CN105317722A - Control system for fan and control method for fan - Google Patents

Abstract

The invention discloses a control system for a fan. A monitoring device is used for monitoring human body physiological signals, a cloud terminal sends the human body physiological signals to a control device, and the control device judges sleeping states of a human body according to the human body physiological signals. If the human body does not fall asleep, the control device sends a first control command to the cloud terminal. If the human body falls asleep, the control device judges the sleep stages after the human body falls asleep according to the human body physiological signals, and sends a second control command to the cloud terminal according to the sleep stages; the cloud terminal sends the first control command or the second control command to the fan. A controller is used for controlling the fan to operate at a set fan motor rotating speed according to the first control command and adjusting the rotating speed of a fan motor according to the second control command. According to the control system, the different sleep stages of the human body are judged so as to control operation of the fan according to the monitored human body physiological signals, and the fan can provide comfortable user experience. The invention further discloses a control method for the fan.

Description

The control system of fan and the controlling method of fan

Technical field

The present invention relates in household appliance technical field, more specifically, relate to a kind of control system of fan and a kind of controlling method of fan.

Background technique

Comfortable sleeping is that everyone dreams of, but day by day fierce along with social competition, and people's study and work pressure is large, stays up late, and the poor sleeping quality caused even to be had a sleepless night etc. increasing, and middle aged the elderly sleeps bad and snoring causes apnea unexpected multiple.

The quality of sleep quality affects by several factors, and except the internal factors such as physiology mood, outside environment temperature and humidity noise light is according to all having an impact.In recent years the popularity rate of fan 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 also has thereupon, such as fan sleep stage is uncomfortable, cold awake or hot awake.

Summary of the invention

The embodiment of the present invention is intended at least to solve one of technical problem existed in prior art.For this reason, the embodiment of the present invention needs the controlling method providing a kind of control system of fan and a kind of fan.

A kind of control system of fan comprises fan, monitoring device, control gear and high in the clouds.This fan comprises controller.This monitoring device monitoring human physiological signal.This high in the clouds receives this physiology signal that this monitoring device sends.This control gear 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 gear sends the first control command to this high in the clouds, and this first control command is sent to this fan by this high in the clouds.If this human body is fallen asleep, according to this physiology signal, this control gear judges that this human body is fallen asleep the rear residing stage, and the stage residing according to this sends the second control command to this high in the clouds, and this second control command is sent to this fan by this high in the clouds.This controller, according to this first control command, controls this fan with the rotation speed of fan of this fan set and runs, and according to this second control command, regulate the rotation speed of fan of this fan.

The control system of said fans, according to the physiology signal monitored, judges that human body different stage is to control the operation of fan, enables fan provide comfortable Consumer's Experience for human body.

A controlling method for fan, comprises the following steps:

Monitoring human physiological signal, and this physiology signal is sent to high in the clouds, this physiology signal is sent to control gear by this high in the clouds;

This control gear 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 gear sends the first control command to this high in the clouds, and this first control command is sent to fan by this high in the clouds, and the controller of this fan, according to this first control command, controls this fan with the rotation speed of fan of this fan set and runs;

If this human body is fallen asleep, according to this physiology signal, this control gear judges that this human body is fallen asleep the rear residing stage, and the stage residing according to this sends the second control command to this high in the clouds, this second control command is sent to this fan by this high in the clouds, this controller, according to this second control command, regulates the rotation speed of fan of this fan.

The controlling method of said fans, according to the physiology signal monitored, judges that human body different stage is to control the operation of fan, enables fan 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 obvious from the following description, or be 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 will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

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

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

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

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

Fig. 5 is a control flow schematic diagram again of the control system of the fan of the present invention first preferred embodiment;

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

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

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

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

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

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

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

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

Figure 14 is the schematic flow sheet of the controlling method of the fan of the present invention the 4th preferred embodiment.

Embodiment

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.

In describing the invention, it is to be appreciated that term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or the implicit quantity indicating indicated technical characteristics.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more described features.In describing the invention, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In describing the invention, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrically connected or can intercom mutually; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, above-mentioned term concrete meaning in the present invention can be understood as the case may be.

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 reference letter, this repetition is to simplify and clearly object, itself does not indicate discussed various embodiment and/or relation between 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 application of other techniques and/or the use of other materials.

Refer to Fig. 1 and Fig. 2, the control system 100 of the fan of present pre-ferred embodiments comprises fan 102, monitoring device 104, control gear 106 and high in the clouds 108.Fan 102 comprises controller 110.

This monitoring device 104 monitoring human physiological signal.This high in the clouds 108 receives this physiology signal that this monitoring device 104 sends.This control gear 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 gear 106 sends the first control command to this high in the clouds 108, and this first control command is sent to this fan 102 by this high in the clouds 108.

If this human body is fallen asleep, according to this physiology signal, this control gear 106 judges that this human body is fallen asleep the rear residing stage, and the stage residing according to this sends the second control command to this high in the clouds 108, and this second control command is sent to this fan 102 by this high in the clouds 108.

This controller 110, according to this first control command, controls this fan 102 with the rotation speed of fan of this fan 102 set and runs, and according to this second control command, regulate the rotation speed of fan of this fan 102.

