CN105352126A

CN105352126A - Air conditioner control method and system

Info

Publication number: CN105352126A
Application number: CN201510823786.1A
Authority: CN
Inventors: 周喜
Original assignee: Gree Electric Appliances Inc of Zhuhai
Current assignee: Gree Electric Appliances Inc of Zhuhai
Priority date: 2015-11-23
Filing date: 2015-11-23
Publication date: 2016-02-24

Abstract

The invention discloses an air conditioner control method and system. The air conditioner control method comprises the following steps that the state of a user is monitored in real time, and the corresponding user sign information is obtained; a prestored linkage instruction is read, and whether a linkage condition is reached or not is judged according to the user sign information, wherein the linkage instruction comprises the linkage condition and a control instruction corresponding to the linkage construction; and if the linkage condition is reached, the corresponding control instruction is sent to an air conditioner. According to the air conditioner control method and system, the purpose of adjusting the running state of the air conditioner in real time according to the user sign information is achieved. Running of the air conditioner can be more suitable for the current state of the user, the user does not need to adjust running of the air conditioner according to the state of the user, and good convenience and intelligence are achieved. Finally, the problem that the traditional manner that an intelligent mobile terminal is used for controlling the air conditioner is not intelligent enough and not convenient enough is effectively solved.

Description

Air-conditioner control method and system

Technical field

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

Background technology

Along with people's improving constantly living standard and manual intelligent demand, the control of air-conditioner, except can controlling with remote controller, also controls by intelligent mobile terminal at present.But, intelligent mobile terminal controls air-conditioner, normally communicated to connect by wireless communication module that mobile terminal configures and air-conditioner, and then the corresponding application program (i.e. APP) again by mobile terminal is installed arranges required controlled condition, finally send corresponding control instruction to air-conditioner to realize the control to air-conditioner by mobile terminal according to controlled condition again.Although achieve the intelligentized control method to air-conditioner by intelligent mobile terminal, it must rely on the operation of user, and namely relying on user to send instruction could realize.This just makes traditional mode by intelligent mobile terminal control air-conditioner still intelligent not and convenient.

Summary of the invention

Based on this, be necessary mode intelligence and the problem easily not controlling air-conditioner for traditional intelligent mobile terminal, a kind of air-conditioner control method and system are provided.

For realizing a kind of air-conditioner control method that the object of the invention provides, comprise the steps:

The state of Real-Time Monitoring user, obtains corresponding user's sign information;

Read the interlock instruction prestored, and according to described user's sign information, judge whether interlock condition is reached; Wherein, described interlock instruction comprises interlock condition and the control instruction corresponding to described interlock condition;

If described interlock condition is reached, then issue corresponding control instruction to air-conditioner.

Wherein in an embodiment, also comprise the steps:

If described interlock condition is not reached, then do not perform any operation.

Wherein in an embodiment, described user's sign information comprises user geographical position;

Described interlock instruction comprises: the instruction of the running status of air-conditioner according to the distance controlling of described user geographical position and described air-conditioner position;

Wherein, the running status of described air-conditioner comprises: at least one on off state, temperature, wind speed and operational mode.

Wherein in an embodiment, described user's sign information comprises user and to sleep curve;

Described interlock instruction comprises: control the instruction of the duty of described air-conditioner according to described user User Status corresponding to curve of sleeping;

Wherein in an embodiment, described according to described user's sign information, judge whether interlock condition is reached, and comprises the steps:

According to described user geographical position, judge whether described user geographical position is less than or equal to described predeterminable range apart from described air-conditioner position;

If so, then judge that described interlock condition is reached; If not, then judge that described interlock condition is not reached;

If described interlock condition is reached, then issue corresponding control instruction to air-conditioner, comprise the steps:

Issue the control instruction extremely described air-conditioner opening described air-conditioner.

Sleeping curve according to described user, judging whether described User Status enters sleep state for being about to;

Issue and control described air-conditioner and to run according to preset mode and running temperature is that the control instruction of described first preset temperature is to described air-conditioner.

Sleeping curve according to described user, judging that whether described User Status is for entering the state of sleeping soundly;

Issue the control instruction extremely described air-conditioner controlling described second preset temperature of described air-conditioner running temperature adjustment.

Wherein in an embodiment, also comprise the steps:

Receive and store described user's sign information.

