CN103982985A - Air conditioner running parameter adjustment method and system - Google Patents

Abstract

The invention relates to an air conditioner running parameter adjustment method and an air conditioner running parameter adjustment system. The air conditioner running parameter adjustment method comprises the steps that an air conditioner acquires a time interval between the current time point and a leave time point according to a leave state switching instruction when receiving the leave state switching instruction; the air conditioner acquires a temperature difference between the current indoor temperature and the current outdoor temperature, determines running parameters corresponding to the acquired time interval and the acquired temperature difference according to a mapping relation of the temperature difference, the time interval and the running parameters, switches a running state of the air conditioner into a leave state and runs according to the determined running parameters, so that the air conditioner can more intelligently adjust the air conditioner running parameters according to the leave time of the user.

Description

Air-conditioner operational factor control method and system

Technical field

The present invention relates to air-conditioner technical field, relate in particular to a kind of air-conditioner operational factor control method and system.

Background technology

Along with the development of air-conditioner technology, user is more and more higher to the intelligent requirements of air-conditioner control.User is when indoor, indoor comparatively comfortable in order to make, generally indoor temperature can be adjusted to comparatively comfortable temperature, for example 25 DEG C, but in the time that outdoor environment temperature is lower or higher, the time of can not be intelligently leaving indoor environment according to user due to air-conditioner regulates operational factor, and while causing user to go out, the indoor and outdoor surroundings temperature difference is larger, easy to catch cold can cause user outdoor by indoor arrival time; In prior art, be generally the above-mentioned situation of avoiding, generally leaving the indoor front air-conditioner of first closing, and wait until when indoor temperature declines or rises to outdoor temperature, leave again indoor, but because user can not control very accurately temperature rise or drop to time of outdoor temperature, cause user to wait as long for indoor, efficiency is lower and intelligent not.

Summary of the invention

Main purpose of the present invention is to provide a kind of air-conditioner operational factor control method and system, is intended to make the adjusting of air-conditioner operational factor more intelligent.

The present invention proposes a kind of air-conditioner operational factor control method, comprising:

Receiving while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point;

Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

Preferably, the method comprises:

Receiving when leaving status switching instruction and the current state that leaves switch mode and being the first switch mode, described air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point;

Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

Preferably, the method also comprises:

Receiving when leaving status switching instruction and the current state that leaves switch mode and being the second switch mode, described air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time;

In the time equaling to leave state interval switching time with the time interval of time departure point, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined the corresponding operational factor of temperature difference getting;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

Preferably, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, definite time interval getting and the step of the corresponding operational factor of temperature difference replace with:

Described air-conditioner is compared the time interval getting and the state that leaves interval switching time of presetting;

In the time that the time interval getting is less than the default state that leaves interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get.

Preferably, after described air-conditioner is compared the step at the time interval getting and the state that leaves interval switching time of presetting, the method comprises:

Get interval greater than the state that leaves interval switching time that equals to preset, and when leaving state switching time, interval equated, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature in the time interval apart from time departure point;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

Preferably, described in receive while leaving status switching instruction, air-conditioner according to described in leave the step that status switching instruction obtains the time interval between current point in time and time departure point before, the method comprises:

Described air-conditioner timing or Real-time Obtaining current point in time;

In the time that current point in time meets default condition, described air-conditioner triggers and leaves status switching instruction.

The present invention also proposes a kind of air-conditioner operational factor control method, comprising:

Receive while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time;

In the time interval apart from time departure point, when leaving state interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

The present invention also proposes a kind of air-conditioner operational factor regulating system, comprising:

Timing module, for receiving while leaving status switching instruction, obtains the time interval between current point in time and time departure point according to the described status switching instruction that leaves;

Temperature detecting module, for obtaining the temperature difference between current indoor temperature and outdoor temperature;

Determination module, for according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

Operation module, for its running status is switched to the state of leaving, and according to this definite operational factor operation.

Preferably, described timing module also, for receiving when leaving status switching instruction and the current state that leaves switch mode and being the first switch mode, obtains the time interval between current point in time and time departure point according to the described status switching instruction that leaves.

Preferably, described timing module is also for receiving when leaving status switching instruction and the current state that leaves switch mode and being the second switch mode, obtain time departure point according to the described status switching instruction that leaves, and obtain the default state that leaves interval switching time; Described temperature detecting module also in the time interval apart from time departure point when leaving state switching time, interval equated, obtain the temperature difference between current indoor temperature and outdoor temperature; Described determination module also, for according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference; Described operation module is also for its running status is switched to the state of leaving, and according to this definite operational factor operation.

