CN103884083B - A kind of energy-saving environment protection intelligent air conditioning system and working method thereof - Google Patents

Abstract

The present invention is a kind of energy-saving environment protection intelligent air conditioning system and working method thereof, particularly relate to a kind of energy-saving environment protection intelligent air conditioning system and working method thereof, including an outdoor temperature detector, a temperature signal transport module, one intelligent kernel parts, an intelligent mode interface; Described outdoor temperature detector is embedded in inside described air-conditioner outdoor unit, described temperature signal transport module one end is connected with described outdoor temperature detector, the described temperature signal transport module other end is connected with described indoor apparatus of air conditioner, described core intelligence parts are embedded in described indoor apparatus of air conditioner, described intelligent mode interface is positioned on described air-conditioning remote control, and described intelligent mode interface is the button being turned on or off energy-saving environment protection intelligent mode of operation. The present invention can be automatically adjusted the temperature optimum health temperature to user, it is not necessary to user's manual adjustments, and can be prevented effectively from traditional air conditioner because maintaining the non-optimal health temperature that user sets and the unnecessary power wastage produced, and increases economic efficiency.

Description

A kind of energy-saving environment protection intelligent air conditioning system and working method thereof

Technical field

The present invention relates to field of air conditioning, particularly relate to a kind of energy-saving environment protection intelligent air conditioning system and working method thereof.

Background technology

Along with science and technology is showing improvement or progress day by day, air-conditioning has become one of requisite household electrical appliance in people's life. Now widely used split-type air conditioner is made up of indoor set and off-premises station, is separately mounted to indoor and outdoors, the middle air conditioner coupled together by pipeline and electric wire. It is relative with package AC plant, and package AC plant is all-in-one, dividing without inside and outside machine. For separate type air conditioner, its primary structure is as it is shown in figure 1, include indoor apparatus of air conditioner 1 ', air-conditioner outdoor unit 2 ', the connection trachea of off-premises station and indoor set and circuit 3 ', the wireless connections module 4 ' between air-conditioning remote control and indoor apparatus of air conditioner, air-conditioning remote control 5 '. Air conditioner refrigerating can be made by air-conditioning remote control or heat and can set that temperature. Convertible frequency air-conditioner is to add a converter in the structure of conventional air-conditioning, and it can automatically provide required cold (heat) amount according to room availability; After indoor temperature reaches expected value, air-conditioner host is then can accurately keep the constant speed of this temperature to operate, it is achieved " not shutting down operating ", thus ensureing stablizing of ambient temperature.

After user opens air-conditioning and sets a certain temperature, air-conditioning usually carries out heating or freezing with peak power and maximum quantity of wind, thus being rapidly achieved the temperature that user sets, then it automatically provides required cold and hot amount according to room availability, after room temperature reaches the temperature set, convertible frequency air-conditioner is just can accurately keep the constant speed of this temperature to operate, thus ensureing stablizing of indoor temperature. Because cold and hot comfort level is felt different by everyone skin, say, that everyone optimum health temperature is different. And position is different in same air-conditioned room, cold and hot comfortable sense organ is also different. Even if convertible frequency air-conditioner can be always maintained in room temperature-resistant, but this temperature being to maintain changes over time and is probably partial heat for a user a bit or more colder, not the optimum health temperature of user, thus being unfavorable for that user's is healthy, and wasting again a lot of power consumption. As user before sleep the temperature of air-conditioning arrange higher or on the low side, user can feel before falling asleep that this temperature arranged is very comfortable, but after being as user's sleep in the late into the night, owing to outdoor temperature gradually changes, but the temperature of indoor is in the state of constant temperature, and people's metabolism after falling asleep slows down, the heat produced reduces, room temperature now is not optimum temperature for a user, and user can be waken up by heat or freeze awake, is unfavorable for that user has a rest. Even if user is not waken up by heat or freezes awake, also in the state fallen asleep, but room temperature now has not been the optimum temperature of user, is unfavorable for that user's is healthy. In the case, if convertible frequency air-conditioner is refrigeration mode, and user set temperature than outdoor temperature little a lot, convertible frequency air-conditioner stably needs to be constantly in duty to maintain indoor temperature, thus wasting a lot of power consumption, the indoor temperature being maintained with neither the optimum temperature of user. If convertible frequency air-conditioner is heating mode, and the temperature of user's setting is higher than outdoor a lot, convertible frequency air-conditioner stably needs to be constantly in duty to maintain indoor temperature, thus wastes a lot of power consumption, and the indoor temperature being maintained with neither the optimum temperature of user.

