CN104713200A - Control method and control device for air conditioner - Google Patents

Abstract

The invention discloses a control method and a control device for an air conditioner. The control method of the air conditioner comprises the steps that the air conditioner is turned on and runs under an initial setting mode; coherent signals relevant to the signs of a user and /or the indoor environment sent out from a smart phone are received; judgment whether the user is in a sleep state or not is conducted; when it is judged that the user is in a sleep state, the air conditioner is controlled to run under a sleep mode. According to the control method of the air conditioner, judgment on whether the user is in the sleep state or not is conducted according to relevant signals sent out by the smart phone, when the user is in the sleep state, the air conditioner is controlled to run under a sleep mode matched with the sleep state, thereby, more accurate control on running of the air conditioner can be conducted, and the comfort degree on using the air conditioner by the user is improved.

Description

The control method of air-conditioner and control device

Technical field

The present invention relates to air-conditioner technical field, particularly relate to a kind of control method and control device of air-conditioner.

Background technology

At present, to use a teleswitch or the control that uses intelligent terminal can realize domestic air conditioning equipment.All be configured with remote controller when intelligent air condition dispatches from the factory, user can arrange the operational factor of intelligent air condition in conjunction with different application scenarios by remote controller according to the hobby of oneself.In order to use intelligent air condition more easily, adopt technology of Internet of things can realize the control of intelligent terminal to intelligent air condition in prior art, on smart mobile phone, such as installing one for controlling the control chip of intelligent air condition, just achieving user and just can control operations such as the selection of the setting of the unlatching of intelligent air condition, operational factor, different scene and shutdown on smart mobile phone.

But, be by remote controller or intelligent terminal, intelligent air condition started shooting, shut down, the optimum configurations such as temperature, humidity all needs manually to set corresponding parameter, run with the parameter of setting to make air-conditioner, such as, after user has a rest at night, air-conditioner is set with the refrigeration mode of 26 DEG C, timing operation 6 hours.So, following defect can be there is: user upon entering the sleep state, the physical sign parameters (as body temperature, heart rate etc.) of user can change, now, if air-conditioner only runs according to a kind of design temperature, wind speed etc., be to meet the demand of user in the differentiation in sleep state each stage, thus the state that can not control air-conditioner exactly corresponding to user is mated, thus, affect the comfort level of user's using air-condition device.

Summary of the invention

Main purpose of the present invention is the control method and the control device that provide a kind of air-conditioner, is intended to solve the current control inaccuracy on air-conditioner and affects the problem of the comfort level of user's using air-condition device.

For arriving above-mentioned technical purpose, the invention provides a kind of control method of air-conditioner, the control method of described air-conditioner comprises the following steps:

Open air-conditioner to run with initial set mode;

Receive the coherent signal relevant to the sign of user that smart mobile phone sends;

By described coherent signal, judge whether user is in sleep state;

When judging that user is in sleep state, controlling described air-conditioner and running with sleep pattern.

Preferably, by described coherent signal, judge user also comprises after whether being in dormant step:

When judging that user is in non-sleep state, controlling described air-conditioner and being back to the operation of described initial set mode.

Preferably, described sleep pattern comprises transitional sleep pattern and enters sleep pattern, the described sleep pattern that enters comprises moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern, and described transitional sleep pattern and the described sleep pattern that enters have corresponding running temperature, setting windscreen or automatic windscreen and running time.

Preferably, when judging that user is in sleep state, controlling the step that described air-conditioner runs with sleep pattern and comprising:

When judging that user is in sleep state, control described air-conditioner with transitional sleep mode operation;

When described transitional sleep mode operation after a predetermined time after, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

When judging that user is in non-sleep state, be directly back to described initial set mode;

When judging that user is in sleep state, controlling described air-conditioner and running with the described sleep pattern that enters.

Preferably, when judging that user is in sleep state, controlling described air-conditioner and comprising with the described step entering sleep pattern operation:

When judging that user is in sleep state, judge whether current time reaches the setting moment;

If current time does not reach predetermined instant, control described air-conditioner with the described each sleep pattern entered in sleep pattern, run according to the circulation of predetermined sleep cycle;

After every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

After described air-conditioner carries out n sleep cycle circulation, and now judge that user is in non-sleep state, controls described air-conditioner and is back to described initial set mode.

Preferably, described sleep cycle circulation comprises: run described moderate sleep pattern, described sound sleep pattern and described deep sleep mode successively, then, successively from described deep sleep mode, described sound sleep pattern and described moderate sleep pattern, and antikinesis is to described fast wave sleep pattern.

Preferably, when judging that user is in sleep state, judge current time comprises after whether reaching the step in setting moment:

If when current time reaches predetermined instant, control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle.

Preferably, described coherent signal comprises heart rate signal, temperature signals, motor message, perspiration signal, individual identification signal, position signalling, time signal, light luminance signal, noise intensity signal and/or sleep signal.

