setting time.

Please join Fig. 5, for point out user's air-conditioner 102 state, control device 106 human body from bed more than the second setting time time, send alarm.Second sets the time more than the first setting time.Such as, second the time is set as 15 minutes.

It addition, in order to more adapt to the sleep habit of user, the control method of the air-conditioner of the present embodiment is further comprising the steps of:

Control device 106 and record the rotating speed of temperature and the blower fan controlling this air-conditioner 102 when this air-conditioner 102 runs according to this second control instruction, and form corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this air-conditioner 102 by this high in the clouds 108.

Above-mentioned steps can perform in step S14.Specifically, such as, control device 106 and record the rotating speed of the temperature (such as cryogenic temperature or heat temperature) at each sleep stage air-conditioner 102 and blower fan, as recorded T1, V1, T2, V2, T3 and V3, and T11, V11, T12, V12, T13 and V13, so controlling device 106 and can learn temperature curve and the speed curves in user's difference sleep stage, the recommended temperature/rotary speed parameter as user's sleep pattern next time is sent to air-conditioner 102 by high in the clouds 108.

Further, in order to make condition when user conveniently watches sleep, the control method of the air-conditioner of the present embodiment is further comprising the steps of:

Control device 106 and receive this breathing dynamic pressure signal and this heart rate dynamic pressure signal, and according to this breathing dynamic pressure signal, generate and display breath data, and according to this heart rate dynamic pressure signal, generate and display heart rate data.

Specifically, control the available display screen controlling device 106 of device 106 and show breath data and heart rate data in the user interface of the application program controlling air-conditioner 102.The mode that the display mode of these data such as shows for curve.

It is pointed out that other not deployed part of the control method of the air-conditioner of the present embodiment can join the identical or corresponding part of the control system 100 of the air-conditioner of above example, be no longer developed in details at this.

In sum, the control method of above-mentioned air-conditioner is according to the physiology signal monitored, it is judged that human body different stage, to control the operation of air-conditioner 102, makes air-conditioner 102 can provide comfortable Consumer's Experience for human body.

Further, the control method of the air-conditioner of the present embodiment utilizes non-wearing mode to monitor physiological parameter to judge sleep quality, it is to avoid human body causes discomfort because dressing signal picker.

It addition, the present invention the 5th preferred embodiment also provides for the control method of a kind of air-conditioner.The control method of the air-conditioner of the present embodiment is essentially identical with the control method of the air-conditioner of the 4th preferred embodiment, and it is different in that, the control method of the air-conditioner of the present embodiment is further comprising the steps of:

Control device and set the 4th pulse number in the time period according to the dynamic dynamic pressure signal of this body the 4th, it is judged that human body difficulty falling asleep, and send sleeping music by high in the clouds control speaker；

4th pulse number is more than this first pulse number.

Specifically, the control method of the air-conditioner of this embodiment also can join the explanation of the control system 200 of the aforementioned air-conditioner to the second preferred embodiment, repeats no more herein.

In sum, the control method of the air-conditioner of the present embodiment, by increasing speaker, make when human body difficulty falling asleep, control device and send sleeping music by high in the clouds control speaker, make human body fall asleep as early as possible.Meanwhile, the available medicated pillow monitoring physiology signal of the control method of above-mentioned air-conditioner, do not result in the discomfort that user causes during sleeping because wearing.

Further, the present invention the 6th preferred embodiment also provides for the control method of a kind of air-conditioner.The control method of the air-conditioner of the present embodiment is essentially identical with the control method of the air-conditioner of the 5th preferred embodiment, and it is different in that, the control method of the air-conditioner of the present embodiment is further comprising the steps of:

Record the sound of snoring of this human body and generate sound of snoring signal；

Judge whether this human body snores according to this sound of snoring signal；

If so, the vibration of this vibrating motor is controlled.

Specifically, described judge whether this human body snores according to this sound of snoring signal, including: when judging that the sound pressure level of this sound of snoring signal is more than setting threshold value, and within the unit interval sound of snoring frequency more than when setting the frequency, it is judged that this human body is snored.

Further, in the present embodiment, the control method of air-conditioner is further comprising the steps of:

Control device and according to the time of setting and set oscillation intensity, send vibration signal by this high in the clouds；

Receive this vibration signal and control the vibration of this vibrating motor according to this vibration signal.

It should be noted that the control method of the air-conditioner of this embodiment also can join the explanation of the control system 300 of the aforementioned air-conditioner to the 3rd preferred embodiment, repeat no more herein.

