CN204086866U - A kind of household appliance controlling system and household electrical appliance - Google Patents

Abstract

The utility model relates to household appliance control technology field, particularly relates to a kind of household appliance controlling system and household electrical appliance.Household appliance controlling system comprises household electrical appliance control module, and this household electrical appliance control module comprises main control unit, and the time communicated to connect with described main control unit and location information acquiring unit, synoptic climate database module and performance element; Described main control unit is for obtaining time and the positional information in region residing for household electrical appliance from described time and location information acquiring unit, and in described synoptic climate database module, the data of weather forecast of climatic information and nearest a day is transferred according to described time and positional information, and according to above-mentioned data genaration household electric appliance operation pattern and controlling curve, then control performance element according to described mode of operation and controlling curve and run.The utility model additionally provides a kind of household electrical appliance adopting above-mentioned control system.Can according to region, weather, ambient weather conditions Comprehensive Control household electrical appliance running status.

Description

A kind of household appliance controlling system and household electrical appliance

Technical field

The utility model relates to household appliance control technology field, particularly relates to a kind of household appliance controlling system and household electrical appliance.

Background technology

Current household electrical appliance running status relies on people to be remote control, to run by key assignments substantially, and along with the progressively increase of household electrical appliance function, operation is comparatively complicated, intelligent not, hommization.

For air-conditioning, generally can not the crowd of using air-condition, as too low in refrigeration design temperature just terribly cold, to set higher position awfully hot, human body comfort is bad, also not energy-conservation.

Although more existing air-conditionings have automatic operational mode, the robotization temperature carrying out intelligence controls.But existing air-conditioning automatic mode runs, and also just judges indoor environment temperature, automatic running refrigerating, heating mode.According to current air-conditioning, geographic position spring, summer, autumn, winter can not be installed; Daytime, night; To rain, snow etc. weather environmental demand carries out air conditioner intelligent, robotization regulates.To reach air conditioning comfortableness and energy-conservation optimum operation curve state.

Except air-conditioning, conventional household electrical appliance also need to adjust according to external environment situation and/or Indoor Environmental Condition as refrigerator, water heater etc. use, but this kind of adjustment can bring great difficulty to part user, carrying out loaded down with trivial details operation according to instructions to household electrical appliance as allowed it concerning old man is a very difficult thing.

For the problems referred to above, we need a kind of can according to the household appliance control method of the running status of region, weather, ambient weather conditions Comprehensive Control household electrical appliance and system.

Utility model content

Goal of the invention of the present utility model is to propose a kind of household appliance controlling system, can according to the running status of region, weather, ambient weather conditions Comprehensive Control air-conditioning.

Another goal of the invention of the present utility model is to propose a kind of household electrical appliance, can according to the running status of region, weather, ambient weather conditions Comprehensive Control household electrical appliance.

For reaching this object, the utility model by the following technical solutions:

A kind of household appliance controlling system, comprise household electrical appliance control module, this household electrical appliance control module comprises main control unit, and the time communicated to connect with described main control unit and location information acquiring unit, synoptic climate database module and performance element;

Described time and location information acquiring unit are for obtaining time and the positional information in region residing for household electrical appliance;

Described synoptic climate database module is used for providing climatic information and data of weather forecast;

Described main control unit is for obtaining described time and the positional information in region residing for household electrical appliance from time and location information acquiring unit, and in described synoptic climate database module, the data of weather forecast of climatic information and nearest a day is transferred according to described time and positional information, and generate household electric appliance operation pattern and controlling curve respectively according to the data of weather forecast of described climatic information and nearest a day, the operation of described performance element is then controlled according to described mode of operation and controlling curve.