Accordingly, based on same inventive concept, present invention also offers a kind of air conditioner control system, comprise monitoring modular and control module;

Described monitoring modular, for the state of Real-Time Monitoring user, obtains corresponding user's sign information;

Described control module comprises condition storage unit, reading judging unit and instruction and issues unit;

Described condition storage unit, for storing interlock instruction; Described interlock instruction comprises interlock condition and the control instruction corresponding to described interlock condition;

Described reading judging unit, for reading the interlock instruction in described memory module, and according to described user's sign information, judges whether described interlock condition is reached;

Described instruction issues unit, when judging that described interlock condition is reached for described reading judging unit, issues corresponding control instruction to air-conditioner.

Wherein in an embodiment, when described user's sign information is user geographical position:

Described reading judging unit, for according to described user geographical position, judges whether described user geographical position is less than or equal to described predeterminable range apart from described air-conditioner position;

Described instruction issues unit, for issuing the control instruction extremely described air-conditioner opening described air-conditioner.

Wherein in an embodiment, described user's sign information for user sleep curve time:

Described reading judging unit, for curve of sleeping according to described user, judges whether User Status enters sleep state for being about to; If so, then judge that described interlock condition is reached; If not, then judge that described interlock condition is not reached;

Described instruction issues unit, controls described air-conditioner to run according to preset mode and running temperature is that the control instruction of described first preset temperature is to described air-conditioner for issuing.

Described reading judging unit, for curve of sleeping according to described user, judges that whether User Status is for entering the state of sleeping soundly; If so, then judge that described interlock condition is reached; If not, then judge that described interlock condition is not reached;

Described instruction issues unit, for issuing the control instruction extremely described air-conditioner controlling described second preset temperature of described air-conditioner running temperature adjustment.

Wherein in an embodiment, described monitoring modular is Intelligent wearable equipment.

Wherein in an embodiment, described Intelligent wearable equipment is Intelligent bracelet.

Wherein in an embodiment, described control module is gateway.

Wherein in an embodiment, described gateway is Zigbee gateway.

Wherein in an embodiment, also comprise mobile terminal;

Described mobile terminal comprises Network conf iotag. module, information receiving module and instruction sending module;

Described Network conf iotag. module, for being configured in consolidated network by described monitoring modular and described control module;

Described information receiving module, for receive and store described monitoring modular send described user's sign information;

Described instruction sending module, stores for receiving and sending described interlock instruction to described control module.

The beneficial effect of above-mentioned air-conditioner control method:

It, by the state of Real-Time Monitoring user, obtains corresponding user's sign information, and then judges according to user's sign information whether the interlock condition set by the interlock instruction that reads is reached.If interlock condition is reached, then issue corresponding control instruction to air-conditioner, achieving can in real time according to the object of user's sign information adjustment conditioners running conditions.This just makes the operation of air-conditioner more can be applicable to the current state of user, and does not need user according to the operation of the state adjustment air-conditioner of oneself, has good convenience and intellectuality.Finally efficiently solve mode that traditional intelligent mobile terminal controls air-conditioner intelligence and problem easily not.

Accompanying drawing explanation

Fig. 1 is a specific embodiment flow chart of air-conditioner control method of the present invention;

Fig. 2 is the structural representation of a specific embodiment of air conditioner control system of the present invention;

Fig. 3 is another structural representation specifically implemented of air conditioner control system of the present invention.

Detailed description of the invention

For making technical solution of the present invention clearly, below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

First it should be noted that the interlock instruction in air-conditioner control method of the present invention comprises interlock condition and the control instruction corresponding to interlock condition.

Wherein, interlock condition refers in advance according to the specified controlled condition controlled air-conditioner also stored of the user's sign information monitored.It includes user state information and corresponding controlled condition information.

Control instruction then refers to the various instructions controlling running state of air conditioner according to different controlled condition, as: start-up command, shutdown command, the instruction of operation heating module and the instruction of adjust operation temperature etc.

See Fig. 1, as a specific embodiment of air-conditioner control method of the present invention, it comprises the steps:

Step S100, the state of Real-Time Monitoring user, obtains corresponding user's sign information.

That is, by carrying out Real-Time Monitoring to User Status, corresponding user's sign information is obtained, to realize the acquisition of the current state to user.

Step S200, reads the interlock instruction prestored, and according to user's sign information, judges whether interlock condition is reached.