In sum, in the control method of the air-conditioner of the present embodiment, appropriateness vibratory stimulation can be carried out for the human body of snoring to give to reduce degree of snoring, improve the comfortableness of sleep quality, simultaneously, it also is able to time that user is set with user and oscillation intensity is waken up, and leave the people of surrounding alone.

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

Additionally, term " first ", " second " are only for descriptive purposes, and it is not intended that indicate or imply relative importance or the implicit quantity indicating indicated technical characteristic.Thus, define " first ", the feature of " second " can express or implicitly include at least one this feature.In describing the invention, " multiple " are meant that at least two, for instance two, three etc., unless otherwise expressly limited specifically.

Describe in flow chart or in this any process described otherwise above or method and be construed as, represent and include the module of code of executable instruction of one or more step for realizing specific logical function or process, fragment or part, and the scope of the preferred embodiments of the present invention includes other realization, wherein can not press order that is shown or that discuss, including according to involved function by basic mode simultaneously or in the opposite order, performing function, this should be understood by embodiments of the invention person of ordinary skill in the field.

Represent in flow charts or in this logic described otherwise above and/or step, such as, it is considered the sequencing list of executable instruction for realizing logic function, may be embodied in any computer-readable medium, use for instruction execution system, device or equipment (such as computer based system, including the system of processor or other can from instruction execution system, device or equipment instruction fetch the system performing instruction), or use in conjunction with these instruction execution systems, device or equipment.For the purpose of this specification, " computer-readable medium " can be any can comprise, store, communicate, propagate or transmission procedure is 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 includes following: have the electrical connection section (electronic installation) of one or more wiring, portable computer diskette box (magnetic device), random access memory (RAM), read only memory (ROM), erasable edit read only memory (EPROM or flash memory), fiber device, and portable optic disk read only memory (CDROM).Additionally, computer-readable medium can even is that the paper that can print described program thereon or other suitable media, because can such as by paper or other media be carried out optical scanning, then carry out editing, interpreting or be processed to electronically obtain described program with other suitable methods if desired, 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 embodiments, multiple steps or method can realize with the storage software or firmware in memory and by suitable instruction execution system execution.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: there is the discrete logic of logic gates for data signal realizes logic function, there is the special IC of suitable combination 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 can be by the hardware that program carrys out instruction relevant and complete, described program can be stored in a kind of computer-readable recording medium, this program upon execution, including the step one or a combination set of of embodiment of the method.

Additionally, each functional unit in each embodiment of the present invention can be integrated in a processing module, it is also possible to be that unit is individually physically present, it is also possible to two or more unit are integrated in a module.Above-mentioned integrated module both can adopt the form of hardware to realize, it would however also be possible to employ the form of software function module realizes.If described integrated module is using the form realization of software function module and as independent production marketing or use, it is also possible to be stored in a computer read/write memory medium.

Storage medium mentioned above can be read only memory, disk or CD etc..Although above it has been shown and described that embodiments of the invention, it is understandable that, above-described embodiment is illustrative of, it is impossible to be interpreted as limitation of the present invention, and above-described embodiment can be changed, revises, replace and modification by those of ordinary skill in the art within the scope of the invention.

Claims

1. the control system of an air-conditioner, it is characterised in that including:

Air-conditioner, this air-conditioner includes controller；

Monitoring device, this monitoring device monitoring physiology signal；

High in the clouds, this high in the clouds receives this physiology signal that this monitoring device sends；

Controlling device, this control device receives this physiology signal that this high in the clouds sends, and judges the sleep state of human body according to this physiology signal；

If this human body is not fallen asleep, this control device sends the first control instruction to this high in the clouds, and this first control instruction is sent to this air-conditioner by this high in the clouds；

If this human body is fallen asleep, the stage that this control device is residing after judging the sleep of this human body according to this physiology signal, and send the second control instruction to this high in the clouds according to this residing stage, this second control instruction is sent to this air-conditioner by this high in the clouds；

This controller, according to this first control instruction, controls this air-conditioner with the temperature of this air-conditioner set and the rotating speed of blower fan and runs, and according to this second control instruction, regulate the temperature of this air-conditioner and the rotating speed of blower fan.

2. the control system of air-conditioner as claimed in claim 1, it is characterised in that this monitoring device includes signal picker, processing module and monitoring side wireless network module；

This signal picker gathers the transducing signal of this human body；

This processing module is identified as this physiology signal according to this transducing signal；

This physiology signal is sent to this high in the clouds by this monitoring side wireless network module.

3. the control system of air-conditioner as claimed in claim 2, it is characterised in that this transducing signal is identified as this physiology signal of the dynamic dynamic pressure signal of body of the body weight static pressure signal including human bady gravitational effect generation and the life of body movable property by this processing module.