Particularly, as an example, fan 102 comprises support 112, fan wireless network module 114 and blower fan 116.Blower fan 116 is arranged on support 112.

Controller 110 can be arranged in support 112, and controller 110 receives the control command of remote controller or high in the clouds 108 transmission, and controls the operation of fan 102 according to the control command received.

In the present embodiment, this fan wireless network module 114 is integrated on support 112, and it can communicate to connect with high in the clouds 108.Such as, fan wireless network module 114 can utilize WIFI (WLAN Wireless Local Area Network) network to be connected with high in the clouds 108, and receives the control command of high in the clouds 108 transmission.

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

This signal picker 120 gathers the transducing signal of this human body.This puocessing 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, to include under mattress 500 as associated transport line etc. or, under pillow 600 or among, make body pressure to be passed to piezoelectric transducer by mattress 500 or pillow 600 during sleep quality.Therefore, piezoelectric transducer can collect human body pressure signal and as the transducing signal of human body.

Puocessing module 122 is such as micro-control unit (MCU), the pressure signal of human body that its Received signal strength collector 120 sends, and decomposition pressure signal is to identify body weight static pressure signal because health Action of Gravity Field produces and because of the breathing kinetic pressure signal that body moves kinetic pressure signal, respiratory movement produces that health body movable property is raw and the heart rate kinetic pressure signal that heartbeat produces.In the present embodiment, these pressure signals constitute physiology signal.

Such as, pressure signal can decompose according to the pulse number of pressure signal and amplitude by puocessing module 122.For body weight static pressure signal, when human body lies on a bed, just human bady gravitational can be produced, the amplitude now producing pressure signal can increase to a certain value, form a pulse, and the amplitude of this pulse can not change substantially, its pulse number produced within a certain period of time is less, and the amplitude change of pulse is less, puocessing module 122 can judge that this kind of pressure signal is body weight static pressure signal.

Kinetic pressure signal is moved for body, when human body lies on a bed, when standing up, the amplitude now producing pressure signal can change, as first increase, rear minimizing, or first minimizing, rear increase, therefore, the pulse number produced within a certain period of time is more, and the amplitude of pulse changes greatly, and puocessing module 122 can judge that this kind of pressure signal is that body moves kinetic pressure signal.

The identification of other pressure signal can join above explanation, launches no longer in detail at this.It is pointed out that in other embodiments, puocessing module 122 also can only identify that body weight static pressure signal and body move kinetic pressure signal.

In addition, in the present embodiment, the pressure signal that signal picker 120 collects is analogue signal, puocessing module 122 can process the pressure signal as analogue signal, as process such as filtering, 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 puocessing module 122, and physiology signal is sent to high in the clouds 108.

The physiology signal that high in the clouds 108 is sent by network reception monitoring device 104, and these physiology signals are sent to control gear 106.High in the clouds 108 can be cloud server (Data Management Analysis system), and it has storage, analysis, the forwarding of data and produces the functions such as control command.

In addition, monitoring device 104 comprises memory module 126, and memory module 126 can store the data such as parameter, threshold value of the various signal that collects and setting.

Control gear 106 is such as the electronic equipments such as mobile phone (particularly smart mobile phone), panel computer or notebook computer.Control gear 106 by the physiology signal of mixed-media network modules mixed-media reception high in the clouds 108 transmission of control gear 106, and judges the sleep state (as whether fallen asleep and fall asleep the rear residing stage) of human body according to this physiology signal.

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

Please refer to the drawing 3, in a kind of example, user opens fan 102, and fan 102 runs with the rotation speed of fan of setting, and such as controller 110 controls the operation of fan 102 with the rotation speed of fan V0 of the setting of user.

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

Now, control gear 106 sends the first control command to high in the clouds 108.First control command is the operation controlling fan 102 with the rotation speed of fan of this fan 102 of the setting of user, and namely maintaining rotation speed of fan is V0.

Along with user is tranquil gradually, signal picker 120 monitors body and moves the pulse number of kinetic pressure signal in the first set time section and be reduced to the first pulse number n1, control gear 106 judges that human body is fallen asleep and was in for the first sleep stage, and the second control command when being sent in for the first sleep stage is to high in the clouds 108.

The second control command sent in the first sleep stage comprises the rotation speed of fan V1 of fan 102.

Fall asleep the stage first, by breathing kinetic pressure signal and heart rate kinetic pressure signal, control gear 106 also judges that the heart rate of user slows down a little, and metabolism perspire strengthens, fall asleep to help people as early as possible, the rotation speed of fan of now suitable raising fan 102, that is, V1>V0.

Along with the increase of the length of one's sleep, user's heart rate and breathing slows down further, and metabolism slows down, and signal picker 120 monitors body and moves kinetic pressure signal be reduced to the second pulse number n2 from the first pulse number n1 in the second set time section.Control gear 106 moves the second pulse number n2 of kinetic pressure signal in the second set time section according to body, judge that human body was in for the second sleep stage, and the second control command when being sent in for the second sleep stage is to high in the clouds 108.

The second control command sent in the second sleep stage comprises the rotation speed of fan V2 of fan 102.This second sleep stage can be regarded as either shallow sleep stage.

Fall asleep the stage second, the heart rate of user slows down further, and metabolism slows down, and body temperature declines, the rotation speed of fan of now suitable reduction fan 102, that is, V2<V0<V1.