For arriving above-mentioned technical purpose, the present invention also provides a kind of control device of air-conditioner, and the control device of described air-conditioner comprises:

Originate mode control module, runs with initial set mode in order to open air-conditioner;

Data reception module, in order to receive smart mobile phone the sends coherent signal relevant to sign that is user and/or indoor environment;

Original state condition judgment module, in order to by described coherent signal, judges whether user is in sleep state; And,

Sleep pattern control module, in order to when described original state condition judgment module judges that user is in sleep state, controls described air-conditioner and runs with sleep pattern.

Preferably, described sleep pattern control module, also in order to when described original state condition judgment module judges that user is in non-sleep state, controls described air-conditioner and is back to the operation of described initial set mode.

Preferably, described sleep pattern comprises transitional sleep pattern and enters sleep pattern, the described sleep pattern that enters comprises moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern, and described transitional sleep pattern and the described sleep pattern that enters have corresponding running temperature, setting windscreen or automatic windscreen and running time.

Preferably, described sleep pattern control module comprises transitional sleep mode controlling unit, transition state judging unit, the first jump-transfer unit and enters sleep pattern control unit;

Described transitional sleep mode controlling unit, in order to when described original state condition judgment module judges that user is in sleep state, controls described air-conditioner with transitional sleep mode operation;

Described transition state judging unit, in order to when described transitional sleep mode operation after a predetermined time after, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

Described first jump-transfer unit, in order to when described transition state judging unit judges that user is in non-sleep state, is directly back to described initial set mode;

Describedly enter sleep pattern control unit, in order to when described transition state judging unit judges that user is in sleep state, control described air-conditioner and run with the described sleep pattern that enters.

Preferably, enter sleep pattern control unit described in and comprise time judging unit, sleep cycle control unit, cycling status judging unit and the second jump-transfer unit:

Described time judging unit, is used in described transition state judging unit and judges that user is when being in sleep state, judge whether current time reaches and set the moment;

Described sleep cycle control unit, in order to judge that current time does not reach predetermined instant at described time judging unit, controls described air-conditioner with the described each sleep pattern entered in sleep pattern, runs according to the circulation of predetermined sleep cycle;

Described cycling status judging unit, in order to after every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

Described second jump-transfer unit, in order to carry out n sleep cycle circulation when described air-conditioner after, and now judges that user is in non-sleep state, controls described air-conditioner and is back to described initial set mode.

Preferably, described sleep cycle circulation comprises: run described moderate sleep pattern, described sound sleep pattern and described deep sleep mode successively, then, successively from described deep sleep mode, described sound sleep pattern and described moderate sleep pattern, and antikinesis is to described fast wave sleep pattern.

Preferably, enter sleep pattern control unit described in and also comprise the 3rd jump-transfer unit:

Described 3rd jump-transfer unit, in order to when described time judging unit judges that current time reaches predetermined instant, control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle.

Preferably, described coherent signal comprises heart rate signal, temperature signals, motor message, perspiration signal, individual identification signal, position signalling, time signal, light luminance signal, noise intensity signal and/or sleep signal.

The control method of air-conditioner provided by the invention and control device, the control method of described air-conditioner comprises the following steps: open air-conditioner and run with initial set mode; Receive the coherent signal relevant to the sign of user and/or indoor environment that smart mobile phone sends; By described coherent signal, judge whether user is in sleep state; When judging that user is in sleep state, controlling described air-conditioner and running with sleep pattern.In the present invention, the coherent signal sent by described smart mobile phone judges whether user is in sleep state, when being in sleep state user, control described air-conditioner to run with the sleep pattern matched with sleep state, thus, to control more accurately the operation of air-conditioner, and, improve the comfort level of user's using air-condition device.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of an embodiment of the control method of air-conditioner provided by the invention;

Fig. 2 is the schematic flow sheet of the step S16 of the control method of the air-conditioner shown in Fig. 1;

Fig. 3 is the schematic flow sheet of the step S166 of the control method of the air-conditioner shown in Fig. 2;

The concrete schematic flow sheet of the control method that Fig. 4 is the air-conditioner shown in Fig. 1;

Fig. 5 is the block schematic illustration of an embodiment of the control device of air-conditioner provided by the invention;

Fig. 6 is the block schematic illustration of the part-structure of the control device of the air-conditioner shown in Fig. 5;

The block schematic illustration entering sleep pattern control unit of the control device that Fig. 7 is the air-conditioner shown in Fig. 5.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Technical scheme of the present invention is further illustrated below in conjunction with Figure of description and specific embodiment.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

The invention provides a kind of control method of air-conditioner, refer to Fig. 1 to Fig. 4, in the embodiment of control method that the invention provides a kind of air-conditioner, the control method of described air-conditioner comprises the following steps:

Step S10: open air-conditioner and run with initial set mode: described initial set mode can be refrigeration that conventional air-conditioning has and heats two kinds of patterns, and, particularly, refrigeration mode and heating mode can be arranged by user oneself, such as, refrigeration mode: refrigeration, temperature 26 DEG C, low speed sweeps wind etc.;