As a kind of preferred version of above-mentioned household appliance controlling system, described main control unit comprises MCU control chip and controlling curve module, communicate to connect between described MCU control chip and described controlling curve module, described MCU control chip and described synoptic climate database module, described time and location information acquiring unit communicate to connect, and communicate to connect between described controlling curve module and described performance element;

Described MCU control chip is for obtaining described time and the positional information in region residing for household electrical appliance from described time and position acquisition unit, and in described synoptic climate database module, the data of weather forecast of described climatic information and nearest a day is transferred according to described time and positional information, then the data of weather forecast of the described climatic information transferred and nearest a day is passed to described controlling curve module, described controlling curve module is for generating described mode of operation and the controlling curve of household electrical appliance according to the data of weather forecast of described climatic information and nearest a day, and the operation of described performance element is controlled according to the described mode of operation of household electrical appliance and controlling curve.

As a kind of preferred version of above-mentioned household appliance controlling system, described system also comprises synoptic climate module, described synoptic climate module comprises the synoptic climate acquisition system for gathering described climatic information and data of weather forecast, and described synoptic climate module can communicate to connect with described synoptic climate database module and for inputting described climatic information and data of weather forecast to it.

As a kind of preferred version of above-mentioned household appliance controlling system, described synoptic climate module also comprises the storage unit stored for climatic information and data of weather forecast, for sending the input media of steering order, for showing the display unit of climatic information and data of weather forecast, and for sending the transmitter unit of data to synoptic climate database module.

As a kind of preferred version of above-mentioned household appliance controlling system, described synoptic climate database module is also connected with receiving element, this receiving element and described transmitter unit match merge can receive described transmitter unit send data message and the information received is passed to described synoptic climate database module.

As a kind of preferred version of above-mentioned household appliance controlling system, described time and location information acquiring unit are locating device and/or button and/or on-line module.

As a kind of preferred version of above-mentioned household appliance controlling system, also comprise and to communicate to connect with described MCU control chip and remote control module from user operation instruction to MCU control chip and/or control panel for sending.

As a kind of preferred version of above-mentioned household appliance controlling system, described MCU control chip is connected with receiving element, described receiving element and described remote control module and/or described control panel communicate to connect the steering order for accepting described remote control module and/or described control panel, and this steering order is transferred to described MCU control chip.

As a kind of preferred version of above-mentioned household appliance controlling system, described remote control module is telepilot or intelligent terminal, and described telepilot or described intelligent terminal are provided with the smart key starting household electrical appliance for a key.

A kind of household electrical appliance, it comprises household appliance controlling system as previously discussed.

The beneficial effects of the utility model draw local climate and weather situation by regional information residing for household electrical appliance for: the utility model, and the controlling curve of household electrical appliance is drawn according to this situation, by the operation of above-mentioned curve controlled household electrical appliance, thus achieve the running status according to region, weather, ambient weather conditions Comprehensive Control household electrical appliance.

Accompanying drawing explanation

Fig. 1 is the structural representation of the household appliance controlling system that the utility model embodiment provides;

Fig. 2 is the concrete structure schematic diagram of the control system of the household electrical appliance that the utility model embodiment provides;

Fig. 3 is the process flow diagram of the air conditioning control method that the utility model embodiment provides.

Wherein:

1: main control unit; 2: synoptic climate database module; 3: performance element; 4: receiver module; 5: household electrical appliance control module; 6: synoptic climate module; 7: receiving element; 8: remote control module; 9: time and location information acquiring unit.

11:MCU control chip; 12: controlling curve module;

61: synoptic climate acquisition system; 62: storage unit; 63: input media; 64: display unit; 65: transmitter unit.

Embodiment

The technical solution of the utility model is further illustrated by embodiment below in conjunction with accompanying drawing.

Embodiment one

Present embodiments provide for a kind of household appliance controlling system, this system is applicable to the intelligentized control method to household electrical appliances, especially to the control of air-conditioning, refrigerator, water heater, concrete can according to the operation of region, weather, ambient weather conditions, Indoor Environmental Condition Comprehensive Control household electrical appliance, thus, solve existing Household electric appliance intelligent degree not high, and avoid the troublesome operation of Non-follow control household electrical appliance, and improve the accuracy of household electrical appliance control.

As shown in Figure 1 and Figure 2, in the present embodiment, the application also provides a kind of household appliance controlling system, this system comprises electrical control unit 5, this household electrical appliance control module 5 comprises main control unit 1, and the time communicated to connect with main control unit 1 and location information acquiring unit 9, synoptic climate database module 2 and performance element 3.