Summary of the invention

It is an object of the invention to solve the problems referred to above, make air-conditioning can be automatically adjusted temperature and to the optimum health temperature of user and do not produce unnecessary power wastage.

For reaching above-mentioned purpose, concrete technical scheme is as follows:

A kind of energy-saving environment protection intelligent air conditioning system, including an indoor apparatus of air conditioner, one air-conditioner outdoor unit, the trachea of some off-premises stations and indoor set and connection, the wireless connections module between an air-conditioning remote control and indoor apparatus of air conditioner, an air-conditioning remote control, described energy-saving environment protection intelligent air conditioning system also includes: an outdoor temperature detector, one temperature signal transport module, intelligent kernel parts, and an intelligent mode interface;

Wherein, described outdoor temperature detector is embedded in inside described air-conditioner outdoor unit, described temperature signal transport module one end is connected with described outdoor temperature detector, the described temperature signal transport module other end is connected with described indoor apparatus of air conditioner, described intelligent kernel parts are embedded in described indoor apparatus of air conditioner, and described intelligent mode interface is positioned on described air-conditioning remote control.

Preferably, described intelligent kernel parts include:

One computing module, described computing module includes at least one algorithm unit, and described computing module is complied with

Calculate according to described algorithm unit and obtain described healthy temperature;

One judge module, described judge module judges whether recorded unsoundness temperature in described air conditioning system,

And judge whether the design temperature of air-conditioning is equal to outdoor temperature;

One adjustment module, described adjustment module obtains described optimum health temperature, and regulates indoor temperature extremely

Described healthy temperature;

One memory module, described memory module preserves historical temperature record;

One signal output module, described signal output module exports the judged result of described judge module, with

Remind user.

Preferably, described computing unit is renewable.

Preferably, described outdoor temperature detector is installed on away from door and window, air outlet and other heat source

Place.

Preferably, described temperature signal transport module is for being wirelessly transferred.

Preferably, described temperature signal transport module is wire transmission.

A kind of energy-saving environment protection intelligent air conditioning system working method, adopts the system as described in Claims 2 or 3, mainly comprises the steps that

Step one, user opens described energy-saving environment protection intelligent air-conditioning, sets a temperature T by described air-conditioning remote control under refrigeration or heating mode_Set;

Whether step 2, record effective user optimum health temperature T in energy-saving environment protection intelligent air conditioning system described in the judge module automatic decision in described energy-saving environment protection intelligent air conditioning system_Intelligence;

When described energy-saving environment protection intelligent air conditioning system records described T_IntelligenceTime, it is directly entered step 3;

When described energy-saving environment protection intelligent air conditioning system does not record described T_IntelligenceTime, described energy-saving environment protection intelligent air conditioning system is by current outdoor temperature T_OutdoorIt is arranged to described T_Intelligence, subsequently into step 3;

Step 3, described energy-saving environment protection intelligent air conditioning system judges described T_SetWhether equal to described T_Intelligence;

When described energy-saving environment protection intelligent air conditioning system judges described T_SetEqual to described T_IntelligenceTime, remain current and set;

When described energy-saving environment protection intelligent air conditioning system judges described T_SetIt is not equal to described T_IntelligenceTime, enter step 4;

Step 4, it is judged that described T in different modes_Set, described T_IntelligenceWith described T_OutdoorBetween relation, when the condition is satisfied, point out user, when being unsatisfactory for condition, remain current and set;

Step 5, user chooses whether by intelligent mode interface starting energy-saving environment-protecting intelligent mode of operation;

If being not turned on energy-saving environment protection intelligent mode of operation, then run described air conditioning system to room temperature and reach described T_SetAnd maintain room temperature equal to described T_Set;

If starting energy-saving environment-protecting intelligent mode of operation, then enter step 6;

Step 6, operation of air conditioner to room temperature reaches described T_SetAfter, energy-saving environment protection intelligent air conditioning system automatic decision current indoor temperature T_{Room temperature}Whether equal to described T_Intelligence;

If described T_{Room temperature}Equal to described T_Intelligence, then described T is maintained_{Room temperature};

If described T_{Room temperature}It is not equal to described T_Intelligence, then step 7 is entered;

Step 7, described intelligent kernel parts are automatically adjusted described T_Set, by described T_{Room temperature}Automatically plus a temperature difference temperature T_△, i.e. T_{Set new}=T_{Room temperature}+T_△; Run described air conditioning system and reach T to room temperature_{Set new}。

Step 8, after a period of time, judges T again_{Room temperature}Whether equal to T_Intelligence;

If T_{Room temperature}Equal to T_Intelligence, then this temperature is maintained;

If T_{Room temperature}It is not equal to T_Intelligence, then step 7 is repeated.