Along with the further increase of the length of one's sleep, user's heart rate and breathing slows down further, and body is dynamic also fainter, and signal picker 120 monitors body and moves kinetic pressure signal be reduced to the 3rd pulse number n3 from the second pulse number n2 in the 3rd set time section.Control gear 106 moves the three pulse number n3 of kinetic pressure signal in the 3rd set time section according to body, judges that human body was in for the 3rd sleep stage, and the second control command when being sent in for the 3rd sleep stage is to high in the clouds 108.

The second control command sent in the 3rd sleep stage comprises the rotation speed of fan V3 of fan 102.3rd sleep stage can be regarded as deep sleep stages.

Fall asleep the stage the 3rd, the metabolism of user significantly declines, and the ambient temperature needed for user is than high during first and second sleep stage.Therefore, in order to reduce the sleep body psychro-esthesia of user and reduce flu generation, so need the rotation speed of fan reducing fan 102 further, i.e. V3<V2<V0<V1.

In addition, along with increasing further again of the length of one's sleep, due to physiology natural cause, standing up of user increases, sleep quality body is dynamic to be increased, puocessing module 122 recognizes body and moves kinetic pressure signal and strengthen, and body moves the pulse number of kinetic pressure signal in the second set time is increased to the second pulse number n2 from the 3rd pulse number n3.

Therefore, control gear 106 judges that human body was in for the second sleep stage, and the second control command 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.

Preferably, above-mentioned first set time section, the second set time section and the 3rd set time section, according to the rule of people's sleep, can arrange the first set time section slightly short, the second set time section is the longest, and the 3rd set time section 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 (as either shallow sleep stage) and the 3rd sleep stage (as deep sleep stages), and the control strategy in each stage is the same.

In addition, please refer to the drawing 4, between the drowsy state, user stands up from bed, and the body weight static pressure signal that signal picker 120 perceives human body significantly reduces, and control gear 106 is according to the body weight static pressure signal significantly reduced, judge that human body is from bed, and send this first control command to this fan 102 by this high in the clouds 108, make the running state that fan 102 keeps when not falling asleep, namely the rotation speed of fan of fan 102 becomes V0.

Further, user can be arranged in control gear 106, whether closes fan 102 at human body from bed more than during the first set time.If the saving energy, user is provided with and closes fan 102 from bed more than during the first set time at human body.So, when judging human body from bed, control gear 106 starts timing, and human body from bed more than the first set time time, send out code to high in the clouds 108.First set time can be set by the user.Such as the first set time is 10 minutes.

Such as, when human body is from bed, the moment starting timing is Ta_0, and the first set time is Ta_set, and current time is Ta_n, and so when Ta_n-Ta_0>Ta_set, control gear 106 sends out code to high in the clouds 108.

Further, please refer to the drawing 5 is the state of prompting user fan 102, control gear 106 human body from bed more than the second set time time, give the alarm.Second set time is greater than the first set time.Such as, the second set time is 15 minutes.

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

It is to be noted, control gear 106 can be provided with the application program controlling fan 102, as the application program (APP) of sleep state assessment, this application program provides various user interface and setting, can for user check each moment fan running state and various parameter and setting are set.

Please refer to the drawing 4, in the dormant process of above-mentioned judgement, if controller 110 receives the control command that remote controller sends, then controller 110 controls the operation of fan 102 according to the control command that remote controller sends.

These instructions as the first control command, the second control command and out code etc., and are sent to fan 102 by the various instructions that high in the clouds 108 is sent by network reception control gear 106.

The fan wireless network module 114 of fan 102 receives the various instructions of high in the clouds 108 transmission, and controller 110 can control the operation of fan 102 according to these instructions.

Such as, when fan wireless network module 114 receives the first control command, first control command is sent to controller 110 by fan wireless network module 114, and controller 110, according to the first control command, controls the operation of fan 102 with the blower fan wind speed V0 of the fan 102 of user's setting.

When fan wireless network module 114 receives the second control command sent in the first sleep stage, second control command is sent to controller 110 by fan wireless network module 114, controller 110 is according to the second control command, control the operation of fan 102 with the blower fan wind speed V1 of fan 102, namely rotation speed of fan brings up to V1 from V0.

When fan wireless network module 114 receives the second control command sent in the second sleep stage, second control command is sent to controller 110 by fan wireless network module 114, controller 110 is according to the second control command, control the operation of fan 102 with the blower fan wind speed V2 of fan 102, be reduced to V2 by rotation speed of fan from V1.

When fan wireless network module 114 receives the second control command sent in the 3rd sleep stage, second control command is sent to controller 110 by fan wireless network module 114, controller 110 is according to the second control command, control the operation of fan 102 with the blower fan wind speed V3 of fan 102, be reduced to V3 by rotation speed of fan from V2.

When fan wireless network module 114 receives out code, out code is sent to controller 110 by fan wireless network module 114, and controller 110, according to out code, closes fan 102.

In addition, in order to the sleep habit of user more can be adapted to, control gear 106 records the rotation speed of fan and the ambient temperature that control this fan 102 when this fan 102 runs according to this second control command, and form corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this fan 102 by this high in the clouds 108.