Step S12: receive the coherent signal relevant to the sign of user and/or indoor environment that smart mobile phone sends: the condition that coherent signal is specifically such: can judge whether user is in sleep state by described coherent signal, such as, described coherent signal comprises heart rate signal, temperature signals, motor message, perspiration signal, individual's identification signal, position signalling, time signal, light luminance signal, noise intensity signal and/or sleep signal, obviously, the design is not limited thereto, described coherent signal also can only include a wherein part, as long as more can judge whether user is under normal circumstances according to described coherent signal to sleep.Wherein, heart rate signal, temperature signals, motor message, perspiration signal, light signal and noise signal gather by corresponding sensor, signal (data) after collection is sent to described smart mobile phone, by described smart mobile phone with algorithm carry out computing, can judge whether user is in dormant described sleep signal to obtain, obviously, the design is not limited thereto, part signal in described coherent signal also can be gathered by the sensor entrained by described smart mobile phone self, as temperature signals by as described in the self-contained infrared sensor of smart mobile phone gather, light signal and noise signal gather by the self-contained photosensitive sensors of described smart mobile phone and sound sensors.Usually, human body is after entering sleep state, corresponding physical sign parameters can change, such as, body temperature changes, heart rate changes, move or action changes, the meeting sweat that even has changes, also have, usual user is after sleep, light in room, user place can reduce and noise also can change, in the present embodiment, by the magnitude relationship between the change of above-mentioned physical sign parameters and the threshold values of setting, and draw sleep signal, to judge whether user is in sleep state.Described smart mobile phone can use coherent signal described in the technology such as bluetooth, WIFI (Wireless FIdelity, Wireless Fidelity) to send, and certainly, one skilled in the art will appreciate that herein and is not used in concrete restriction.

Step S14: by described coherent signal, judge whether user is in sleep state, described coherent signal can be that original physical sign parameters signal is as heart rate signal, temperature signals, motor message, perspiration signal and light signal, then now, the control end of described air-conditioner is drawn by related algorithm and can judge whether user is in dormant described sleep signal, obviously, described sleep signal also can be drawn by described smart mobile phone, finally, by described sleep signal, the control end of described air-conditioner judges whether user is in sleep state;

Step S16: when judging that user is in sleep state, control described air-conditioner to run with sleep pattern: in the present invention, when entering sleep state for user, correspondence makes air-conditioner run with the dormant sleep pattern of correspondence, the coherent signal sent by described smart mobile phone judges whether user is in sleep state, when being in sleep state user, control described air-conditioner to run with the sleep pattern matched with sleep state, thus, to control more accurately the operation of air-conditioner, further, the comfort level of user's using air-condition device is improved.

In the present embodiment, described sleep pattern comprises transitional sleep pattern and enters sleep pattern, wherein, the described sleep pattern that enters comprises moderate sleep pattern, sound sleep pattern and deep sleep mode, described in enter sleep pattern and comprise moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern.Described transitional sleep pattern, described moderate sleep pattern, described sound sleep pattern, described deep sleep mode and described fast wave sleep pattern are that the sleep cycle of foundation human body divides, particularly, described transitional sleep pattern, described moderate sleep pattern, described sound sleep pattern, described deep sleep mode and described fast wave sleep pattern correspond to transitional sleep period, moderate sleep period, sound sleep period, deep sleep period and fast wave sleep period.

Described transitional sleep pattern and the described sleep pattern that enters have corresponding running temperature, setting windscreen or automatic windscreen and running time, such as:

Described transitional sleep pattern: design temperature be TS_NREM1 (such as: 26 ~ 27) DEG C, windscreen by setting windscreen or automatically windscreen run, running time is NREM_time1;

The design temperature of described moderate sleep pattern is TS_NREM2, and windscreen is by setting windscreen or windscreen operation automatically, and running time is NREM_time2 (such as 20min);

Described sound sleep pattern: design temperature is TS_NREM3 (such as 28 DEG C), windscreen is by setting windscreen or automatic windscreen, and running time is NREM_time3 (such as 30min);

Described deep sleep mode: design temperature is TS_NREM4=(such as 28.5 DEG C), windscreen is by setting wind or automatic wind, and running time is NREM_time4 (such as 10min);

Fast wave sleep pattern: design temperature is TS_REM, windscreen is by setting wind or automatic wind, and running time is REM_time (such as 5min).

It is to be noted that described running temperature, described setting windscreen or automatic windscreen and can adjusting according to concrete user's sleep state, sign state and ambient condition described running time, such as, in the present embodiment, individual identification signal in described coherent signal is the identity identification information of relative users, the position signalling of described coherent signal is the position of the relatively described air-conditioner of user, can according to user identity and position, and correspondence arranges described running temperature, described setting windscreen or windscreen and described running time automatically.

In the present embodiment, also comprise after described step S14:

Step S18: when judging that user is in non-sleep state, controls described air-conditioner and is back to the operation of described initial set mode.