Preferably, described T_IntelligenceIt is that energy-saving environment protection intelligent air conditioning system draws according to the result statistical computation of each run;

The mode of operation of described energy-saving environment protection intelligent air conditioning system has shutdown, exits intelligent mode, suspends automatic regulation function, and the artificial temperature that regulates arranges these four pattern, respectively a corresponding T calculated according to algorithms of different_Record, according to each described T of record in fixing natural law_RecordTo draw T_Intelligence。

Preferably, described effective T_IntelligenceIt is the described energy-saving environment protection intelligent operation of air conditioner T that meets power conservation requirement_Intelligence;

Air-conditioning is T in cooling mode_OutdoorLess than T_Intelligence, the T of this record_IntelligenceIt is invalid;

Air-conditioning is T in a heating mode_OutdoorMore than T_Intelligence, the T of this record_IntelligenceIt is invalid.

Preferably, described different mode includes heating mode and refrigeration mode.

Preferably, the condition in step 4 is:

When described energy-saving environment protection intelligent operation of air conditioner is under described heating mode, described energy-saving environment protection intelligent air conditioning system can judge described T_SetWhether less than described T_Outdoor; If described T_SetLess than described T_Outdoor; The temperature of described energy-saving environment protection intelligent air conditioning system prompting user setup is less than outdoor temperature, and advises that user resets temperature; If described T_SetBe more than or equal to described T_OutdoorThen maintain current design temperature;

When described energy-saving environment protection intelligent operation of air conditioner is under described refrigeration mode, described energy-saving environment protection intelligent air conditioning system can judge described T_SetWhether more than described T_Outdoor; If described T_SetMore than described T_Outdoor, the temperature of described energy-saving environment protection intelligent air conditioning system prompting user setup is more than outdoor temperature, and advises that user resets temperature; If described T_SetLess than or equal to described T_Outdoor, then current design temperature is maintained.

Preferably, temperature difference temperature T described in step 7_△Depend on described intelligent kernel parts be automatically adjusted before T_SetI.e. former T_SetAnd T_IntelligenceSize:

As former T_SetMore than T_IntelligenceTime, then T_△Less than zero, namely T_{Room temperature}It is reduced to T_Intelligence;

As former T_SetLess than T_IntelligenceTime, then T_△More than zero, namely T_{Room temperature}It is increased to T_Intelligence。

Technical scheme can be automatically adjusted the temperature optimum health temperature to user, without user's manual adjustments, and traditional air conditioner can be prevented effectively from because maintaining the non-optimal health temperature that user sets and the unnecessary power wastage produced, increase economic efficiency.

Accompanying drawing explanation

The accompanying drawing constituting the part of the present invention is used for providing a further understanding of the present invention, and the illustrative example of the present invention and explanation thereof are used for explaining the present invention, are not intended that inappropriate limitation of the present invention. In the accompanying drawings:

Fig. 1 is traditional air conditioner structural representation;

Fig. 2 is the schematic diagram of a kind of energy-saving environment protection intelligent air conditioning system of the present invention and working method;

Fig. 3 is that after a kind of energy-saving environment protection intelligent air conditioning system of the present invention and the unlatching air-conditioning of working method, system judges schematic flow sheet;

Fig. 4 is the schematic flow sheet being automatically adjusted room temperature of a kind of energy-saving environment protection intelligent air conditioning system of the present invention and working method;

Fig. 5 is the statistics optimum health temperature T of a kind of energy-saving environment protection intelligent air conditioning system of the present invention and working method_IntelligenceSchematic diagram.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the invention will be further described, it is clear that described example is only a part of example of the present invention, rather than whole examples. Based on the example that the present invention collects, all examples that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.

It should be noted that when not conflicting, the example in the present invention and the feature in example can independent assortments mutually.

Below with reference to accompanying drawing, the example of the present invention is done concrete explaination.