Such as, ambient temperature can be sent to control gear 106 by high in the clouds 108 by the built-in temperature transducer collection of fan 102.Control gear 106 is recorded in the rotation speed of fan of each sleep stage fan 102, as record V1, V2, V3 and the ambient temperature corresponding with rotation speed of fan.Such control gear 106 can learn temperature curve and the speed curves in user's different sleep stage, and the recommended temperature/rotary speed parameter as user's sleep pattern next time sends to fan 102 by high in the clouds 108.

Further, condition when conveniently watching sleep to make user, this control gear 106 receives this breathing kinetic pressure signal and this heart rate kinetic pressure signal, and according to this breathing kinetic pressure signal, generate and display breath data, and according to this heart rate kinetic pressure signal, generate and display heart rate data.

Such as, control gear 106 can utilize the display screen of control gear 106 to show breath data and heart rate data in the user interface of the application program controlling fan 102.The display mode of these data is such as the mode of curve display.

In sum, the control system 100 of said fans, according to the physiology signal monitored, judges that human body different stage is to control the operation of fan 102, makes fan 102 can provide comfortable Consumer's Experience for human body.

Further, the signal picker of the present embodiment to include under mattress 500 or, under pillow 600 or among, therefore, the control system 100 of fan utilizes non-wearing mode to monitor physiological parameter to judge sleep quality, avoids human body to cause discomfort because dressing signal picker.

In addition, in other embodiments, signal picker also can use that microwave detecting body is dynamic breathes, or the mode that MIC microphone monitors the mode or accelerometer monitoring acceleration that body moves breathing substitutes.

Please refer to the drawing 6 ~ Fig. 9, the present invention second preferred embodiment provides a kind of control system 200 of fan.The control system 200 of this fan is substantially identical with the control system 100 of the fan of the first preferred embodiment, and its difference is, in the control system 200 of the fan of the present embodiment, this monitoring device 202 is pillow, and this monitoring device 202 also comprises loudspeaker 204.This loudspeaker 204 sends this sleeping music.

Particularly, in one example, signal picker 206, monitoring side wireless network module 208, loudspeaker 204, puocessing module 210 and memory module 211 can be arranged in monitoring device 202 (pillow).

This control gear 212 moves the four pulse number n4 of kinetic pressure signal in the 4th set time section according to body, judges this human body difficulty falling asleep, and controls this loudspeaker 204 by high in the clouds 214 and send sleeping music.4th pulse number is greater than this first pulse number.

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

After user goes to bed, do not rest in the 4th set time section if body moves kinetic pressure signal, its pulse number meets or exceeds the 4th pulse number n4 (n4>n1), and control gear 212 judges human body difficulty falling asleep.Control gear 212 can be modulated sleeping music and send corresponding control signal to puocessing module 210 by high in the clouds 214, puocessing module 210 plays sleeping music according to control signal control loudspeaker 204, to make monitoring device 202 send 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 gear 212 controls this loudspeaker 204 by high in the clouds 214 and sends this sleeping music.

Again further, in order to make human body enter for the 3rd sleep stage from the second sleep stage as soon as possible, when this human body be in this second fall asleep the stage time, this control gear 212 controls this loudspeaker 204 by high in the clouds 214 and sends this sleeping music.

In sum, the control system 200 of the fan of the present embodiment, by increasing loudspeaker 204 in monitoring device 202, make when human body difficulty falling asleep, control loudspeaker 204 sends sleeping music, and human body is fallen asleep as early as possible.Meanwhile, the control system 200 of said fans utilizes pillow monitoring human physiological signal, can not cause user Yin Peidai and the uncomfortable property caused between sleep period.

Please refer to the drawing 10 ~ Figure 13, the present invention the 3rd preferred embodiment provides a kind of control system 300 of fan.The control system 300 of this fan is substantially identical with the control system 200 of the fan of the second preferred embodiment, and its difference is, in the control system 300 of the fan of the present embodiment, monitoring device 302 also comprises MIC microphone 304 and vibrating motor 306.

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

Particularly, when this puocessing module 308 judges that the sound pressure level of this sound of snoring signal is greater than setting threshold value, and when within the unit time, the sound of snoring frequency is greater than the setting frequency, this puocessing module 308 judges that this human body is snored.

Such as, please refer to the drawing 13, when user entered for the second sleep stage, puocessing module 308 controls MIC microphone 304 and records the sound of snoring, and the sound of snoring signal that MIC microphone 304 collects sends puocessing module 308 to.Whether puocessing module 308 is greater than setting threshold value L_set according to the sound pressure level L_real of the sound of snoring signal analysis sound of snoring.

If sound pressure level L_real>L_set, then puocessing module 308 judges whether the sound of snoring frequency N_real in the unit time is greater than setting frequency N_set further.If sound of snoring frequency N_real>N_set, then puocessing module 308 judges that user needs sound of snoring intervention, and puocessing 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, according to vibratory stimulation instruction vibration, helps the user of snoring suitably to intervene sleeping.

Further, in order to realize the arousal function of the control system 300 of fan, control gear 310, according to set time and setting ocsillator strenght, sends oscillating signal to puocessing module 308 by this high in the clouds 312.

Puocessing module 308 controls this vibrating motor 306 according to this oscillating signal and vibrates.