In the present embodiment, step S16 comprises:

Step S162: when judging that user is in sleep state, control described air-conditioner with transitional sleep mode operation: when user is in the transitional sleep cycle, user is in a kind of sleeping state, now, user is easy to regain consciousness, for this reason, in the present invention, the transitional sleep pattern corresponding with the transitional sleep cycle and other sleep patterns are carried out separating, be divided into described transitional sleep pattern by described sleep pattern and describedly enter sleep pattern, when initial judgement user is in sleep state, control described air-conditioner with transitional sleep mode operation;

Step S164: when described transitional sleep mode operation after a predetermined time after, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judge that user is current and whether be in sleep state: when user is in after the transitional sleep cycle reaches sometime (such as 5min), if user does not wake up, just can judge that user has been in deep sleep state, for this reason, the effect of step S164 is just equivalent to judge whether user is in deep sleep state; And,

Step S166: when judging that user is in sleep state, controlling described air-conditioner to run with the described sleep pattern that enters: also namely when judging that user is in deep sleep state, controlling described air-conditioner and running to enter sleep pattern described in corresponding with deep sleep state.

In the present embodiment, step S166 comprises:

Step S1660: when judging that user is in sleep state, judge whether current time reaches the setting moment, in step S1660, the setting moment can be multiple setting moment, each setting moment corresponding one enters sleep pattern (moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern), and such as 2:00 is corresponding with deep sleep mode the moment;

Step S1662: if current time does not reach predetermined instant, control described air-conditioner with the described each sleep pattern entered in sleep pattern, run according to the circulation of predetermined sleep cycle, in the present embodiment, described sleep cycle circulation comprises: run described moderate sleep pattern successively, described sound sleep pattern and described deep sleep mode, then, successively from described deep sleep mode, described sound sleep pattern and described moderate sleep pattern, and antikinesis is to described fast wave sleep pattern, obviously, the design is not limited thereto, described sleep cycle circulation can not have reverse process yet, also or, circulate etc. not in accordance with above-mentioned carrying out in turn.

Step S1664: after every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

Step S1666: after described air-conditioner carries out n sleep cycle circulation, and now judge that user is in non-sleep state, control described air-conditioner and be back to described initial set mode, n is more than or equal to 1, the concrete numerical value of n can be determined according to the length of one's sleep of different user, after whole n sleep cycle has circulated, show that user is clear-headed from deep sleep again.

In the present embodiment, step S166 also comprises:

Step S1668: if when current time reaches predetermined instant, control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle, such as, corresponding with deep sleep mode with moment 2:00, if the current moment is 2:00, then no matter which type of current described air-conditioner is in enters sleep pattern, all directly control described air-conditioner and enter described deep sleep mode, then, run according to the circulation of predetermined sleep cycle, such as, after described deep sleep mode terminates, enter described fast wave sleep pattern exactly.

The detailed control procedure of an embodiment of the control method of air-conditioner provided by the invention is specifically introduced below in conjunction with Fig. 3:

The first step: open air-conditioner and run with initial set mode;

Second step: receive the coherent signal relevant to the sign of user that smart mobile phone sends;

3rd step: by described coherent signal, judges whether user is in sleep state, if be judged to be sleep state, continues to perform next step, if be judged to be non-sleep state, is back to the first step;

4th step: control air-conditioner according to setting windscreen or automatic windscreen according to primary control program, temperature is the design temperature TS of respective cycle, and running time is respective cycle time NREM_time (X):

Control air-conditioner and enter transitional sleep pattern, design temperature TS_NREM1: fortune setting windscreen or automatically windscreen, running time NREM_time1;

When after described transitional sleep mode operation after a predetermined time t, receive the coherent signal (parameter) that Intelligent worn device sends, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state:

If be judged to be non-sleep state, control air-conditioner and be back to the described first step;

If be judged to be sleep state, judge whether current time reaches the setting moment;

If current time does not reach predetermined instant, control described air-conditioner with the described each sleep pattern entered in sleep pattern, run according to the circulation of predetermined sleep cycle, specific as follows:

Control air-conditioner and enter moderate sleep pattern

Described moderate sleep pattern: design temperature TS_NREM2, fortune setting windscreen or automatically windscreen, running time NREM_time2;

Described moderate sleep pattern terminates, and enters sound sleep pattern: design temperature TS_NREM3, fortune setting windscreen or automatically windscreen, running time NREM_time3;

Described sound sleep pattern terminates, penetration depth sleep pattern: design temperature TS_NREM4, fortune setting windscreen or automatically windscreen, running time NREM_time4;

Described deep sleep mode terminates, reverse circulation, enters described sound sleep pattern: design temperature TS_NREM3, fortune setting windscreen or automatically windscreen, running time NREM_time3;

Reverse described sound sleep pattern terminates, and enters described moderate sleep pattern: design temperature TS_NREM2, fortune setting windscreen or automatically windscreen, running time NREM_time2;

Reverse described moderate sleep pattern terminates, and enters fast wave sleep pattern: design temperature TS_REM, fortune setting windscreen or automatically windscreen, running time REM_time;

So, 1 sleep cycle circulation is carried out.

If when current time reaches predetermined instant, control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle, such as, corresponding with deep sleep mode with moment 2:00, if the current moment is 2:00, then no matter which type of current described air-conditioner is in enters sleep pattern, all directly control described air-conditioner and enter described deep sleep mode, then, run according to the circulation of predetermined sleep cycle, such as, after described deep sleep mode terminates, enter described fast wave sleep pattern exactly.