Preferably, this system also comprises comparing module, for comparing the time interval getting and the state that leaves interval switching time of presetting; Described determination module is also when being less than the default state that leaves interval switching time in the time interval getting, obtain the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get

Preferably, described temperature detecting module also for get interval greater than the state that leaves interval switching time that equals to preset, and when leaving state switching time, interval equated, obtain the temperature difference between current indoor temperature and outdoor temperature in the time interval apart from time departure point; Described determination module also, for according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference; Described operation module is also for its running status is switched to the state of leaving, and according to this definite operational factor operation.

Preferably, described timing module is also for timing or Real-time Obtaining current point in time; This system also comprises instruction triggers module, when meeting default condition at current point in time, triggers and leaves status switching instruction.

The present invention also proposes a kind of air-conditioner operational factor regulating system, comprising:

Timing module, for receiving while leaving status switching instruction, obtains time departure point according to the described status switching instruction that leaves, and obtains the default state that leaves interval switching time;

Temperature detecting module, in the time interval apart from time departure point when leaving state interval switching time, obtain the temperature difference between current indoor temperature and outdoor temperature;

Determination module, for according to the mapping relations between temperature difference and operational factor, determines and gets the corresponding operational factor of temperature difference;

Operation module, for its running status is switched to the state of leaving, and according to this definite operational factor operation.

Air-conditioner operational factor control method and system that the present invention proposes, receive while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point; Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get, its running status is switched to the state of leaving, and according to this definite operational factor operation, make air-conditioner intelligentizedly to regulate air-conditioner operational factor according to user's time departure.

Brief description of the drawings

Fig. 1 is the hardware configuration schematic diagram that the present invention realizes the first embodiment of the air-conditioner of air-conditioner operational factor adjusting;

Fig. 2 is the hardware configuration schematic diagram that the present invention realizes the second embodiment of the air-conditioner of air-conditioner operational factor adjusting;

Fig. 3 is the high-level schematic functional block diagram of air-conditioner operational factor regulating system preferred embodiment in Fig. 1;

Fig. 4 is the high-level schematic functional block diagram of air-conditioner operational factor regulating system preferred embodiment in Fig. 2;

Fig. 5 is the schematic flow sheet of air-conditioner operational factor control method the first embodiment;

Fig. 6 is the schematic flow sheet of air-conditioner operational factor control method the second embodiment.

Realization, functional characteristics and the advantage of the object of the invention, in connection with embodiment, are described further with reference to accompanying drawing.

Detailed description of the invention

Be described further with regard to technical scheme of the present invention below in conjunction with drawings and the specific embodiments.Should be appreciated that specific embodiment described herein, only in order to explain the present invention, is not intended to limit the present invention.

With reference to Fig. 1, Fig. 1 is the hardware configuration schematic diagram that the present invention realizes the first embodiment of the air-conditioner of air-conditioner operational factor adjusting.

This air-conditioner 1 comprises processing unit 11, memory cell 12, timing unit 13, temperature detecting unit 14 and air-conditioner operational factor regulating system 15.

Timing unit 13, for obtaining current time point, and obtains the time interval between current point in time and time departure point.

Temperature detecting unit 14, for detection of indoor temperature and outdoor temperature, and the temperature difference of definite indoor and outdoor.

Memory cell 12, for storing mapping relations between this air-conditioner operational factor regulating system 15 and service data, temperature difference, the time interval and operational factor and the various operational factors of air-conditioner.It is emphasized that this memory cell 12 can be both an independent storage device, can be also the general designation of multiple different storage devices, and therefore not to repeat here.

This processing unit 11, be used for calling and carry out this air-conditioner operational factor regulating system 15, receiving while leaving status switching instruction, call timing unit 13 and obtain the time interval between current point in time and time departure point, and call temperature detecting unit 14 and obtain the temperature difference of indoor temperature and outdoor temperature, then call the temperature difference of storage in memory cell 12, mapping relations between the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference obtained, and the running status of air-conditioner is switched to the state of leaving, control air-conditioner according to definite operational factor operation.This processing unit 11 and memory cell 12 can be respectively both independent unit, also can integrate, and formed a controller, and therefore not to repeat here.

With reference to Fig. 2, Fig. 2 is the hardware configuration schematic diagram that the present invention realizes the second embodiment of the air-conditioner of air-conditioner operational factor adjusting.

This air-conditioner 2 comprises processing unit 21, memory cell 22, timing unit 23, temperature detecting unit 24 and air-conditioner operational factor regulating system 25.

Timing unit 23, for time point real-time or that timing acquisition is current, and calculates the time interval between current point in time and time departure point.

Temperature detecting unit 24, for detection of indoor temperature and outdoor temperature, and the temperature difference of definite indoor and outdoor.

Memory cell 22, for storing the mapping relations between this air-conditioner operational factor regulating system 25 and service data, temperature difference and operational factor, the various operational factors of air-conditioner and the default state that leaves interval switching time.It is emphasized that this memory cell 12 can be both an independent storage device, can be also the general designation of multiple different storage devices, and therefore not to repeat here.