4. the control system of air-conditioner as claimed in claim 3, it is characterised in that this control device is according to the dynamic dynamic pressure signal of this body weight static pressure signal and this body, it is judged that this human body is not fallen asleep；

This control device sets the first pulse number in the time period according to the dynamic dynamic pressure signal of this body first, it is judged that this human body was in for the first sleep stage；

This control device sets the second pulse number in the time period according to the dynamic dynamic pressure signal of this body second, it is judged that this human body was in for the second sleep stage；

This control device sets the 3rd pulse number in the time period according to the dynamic dynamic pressure signal of this body the 3rd, it is judged that this human body was in for the 3rd sleep stage；

5. the control system of air-conditioner as claimed in claim 4, it is characterized in that, when this air-conditioner runs in a chiller mode, this controller is according to this second control instruction sent in this first sleep stage, compared to when this human body is not fallen asleep, reduce the cryogenic temperature of this air-conditioner, and relative to when this human body is not fallen asleep, improve the rotating speed of the blower fan of this air-conditioner；

This controller is according to this second control instruction sent in this second sleep stage, compared to when this human body is not fallen asleep, improving the cryogenic temperature of this air-conditioner, and compared to when this human body is not fallen asleep, reduce the rotating speed of the blower fan of this air-conditioner；

This controller this second control instruction according to stage transmission of falling asleep the 3rd, compared to when this human body is in this second sleep stage, improve the cryogenic temperature of this air-conditioner, and compared to when this human body is in this second sleep stage, reduce the rotating speed of the blower fan of this air-conditioner.

6. the control system of air-conditioner as claimed in claim 4, it is characterized in that, when this air-conditioner runs with heating mode, this controller is according to this second control instruction sent in this first sleep stage, compared to when this human body is not fallen asleep, reduce the temperature that heats of this air-conditioner, and compared to when this human body is not fallen asleep, improve the rotating speed of the blower fan of this air-conditioner；

This controller is according to this second control instruction sent in this second sleep stage, compared to when this human body is not fallen asleep, improving the temperature that heats of this air-conditioner, and compared to when this human body is not fallen asleep, reduce the rotating speed of the blower fan of this air-conditioner；

This controller this second control instruction according to stage transmission of falling asleep the 3rd, compared to when this human body is in this second sleep stage, improve the temperature that heats of this air-conditioner, and compared to when this human body is in this second sleep stage, reduce the rotating speed of the blower fan of this air-conditioner.

7. the control system of air-conditioner as claimed in claim 3, it is characterised in that this transducing signal is also identified as this physiology signal of the heart rate dynamic pressure signal of the breathing dynamic pressure signal including respiratory movement generation and heart beating generation by this processing module.

8. the control system of air-conditioner as claimed in claim 7, it is characterized in that, this control device receives this breathing dynamic pressure signal and this heart rate dynamic pressure signal, and according to this breathing dynamic pressure signal, generate and display breath data, and according to this heart rate dynamic pressure signal, generate and display heart rate data.

9. the control system of air-conditioner as claimed in claim 1, it is characterized in that, this air-conditioner includes air conditioner wireless mixed-media network modules mixed-media, this air conditioner wireless mixed-media network modules mixed-media receives this first control instruction and this second control instruction that this high in the clouds sends, and sends this first control instruction and this second control instruction to this controller.

10. the control system of air-conditioner as claimed in claim 1, it is characterized in that, this control device record controls the rotating speed of the temperature of this air-conditioner when this air-conditioner runs and blower fan according to this second control instruction, and form corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this air-conditioner by this high in the clouds.

11. the control system of air-conditioner as claimed in claim 1, it is characterized in that, this control device is according to this physiology signal, judge that this human body is from bed, and by this high in the clouds send this first control instruction to this air-conditioner and this human body from bed more than the first setting time time, send out code to this air-conditioner by this high in the clouds；

This controller, according to this out code, cuts out this air-conditioner.

12. the control system of air-conditioner as claimed in claim 11, it is characterised in that this control device this human body from bed more than the second setting time time, send alarm；

This second setting time is more than this first setting time.

13. the control system of air-conditioner as claimed in claim 4, it is characterised in that this monitoring device is medicated pillow, and this monitoring device includes speaker；

This control device sets the 4th pulse number in the time period according to the dynamic dynamic pressure signal of this body the 4th, it is judged that this human body difficulty falling asleep, and controls this speaker by this high in the clouds and send sleeping music；

4th pulse number is more than this first pulse number.

14. the control system of air-conditioner as claimed in claim 13, it is characterised in that when this human body is in this first sleep stage, this control device controls this speaker by this high in the clouds and sends this sleeping music；

When this human body is in this second sleep stage, this control device controls this speaker by this high in the clouds and sends this sleeping music.