After user's sign information to be obtained, by reading the interlock instruction prestored, and then according to obtained user's sign information, the interlock condition corresponding with interlock instruction is judged.That is, judge whether the user's sign information in current obtained user's sign information and corresponding interlock condition meets.If meet, then show that interlock condition is reached.If do not meet, then show that interlock condition is not reached.

Step S300, if interlock condition is reached, then issues the control instruction corresponding to interlock condition to air-conditioner.Namely, after judging that interlock condition is reached, this also just shows that the user's body reference manner of breathing in current obtained user's sign information and interlock condition meets, therefore issue its corresponding interlock instruction to air-conditioner according to interlock condition, the running status and the current user's body reference manner of breathing that control air-conditioner adapt to.

According to user's sign information, it by carrying out Real-Time Monitoring to the state of user to obtain corresponding user's sign information, and then judges whether interlock condition is reached.When judging that interlock condition is reached, then according to issuing its corresponding control instruction under interlock condition to air-conditioner.Make the running status of air-conditioner more be applicable to current User Status, thus make the more intelligent and hommization of the operation of air-conditioner.Further, it does not need user to go the operation of artificial setting air-conditioner according to the state of oneself, and this also just makes the control of air-conditioner convenient and intelligent.

Meanwhile, in order to ensure to run the control of air-conditioner more comprehensively and normally, when judging that interlock condition is not reached, then perform step S400, do not perform any operation.Namely any instruction is not issued to air-conditioner, only need the running status that air-conditioner keeps current.

It should be noted that user's sign information comprises user geographical position.Wherein, user geographical position refers to the geographical position by carrying out locating in real time the active user obtained to user.

Accordingly, the instruction that links comprises: according to the instruction of the running status of the distance controlling air-conditioner of user geographical position and air-conditioner position.Wherein, the running status of air-conditioner comprises: at least one on off state, temperature, wind speed and operational mode.Concrete: control air-conditioner when can be less than or equal to predeterminable range according to user geographical position and air-conditioner geographical position and open.That is, when user geographical position and air-conditioner geographical position are within the scope of predeterminable range, control air-conditioner and bring into operation.

Further, user's sign information also comprises user and to sleep curve.Wherein, user's curve of sleeping then refers to data acquisition system by detecting each state in obtained user's sleep procedure to every physiological characteristic such as pulse and body temperature of user.

Accordingly, the instruction that links also comprises: control the instruction of the duty of air-conditioner according to user's User Status corresponding to curve of sleeping.Wherein, the running status of air-conditioner comprises equally: at least one on off state, temperature, wind speed and operational mode.Concrete: when User Status is for being about to enter sleep state, control air-conditioner runs according to preset mode and running temperature is the first preset temperature; When User Status sleeping soundly state for entering, controlling air-conditioner running temperature and adjusting the second preset temperature.

More specifically, when user's sign information is user geographical position, step S200, according to user's sign information, judges whether interlock condition is reached, and comprises the steps:

Step S210, according to user geographical position, judges whether distance air-conditioner position, user geographical position is less than or equal to predeterminable range.That is, the current user geographical position that obtains is judged whether in predeterminable range.If so, then show that now user has reached in air-conditioner predeterminable range, meet air-conditioner unlocking condition.Therefore, can judge that interlock condition is reached.If the current user geographical position obtained is not in predeterminable range, show now also there is larger distance between user and air-conditioner position, do not meet the condition that air-conditioner is opened.Therefore, directly can judge that interlock condition is not reached.

And then, after judging that interlock condition is reached, according to the interlock condition prestored, now need to open air-conditioner, air-conditioner was run in advance, to guarantee that user can enter comfortable environment after arriving in time before user arrives.Therefore, step S300, interlock condition is reached, then issue the control instruction corresponding to interlock condition and specifically comprise to air-conditioner: step S310, and the control instruction issuing unlatching air-conditioner, to air-conditioner, makes air-conditioner open operation in advance.

It should be noted that, predeterminable range freely can be arranged according to actual conditions herein.As, predeterminable range is 10 meters.Now, when distance air-conditioner position, user geographical position is within 10 meters, then issue the control instruction of opening and running directly to air-conditioner, make air-conditioner run control instruction according to the unlatching received and automatically open.Do not need user to issue open command by intelligent mobile terminal to air-conditioner can realize.Simple and convenient, and more intelligent.