This processing unit 21, be used for calling and carry out this air-conditioner operational factor regulating system 25, receiving while leaving status switching instruction, obtain time departure point, and obtain the state that leaves interval switching time that memory cell 22 prestores, call timing unit 23 in real time or the current time point of timing acquisition, and calculate the time interval between current point in time and time departure point, when what the time interval getting at timing unit 23 equaled to preset leaves state interval switching time, call the temperature difference that temperature detecting unit 24 obtains indoor temperature and outdoor temperature, then call the mapping relations between temperature difference and the operational factor of storing in memory cell 22, determine the corresponding operational factor of temperature difference that temperature detecting unit 24 detects, and the running status of air-conditioner is switched to the state of leaving, control air-conditioner according to definite operational factor operation.This processing unit 21 and memory cell 22 can be respectively both independent unit, also can integrate, and formed a controller, and therefore not to repeat here.

With reference to Fig. 3, Fig. 3 is the high-level schematic functional block diagram of air-conditioner operational factor regulating system preferred embodiment in Fig. 1.

It is emphasized that, to one skilled in the art, functional block diagram shown in Fig. 3 is only the exemplary plot of a preferred embodiment, and those skilled in the art, around the functional module of the air-conditioner operational factor regulating system 15 shown in Fig. 3, can carry out supplementing of new functional module easily; The title of each functional module is self-defined title, only for auxiliary each program function piece of understanding this air-conditioner operational factor regulating system 15, be not used in and limit technical scheme of the present invention, the core of technical solution of the present invention is, the function that the functional module of define name will be reached separately.

The present embodiment proposes a kind of air-conditioner operational factor regulating system 15, comprising:

Timing module 151, while leaving status switching instruction, obtains the time interval between current point in time and time departure point according to the described status switching instruction that leaves for receiving;

In the present embodiment, leaving status switching instruction can send by phonetic control command mode, for example user sends phonetic control command " 8:00 leaves " or " within 1 hour, leaving " to air-conditioner later, and this phonetic control command all can be used as and leaves status switching instruction; Or user also can be sent and be left status switching instruction by control terminal (as air-conditioner, intelligent terminal), for example user can be by the interface switching that gets the hang of of the control on control terminal, and select corresponding time departure or time departure interval etc. in this state interface switching, also can on this interface, input corresponding time departure or the time interval.The enumerating of the scheme of leaving status switching instruction that above-mentioned two kinds of embodiment only send for user, does not represent that all users send the scheme of leaving status switching instruction.

In the present embodiment, this leaves status switching instruction can directly comprise the time interval between current point in time and time departure point, be for example that phonetic control command " leaves " for 1 hour later by the status switching instruction sending, also can only comprise user's time departure point, air-conditioner is determined the time interval between current point in time and time departure point.Receive leave status switching instruction and only comprise time departure point time, described timing module 151 comprises:

Acquiring unit, for receiving while leaving status switching instruction, obtains time departure point according to the described status switching instruction that leaves;

Timing unit, for determining the time interval between current point in time and time departure point.

It will be appreciated by persons skilled in the art that as improving the intellectuality to air-conditioner control, remote controlled this air-conditioner of user, the network service of setting up between air-conditioner and control terminal is connected, and user is by this control terminal remotely controlling air conditioner.

Temperature detecting module 152, for obtaining the temperature difference between current indoor temperature and outdoor temperature;

In the present embodiment, can be at the equal set temperature sensor of indoor and outdoors to detect indoor temperature and outdoor temperature.Can multiple TEMPs be set indoor, each temperature sensor is arranged on indoor different position, and the temperature that each temperature sensor is detected is averaged, to obtain indoor temperature value exactly; When detecting, outdoor temperature in like manner, can multiple temperature sensors be set to detect outdoor temperature accurately outdoor.Indoor temperature sensor can be installed on air-conditioner, also can be arranged at indoor and communicate with air-conditioner.

Determination module 153, for according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

In the present embodiment, same temperature is poor when different in corresponding time interval, and corresponding operational factor difference, therefore need to get temperature difference and the time interval simultaneously, could determine corresponding operational factor exactly.Mapping relations between temperature difference, the time interval and operational factor can realize by mapping relations table, also can the alternate manner such as preserve by association and realize.

Operation module 154, for its running status is switched to the state of leaving, and according to this definite operational factor operation.

In the present embodiment, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter and operation time parameters.In other embodiments of the invention, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter, operation time parameters and/or any suitable other operational factors (for example, air-conditioning display brightness curve, air-conditioning Show Color parameter etc.).This operational factor can be an operational factor curve map, makes indoor temperature within a preset time interval rise or drop to outdoor temperature.

The air-conditioner operational factor regulating system that the present embodiment proposes, receives while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point; Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get, its running status is switched to the state of leaving, and according to this definite operational factor operation, make air-conditioner to regulate air-conditioner operational factor by the intelligentized user's of having more time departure.