15. the control system of the air-conditioner as described in claim 2 or 13, it is characterised in that this monitoring device also includes mike and vibrating motor；

The sound of snoring of this mike this human body of record also generates sound of snoring signal；

According to this sound of snoring signal, this processing module judges whether this human body snores；

If so, this processing module controls the vibration of this vibrating motor.

16. the control system of air-conditioner as claimed in claim 15, it is characterised in that when this processing module judges that the sound pressure level of this sound of snoring signal is more than setting threshold value, and the sound of snoring frequency is more than when setting the frequency within the unit interval, and this processing module judges that this human body is snored.

17. the control system of air-conditioner as claimed in claim 15, it is characterised in that this control device is according to the time of setting and sets oscillation intensity, by this high in the clouds transmission vibration signal to this processing module；

This processing module controls the vibration of this vibrating motor according to this vibration signal.

18. the control method of an air-conditioner, it is characterised in that comprise the following steps:

19. the control method of air-conditioner as claimed in claim 18, it is characterised in that this physiology signal of described monitoring, including:

Gather the transducing signal of this human body；

It is identified as this physiology signal according to this transducing signal；

This physiology signal is sent to this high in the clouds.

20. the control method of air-conditioner as claimed in claim 19, it is characterised in that described be identified as this physiology signal according to this transducing signal, including:

This transducing signal is identified as this physiology signal of the dynamic dynamic pressure signal of body of the body weight static pressure signal including human bady gravitational effect generation and the life of body movable property.

21. the control method of air-conditioner as claimed in claim 20, it is characterised in that the described sleep state judging this human body according to this physiology signal, including:

This control device is according to the dynamic dynamic pressure signal of this body weight static pressure signal and this body, it is judged that this human body is not fallen asleep；

22. the control method of air-conditioner as claimed in claim 21, it is characterised in that this controller described, according to this second control instruction, regulates the temperature of this air-conditioner and the rotating speed of blower fan, including:

When this air-conditioner runs in a chiller mode, this controller, according to this second control instruction sent in this first sleep stage, compared to when this human body is not fallen asleep, reduces the cryogenic temperature of this air-conditioner, and compared to when this human body is not fallen asleep, improve the rotating speed of the blower fan of this air-conditioner；

23. the control method of air-conditioner as claimed in claim 21, it is characterised in that this controller described, according to this second control instruction, regulates the temperature of this air-conditioner and the rotating speed of blower fan, including:

When this air-conditioner runs with heating mode, this controller is according to this second control instruction sent in this first sleep stage, and compared to when this human body is not fallen asleep, that reduces this air-conditioner heats temperature, and compared to when this human body is not fallen asleep, improve the rotating speed of the blower fan of this air-conditioner；

24. the control method of air-conditioner as claimed in claim 18, it is characterised in that further comprising the steps of:

This control device record controls the rotating speed of the temperature of this air-conditioner when this air-conditioner runs and blower fan according to this second control instruction, and form corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this air-conditioner by this high in the clouds.

25. the control method of air-conditioner as claimed in claim 18, it is characterised in that further comprising the steps of:

This control device is according to this physiology signal, it is judged that this human body from bed, and by this high in the clouds send this first control instruction to this air-conditioner and this human body from bed more than the first setting time time, send out code to this air-conditioner by this high in the clouds；

This controller, according to this out code, cuts out this air-conditioner.

26. the control method of air-conditioner as claimed in claim 25, it is characterised in that further comprising the steps of:

This control device this human body from bed more than the second setting time time, send alarm；

This second setting time is more than this first setting time.

27. the control method of air-conditioner as claimed in claim 21, it is characterised in that further comprising the steps of:

This control device sets the 4th pulse number in the time period according to the dynamic dynamic pressure signal of this body the 4th, it is judged that this human body difficulty falling asleep, and sends sleeping music by this high in the clouds control speaker；

4th pulse number is more than this first pulse number.

28. the control method of air-conditioner as claimed in claim 27, it is characterised in that further comprising the steps of:

If so, vibrating motor vibration is controlled.

29. the control method of air-conditioner as claimed in claim 28, it is characterized in that, described judge whether this human body snores according to this sound of snoring signal, including: when judging the sound pressure level of this sound of snoring signal more than setting threshold value, and when within the unit interval, the sound of snoring frequency is more than the setting frequency, it is judged that this human body is snored.

30. the control method of air-conditioner as claimed in claim 28, it is characterised in that further comprising the steps of:

This control device is according to the time of setting and sets oscillation intensity, sends vibration signal by this high in the clouds；