Particularly, in one example, set time can be between the WA of user, and user sets between WA by control gear 310 (such as mobile phone or panel computer) and setting ocsillator strenght.When arriving when between WA, control gear 310 sets suitable ocsillator strenght according to user and sends oscillating signal to high in the clouds 312.

Oscillating signal is sent to puocessing module 308 by high in the clouds 312, and puocessing module 308 receives oscillating signal, and controls vibrating motor 306 with the ocsillator strenght of user preference to body massaging according to oscillating signal, wakes user up, and leave the people of surrounding alone so that soft.

Other part do not launched of the control system 300 of the fan of the present embodiment, can join the part that the control system 200 of the control system 100 of the fan of the first preferred embodiment and the fan of the second preferred embodiment is identical or similar, not repeat them here.

In sum, in the control system 300 of the fan of the present embodiment, appropriate vibratory stimulation can be carried out for the human body of snoring and give to reduce degree of snoring, improve the travelling comfort of sleep quality, also can wake up user meanwhile.

Please refer to the drawing 14, the controlling method of the fan of the present invention the 4th preferred embodiment comprises the following steps:

S11: monitoring human physiological signal, and this physiology signal is sent to high in the clouds 108, this physiology signal is sent to control gear 106 by this high in the clouds 108;

S12: control gear 106 receives 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 gear 106 sends the first control command to high in the clouds 108, this first control command is sent to fan 102 by this high in the clouds 108, and the controller 110 of this fan 102, according to this first control command, controls this fan 102 with the rotation speed of fan of this fan set and runs;

S14: if this human body is fallen asleep, according to this physiology signal, control gear 106 judges that this human body is fallen asleep the rear residing stage, and the stage residing according to this sends the second control command to this high in the clouds 108, this second control command is sent to this fan 102 by this high in the clouds 108, this controller 110, according to this second control command, regulates the rotation speed of fan of this fan 102.

Particularly, the controlling method of the fan of the present embodiment can be realized by the control system 100 of the fan of above embodiment.

In step s 11, monitoring device 104 monitoring human physiological signal.Particularly, this signal picker 120 gathers the transducing signal of this human body.This puocessing 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 control gear 106 by this high in the clouds 108.

Further, be describedly identified as this physiology signal according to this transducing signal, comprise:

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

Particularly, the pressure signal (transducing signal) of human body that puocessing module 122 Received signal strength collector 120 sends, and decomposition pressure signal is to identify body weight static pressure signal because health Action of Gravity Field produces and because of the breathing kinetic pressure signal that body moves kinetic pressure signal, respiratory movement produces that health body movable property is raw and the heart rate kinetic pressure signal that heartbeat produces.In the present embodiment, these pressure signals constitute physiology signal.

It is pointed out that in other embodiments, puocessing module 122 also can only identify that body weight static pressure signal and body move kinetic pressure signal.

In step s 12, control gear 106 by the physiology signal of mixed-media network modules mixed-media reception high in the clouds 108 transmission of control gear 106, and judges the sleep state (as whether fallen asleep and fall asleep the rear residing stage) of human body according to this physiology signal.

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

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

Control gear 106 moves kinetic pressure signal according to this body weight static pressure signal and this body, judges that this human body is not fallen asleep;

Control gear 106 moves first pulse number of kinetic pressure signal in the first set time section according to this body, judges that this human body was in for the first sleep stage;

Control gear 106 moves second pulse number of kinetic pressure signal in the second set time section according to this body, judges that this human body was in for the second sleep stage;

Control gear 106 moves three pulse number of kinetic pressure signal in the 3rd set time section according to this body, judges that this human body was in for the 3rd sleep stage;

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

It should be noted that, the explanation of the embodiment of the aforementioned control system 100 to fan illustrates and the controlling method being also applicable to the fan of the present embodiment repeats no more herein.

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

Now, control gear 106 sends the first control command to high in the clouds 108.First control command is the operation controlling fan 102 with the rotation speed of fan of this fan 102 of the setting of user, and the rotation speed of fan namely maintaining fan 102 is constant.

First control command is sent to fan 102 by high in the clouds 108.

When the fan wireless network module 114 of fan 102 receives the first control command, first control command is sent to controller 110 by fan wireless network module 114, controller 110, according to the first control command, controls the operation of fan 102 with the rotation speed of fan of the fan 102 of user's setting.

In step S14, according to this physiology signal, control gear 106 judges that this human body is fallen asleep the rear residing stage, and the stage residing according to this sends the second control command to this high in the clouds 108, and this second control command is sent to this fan 102 by this high in the clouds 108.

This controller 110 described, according to this second control command, regulates the rotation speed of fan of this fan 102, comprising:

This controller 110, according to this second control command sent in this first stage of falling asleep, compared to when this human body is not fallen asleep, improves the rotation speed of fan of this fan 102;

This controller 110, according to this second control command sent in this second stage of falling asleep, compared to when this human body is not fallen asleep, is reduced in the rotation speed of fan of this fan 102;

This controller 110, according to this second control command sent in the 3rd stage of falling asleep, compared to when being in this second sleep stage at this human body, reduces the rotation speed of fan of this fan 102.