5th step: after every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judge that user is current and whether be in sleep state, after described air-conditioner carries out n sleep cycle circulation, and now judge that user is in non-sleep state, second jump-transfer unit 443 controls described air-conditioner and is back to the described first step, n is more than or equal to 1, the concrete numerical value of n can be determined according to the length of one's sleep of different user, after whole n sleep cycle has circulated, show that user is clear-headed from deep sleep again.

The present invention also provides a kind of control device of air-conditioner, refers to Fig. 5 to Fig. 7, and in an embodiment of the control device of air-conditioner provided by the invention, the control device 100 of described air-conditioner comprises:

Originate mode control module 1, run with initial set mode in order to control air-conditioner, described initial set mode can be refrigeration that conventional air-conditioning has and heats two kinds of patterns, and, concrete refrigeration mode and heating mode can be arranged by user oneself, such as, and refrigeration mode: refrigeration, temperature 26 DEG C, low speed sweeps wind etc.;

Data reception module 2, in order to receive smart mobile phone the sends coherent signal relevant to sign that is user and/or indoor environment:

In the present embodiment, the condition that coherent signal is specifically such: can judge whether user is in sleep state by described coherent signal, such as, described coherent signal comprises heart rate signal, temperature signals, motor message, perspiration signal, individual identification signal, position signalling, time signal, light luminance signal, noise intensity signal and/or sleep signal, obviously, the design is not limited thereto, described coherent signal also can only include a wherein part, sleeps as long as more can judge whether user is under normal circumstances according to described coherent signal.Wherein, heart rate signal, temperature signals, motor message, perspiration signal, light signal, noise signal gathers by corresponding sensor, signal (data) after collection is sent to described smart mobile phone, by described smart mobile phone with algorithm carry out computing, can judge whether user is in dormant described sleep signal to obtain, obviously, the design is not limited thereto, part signal in described coherent signal also can be gathered by the sensor entrained by described smart mobile phone self, as temperature signals by as described in the self-contained infrared sensor of smart mobile phone gather, light signal and noise signal gather by the self-contained photosensitive sensors of described smart mobile phone and sound sensors.Usually, human body is after entering sleep state, corresponding physical sign parameters can change, such as, body temperature changes, heart rate changes, move or action changes, the meeting sweat that even has changes, also have, usual user is after sleep, light in room, user place can reduce and noise also can change, in the present embodiment, by the magnitude relationship between the change of above-mentioned physical sign parameters and the threshold values of setting, and draw sleep signal, to judge whether user is in sleep state.Described smart mobile phone can use coherent signal described in the technology such as bluetooth, WIFI (Wireless FIdelity, Wireless Fidelity) to send, and certainly, one skilled in the art will appreciate that herein and is not used in concrete restriction.

Original state condition judgment module 3, in order to pass through described coherent signal, judge whether user is in sleep state, described coherent signal can be original physical sign parameters signal, as heart rate signal, temperature signals, motor message, perspiration signal, then now, the control end of described air-conditioner is drawn by related algorithm and can judge whether user is in dormant described sleep signal, obviously, described sleep signal also can be drawn by described smart mobile phone, finally, by described sleep signal, the control end of described air-conditioner judges whether user is in sleep state, and,

Sleep pattern control module 4, in order to when judging that user is in sleep state, control described air-conditioner to run with sleep pattern, in the present invention, when entering sleep state for user, correspondence makes air-conditioner run with the dormant sleep pattern of correspondence, the coherent signal sent by described smart mobile phone judges whether user is in sleep state, when being in sleep state user, control described air-conditioner to run with the sleep pattern matched with sleep state, thus, to control more accurately the operation of air-conditioner, and, improve the comfort level of user's using air-condition device.

In the present embodiment, described sleep pattern comprises transitional sleep pattern and enters sleep pattern, wherein, the described sleep pattern that enters comprises moderate sleep pattern, sound sleep pattern and deep sleep mode, described in enter sleep pattern and comprise moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern.Described transitional sleep pattern, described moderate sleep pattern, described sound sleep pattern, described deep sleep mode and described fast wave sleep pattern are that the sleep cycle of foundation human body divides, particularly, described transitional sleep pattern, described moderate sleep pattern, described sound sleep pattern, described deep sleep mode and described fast wave sleep pattern correspond to transitional sleep period, moderate sleep period, sound sleep period, deep sleep period and fast wave sleep period.

Described transitional sleep pattern and the described sleep pattern that enters have corresponding running temperature, setting windscreen or automatic windscreen and running time, such as:

Described transitional sleep pattern: design temperature be TS_NREM1 (such as: 26 ~ 27) DEG C, windscreen by setting windscreen or automatically windscreen run, running time is NREM_time1;

The design temperature of described moderate sleep pattern is TS_NREM2, and windscreen is by setting windscreen or windscreen operation automatically, and running time is NREM_time2 (such as 20min);

Described sound sleep pattern: design temperature is TS_NREM3 (such as 28 DEG C), windscreen is by setting windscreen or automatic windscreen, and running time is NREM_time3 (such as 30min);

Described deep sleep mode: design temperature is TS_NREM4=(such as 28.5 DEG C), windscreen is by setting wind or automatic wind, and running time is NREM_time4 (such as 10min);

Fast wave sleep pattern: design temperature is TS_REM, windscreen is by setting wind or automatic wind, and running time is REM_time (such as 5min).