The example of the present invention as shown in Figure 2 is a kind of energy-saving environment protection intelligent air conditioning system and working method, including an indoor apparatus of air conditioner 1, one air-conditioner outdoor unit 2, the trachea of some off-premises stations and indoor set and connection 3, wireless connections module 4 between air-conditioning remote control and indoor apparatus of air conditioner, an air-conditioning remote control 5, an outdoor temperature detector 6, one temperature signal transport module 7, intelligent kernel parts 8. Indoor apparatus of air conditioner 1 is positioned over indoor, intelligent kernel parts 8 are embedded in indoor apparatus of air conditioner 1, air-conditioning remote control 5 can pass through wireless connections manipulation energy-saving environment protection intelligent air-conditioning, button 51 can control the opening and closing of energy-saving environment protection intelligent air-conditioning, button 52 can set desirable temperature, button 53 scalable pattern, selects refrigeration mode or heating mode, and button 54 may select intelligent mode. Air-conditioner outdoor unit 2 hangs on outdoor exterior wall, is connected with indoor apparatus of air conditioner 1 with temperature signal transport module 7 by some connection tracheas and circuit 3. Temperature signal transport module 7 can be wire transmission, it is also possible to be wirelessly transferred. It is internal that outdoor temperature detector 6 is embedded in air-conditioner outdoor unit 2, and the temperature detected is transmitted to indoor apparatus of air conditioner 1 by outdoor temperature detector 6 by temperature signal transport module 7, with this intelligent control indoor temperature. Indoor apparatus of air conditioner 1 also with the addition of intelligent kernel parts 8, be not positioned in air-conditioning remote control 5 to be because air-conditioning remote control 5 probably due to placement location not to and cause cannot and indoor apparatus of air conditioner 1 between communication. Preferably, outdoor temperature detector 6 need to be mounted remotely from the place at door and window, air outlet or other heat source place, to reduce the error that outdoor temperature detector is likely to occur. The effect of intelligent kernel parts 8 has: (1) is at n(n > 0) temperature according to record calculates optimum health temperature T according to special algorithm in sky_Intelligence, it is preferred that described algorithm is renewable, can be completed this function by computing module, and described computing module includes at least one algorithm unit, and described computing module calculates according to described algorithm unit and obtains described healthy temperature; (2) judge whether energy-saving environment protection intelligent air conditioning system records effective optimum health temperature T_Intelligence, this function can be completed by judge module;(3) under intelligent mode, it is automatically adjusted indoor temperature T room temperature and progressivelyes reach optimum health temperature T_Intelligence, this function can be completed by adjustment module; (4) historical temperature record is preserved; Described historical temperature is recorded as the T of the front described air conditioning system record of shutdown every time_Record, this function can be completed by memory module; (5) judge user in the temperature heated or set under refrigeration mode whether below or above outdoor temperature, and user can be reminded, this function can be completed by signal output module. Air-conditioning remote control 5 has at least switch interface 51, two temperature to arrange interface 52, cooling and warming model selection 53, intelligent mode interface 54. Described intelligent mode interface 54 is the button being turned on or off energy-saving environment protection intelligent mode of operation; Add intelligent mode interface 54, energy-saving environment protection intelligent mode of operation can be turned on or off, it is also possible to be added as needed on suspending automated intelligent regulatory function etc.