It should be noted that, the explanation of the embodiment of the aforementioned control system 100 to fan illustrates and the controlling method being also applicable to the fan of the present embodiment repeats no more herein.

Further, the controlling method of the fan of the present embodiment, further comprising the steps of:

Control gear 106 is 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 command to this fan 102 and this human body from bed more than the first set time time, send out code to this fan 102 by this high in the clouds 108;

This controller 110, according to this out code, closes this fan 102.

Particularly, please refer to the drawing 4, between the drowsy state, user stands up from bed, the body weight static pressure signal that signal picker 120 perceives human body significantly reduces, and control gear 106, according to the body weight static pressure signal significantly reduced, judges that human body is from bed, and send this first control command to this fan 102 by this high in the clouds 108, make the running state that fan 102 keeps when not falling asleep.

Further, user can be arranged in control gear 106, whether closes fan 102 at human body from bed more than during the first set time.If the saving energy, user is provided with and closes fan 102 from bed more than during the first set time at human body.So, when judging human body from bed, control gear 106 starts timing, and human body from bed more than the first set time time, send out code to high in the clouds 108.First set time can be set by the user, as 10 minutes.

Such as, when human body is from bed, the moment starting timing is Ta_0, and the first set time is Ta_set, and current time is Ta_n, and so when Ta_n-Ta_0>Ta_set, control gear 106 sends out code to high in the clouds 108.

When fan wireless network module 114 receives out code, out code is sent to controller 110 by fan wireless network module 114, and controller 110, according to out code, closes fan 102.

Please refer to the drawing 4, in the dormant process of above-mentioned judgement, if controller 110 receives the control command that remote controller sends, then controller 110 controls the operation of fan 102 according to the control command that remote controller sends.

Further, the controlling method of the fan of the present embodiment, further comprising the steps of:

Control gear 106 this human body from bed more than the second set time time, give the alarm;

This second set time is greater than this first set time.

Please refer to the drawing 5 is the state of prompting user fan 102, control gear 106 human body from bed more than the second set time time, give the alarm.Second set time is greater than the first set time.Such as, the second set time is 15 minutes.

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

In addition, in order to more adapt to the sleep habit of user, the controlling method of the fan of the present embodiment is further comprising the steps of:

Control gear 106 records the rotation speed of fan and the ambient temperature that control this fan 102 when this fan 102 runs according to this second control command, and form corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this fan 102 by this high in the clouds 108.

Above-mentioned steps can perform in step S14.Particularly, such as, ambient temperature can be sent to control gear 106 by high in the clouds 108 by the built-in temperature transducer collection of fan 102.Control gear 106 is recorded in the rotation speed of fan of each sleep stage fan 102, as recorded V1, V2 and V3 and the ambient temperature corresponding with rotation speed of fan, such control gear 106 can learn temperature curve and the speed curves in user's different sleep stage, and the recommended temperature/rotary speed parameter as user's sleep pattern next time sends to fan 102 by high in the clouds 108.

Further, condition when conveniently watching sleep to make user, the controlling method of the fan of the present embodiment is further comprising the steps of:

Control gear 106 receives this breathing kinetic pressure signal and this heart rate kinetic pressure signal, and according to this breathing kinetic pressure signal, generates and display breath data, and according to this heart rate kinetic pressure signal, generates and display heart rate data.

Particularly, control gear 106 can utilize the display screen of control gear 106 to show breath data and heart rate data in the user interface of the application program controlling fan 102.The display mode of these data is such as the mode of curve display.

It is pointed out that other part do not launched of controlling method of the fan of the present embodiment can join the identical or corresponding part of the control system 100 of the fan of above embodiment, launch no longer in detail at this.

In sum, the controlling method of said fans, according to the physiology signal monitored, judges that human body different stage is to control the operation of fan 102, makes fan 102 can provide comfortable Consumer's Experience for human body.

Further, the controlling method of the fan of the present embodiment utilizes non-wearing mode to monitor physiological parameter to judge sleep quality, avoids human body to cause discomfort because dressing signal picker.

In addition, the present invention the 5th preferred embodiment also provides a kind of controlling method of fan.The controlling method of the fan of the present embodiment is substantially identical with the controlling method of the fan of the 4th preferred embodiment, and its difference is, the controlling method of the fan of the present embodiment is further comprising the steps of:

Control gear moves four pulse number of kinetic pressure signal in the 4th set time section according to this body, judges human body difficulty falling asleep, and sends sleeping music by high in the clouds control loudspeaker;

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

Particularly, the controlling method of the fan of this embodiment also can join the explanation explanation of the control system 200 of the aforementioned fan to the second preferred embodiment, repeats no more herein.

In sum, the controlling method of the fan of the present embodiment, by increasing loudspeaker, make when human body difficulty falling asleep, control gear sends sleeping music by high in the clouds control loudspeaker, and human body is fallen asleep as early as possible.Meanwhile, the controlling method of said fans can utilize pillow monitoring human physiological signal, can not cause user Yin Peidai and the uncomfortable property caused between sleep period.

Further, the present invention the 6th preferred embodiment also provides a kind of controlling method of fan.The controlling method of the fan of the present embodiment is substantially identical with the controlling method of the fan of the 5th preferred embodiment, and its difference is, the controlling method of the fan 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.