It is to be noted that described running temperature, described setting windscreen or automatic windscreen and can adjusting according to concrete user's sleep state, sign state and ambient condition described running time, such as, in the present embodiment, individual identification signal in described coherent signal is the identity identification information of relative users, the position signalling of described coherent signal is the position of the relatively described air-conditioner of user, can according to user identity and position, and correspondence arranges described running temperature, described setting windscreen or windscreen and described running time automatically.

In the present embodiment, described sleep pattern control module 4, also in order to when judging that user is in non-sleep state, controlling described air-conditioner and being back to the operation of described initial set mode.

In the present embodiment, described sleep pattern control module 4 comprises transitional sleep mode controlling unit 41, transition state judging unit 42, first jump-transfer unit 43 and enters sleep pattern control unit 44;

Described transitional sleep mode controlling unit 41, in order to when described original state condition judgment module 3 judges that user is in sleep state, control described air-conditioner with transitional sleep mode operation, when user is in the transitional sleep cycle, user is in a kind of sleeping state, now, user is easy to regain consciousness, for this reason, in the present invention, the transitional sleep pattern corresponding with the transitional sleep cycle and other sleep patterns are carried out separating, be divided into described transitional sleep pattern by described sleep pattern and describedly enter sleep pattern, when initial judgement user is in sleep state, control described air-conditioner with transitional sleep mode operation,

Described transition state judging unit 42, in order to when worked as described transitional sleep mode operation after a predetermined time after, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judge that user is current and whether be in sleep state, when user is in after the transitional sleep cycle reaches sometime (such as 5min), if user does not wake up, just can judge that user has been in deep sleep state, for this reason, the effect of described transition state judging unit 42 is just equivalent to judge whether user is in deep sleep state;

Described first jump-transfer unit 43, in order to when described transition state judging unit 42 judges that user is in non-sleep state, directly be back to described initial set mode,: also namely when judging that user is in deep sleep state, controlling described air-conditioner and running to enter sleep pattern described in corresponding with deep sleep state; And,

Describedly enter sleep pattern control unit 44, in order to when described transition state judging unit 42 judges that user is in sleep state, control described air-conditioner to run with the described sleep pattern that enters,: also namely when judging that user is in deep sleep state, controlling described air-conditioner and running to enter sleep pattern described in corresponding with deep sleep state.

In the present embodiment, described in enter sleep pattern control unit 44 and comprise time judging unit 441, sleep cycle control unit 442, cycling status judging unit 443 and the second jump-transfer unit 444:

Described time judging unit 441, is used in described transition state judging unit and judges that user is when being in sleep state, judge whether current time reaches and set the moment.The setting moment can be multiple setting moment, and each setting moment correspondence one enters sleep pattern (moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern), and such as 2:00 is corresponding with deep sleep mode the moment.

Described sleep cycle control unit 442, in order to judge that current time does not reach predetermined instant at described time judging unit, control described air-conditioner with the described each sleep pattern entered in sleep pattern, run according to the circulation of predetermined sleep cycle, in the present embodiment, described sleep cycle circulation comprises: run described moderate sleep pattern successively, described sound sleep pattern and described deep sleep mode, then, successively from described deep sleep mode, described sound sleep pattern and described moderate sleep pattern, and antikinesis is to described fast wave sleep pattern, obviously, the design is not limited thereto, described sleep cycle circulation can not have reverse process yet, also or, circulate etc. not in accordance with above-mentioned carrying out in turn,

Described cycling status judging unit 443, in order to after every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

Described second jump-transfer unit 444, in order in order to after carry out the circulation of n sleep cycle when described air-conditioner, and now judge that user is in non-sleep state, control described air-conditioner and be back to described initial set mode, n is more than or equal to 1, the concrete numerical value of n can be determined according to the length of one's sleep of different user, after whole n sleep cycle has circulated, shows that user is clear-headed from deep sleep again.

In the present embodiment, described in enter sleep pattern control unit 44 and also comprise the 3rd jump-transfer unit 445:

Described 3rd jump-transfer unit 445, in order to when described time judging unit judges that current time reaches predetermined instant, control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle.Such as, corresponding with deep sleep mode with moment 2:00, if the current moment is 2:00, then no matter which type of current described air-conditioner is in enters sleep pattern, all directly controls described air-conditioner and enters described deep sleep mode, then, run according to the circulation of predetermined sleep cycle, such as, after described deep sleep mode terminates, enter described fast wave sleep pattern exactly.