Further, the intellectuality arranging for improving operational factor, described timing module 151 also, for receiving when leaving status switching instruction and the current state that leaves switch mode and being the first switch mode, obtains the time interval between current point in time and time departure point according to the described status switching instruction that leaves.

In the present embodiment, the multiple state switch mode that leaves can be set, for example can, receiving while leaving status switching instruction, immediately the running status of air-conditioner be switched to the state of leaving, or when apart from time departure point Preset Time interval, the running status of air-conditioner be switched to the state of leaving.

In the time of current the first switch mode that leaves state model, obtain the time interval between current point in time and time departure point according to the described status switching instruction that leaves, and obtain the temperature difference of indoor and outdoor, according to the mapping relations between default temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get, air-conditioner is according to this operational factor operation, make the indoor temperature can slow decreasing or be promoted to outdoor temperature, the comfortableness that improves indoor user, makes the setting of operational factor more intelligent.

Further, the intellectuality arranging for improving operational factor, described timing module 151 is also for receiving when leaving status switching instruction and the current state that leaves switch mode and being the second switch mode, obtain time departure point according to the described status switching instruction that leaves, and obtain the default state that leaves interval switching time; Described temperature detecting module 152 also in the time interval apart from time departure point when leaving state switching time, interval equated, obtain the temperature difference between current indoor temperature and outdoor temperature; Described determination module 153 also, for according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference; Described operation module 154 is also for its running status is switched to the state of leaving, and according to this definite operational factor operation.

In the present embodiment, can be arranged on apart from time departure point Preset Time interval time, then according to the poor definite operational factor of current indoor and outdoor temperature, and according to definite operational factor operation.In the present embodiment, when apart from time departure point Preset Time interval, just adjust air-conditioner operational factor he save air-conditioner energy consumption when improving user's comfortableness.This default state that leaves interval switching time can be arranged by user, in the use procedure of user's air-conditioner, can change leaving state interval switching time.Or, also can be according to user's use habit acknowledgement state interval switching time.

It will be understood by those skilled in the art that, the intellectuality of switching for improving operational factor, the temperature difference that can prestore in air-conditioner and leave the mapping relations between state interval switching time, the state that leaves interval switching time that can be corresponding shorter for lower temperature difference, in the time that the current state that leaves switch mode is the second switch mode, obtain time departure point according to the described status switching instruction that leaves, and obtain the temperature difference between current indoor temperature and outdoor temperature, according to default temperature difference and leave the mapping relations between state interval switching time, determine corresponding the leaving between state interval switching time of temperature difference getting, and in the time interval apart from time departure point when leaving state switching time, interval equated, control air-conditioner according to default operational factor operation.

Further, the accuracy of switching for improving operational factor, this system also comprises comparing module, for comparing the time interval getting and the state that leaves interval switching time of presetting; Described determination module 152 is also when being less than the default state that leaves interval switching time in the time interval getting, obtain the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get.

In the present embodiment, receiving while leaving status switching instruction, the time interval between current point in time and time departure point may be less than the default state that leaves interval switching time, in the time that the time interval getting is less than the default state that leaves interval switching time, determine according to the time interval, indoor and outdoor temperature mapping relations poor and operational factor, the poor corresponding operational factor of the time interval getting and indoor and outdoor temperature, and control air-conditioner according to the operational factor operation getting.

Further, the accuracy of switching for improving operational factor, described temperature detecting module 152 also for get interval greater than the state that leaves interval switching time that equals to preset, and when leaving state switching time, interval equated, obtain the temperature difference between current indoor temperature and outdoor temperature in the time interval apart from time departure point; Described determination module 153 also, for according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference; Described operation module 154 is also for its running status is switched to the state of leaving, and according to this definite operational factor operation.

In the present embodiment, between current point in time and time departure point when equaling to leave state interval switching time, the state that just leaves switches, and according to the operational factor operation getting, ensure that user has time enough to carry out the adjusting of indoor temperature, the accuracy of air-conditioner operational factor.

Further, described timing module 151 is also for timing or Real-time Obtaining current point in time; This system also comprises instruction triggers module, when meeting default condition at current point in time, triggers and leaves status switching instruction.

In the present embodiment, current point in time meets default condition and can comprise, the time interval between current point in time and time departure point equals the default time interval, or current point in time arrives and leave state point switching time, and such as user arranges 7 air-conditioners and enters and leave state operation etc.

In the present embodiment, user can arrange the time point of going out every day, timing module 151 timing or Real-time Obtaining current points in time, and in current point in time and the time interval of going out between time point of presetting, while equaling default time interval, enter and leave state operation.This time point can not only comprise that the time also can comprise the date, for example April 16 12:00, user can arrange the time point that it is gone out in advance.

With reference to 4, Fig. 4 is the high-level schematic functional block diagram of air-conditioner operational factor regulating system preferred embodiment in Fig. 2.