Further, when user's sign information sleeps curve for user, step S200, according to user's sign information, judges whether interlock condition is reached, then specifically comprise the steps:

Step S220, sleeping curve according to user, judging whether User Status enters sleep state for being about to.That is, the curve of sleeping of the user by monitoring judges whether user is about to enter sleep state.It specifically realizes by the breathing of the user that monitors, the physiological characteristic information such as pulse and body temperature.

If judge, User Status enters sleep state for being about to, then surface now meets air-conditioner and to run according to preset mode and running temperature is the interlock condition of the first preset temperature, therefore can judge that interlock condition is reached.If judge, user's curve of sleeping not is the curve be about to when entering sleep state, and namely User Status is not be about to enter sleep state, then show now not meet air-conditioner and to run according to preset mode and running temperature is the interlock condition of the first preset temperature.Therefore, directly can judge that interlock condition is not reached.

And then, when judging that interlock condition is reached, now step S300, issues the control instruction corresponding to interlock condition to air-conditioner, then specifically comprise: step S320, issue control air-conditioner according to preset mode run and running temperature is that the control instruction of the first preset temperature is to air-conditioner.Make air-conditioner to automatically switch to preset mode, and to adjust its running temperature be the first preset temperature.

Wherein, preset mode can be heating mode, refrigeration mode or dehumidification mode etc.First preset temperature then can carry out free setting according to actual conditions.As, during winter, preset mode is heating mode and the first preset temperature is 25 degrees Celsius.Then when judging User Status for being about to enter sleep state, issuing directly to air-conditioner and running the control instruction that heating mode and running temperature are 25 degrees Celsius.After air-conditioner receives this control instruction, automatic switchover operational mode is heating mode, and its running temperature is adjusted to 25 degrees Celsius automatically.User oneself is not needed to go to arrange equally again, simple and convenient.

Further, when user's sign information sleeps curve for user, step S200, according to user's sign information, judges whether interlock condition is reached, and also comprises the steps:

Step S230, sleeping curve according to user, judging that whether User Status is for entering the state of sleeping soundly.That is, being slept curve by user, judging that whether User Status is for entering the state of sleeping soundly, if so, then surface now user enter the state of sleeping soundly, meet the interlock condition that air-conditioner running temperature adjusts the second preset temperature.Therefore, can judge that interlock condition is reached.If the user now monitored sleeps, curve is not the curve entered when sleeping soundly state, then can judge that User Status is not enter the state of sleeping soundly, show that now user does not enter the state of sleeping soundly, it does not meet the interlock condition that air-conditioner running temperature adjusts the second preset temperature.Therefore, directly can judge that interlock condition is not reached.

Accordingly, when judging that interlock condition is reached, step S300, issues the control instruction corresponding to interlock condition to air-conditioner, then comprises: step S330, issues control air-conditioner running temperature and adjusts the control instruction of the second preset temperature to air-conditioner.

That is, when judging that interlock condition is reached, show that now user enters the state of sleeping soundly.Now, air-conditioner running temperature difference to some extent set when the environment temperature of the most applicable human body and user are about to enter sleep state.Therefore, by issuing the control instruction that adjust operation temperature is the second preset temperature to air-conditioner, air-conditioner is adjusted automatically environment temperature that its running temperature is the most applicable current user.

As: user sleep curve be the curve be about to when entering sleep state time, that is, when User Status is about to enter sleep state for entering, the running temperature of air-conditioner is 25 degrees Celsius.Along with delaying of time, after judging to sleep user curve be enter curve when sleeping soundly state, namely, User Status is for after entering the state of sleeping soundly, then control air-conditioner running temperature once raising or lowering or twice, namely control air-conditioner cooling or be warming up to the second preset temperature, making its running temperature more be applicable to the sign state of now user.Achieve the object adjusting the running status of air-conditioner according to the sign state of user in real time, thus make the more intelligent and hommization of the control of air-conditioner.

It should be noted that another specific embodiment as air-conditioner control method of the present invention, it also comprises step S500, receives and stores user's sign information.Thus make user can formulate according to the user's sign information monitored the instruction that links accordingly at any time, to realize the real-time update of interlock instruction.

Accordingly, based on same inventive concept, present invention also offers a kind of air conditioner control system.Due to the operation principle of air conditioner control system provided by the invention and air-conditioner control method principle of the present invention same or similar, therefore repeat part and repeat no more.