Particularly, describedly judge whether this human body snores, and comprising according to this sound of snoring signal: when judging that the sound pressure level of this sound of snoring signal is greater than setting threshold value, and when the sound of snoring frequency is greater than the setting frequency within the unit time, judge that this human body is snored.

Further, in the present embodiment, the controlling method of fan is further comprising the steps of:

Control gear, according to set time and setting ocsillator strenght, sends oscillating signal by this high in the clouds;

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

It should be noted that, the controlling method of the fan of this embodiment also can join the explanation explanation of the control system 300 of the aforementioned fan to the 3rd preferred embodiment, repeats no more herein.

In sum, in the controlling method of the fan of the present embodiment, appropriate vibratory stimulation can be carried out for the human body of snoring to give to reduce degree of snoring, improve the travelling comfort of sleep quality, simultaneously, the time that also can set with user user and ocsillator strenght are 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 to describe in conjunction with described 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.

In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristics.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise at least one this feature.In describing the invention, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

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 embodiments 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 logical 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 specification, " 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 equipment) with one or more wiring, portable computer diskette box (magnetic device), random access memory (RAM), ROM (read-only memory) (ROM), erasablely edit ROM (read-only memory) (EPROM or flash memory), fiber device, and portable optic disk ROM (read-only memory) (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 embodiments, 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 logical function to data-signal, there is the specific integrated circuit 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 puocessing 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 ROM (read-only memory), disk or CD etc.Although illustrate and describe embodiments of the invention above, be understandable that, above-described embodiment is exemplary, can not be interpreted as limitation of the present invention, and those of ordinary skill in the art can change above-described embodiment within the scope of the invention, revises, replace and modification.

Claims (28)

1. a control system for fan, is characterized in that, comprising:

Fan, this fan comprises controller;

Monitoring device, this monitoring device monitoring human physiological signal;

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

Control gear, this control gear 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 gear sends the first control command to this high in the clouds, and this first control command is sent to this fan by this high in the clouds;

If this human body is fallen asleep, according to this physiology signal, this control gear judges that this human body is fallen asleep the rear residing stage, and the stage residing according to this sends the second control command to this high in the clouds, and this second control command is sent to this fan by this high in the clouds;

This controller, according to this first control command, controls this fan with the rotation speed of fan of this fan set and runs, and according to this second control command, regulate the rotation speed of fan of this fan.

2. the control system of fan as claimed in claim 1, it is characterized in that, this monitoring device comprises signal picker, puocessing module and monitoring side wireless network module;

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

This puocessing 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 fan as claimed in claim 2, is characterized in that, this transducing signal is identified as and comprises this physiology signal that body weight static pressure signal that human bady gravitational effect produces and the raw body of body movable property move kinetic pressure signal by this puocessing module.

4. the control system of fan as claimed in claim 3, is characterized in that, this control gear moves kinetic pressure signal according to this body weight static pressure signal and this body, judges that this human body is not fallen asleep;

This control gear moves first pulse number of kinetic pressure signal in the first set time section according to this body, judges that this human body was in for the first sleep stage;

This control gear moves second pulse number of kinetic pressure signal in the second set time section according to this body, judges that this human body was in for the second sleep stage;

This control gear moves three pulse number of kinetic pressure signal in the 3rd set time section according to this body, judges that this human body was in for the 3rd sleep stage;

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

5. the control system of fan as claimed in claim 4, is characterized in that, this controller, according to this second control command sent in this first stage of falling asleep, compared to when this human body is not fallen asleep, improves the rotation speed of fan of this fan;

This controller, according to this second control command sent in this second stage of falling asleep, compared to when this human body is not fallen asleep, reduces the rotation speed of fan of this fan;

This controller, according to this second control command sent in the 3rd stage of falling asleep, compared to when being in this second sleep stage at this human body, reduces the rotation speed of fan of this fan.

6. the control system of fan as claimed in claim 3, is characterized in that, this transducing signal is also identified as this physiology signal of the heart rate kinetic pressure signal of breathing kinetic pressure signal and the heartbeat generation comprising respiratory movement generation by this puocessing module.

7. the control system of fan as claimed in claim 6, it is characterized in that, this control gear receives this breathing kinetic pressure signal and this heart rate kinetic pressure signal, and according to this breathing kinetic pressure signal, generate and display breath data, and according to this heart rate kinetic pressure signal, generate and display heart rate data.

8. the control system of fan as claimed in claim 1, it is characterized in that, this fan comprises fan wireless network module, this fan wireless network module receives this first control command and this second control command that this high in the clouds sends, and sends this first control command and this second control command to this controller.

9. the control system of fan as claimed in claim 1, it is characterized in that, this control gear record controls rotation speed of fan and the ambient temperature of this fan when this fan runs according to this second control command, and form corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this fan by this high in the clouds.

10. the control system of fan as claimed in claim 1, it is characterized in that, this control gear 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 command to this fan and this human body from bed more than the first set time time, by this high in the clouds send out code to this fan;

This controller, according to this out code, closes this fan.

The control system of 11. fans as claimed in claim 10, is characterized in that, this control gear this human body from bed more than the second set time time, give the alarm;

This second set time is greater than this first set time.