It is emphasized that, to one skilled in the art, functional block diagram shown in Fig. 4 is only the exemplary plot of a preferred embodiment, and those skilled in the art, around the functional module of the air-conditioner operational factor regulating system 25 shown in Fig. 4, can carry out supplementing of new functional module easily; The title of each functional module is self-defined title, only for auxiliary each program function piece of understanding this air-conditioner operational factor regulating system 25, be not used in and limit technical scheme of the present invention, the core of technical solution of the present invention is, the function that the functional module of define name will be reached separately.

The present embodiment proposes a kind of air-conditioner operational factor regulating system 25, comprising:

Timing module 251, for receiving while leaving status switching instruction, obtains time departure point according to the described status switching instruction that leaves, and obtains the default state that leaves interval switching time;

In the present embodiment, leaving status switching instruction can send by phonetic control command mode, for example user sends phonetic control command " 8:00 leaves " or " within 1 hour, leaving " to air-conditioner later, and this phonetic control command all can be used as and leaves status switching instruction; Or user also can be sent and be left status switching instruction by control terminal (as air-conditioner, intelligent terminal), for example user can be by the interface switching that gets the hang of of the control on control terminal, and select corresponding time departure or time departure interval etc. in this state interface switching, also can on this interface, input corresponding time departure or the time interval.The enumerating of the scheme of leaving status switching instruction that above-mentioned two kinds of embodiment only send for user, does not represent that all users send the scheme of leaving status switching instruction.Receive leave status switching instruction in while comprising time departure interval, have more current point in time and time departure interval and determine time departure point.

It will be appreciated by persons skilled in the art that as improving the intellectuality to air-conditioner control, remote controlled this air-conditioner of user, the network service of setting up between air-conditioner and control terminal is connected, and user is by this control terminal remotely controlling air conditioner.

Temperature detecting module 252, in the time interval apart from time departure point when leaving state interval switching time, obtain the temperature difference between current indoor temperature and outdoor temperature;

In the present embodiment, can be at the equal set temperature sensor of indoor and outdoors to detect indoor temperature and outdoor temperature.Can multiple TEMPs be set indoor, each temperature sensor is arranged on indoor different position, and the temperature that each temperature sensor is detected is averaged, to obtain indoor temperature value exactly; When detecting, outdoor temperature in like manner, can multiple temperature sensors be set to detect outdoor temperature accurately outdoor.Indoor temperature sensor can be installed on air-conditioner, also can be arranged at indoor and communicate with air-conditioner.

Determination module 253, for according to the mapping relations between temperature difference and operational factor, determines and gets the corresponding operational factor of temperature difference;

Operation module 254, for its running status is switched to the state of leaving, and according to this definite operational factor operation.

In the present embodiment, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter and operation time parameters.In other embodiments of the invention, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter, operation time parameters and/or any suitable other operational factors (for example, air-conditioning display brightness curve, air-conditioning Show Color parameter etc.).This operational factor can be an operational factor curve map, makes indoor temperature within a preset time interval rise or drop to outdoor temperature.

The air-conditioner operational factor regulating system that the present embodiment proposes, receives while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time; In the time interval apart from time departure point, when leaving state interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature; Described air-conditioner is according to the mapping relations between temperature difference and operational factor, determine and get the corresponding operational factor of temperature difference, and its running status is switched to the state of leaving, and according to this definite operational factor operation, make air-conditioner to regulate air-conditioner operational factor by the intelligentized user's of having more time departure.

With reference to 5, Fig. 5 is the schematic flow sheet of air-conditioner operational factor control method the first embodiment.

The present embodiment proposes a kind of air-conditioner operational factor control method, comprising:

Step S10, receives while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point;

In the present embodiment, leaving status switching instruction can send by phonetic control command mode, for example user sends phonetic control command " 8:00 leaves " or " within 1 hour, leaving " to air-conditioner later, and this phonetic control command all can be used as and leaves status switching instruction; Or user also can be sent and be left status switching instruction by control terminal (as air-conditioner, intelligent terminal), for example user can be by the interface switching that gets the hang of of the control on control terminal, and select corresponding time departure or time departure interval etc. in this state interface switching, also can on this interface, input corresponding time departure or the time interval.The enumerating of the scheme of leaving status switching instruction that above-mentioned two kinds of embodiment only send for user, does not represent that all users send the scheme of leaving status switching instruction.

In the present embodiment, this leaves status switching instruction can directly comprise the time interval between current point in time and time departure point, be for example that phonetic control command " leaves " for 1 hour later by the status switching instruction sending, also can only comprise user's time departure point, air-conditioner is determined the time interval between current point in time and time departure point.Receive leave status switching instruction and only comprise time departure point time, step S10 comprises:

Receiving while leaving status switching instruction, described air-conditioner according to described in leave status switching instruction and obtain time departure point;

Described air-conditioner is determined the time interval between current point in time and time departure point.