See Fig. 2, as a specific embodiment of air conditioner control system 100 of the present invention, it comprises monitoring modular 110 and control module 120.

Wherein, monitoring modular 110, for the state of Real-Time Monitoring user, obtains corresponding user's sign information.

Control module 120 comprises condition storage unit 121, reading judging unit 122 and instruction and issues unit 123.Wherein, this memory cell 121 is for storing interlock instruction.Wherein, the instruction that links comprises interlock condition and the control instruction corresponding to interlock condition.Reading judging unit 122, for reading the interlock instruction prestored in memory module, and according to user's sign information, judging whether interlock condition is reached.Instruction issues unit 123, for read judging unit 122 judge that interlock condition is reached time, issue the control instruction corresponding to interlock condition to air-conditioner 200.

It should be noted that, in a specific embodiment of air conditioner control system 100 of the present invention, monitoring modular 110 can be Intelligent wearable equipment.Further, intellectual wearable device is preferably Intelligent bracelet.Control module 120 can be gateway.That is, gateway, also known as protocol converter (Gateway).Further, gateway is then preferably Zigbee gateway.That is, as a specific embodiment of air conditioner control system 100 of the present invention, its monitoring modular 110 is Intelligent wearable equipment, and control module 120 is gateway.Intelligent wearable equipment carries out data transmission by Zigbee gateway and air-conditioner 200.That is, the communication protocol between Intelligent wearable equipment and air-conditioner 200 adopts Zigbee communication agreement to carry out communication.

Wherein, when user's sign information is user geographical position: read judging unit 122, for according to user geographical position, judge whether distance air-conditioner 200 position, user geographical position is less than or equal to predeterminable range.If so, then judge that interlock condition is reached; If not, then judge that interlock condition is not reached.Accordingly, instruction issues unit 123, for issuing the control instruction of unlatching air-conditioner 200 to air-conditioner 200.

Further, user's sign information for user sleep curve time: reading judging unit 122, for reading interlock condition, and judging whether User Status enters sleep state for being about to according to user's curve of sleeping.If so, then judge that interlock condition is reached; If not, then judge that interlock condition is not reached.Accordingly, instruction issues unit 123, for issue control air-conditioner 200 according to preset mode run and running temperature is that the control instruction of the first preset temperature is to air-conditioner 200.

Further, user's sign information for user sleep curve time: reading judging unit 122, for reading interlock condition, and judging that whether User Status is for entering the state of sleeping soundly according to user's curve of sleeping.If so, then judge that interlock condition is reached; If not, then judge that interlock condition is not reached.Accordingly, instruction issues unit 123, adjusts the control instruction of the second preset temperature to air-conditioner 200 for issuing control air-conditioner 200 running temperature.

Meanwhile, see Fig. 3, as another specific embodiment of air conditioner control system 100 of the present invention, it also comprises mobile terminal 130.Wherein, mobile terminal 130 comprises Network conf iotag. module, information receiving module and instruction sending module (all not shown in figure).

Network conf iotag. module, for being configured in consolidated network by monitoring modular 110 and control module 120.Information receiving module, for receive and store monitoring modular 110 send user's sign information, user's sign information that user can be stored by mobile terminal 130 formulates the instruction that links accordingly in real time, and then realize the real-time update of corresponding interlock instruction, make the control of air-conditioner 200 more intelligent.Instruction sending module, stores to control module 120 for receiving and sending interlock instruction.

Concrete, see Fig. 3, with Intelligent wearable equipment for Intelligent bracelet 110 ', gateway is Zigbee gateway 120 ' is example, is described in further detail the specific works principle of air conditioner control system 100 of the present invention.

Wherein, Intelligent bracelet 110 ' and mobile terminal 130 are all built-in with WIFI module, manually or automatically Intelligent bracelet 110 ' and air-conditioner 200 are configured in same WIFI network by the Smart Home APP (comprising the Network conf iotag. module of mobile terminal 130 inside configuration) that mobile terminal 130 is installed, Intelligent bracelet 110 ' and air-conditioner 200 are communicated to connect.It specifically can adopt ICP/IP protocol to be configured.

Meanwhile, data transmission is carried out, to realize the interlock between Intelligent bracelet 110 ' and air-conditioner 200 by Zigbee gateway 120 ' between Intelligent bracelet 110 ' and air-conditioner 200.That is, Intelligent bracelet 110 ' and air-conditioner 200 adopt Zigbee communications protocol to carry out data communication.Final Intelligent bracelet 110 ', Zigbee gateway 120 ', air-conditioner 200 and mobile terminal 130 are all in same WIFI network.