Wherein, time and location information acquiring unit 9 are for obtaining time and the positional information in region residing for household electrical appliance, and synoptic climate database module 2 is for providing climatic information and data of weather forecast; The data of weather forecast in region residing for climatic information corresponding to zones of different and household electrical appliance is stored in synoptic climate database module 2, as preferably, this climatic information and data of weather forecast can be stored in advance in synoptic climate database module 2.Certain climatic information and data of weather forecast are stored in synoptic climate data module after all can being gathered by synoptic climate module 6.Main control unit 1 is for obtaining time and the positional information in region residing for household electrical appliance from time and location information acquiring unit 9, and in synoptic climate database module 2, the data of weather forecast of climatic information and nearest a day is transferred according to time and positional information, and generate household electric appliance operation pattern and controlling curve respectively according to the data of weather forecast of climatic information and nearest a day, the operation of performance element 3 is then controlled according to mode of operation and controlling curve.In this embodiment, the parts that what performance element 3 was concrete refer to for performing concrete operations.The concrete compressor as air-conditioning, fan, solenoid valve, four-way valve etc. need to carry out regulating, controlling to change air conditioner refrigerating, heating capacity, and the parts of mode of operation.

Concrete, described main control unit 1 comprises MCU control chip 11 and controlling curve module 12, communicate to connect between MCU control chip 11 and controlling curve module 12, MCU control chip 11 communicates to connect with synoptic climate database module 2, time and location information acquiring unit 9, communicates to connect between controlling curve module 12 and performance element 3.

MCU control chip 11 obtains time and the positional information in region residing for household electrical appliance from time and location information acquiring unit 9, and (climatic information refers to four seasons information to transfer the data of weather forecast of climatic information and nearest a day according to time and positional information in synoptic climate database module 2, data of weather forecast refers to real-time weather condition as situations such as wind and frost sleets), then the data of weather forecast of the climatic information transferred and nearest a day is passed to controlling curve module 12, controlling curve module 12 generates household electric appliance operation pattern and controlling curve (curve that each time period on the same day or time point are formed the temperature controlling value of air-conditioning) for the data of weather forecast according to climatic information and nearest a day, and the operation of performance element 3 is controlled according to household electric appliance operation pattern and controlling curve.

Control system also comprises and to communicate to connect with synoptic climate database module 2 and synoptic climate module 6 for sending climatic information and data of weather forecast to it, and for sending remote control module 8 and/or the control panel of user operation instruction to MCU control chip 11.

Time and position acquisition unit 9 are locating device and/or button and/or on-line module.Concrete, MCU control chip 11 can connect or be built-in with locating device, as GPS locating module can obtain time and positional information by it.Certain MCU control chip 11 can connect or built-in on-line module, and MCU control chip 11 is communicated with internet, can obtain positional information according to network address information (as IP address), and from Network Capture current time.Finally, MCU control chip 11 can external connection keyboard, by keyboard to MCU control chip 11 input time and positional information.

Synoptic climate module 6 comprises the synoptic climate acquisition system 61 for gathering climatic information and data of weather forecast, for the storage unit 62 that climatic information and data of weather forecast store, for sending the input media 63 (as keyboard) of steering order, display unit 64, and for sending the transmitter unit 65 of data to synoptic climate database module 2.

Wherein, synoptic climate acquisition system 61 can gather outside climatic information and data of weather forecast by equipment such as internets, outside climatic information and data of weather forecast is obtained as being connected through the internet to weather bureau website, synoptic climate database module 2 is sent to by transmitter unit 65, undertaken local storing so that later inquiry and calling by storage unit 62, the display of data can be carried out by display unit 64, and accept extraneous steering order by input media 63.Synoptic climate database module 2 with the communication mode of transmitter unit 65 is, synoptic climate database module 2 is connected with receiving element 7, this receiving element 7 and transmitter unit 65 match the data message merging and can receive transmitter unit 65 and send, and by this data information transfer to synoptic climate database module 2.