The control system of 12. fans as claimed in claim 4, it is characterized in that, this monitoring device is pillow, and this monitoring device comprises loudspeaker;

This control gear moves four pulse number of kinetic pressure signal in the 4th set time section according to this body, judges this human body difficulty falling asleep, and controls this loudspeaker by this high in the clouds and send sleeping music;

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

The control system of 13. fans as claimed in claim 12, is characterized in that, when this human body is in this first sleep stage, this control gear controls this loudspeaker by this high in the clouds and sends this sleeping music;

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

The control system of 14. fans as described in claim 2 or 12, it is characterized in that, this monitoring device also comprises MIC microphone and vibrating motor;

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

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

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

The control system of 15. fans as claimed in claim 14, is characterized in that, when this puocessing module judges that the sound pressure level of this sound of snoring signal is greater than setting threshold value, and when within the unit time, the sound of snoring frequency is greater than the setting frequency, this puocessing module judges that this human body is snored.

The control system of 16. fans as claimed in claim 14, is characterized in that, this control gear, according to set time and setting ocsillator strenght, sends oscillating signal to this puocessing module by this high in the clouds;

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

The controlling method of 17. 1 kinds of fans, is characterized in that, comprises the following steps:

Monitoring human physiological signal, and this physiology signal is sent to high in the clouds, this physiology signal is sent to control gear by this high in the clouds;

This control gear 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 gear sends the first control command to this high in the clouds, and this first control command is sent to fan by this high in the clouds, and the controller of this fan, according to this first control command, controls this fan with the rotation speed of fan of this fan set and runs;

If this human body is fallen asleep, according to this physiology signal, this control gear judges that this human body is fallen asleep the rear residing stage, and the stage residing according to this sends the second control command to this high in the clouds, this second control command is sent to this fan by this high in the clouds, this controller, according to this second control command, regulates the rotation speed of fan of this fan.

The controlling method of 18. fans as claimed in claim 17, it is characterized in that, this physiology signal of described monitoring, comprising:

Gather the transducing signal of this human body;

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

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

The controlling method of 19. fans as claimed in claim 18, is characterized in that, is describedly identified as this physiology signal according to this transducing signal, comprising:

The body this transducing signal being identified as body weight static pressure signal and the body movable property life comprising human bady gravitational effect generation moves this physiology signal of kinetic pressure signal.

The controlling method of 20. fans as claimed in claim 19, it is characterized in that, the described sleep state judging this human body according to this physiology signal, comprising:

This control gear moves kinetic pressure signal according to this body weight static pressure signal and this body, judges that this human body is not fallen asleep;

This control gear moves first pulse number of kinetic pressure signal in the first set time section according to this body, judges that this human body was in for the first sleep stage;

This control gear moves second pulse number of kinetic pressure signal in the second set time section according to this body, judges that this human body was in for the second sleep stage;

This control gear moves three pulse number of kinetic pressure signal in the 3rd set time section according to this body, judges that this human body was in for the 3rd sleep stage;

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

The controlling method of 21. fans as claimed in claim 20, it is characterized in that, this controller described, according to this second control command, regulates the rotation speed of fan of this fan, comprising:

This controller, according to this second control command sent in this first stage of falling asleep, compared to when this human body is not fallen asleep, improves the rotation speed of fan of this fan;

This controller, according to this second control command sent in this second stage of falling asleep, compared to when this human body is not fallen asleep, reduces the rotation speed of fan of this fan;

This controller, according to this second control command sent in the 3rd stage of falling asleep, compared to when being in this second sleep stage at this human body, reduces the rotation speed of fan of this fan.

The controlling method of 22. fans as claimed in claim 17, is characterized in that, further comprising the steps of:

This control gear record controls rotation speed of fan and the ambient temperature of this fan when this fan runs according to this second control command, and forms corresponding temperature curve and speed curves, and this temperature curve and this speed curves are sent to this fan by this high in the clouds.

The controlling method of 23. fans as claimed in claim 17, is characterized in that, further comprising the steps of:

This control gear, according to this physiology signal, judges that this human body is from bed, and by this high in the clouds send this first control command to this fan and this human body from bed more than the first set time time, by this high in the clouds send out code to this fan;

This controller, according to this out code, closes this fan.

The controlling method of 24. fans as claimed in claim 23, is characterized in that, further comprising the steps of:

This control gear this human body from bed more than the second set time time, give the alarm;

This second set time is greater than this first set time.

The controlling method of 25. fans as claimed in claim 20, is characterized in that, further comprising the steps of:

This control gear moves four pulse number of kinetic pressure signal in the 4th set time section according to this body, judges this human body difficulty falling asleep, and sends sleeping music by this high in the clouds control loudspeaker;

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

The controlling method of 26. fans as claimed in claim 25, is characterized in that, 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, vibrating motor vibration is controlled.

The controlling method of 27. fans as claimed in claim 26, it is characterized in that, describedly judge whether this human body snores according to this sound of snoring signal, comprise: when judging that the sound pressure level of this sound of snoring signal is greater than setting threshold value, and when the sound of snoring frequency is greater than the setting frequency within the unit time, judge that this human body is snored.

The controlling method of 28. fans as claimed in claim 26, is characterized in that, further comprising the steps of:

This control gear, according to set time and setting ocsillator strenght, sends oscillating signal by this high in the clouds;

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