Intelligent bracelet 110 ', by the state of Real-Time Monitoring user, obtains corresponding user's sign information.And then by Zigbee gateway 120 ' according to the user's sign information obtained, and the interlock instruction prestored, judge whether interlock condition is reached.When interlock condition is reached, Intelligent bracelet 110 ' and air-conditioner 200 are by Zigbee gateway 120 ' automatic linkage.Issue corresponding control instruction to air-conditioner 200 by Zigbee gateway 120 ' thus, control the operation of air-conditioner 200.

It should be noted that the control instruction that Zigbee gateway 120 ' issues can be json form (JavaScriptObjectNotation, the data interchange format of lightweight).As:

{"t":"cmd","tcid":"b4430da98fe5","sub":"01437e17000000","mac":"01437e17000000","opt":["pow"],"p":[0]}

Wherein, " tcid " and " sub " be the mac value of corresponding equipment; " t " be the type of instruction; and " cmd " is corresponding is the long-range meaning; " res " is corresponding is LAN (under wifi network), and " opt " is concrete instruction, and " pow " is the meaning of switching on and shutting down; p:1 or 0 (1, start; 0, shutdown); " SetTem " is the meaning of temperature.Different control instructions, has relative json form to send.

After Intelligent bracelet 110 ' monitors user's sign information, Zigbee gateway 120 ' reads the interlock instruction stored in its condition storage unit, and according to user's sign information that Intelligent bracelet 110 ' monitors, judges whether interlock condition is reached.And then when judging that interlock condition is reached again, Zigbee gateway 120 ' issues corresponding control instruction again to air-conditioner 200.As:

Intelligent bracelet 110 ' by its built-in locating module (as: GPS module) to the locating information of user, obtain user geographical position, and then user geographical position and air-conditioner 200 position (i.e. the geographical coordinate of air-conditioner 200) are compared.When user geographical position and air-conditioner 200 positional distance are within 10 meters, then judge that interlock condition is reached.Then issue the control instruction of unlatching air-conditioner 200 to air-conditioner 200 by Zigbee gateway 120 ', control air-conditioner 200 and start.

Or

When Intelligent bracelet 110 ' is by physiological characteristics such as the breathing of Real-Time Monitoring user, pulse and body temperature, obtain user and to sleep curve.And according to obtain user sleep curve judge User Status as being about to enter sleep state time, then interlock condition reach.And then Intelligent bracelet 110 ' is again according to the interlock condition reached, is issued to air-conditioner 200 by Zigbee gateway 120 ' and to run according to preset mode and running temperature is the control instruction of the first preset temperature.

Or

When Intelligent bracelet 110 ' is by physiological characteristics such as the breathing of Real-Time Monitoring user, pulse and body temperature, obtain user and to sleep curve.And according to obtain user sleep curve judge that User Status sleep soundly state as entering time, then interlock condition reach.And then again according to the interlock condition reached, issued by the control instruction of lowering the temperature or heat up to air-conditioner 200 by Zigbee gateway 120 '.

Wherein, it should be noted that the interlock instruction being pre-stored in Zigbee gateway 120 ' is that user's sign information that user monitors according to Intelligent bracelet 110 ' pre-establishes.That is, after Intelligent bracelet 110 ' monitors user's sign information, user's sign information is sent to mobile terminal 130.Intelligence mobile terminal 130 receives and stores user's sign information.And then user's sign information that user stores according to mobile terminal 130 formulates the instruction that links accordingly, and interlock instruction is sent to Zigbee gateway 120 ' by mobile terminal 130 stores.Wherein, its corresponding control instruction of user's sign information is as an interlock instruction.Such as:

Winter, user according to corresponding user sleep curve arrange one interlock instruction be: during sleep, air-conditioning open heating mode, 25 degree.Then this interlock instruction is stored to Zigbee gateway 120 '.When user falls asleep, after Intelligent bracelet 110 ' identifies sleep, send air-conditioning by Zigbee gateway 120 ' and open heating mode, the control instruction of 25 degree is to air-conditioner 200.