Between MCU control chip 11 and remote control module 8 and/or control panel, concrete communication mode is:

MCU control chip 11 is connected with receiver module 4, and this receiver module 4 can receive the steering order of remote control module 8 and/or control panel, and this steering order is transferred to MCU control chip 11.

This remote control module 8 can be telepilot, can be also intelligent terminal, as mobile phone, panel computer etc.

The startup of air-conditioning is started by smart key, as long as carry out a key operation to smart key, namely air-conditioning can run above-mentioned control method automatically.Smart key can be on the control panel of household electrical appliance, also can be on remote control module 8, after user selects this smart key, can start intelligent mode, automatically regulate, and does not need user's manual operation frequently, easy to use.

On the control panel of household electrical appliance and/or remote control module 8 except smart key is set, household electrical appliance control knob can also be set, can to household electrical appliance input control information by control knob user, after household electrical appliance obtain control information, according to this control information, the mode of operation of household electrical appliance and/or controlling curve are revised, and according to the mode of operation of revised household electrical appliance and/or the operation of controlling curve control household electrical appliance.Thus, the operation of household electrical appliance can be made more to meet the demand of user.

Present embodiment additionally provides a kind of household electrical appliance adopting above-mentioned household appliance controlling system simultaneously.These household electrical appliance importantly refer to air-conditioning, refrigerator, water heater.

In order to better explain above-mentioned control system, as shown in Figure 3, present embodiment additionally provides a kind of control method being applicable to above-mentioned control system, is first described for air-conditioning, and concrete comprises the following steps:

Steps A: the time and the positional information (geographic position, location) that obtain region residing for air-conditioning;

In this step, time and the positional information in region residing for household electrical appliance is obtained by time and location information acquiring unit.Concrete, described time and location information acquiring unit are locating device and/or button and/or on-line module.Concrete further, the time and the positional information that obtain region residing for air-conditioning can be obtained by the mode of locating device and/or key entry.If locating device is GPS positioning system, when after air-conditioning start, GPS positioning system works, and can provide positional information accurately for the control device of air-conditioning, and concrete temporal information.According to position and temporal information can be concrete show that air-conditioning is in spring, summer, autumn, that season in winter, and air-conditioning is now positioned at daytime or night.

The mode can certainly networked by electrical equipment carries out acquisition time and positional information, electrical equipment (air-conditioning) networking operation, and the networking message address (as IP address) according to electrical equipment obtains positional information, and from Network Capture current time.

Step B: the data of weather forecast determining local climatic information and nearest a day according to time and positional information;

Concrete, transfer the data of weather forecast of climatic information and nearest a day according to described time and positional information from synoptic climate database module.Concrete further, there is in synoptic climate database module multiple climatic information (as spring, summer, autumn, winter) and each climatic information correspond to the corresponding time (as 5 to July of correspondence summer), current climatic information can be determined compared with the time that the temporal information obtained is corresponding with climatic information.

There is in synoptic climate data block module multiple weather forecast information (current weather forecast data and data of weather forecast historical record, also may a history of existence record) and each weather forecast information all correspond to the corresponding time (weather forecast information as June 10), according to or the temporal information of getting time corresponding with weather forecast information compared with can determine the data of weather forecast of nearest a day.

By climatic information can be concrete show that air-conditioning is in spring, summer, autumn, which in winter in season and currently whether is in the climatic informations such as moist rainy season, then according to the mode of operation of climatic information determination air-conditioning.Mode of operation herein refers to refrigeration, heats, dehumidify isotype.As judged, air-conditioning is now in summer can running refrigerating pattern, if be in winter operation heating mode, if be in moist rainy season can run dehumidification mode.Because the weather of different regions is different, division, the time in rainy season, environment temperature distribution etc. as the four seasons are all distinct.

The data of weather forecast of nearest one day, the data of weather forecast on optimum is same day, but consider the factors such as data acquisition time delay or equipment failure, also can adopt according to recent data of weather forecast on the same day.What data of weather forecast embodied is the concrete situation of external environment, as parameters such as gas epidemic disaster, wind speed, air pressure, can draw at each time period or time point the concrete controlling value of air-conditioning according to above-mentioned parameter.