It will be appreciated by persons skilled in the art that as improving the intellectuality to air-conditioner control, remote controlled this air-conditioner of user, the network service of setting up between air-conditioner and control terminal is connected, and user is by this control terminal remotely controlling air conditioner.

Step S20, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

In the present embodiment, can be at the equal set temperature sensor of indoor and outdoors to detect indoor temperature and outdoor temperature.Can multiple TEMPs be set indoor, each temperature sensor is arranged on indoor different position, and the temperature that each temperature sensor is detected is averaged, to obtain indoor temperature value exactly; When detecting, outdoor temperature in like manner, can multiple temperature sensors be set to detect outdoor temperature accurately outdoor.Indoor temperature sensor can be installed on air-conditioner, also can be arranged at indoor and communicate with air-conditioner.

Step S30, its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

In the present embodiment, same temperature is poor when different in corresponding time interval, and corresponding operational factor difference, therefore need to get temperature difference and the time interval simultaneously, could determine corresponding operational factor exactly.Mapping relations between temperature difference, the time interval and operational factor can realize by mapping relations table, also can the alternate manner such as preserve by association and realize.

In the present embodiment, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter and operation time parameters.In other embodiments of the invention, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter, operation time parameters and/or any suitable other operational factors (for example, air-conditioning display brightness curve, air-conditioning Show Color parameter etc.).This operational factor can be an operational factor curve map, makes indoor temperature within a preset time interval rise or drop to outdoor temperature.

The air-conditioner operational factor control method that the present embodiment proposes, receives while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point; Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get, its running status is switched to the state of leaving, and according to this definite operational factor operation, make air-conditioner to regulate air-conditioner operational factor by the intelligentized user's of having more time departure.

Further, the intellectuality arranging for improving operational factor, step S10 comprises:

Receiving when leaving status switching instruction and the current state that leaves switch mode and being the first switch mode, described air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point;

Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

In the present embodiment, the multiple state switch mode that leaves can be set, for example can be receiving while leaving status switching instruction, immediately the running status of air-conditioner is switched to the state of leaving, or when apart from time departure point Preset Time interval, the running status of air-conditioner is switched to the state of leaving, the first switch mode is preferably switch mode immediately in the present embodiment.

In the time of current the first switch mode that leaves state model, obtain the time interval between current point in time and time departure point according to the described status switching instruction that leaves, and obtain the temperature difference of indoor and outdoor, according to the mapping relations between default temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get, air-conditioner is according to this operational factor operation, make the indoor temperature can slow decreasing or be promoted to outdoor temperature, the comfortableness that improves indoor user, makes the setting of operational factor more intelligent.

Further, the intellectuality arranging for improving operational factor, the method also comprises step:

Receiving when leaving status switching instruction and the current state that leaves switch mode and being the second switch mode, described air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time;

In the time interval apart from time departure point, when leaving state switching time, interval equated, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

In the present embodiment, can be arranged on apart from time departure point Preset Time interval time, then according to the poor definite operational factor of current indoor and outdoor temperature, and according to definite operational factor operation.In the present embodiment, when apart from time departure point Preset Time interval, just adjust air-conditioner operational factor he save air-conditioner energy consumption when improving user's comfortableness.This default state that leaves interval switching time can be arranged by user, in the use procedure of user's air-conditioner, can change leaving state interval switching time.Or, also can be according to user's use habit acknowledgement state interval switching time.

It will be understood by those skilled in the art that, the intellectuality of switching for improving operational factor, the temperature difference that can prestore in air-conditioner and leave the mapping relations between state interval switching time, the state that leaves interval switching time that can be corresponding shorter for lower temperature difference, in the time that the current state that leaves switch mode is the second switch mode, obtain time departure point according to the described status switching instruction that leaves, and obtain the temperature difference between current indoor temperature and outdoor temperature, according to default temperature difference and leave the mapping relations between state interval switching time, determine corresponding the leaving between state interval switching time of temperature difference getting, and in the time interval apart from time departure point when leaving state switching time, interval equated, control air-conditioner according to default operational factor operation.

Further, the accuracy of switching for improving operational factor, step S20 replaces with:

Step S40, described air-conditioner is compared the time interval getting and the state that leaves interval switching time of presetting;

Step S50, in the time that the time interval getting is less than the default state that leaves interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get.

In the present embodiment, receiving while leaving status switching instruction, the time interval between current point in time and time departure point may be less than the default state that leaves interval switching time, in the time that the time interval getting is less than the default state that leaves interval switching time, determine according to the time interval, indoor and outdoor temperature mapping relations poor and operational factor, the poor corresponding operational factor of the time interval getting and indoor and outdoor temperature, and control air-conditioner according to the operational factor operation getting.