The user monitoring record of sleeping soundly when Intelligent bracelet 110 ' sleeps after curve, and user can reenact another interlock instruction according to having the user of record of sleeping soundly curve of sleeping, as: when sleeping soundly, under temperature being adjusted, (on tune) once or two degree.Thus this user sleeps, curve and this control instruction are then stored to Zigbee gateway 120 ' as another instruction that links.When user enter sleep soundly state time, after Intelligent bracelet 110 ' identifies the state of sleeping soundly, by Zigbee gateway 120 ' send temperature adjust under (on tune) once or the control instruction of two degree to air-conditioner 200.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the scope of the claims of the present invention.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims

1. an air-conditioner control method, is characterized in that, comprises the steps:

Read the interlock instruction prestored, and according to described user's sign information, judge whether interlock condition is reached; Wherein, described interlock instruction comprises described interlock condition and the control instruction corresponding to described interlock condition;

If described interlock condition is reached, then issue corresponding described control instruction to air-conditioner.

2. method according to claim 1, is characterized in that, also comprises the steps:

3. method according to claim 1, is characterized in that, described user's sign information comprises user geographical position;

4. method according to claim 1, is characterized in that, described user's sign information comprises user and to sleep curve;

5. method according to claim 3, is characterized in that, described according to described user's sign information, judges whether interlock condition is reached, and comprises the steps:

6. method according to claim 4, is characterized in that, described according to described user's sign information, judges whether interlock condition is reached, and comprises the steps:

7. method according to claim 4, is characterized in that, described according to described user's sign information, judges whether interlock condition is reached, and comprises the steps:

8. the method according to any one of claim 1 to 7, is characterized in that, also comprises the steps:

Receive and store described user's sign information.

9. an air conditioner control system (100), is characterized in that, comprises monitoring modular (110) and control module (120);

Described monitoring modular (110), for the state of Real-Time Monitoring user, obtains corresponding user's sign information;

Described control module (120) comprises condition storage unit (121), reading judging unit (122) and instruction and issues unit (123);

Described condition storage unit (121), for storing interlock instruction; Described interlock instruction comprises interlock condition and the control instruction corresponding to described interlock condition;

Described reading judging unit (122), for reading the interlock instruction in described memory module, and according to described user's sign information, judges whether described interlock condition is reached;

Described instruction issues unit (123), when judging that described interlock condition is reached for described reading judging unit (122), issues corresponding control instruction to air-conditioner (200).

10. system according to claim 9, is characterized in that, when described user's sign information is user geographical position:

Described reading judging unit (122), for according to described user geographical position, judges whether described user geographical position is less than or equal to described predeterminable range apart from described air-conditioner (200) position;

Described instruction issues unit (123), for issuing the control instruction extremely described air-conditioner (200) opening described air-conditioner (200).

11. systems according to claim 9, is characterized in that, described user's sign information for user sleep curve time:

Described reading judging unit (122), for curve of sleeping according to described user, judges whether User Status enters sleep state for being about to; If so, then judge that described interlock condition is reached; If not, then judge that described interlock condition is not reached;

Described instruction issues unit (123), controls described air-conditioner (200) to run according to preset mode and running temperature is that the control instruction of described first preset temperature is to described air-conditioner (200) for issuing.

12. systems according to claim 9, is characterized in that, described user's sign information for user sleep curve time:

Described reading judging unit (122), for curve of sleeping according to described user, judges that whether User Status is for entering the state of sleeping soundly; If so, then judge that described interlock condition is reached; If not, then judge that described interlock condition is not reached;

Described instruction issues unit (123), for issuing the control instruction extremely described air-conditioner (200) controlling described second preset temperature of described air-conditioner (200) running temperature adjustment.

13. systems according to claim 9, is characterized in that, described monitoring modular (110) is Intelligent wearable equipment.

14. systems according to claim 13, is characterized in that, described Intelligent wearable equipment is Intelligent bracelet.

15. systems according to claim 9, is characterized in that, described control module (120) is gateway.

16. systems according to claim 15, is characterized in that, described gateway is Zigbee gateway.

17. systems according to any one of claim 9 to 16, is characterized in that, also comprise mobile terminal (130);

Described mobile terminal (130) comprises Network conf iotag. module, information receiving module and instruction sending module;

Described information receiving module, for receiving and storing described user's sign information that described monitoring modular (110) sends;

Described instruction sending module, stores for receiving and sending described interlock instruction to described control module (120).