The application is by the position residing for acquisition household electrical appliance (as air-conditioning) and time, and the current climate information of household electrical appliance present position can be reflected accurately from the climatic information that synoptic climate data base call is corresponding with this positional information, make more to meet user's request to the control of household electrical appliance.

Data of weather forecast comprises the data such as precipitation, temperature, humidity, wind speed and air pressure.

Outdoor weather conditions has a great impact indoor environment temperature tool, and when as larger in outside humidity, indoor humidity often also can be larger.Therefore, in Automated condtrol process, need to draw external environment parameters accurately, just can accurately control operation of air conditioner, as lower in temperature but humidity is larger when, need to run constant temperature dehumidification pattern.In prior art, the acquisition of environmental parameter is detected by sensor and obtains to external world, as detected daytime, night by luminosity sensor, detects the state of weather such as extraneous wind and frost sleet by sensors such as air pressure, temperature, wind speed.And be directly obtain extraneous weather condition, this kind of obtain manner from Local Weather Report system in this application, to manufacture and easy to use, also contribute to the manufacturing cost of reduction air-conditioning.

Step C: the mode of operation generating household electrical appliance (air-conditioning) according to climatic information, and the controlling curve of household electrical appliance (air-conditioning) is generated according to the data of weather forecast of nearest a day, control household electrical appliance according to the household electric appliance operation pattern generated and controlling curve and run.

Mode of operation herein refer to air-conditioning refrigeration, heat, dehumidify isotype, controlling curve refers to the curve that each time period on the same day or time point are formed the temperature controlling value of air-conditioning.

Before steps A, also comprise a key start household electrical appliance, one key starts and refers to by being arranged on the smart key on household electrical appliance (air-conditioning) or the smart key on remote control (telepilot, intelligent terminal) operates, air-conditioning can run above-mentioned steps A-C automatically, carries out intelligentized control to air-conditioning.

The above-mentioned control mode to air-conditioning is synoptic climate intelligent control mode, except carrying out except 24 hours all-weather intelligent Automated condtrol to air-conditioning by synoptic climate intelligent control mode, user also can according to the controlling curve of the impression correction air-conditioning of oneself and/or mode of operation, concrete, user's input control information, after household electrical appliance obtain control information, according to this control information, the mode of operation of household electrical appliance and/or controlling curve are revised, and according to the mode of operation of revised household electrical appliance and/or the operation of controlling curve control household electrical appliance.

Indoor environment parameter can also be drawn by carrying out detection to indoor environment, drawing controlling curve and the mode of operation of air-conditioning according to climatic information, data of weather forecast and indoor environment parameter.It should be noted that, on the basis that this kind determines airconditioning control curve and mode of operation, user also can according to the controlling curve of the impression correction air-conditioning of oneself and/or mode of operation.

After user's input control order, control system carries out data accumulating, analysis and judgement, runs by revised data and curves.As current intelligent control mode operates to summer (July), 3:00 AM, rains, user feels current somewhat cool, control system is run according to current outdoor environment temperature, humidity, indoor environment temperature, humidity regulation constant temperature dehumidification, receive the correction (as design temperature heightened) of user to controlling curve parameter to revise controlling curve, air-conditioning runs according to revised controlling curve simultaneously.

Go back real time record in operation of air conditioner and gather controlling curve parameter, and be kept in synoptic climate database module, such as when user revises the temperature under certain controlling curve, wind speed based on the impression of oneself, control system is revised current controlling curve according to this revised controlling curve parameter, revised for user controlling curve parameter is kept at synoptic climate database module simultaneously, use habit as user is revised to controlling curve afterwards, to reach the intelligent operation curve of the most applicable user's request, the most applicable synoptic climate.

In order to save the energy consumption of air-conditioning, when detection of air-conditioning equipment Inspection being in unmanned state to indoor, controlling air-conditioning and entering holding state.Concrete, when detection of air-conditioning equipment is as indoor unmanned in infrared heat source checkout equipment, photographic equipment, human body sensing equipment etc. detect, then automatically enter holding state; If people detected, but without activity, then generate according to climatic information and data of weather forecast the controlling curve meeting sleep quality controlling operation of air conditioner.