The course of work of an embodiment of the control device 100 of air-conditioner provided by the invention is specifically introduced below in conjunction with Fig. 3 to Fig. 7:

The first step: originate mode control module 1, opens air-conditioner and runs with initial set mode;

Second step: data reception module 2, receives the coherent signal relevant to the sign of user that smart mobile phone sends;

3rd step: original state condition judgment module 3, by described coherent signal, judges whether user is in sleep state, if be judged to be sleep state, continues to perform next step, if be judged to be non-sleep state, be back to the first step;

4th step: sleep pattern control module 4, control air-conditioner according to setting windscreen or automatic windscreen according to primary control program, temperature is the design temperature TS of respective cycle, and running time is respective cycle time NREM_time (X):

Described transitional sleep mode controlling unit 41, controls air-conditioner and enters transitional sleep pattern, design temperature TS_NREM1: fortune setting windscreen or automatically windscreen, running time NREM_time1;

When after described transitional sleep mode operation after a predetermined time t, transition state judging unit 42 receives the coherent signal (parameter) that Intelligent worn device sends, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state:

If be judged to be non-sleep state, the first jump-transfer unit 43 controls air-conditioner and is back to the described first step;

If be judged to be sleep state, time judging unit 441 judges whether current time reaches the setting moment;

If current time does not reach predetermined instant, sleep cycle control unit 442 controls described air-conditioner with the described each sleep pattern entered in sleep pattern, runs according to the circulation of predetermined sleep cycle, specific as follows:

Sleep cycle control unit 442 controls air-conditioner and enters moderate sleep pattern

Described moderate sleep pattern: design temperature TS_NREM2, fortune setting windscreen or automatically windscreen, running time NREM_time2;

Described moderate sleep pattern terminates, and enters sound sleep pattern: design temperature TS_NREM3, fortune setting windscreen or automatically windscreen, running time NREM_time3;

Described sound sleep pattern terminates, penetration depth sleep pattern: design temperature TS_NREM4, fortune setting windscreen or automatically windscreen, running time NREM_time4;

Described deep sleep mode terminates, reverse circulation, enters described sound sleep pattern: design temperature TS_NREM3, fortune setting windscreen or automatically windscreen, running time NREM_time3;

Reverse described sound sleep pattern terminates, and enters described moderate sleep pattern: design temperature TS_NREM2, fortune setting windscreen or automatically windscreen, running time NREM_time2;

Reverse described moderate sleep pattern terminates, and enters fast wave sleep pattern: design temperature TS_REM, fortune setting windscreen or automatically windscreen, running time REM_time;

So, 1 sleep cycle circulation is carried out.

If when current time reaches predetermined instant, 3rd jump-transfer unit 445 control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle, such as, corresponding with deep sleep mode with moment 2:00, if the current moment is 2:00, then no matter which type of current described air-conditioner is in enters sleep pattern, all directly control described air-conditioner and enter described deep sleep mode, then, run according to the circulation of predetermined sleep cycle, such as, after described deep sleep mode terminates, enter described fast wave sleep pattern exactly.

5th step: cycling status judging unit 442 is after every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judge that user is current and whether be in sleep state, after described air-conditioner carries out n sleep cycle circulation, and now judge that user is in non-sleep state, second jump-transfer unit 443 controls described air-conditioner and is back to the described first step, n is more than or equal to 1, the concrete numerical value of n can be determined according to the length of one's sleep of different user, after whole n sleep cycle has circulated, show that user is clear-headed from deep sleep again.

These are only the preferred embodiments of the present invention; not thereby its scope of the claims is limited; every utilize description of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; directly or indirectly be used in the technical field that other are relevant, be all in like manner included in scope of patent protection of the present invention.

Claims (16)

1. a control method for air-conditioner, is characterized in that, the control method of described air-conditioner comprises the following steps:

Open air-conditioner to run with initial set mode;

Receive the coherent signal relevant to the sign of user and/or indoor environment that smart mobile phone sends;

By described coherent signal, judge whether user is in sleep state;

When judging that user is in sleep state, controlling described air-conditioner and running with sleep pattern.

2. the control method of air-conditioner as claimed in claim 1, is characterized in that, by described coherent signal, judge user also comprises after whether being in dormant step:

When judging that user is in non-sleep state, controlling described air-conditioner and being back to the operation of described initial set mode.

3. the control method of air-conditioner as claimed in claim 1, it is characterized in that, described sleep pattern comprises transitional sleep pattern and enters sleep pattern, the described sleep pattern that enters comprises moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern, and described transitional sleep pattern and the described sleep pattern that enters have corresponding running temperature, setting windscreen or automatic windscreen and running time.

4. the control method of air-conditioner as claimed in claim 3, is characterized in that, when judging that user is in sleep state, controlling the step that described air-conditioner runs with sleep pattern and comprising:

When judging that user is in sleep state, control described air-conditioner with transitional sleep mode operation;

When described transitional sleep mode operation after a predetermined time after, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

When judging that user is in non-sleep state, be directly back to described initial set mode;

When judging that user is in sleep state, controlling described air-conditioner and running with the described sleep pattern that enters.