Further, the accuracy of switching for improving operational factor, comprises step after step S40:

Get interval greater than the state that leaves interval switching time that equals to preset, and when leaving state switching time, interval equated, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature in the time interval apart from time departure point;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

In the present embodiment, between current point in time and time departure point when equaling to leave state interval switching time, the state that just leaves switches, and according to the operational factor operation getting, ensure that user has time enough to carry out the adjusting of indoor temperature, the accuracy of air-conditioner operational factor.

Further, before step S10, the method comprising the steps of:

Described air-conditioner timing or Real-time Obtaining current point in time;

In the time that current point in time meets default condition, described air-conditioner triggers and leaves status switching instruction.

In the present embodiment, current point in time meets default condition and can comprise, the time interval between current point in time and time departure point equals the default time interval, or current point in time arrives and leave state point switching time, and such as user arranges 7 air-conditioners and enters and leave state operation etc.

In the present embodiment, user can arrange the time point of going out every day, timing module 151 timing or Real-time Obtaining current points in time, and in current point in time and the time interval of going out between time point of presetting, while equaling default time interval, enter and leave state operation.This time point can not only comprise that the time also can comprise the date, for example April 16 12:00, user can arrange the time point that it is gone out in advance.

With reference to 6, Fig. 6 is the schematic flow sheet of air-conditioner operational factor control method the second embodiment.

The present embodiment proposes a kind of air-conditioner operational factor control method, comprising:

Step S60, receives while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time;

In the present embodiment, leaving status switching instruction can send by phonetic control command mode, for example user sends phonetic control command " 8:00 leaves " or " within 1 hour, leaving " to air-conditioner later, and this phonetic control command all can be used as and leaves status switching instruction; Or user also can be sent and be left status switching instruction by control terminal (as air-conditioner, intelligent terminal), for example user can be by the interface switching that gets the hang of of the control on control terminal, and select corresponding time departure or time departure interval etc. in this state interface switching, also can on this interface, input corresponding time departure or the time interval.The enumerating of the scheme of leaving status switching instruction that above-mentioned two kinds of embodiment only send for user, does not represent that all users send the scheme of leaving status switching instruction.Receive leave status switching instruction in while comprising time departure interval, have more current point in time and time departure interval and determine time departure point.

It will be appreciated by persons skilled in the art that as improving the intellectuality to air-conditioner control, remote controlled this air-conditioner of user, the network service of setting up between air-conditioner and control terminal is connected, and user is by this control terminal remotely controlling air conditioner.

Step S70, in the time interval apart from time departure point, when leaving state interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature;

In the present embodiment, can be at the equal set temperature sensor of indoor and outdoors to detect indoor temperature and outdoor temperature.Can multiple TEMPs be set indoor, each temperature sensor is arranged on indoor different position, and the temperature that each temperature sensor is detected is averaged, to obtain indoor temperature value exactly; When detecting, outdoor temperature in like manner, can multiple temperature sensors be set to detect outdoor temperature accurately outdoor.Indoor temperature sensor can be installed on air-conditioner, also can be arranged at indoor and communicate with air-conditioner.

Step S80, described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference;

Step S90, its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

In the present embodiment, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter and operation time parameters.In other embodiments of the invention, described operational factor comprises temperature curve parameter, moisture curve parameter, wind direction and wind speed parameter, operation time parameters and/or any suitable other operational factors (for example, air-conditioning display brightness curve, air-conditioning Show Color parameter etc.).This operational factor can be an operational factor curve map, makes indoor temperature within a preset time interval rise or drop to outdoor temperature.

The air-conditioner operational factor control method that the present embodiment proposes, receives while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time; In the time interval apart from time departure point, when leaving state interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature; Described air-conditioner is according to the mapping relations between temperature difference and operational factor, determine and get the corresponding operational factor of temperature difference, and its running status is switched to the state of leaving, and according to this definite operational factor operation, make air-conditioner to regulate air-conditioner operational factor by the intelligentized user's of having more time departure.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.Through the above description of the embodiments, those skilled in the art can be well understood to the mode that above-described embodiment method can add essential general hardware platform by software and realize, can certainly pass through hardware, but in a lot of situation, the former is better embodiment.Based on such understanding, the part that technical scheme of the present invention contributes to prior art in essence in other words can embody with the form of software product, this computer software product is stored in a storage medium (as ROM/RAM, magnetic disc, CD), comprise that some instructions (can be mobile phones in order to make a station terminal equipment, computer, server, or the network equipment etc.) carry out the method described in each embodiment of the present invention.

The foregoing is only the preferred embodiments of the present invention; not thereby limit the scope of the claims of the present invention; every equivalent structure transformation that utilizes description of the present invention and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present invention.