The control method of above-mentioned air-conditioning and control system are better explained, present invention also provides the concrete course of work of said method and control system.

Locate and obtain air-conditioning install geographic position and current time, the data of weather forecast of current geographic position climatic information and nearest one day is transferred from synoptic climate database module 2, generate the mode of operation of household electrical appliance, and generate the controlling curve of household electrical appliance according to data of weather forecast.Mode of operation refer to air-conditioning refrigeration, heat, dehumidify isotype, controlling curve refers to the curve that each time period on the same day or time point are formed the temperature controlling value of air-conditioning.Be Guangdong-Guangzhou as got the current residing region of air-conditioning, evening July 30 time 20:00, transfer climatic information corresponding to Guangdong-Guangzhou and data of weather forecast from synoptic climate database module 2, judge that current July belongs to summer, determine that mode of operation is refrigeration.The data of weather forecast of corresponding this time point (20:00 in evening July 30) is: estimate that tonight is cloudy to tomorrow, cloudy with occasional showers or thunder shower in, temperature 27 DEG C ~ 33 DEG C, relative humidity 65%-95%; Blow southerly, land wind-force 2 ~ 3 grades; Sea wind-force 4 ~ 5 grades, fitful wind 6 grades, further according to this data of weather forecast determination air-conditioning this time point or at this moment between some left and right 1 hour by design temperature be 25 DEG C, Gao Feng, setting humidity 60% runs.

Embodiment two

In this embodiment, be described for water heater in this embodiment.

In this embodiment, water heater adopt control system, and control method and embodiment one similar.

The concrete control method of water heater comprises the following steps:

Steps A: the time and the positional information that obtain region residing for pot-type boiler;

Step B: the data of weather forecast determining local climatic information and nearest a day according to time and positional information;

Step C: according to the mode of operation of climatic information Heat of Formation hydrophone, and according to the controlling curve of data of weather forecast Heat of Formation hydrophone, control the operation of water heater according to the water heater working pattern generated and controlling curve.

Due to, user is in routine use hot water process, due to region, external environment, season, and the difference of service time, to the maximum temperature of used hot water, there is different demands, in this embodiment, the controlling curve of generation and mode of operation mainly generate according to the climatic information of locality and data of weather forecast same day different time sections or time point water heater in hot water need maximum temperature to be heated.Thus, while being convenient for users to operate, also can reduce the consumption of the energy.

It should be noted that: in the present embodiment, except controlling curve and the mode of operation of generation, and concrete execution module (execution module in present embodiment is the heating module of water heater) different from embodiment one outside, other step, and the control system being applicable to control method is all identical with embodiment one.

Embodiment three

In this embodiment, be described for refrigerator in this embodiment.

In this embodiment, refrigerator adopt control system, and control method and embodiment one similar.

The concrete control method of refrigerator comprises the following steps:

Steps A: the time and the positional information that obtain region residing for domestic refrigerator;

Step B: the data of weather forecast determining local climatic information and nearest a day according to time and positional information;

Step C: the mode of operation generating refrigerator according to climatic information, and the controlling curve generating refrigerator according to data of weather forecast, control the operation of refrigerator according to the household electric appliance operation pattern generated and controlling curve.

Due to, user is in routine use refrigerator process, due to region, external environment, season, and the difference of service time, to the refrigerating capacity of used refrigerator, there is different demands, in this embodiment, be with the key distinction of embodiment one, controlling curve and mode of operation mainly generate according to the climatic information of locality and data of weather forecast same day different time sections or the value of time point refrigerating capacity.Thus, while being convenient for users to operate, also can reduce the consumption of the energy.

It should be noted that: in the present embodiment, except controlling curve and the mode of operation of generation, and concrete execution module (execution module in present embodiment is the concrete service part such as compressor of refrigerator) different from embodiment one outside, other step, and the control system being applicable to control method is all identical with embodiment one.