5. the control method of air-conditioner as claimed in claim 4, is characterized in that, when judging that user is in sleep state, controlling described air-conditioner and comprising with the described step entering sleep pattern operation:

When judging that user is in sleep state, judge whether current time reaches the setting moment;

If current time does not reach predetermined instant, control described air-conditioner with the described each sleep pattern entered in sleep pattern, run according to the circulation of predetermined sleep cycle;

After every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

After described air-conditioner carries out n sleep cycle circulation, and now judge that user is in non-sleep state, controls described air-conditioner and is back to described initial set mode.

6. the control method of air-conditioner as claimed in claim 5, it is characterized in that, described sleep cycle circulation comprises: run described moderate sleep pattern, described sound sleep pattern and described deep sleep mode successively, then, successively from described deep sleep mode, described sound sleep pattern and described moderate sleep pattern, and antikinesis is to described fast wave sleep pattern.

7. the control method of air-conditioner as claimed in claim 5, is characterized in that, when judging that user is in sleep state, judges current time comprises after whether reaching the step in setting moment:

If when current time reaches predetermined instant, control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle.

8. the control method adjusting device as claimed in claim 1, it is characterized in that, described coherent signal comprises heart rate signal, temperature signals, motor message, perspiration signal, individual identification signal, position signalling, time signal, light luminance signal, noise intensity signal and/or sleep signal.

9. a control device for air-conditioner, is characterized in that, the control device of described air-conditioner comprises:

Originate mode control module, runs with initial set mode in order to open air-conditioner;

Data reception module, in order to receive smart mobile phone the sends coherent signal relevant to sign that is user and/or indoor environment;

Original state condition judgment module, in order to by described coherent signal, judges whether user is in sleep state; And,

Sleep pattern control module, in order to when described original state condition judgment module judges that user is in sleep state, controls described air-conditioner and runs with sleep pattern.

10. the control device of air-conditioner as claimed in claim 9, it is characterized in that, described sleep pattern control module, also in order to when described original state condition judgment module judges that user is in non-sleep state, controls described air-conditioner and is back to the operation of described initial set mode.

The control device of 11. air-conditioners as claimed in claim 9, it is characterized in that, described sleep pattern comprises transitional sleep pattern and enters sleep pattern, the described sleep pattern that enters comprises moderate sleep pattern, sound sleep pattern, deep sleep mode and fast wave sleep pattern, and described transitional sleep pattern and the described sleep pattern that enters have corresponding running temperature, setting windscreen or automatic windscreen and running time.

The control device of 12. air-conditioners as claimed in claim 11, it is characterized in that, described sleep pattern control module comprises transitional sleep mode controlling unit, transition state judging unit, the first jump-transfer unit and enters sleep pattern control unit;

Described transitional sleep mode controlling unit, in order to when described original state condition judgment module judges that user is in sleep state, controls described air-conditioner with transitional sleep mode operation;

Described transition state judging unit, in order to when described transitional sleep mode operation after a predetermined time after, the coherent signal relevant to sign that is user that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

Described first jump-transfer unit, in order to when described transition state judging unit judges that user is in non-sleep state, is directly back to described initial set mode;

Describedly enter sleep pattern control unit, in order to when described transition state judging unit judges that user is in sleep state, control described air-conditioner and run with the described sleep pattern that enters.

The control device of 13. air-conditioners as claimed in claim 11, is characterized in that, described in enter sleep pattern control unit and comprise time judging unit, sleep cycle control unit, cycling status judging unit and the second jump-transfer unit:

Described time judging unit, is used in described transition state judging unit and judges that user is when being in sleep state, judge whether current time reaches and set the moment;

Described sleep cycle control unit, in order to judge that current time does not reach predetermined instant at described time judging unit, controls described air-conditioner with the described each sleep pattern entered in sleep pattern, runs according to the circulation of predetermined sleep cycle;

Described cycling status judging unit, in order to after every 1 sleep cycle circular flow terminates, the coherent signal relevant to sign that is user and/or indoor environment that be that send according to described smart mobile phone, judges that user is current and whether is in sleep state;

Described second jump-transfer unit, in order to carry out n sleep cycle circulation when described air-conditioner after, and now judges that user is in non-sleep state, controls described air-conditioner and is back to described initial set mode.

The control device of 14. air-conditioners as claimed in claim 13, it is characterized in that, described sleep cycle circulation comprises: run described moderate sleep pattern, described sound sleep pattern and described deep sleep mode successively, then, successively from described deep sleep mode, described sound sleep pattern and described moderate sleep pattern, and antikinesis is to described fast wave sleep pattern.

The control device of 15. air-conditioners as claimed in claim 13, is characterized in that, described in enter sleep pattern control unit and also comprise the 3rd jump-transfer unit:

Described 3rd jump-transfer unit, in order to when described time judging unit judges that current time reaches predetermined instant, control described air-conditioner jump in the circulation of described sleep cycle corresponding with described predetermined instant enter sleep pattern after, run the circulation of described sleep cycle.

The control device of 16. air-conditioners as claimed in claim 9, it is characterized in that, described coherent signal comprises heart rate signal, temperature signals, motor message, perspiration signal, individual identification signal, position signalling, time signal, light luminance signal, noise intensity signal and/or sleep signal.