Claims (14)

1. an air-conditioner operational factor control method, is characterized in that, comprising:

Receiving while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point;

Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

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

Receiving when leaving status switching instruction and the current state that leaves switch mode and being the first switch mode, described air-conditioner according to described in leave status switching instruction and obtain the time interval between current point in time and time departure point;

Described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

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

Receiving when leaving status switching instruction and the current state that leaves switch mode and being the second switch mode, described air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time;

In the time equaling to leave state interval switching time with the time interval of time departure point, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined the corresponding operational factor of temperature difference getting;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

4. method according to claim 1, it is characterized in that, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, definite time interval getting and the step of the corresponding operational factor of temperature difference replace with:

Described air-conditioner is compared the time interval getting and the state that leaves interval switching time of presetting;

In the time that the time interval getting is less than the default state that leaves interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get.

5. method according to claim 4, is characterized in that, after described air-conditioner is compared the step at the time interval getting and the state that leaves interval switching time of presetting, the method comprises:

Get interval greater than the state that leaves interval switching time that equals to preset, and when leaving state switching time, interval equated, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature in the time interval apart from time departure point;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

6. method according to claim 1, is characterized in that, described in receive while leaving status switching instruction, air-conditioner according to described in leave the step that status switching instruction obtains the time interval between current point in time and time departure point before, the method comprises:

Described air-conditioner timing or Real-time Obtaining current point in time;

In the time that current point in time meets default condition, described air-conditioner triggers and leaves status switching instruction.

7. an air-conditioner operational factor control method, is characterized in that, comprising:

Receive while leaving status switching instruction, air-conditioner according to described in leave status switching instruction and obtain time departure point, and obtain the default state that leaves interval switching time;

In the time interval apart from time departure point, when leaving state interval switching time, described air-conditioner obtains the temperature difference between current indoor temperature and outdoor temperature;

Described air-conditioner, according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference;

Its running status is switched to the state of leaving by described air-conditioner, and according to this definite operational factor operation.

8. an air-conditioner operational factor regulating system, is characterized in that, comprising:

Timing module, for receiving while leaving status switching instruction, obtains the time interval between current point in time and time departure point according to the described status switching instruction that leaves;

Temperature detecting module, for obtaining the temperature difference between current indoor temperature and outdoor temperature;

Determination module, for according to the mapping relations between temperature difference, the time interval and operational factor, determines the time interval and the corresponding operational factor of temperature difference that get;

Operation module, for its running status is switched to the state of leaving, and according to this definite operational factor operation.

9. system according to claim 8, it is characterized in that, described timing module also, for receiving when leaving status switching instruction and the current state that leaves switch mode and being the first switch mode, obtains the time interval between current point in time and time departure point according to the described status switching instruction that leaves.

10. system according to claim 8 or claim 9, it is characterized in that, described timing module is also for receiving when leaving status switching instruction and the current state that leaves switch mode and being the second switch mode, obtain time departure point according to the described status switching instruction that leaves, and obtain the default state that leaves interval switching time; Described temperature detecting module also in the time interval apart from time departure point when leaving state switching time, interval equated, obtain the temperature difference between current indoor temperature and outdoor temperature; Described determination module also, for according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference; Described operation module is also for its running status is switched to the state of leaving, and according to this definite operational factor operation.

11. systems according to claim 8, is characterized in that, this system also comprises comparing module, for comparing the time interval getting and the state that leaves interval switching time of presetting; Described determination module is also when being less than the default state that leaves interval switching time in the time interval getting, obtain the temperature difference between current indoor temperature and outdoor temperature, and according to the mapping relations between temperature difference, the time interval and operational factor, determine the time interval and the corresponding operational factor of temperature difference that get.

12. systems according to claim 8, it is characterized in that, described temperature detecting module also for get interval greater than the state that leaves interval switching time that equals to preset, and when leaving state switching time, interval equated, obtain the temperature difference between current indoor temperature and outdoor temperature in the time interval apart from time departure point; Described determination module also, for according to the mapping relations between temperature difference and operational factor, is determined and is got the corresponding operational factor of temperature difference; Described operation module is also for its running status is switched to the state of leaving, and according to this definite operational factor operation.

13. systems according to claim 8, is characterized in that, described timing module is also for timing or Real-time Obtaining current point in time; This system also comprises instruction triggers module, when meeting default condition at current point in time, triggers and leaves status switching instruction.

14. 1 kinds of air-conditioner operational factor regulating systems, is characterized in that, comprising:

Timing module, for receiving while leaving status switching instruction, obtains time departure point according to the described status switching instruction that leaves, and obtains the default state that leaves interval switching time;

Temperature detecting module, in the time interval apart from time departure point when leaving state interval switching time, obtain the temperature difference between current indoor temperature and outdoor temperature;

Determination module, for according to the mapping relations between temperature difference and operational factor, determines and gets the corresponding operational factor of temperature difference;

Operation module, for its running status is switched to the state of leaving, and according to this definite operational factor operation.