Below know-why of the present utility model is described in conjunction with specific embodiments.These describe just in order to explain principle of the present utility model, and can not be interpreted as the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art does not need to pay performing creative labour can associate other embodiment of the present utility model, and these modes all will fall within protection domain of the present utility model.

Claims (10)

1. a household appliance controlling system, it is characterized in that, comprise household electrical appliance control module (5), this household electrical appliance control module (5) comprises main control unit (1), and the time communicated to connect with described main control unit (1) and location information acquiring unit (9), synoptic climate database module (2) and performance element (3);

Described time and location information acquiring unit (9) are for obtaining time and the positional information in region residing for household electrical appliance;

Described synoptic climate database module (2) is for providing climatic information and data of weather forecast;

Described main control unit (1) is for obtaining described time and the positional information in region residing for household electrical appliance from time and location information acquiring unit (9), and in described synoptic climate database module (2), the data of weather forecast of climatic information and nearest a day is transferred according to described time and positional information, and generate household electric appliance operation pattern and controlling curve respectively according to the data of weather forecast of described climatic information and nearest a day, the operation of described performance element (3) is then controlled according to described mode of operation and controlling curve.

2. household appliance controlling system according to claim 1, it is characterized in that, described main control unit (1) comprises MCU control chip (11) and controlling curve module (12), communicate to connect between described MCU control chip (11) and described controlling curve module (12), described MCU control chip (11) communicates to connect with described synoptic climate database module (2), described time and location information acquiring unit (9), communicates to connect between described controlling curve module (12) and described performance element (3);

Described MCU control chip (11) is for obtaining described time and the positional information in region residing for household electrical appliance from described time and position acquisition unit (9), and in described synoptic climate database module (2), the data of weather forecast of described climatic information and nearest a day is transferred according to described time and positional information, then the data of weather forecast of the described climatic information transferred and nearest a day is passed to described controlling curve module (12), described controlling curve module (12) generates described mode of operation and the controlling curve of household electrical appliance for the described data of weather forecast according to climatic information and nearest a day, and the operation of described performance element (3) is controlled according to the described mode of operation of household electrical appliance and controlling curve.

3. household appliance controlling system according to claim 1, it is characterized in that, described system also comprises synoptic climate module (6), described synoptic climate module (6) comprises the synoptic climate acquisition system (61) for gathering described climatic information and data of weather forecast, and described synoptic climate module (6) and described synoptic climate database module (2) communicate to connect and for inputting described climatic information and data of weather forecast to it.

4. household appliance controlling system according to claim 3, it is characterized in that, described synoptic climate module (6) also comprises the storage unit (62) stored for climatic information and data of weather forecast, for sending the input media (63) of steering order, for showing the display unit (64) of day climatic information and data of weather forecast, and for sending the transmitter unit (65) of data to synoptic climate database module (2).

5. household appliance controlling system according to claim 4, it is characterized in that, described synoptic climate database module (2) is also connected with receiving element (7), and the merging that matches of this receiving element (7) and described transmitter unit (65) can receive data message that described transmitter unit (65) sends and the information received be passed to described synoptic climate database module (2).

6. household appliance controlling system according to claim 1, is characterized in that, described time and location information acquiring unit are locating device and/or button and/or on-line module.

7. household appliance controlling system according to claim 2, it is characterized in that, also comprise and to communicate to connect with described MCU control chip (11) and remote control module (8) from user operation instruction to MCU control chip (11) and/or control panel for sending.

8. household appliance controlling system according to claim 7, it is characterized in that, described MCU control chip (11) is connected with receiving element (4), described receiving element (4) communicates to connect the steering order for accepting described remote control module (8) and/or described control panel with described remote control module (8) and/or described control panel, and this steering order is transferred to described MCU control chip (11).

9. household appliance controlling system according to claim 7, it is characterized in that, described remote control module (8) is telepilot or intelligent terminal, and described telepilot or described intelligent terminal are provided with the smart key starting household electrical appliance for a key.

10. household electrical appliance, is characterized in that, comprise the household appliance controlling system as described in claim 1-9 any one.