The working method of energy-saving environment protection intelligent air conditioning system of the present invention is described below. First user is opened energy-saving environment protection intelligent air-conditioning by button 51 and is selected refrigeration or heating mode by button 53, sets a temperature T by button 52 under refrigeration or heating mode_Set, then whether energy-saving environment protection intelligent air conditioning system will record effective user optimum health temperature T in automatic decision energy-saving environment protection intelligent air conditioning system_Intelligence, as shown in Figure 3. Effective T_IntelligenceRefer to that operation of air conditioner meets energy-conservation and health requirements, if air-conditioning T in cooling mode_OutdoorLess than T_IntelligenceOr air-conditioning is T in a heating mode_OutdoorMore than T_Intelligence, then the T of this record_IntelligenceIt is exactly invalid; Effective T_IntelligenceAlso the numerical value under being properly recorded is referred to, such as due to the fortuitous events such as power-off occur to update T at energy-saving environment protection intelligent air conditioning system record_IntelligenceTime, then T_IntelligenceNumerical value just probably invalid, then when next time, energy-saving environment protection intelligent air conditioning system powered on, this T_IntelligenceIt is invalid to be considered. If record does not have effective user optimum health temperature T in energy-saving environment protection intelligent air conditioning system_Intelligence, then energy-saving environment protection intelligent air conditioning system can T_IntelligenceTemperature is set to current outdoor temperature T_OutdoorIf record has effective user optimum health temperature T in energy-saving environment protection intelligent air conditioning system_Intelligence, then energy-saving environment protection intelligent air conditioning system enters next step and judges. Energy-saving environment protection intelligent air conditioning system judges the temperature T that user sets subsequently_SetWhether equal to user optimum health temperature T_Intelligence, if it is not, system can select the optimum health temperature pointing out the temperature that user sets not to be user. If operation of air conditioner is in a heating mode, energy-saving environment protection intelligent air conditioning system can judge the temperature T that user sets in this mode_SetWhether less than outdoor temperature T_Outdoor, if it is, energy-saving environment protection intelligent air conditioning system can select the temperature of prompting user setup less than outdoor temperature, it is proposed that user resets temperature. If energy-saving environment protection intelligent operation of air conditioner is in cooling mode, energy-saving environment protection intelligent air conditioning system can judge the temperature T that user sets in this mode_SetWhether more than outdoor temperature T_Outdoor, if it is, energy-saving environment protection intelligent air conditioning system can select the temperature of prompting user setup more than outdoor temperature, it is proposed that user resets temperature. Outdoor temperature detection is to be completed by the outdoor temperature detector 6 in air-conditioner outdoor unit 2, and by temperature signal transport module 7(wired or be wirelessly transferred) send data to people-first energy-saving environment protection intelligent air conditioning system.

If user's starting energy-saving environment-protecting intelligent mode of operation, as indoor temperature T_{Room temperature}Reach user set value after T_Set, energy-saving environment protection intelligent air conditioning system can automatic decision current indoor temperature T_{Room temperature}Whether it is equal to the optimum health temperature T of user_Intelligence, if it is then the intelligent kernel parts 8 in energy-saving environment protection intelligent air conditioning system will always the temperature T in room_{Room temperature}Maintain the optimum health temperature T of user_IntelligenceWork. If current indoor temperature T_{Room temperature}It is not equal to the optimum health temperature T of user_Intelligence, then energy-saving environment protection intelligent air conditioning system intelligent kernel parts 8 will be automatically adjusted the temperature T that user sets_Set, by indoor temperature T_{Room temperature}Automatically plus a temperature difference temperature T_△, i.e. T_{Set new}=T_{Room temperature}+T_△. This temperature difference temperature T_△Depend on the temperature T of the former setting of user_SetT with energy-saving environment protection intelligent air conditioning system record_IntelligenceSize, as the temperature T of the former setting of user_SetMore than T_IntelligenceTime, then T_△Less than zero, namely indoor temperature T_{Room temperature}Decrease up to T again_Intelligence; If the temperature T of the former setting of user_SetLess than intelligent temperature T_IntelligenceTime, then T_△More than zero, namely indoor temperature T_{Room temperature}Raise until T_Intelligence. Energy-saving environment protection intelligent air conditioning system intelligent kernel parts 8 have been automatically adjusted the temperature T that user sets_SetAfter, indoor temperature T can be judged again (namely by a period of time of systemic presupposition) after a while_{Room temperature}Whether it is equal to the optimum health temperature T of user_Intelligence, if equal to, energy-saving environment protection intelligent air conditioning system intelligent kernel parts 8 will maintain this temperature, if it is not, energy-saving environment protection intelligent air conditioning system intelligent kernel parts 8 can be automatically adjusted the temperature T that user sets again_SetUntil indoor temperature T_{Room temperature}Meet the optimum health temperature T of user_IntelligenceTill. As can be seen here, in the energy-saving environment protection intelligent air conditioning system of the present invention, energy-saving environment protection intelligent air conditioning system intelligent kernel parts 8 can automatically indoor temperature T_{Room temperature}It is adjusted to the optimum health temperature T of user_Intelligence, thus having reached to not only contribute to the purpose that user's body is healthy, and avoid the unnecessary power wastage that the non-optimal health temperature set because maintaining user produces.

The user optimum health temperature T mentioned in the present invention_IntelligenceIt is that energy-saving environment protection intelligent air conditioning system draws according to the result statistical computation of each run, its statistical computation process is as shown in Figure 5, assume there is shutdown when energy-saving environment protection intelligent air-conditioning is in environment-protecting intelligent mode of operation, exit intelligent mode, suspending automatic regulation function, the artificial temperature that regulates arranges this 4 kinds of external events. Four kinds of external events record corresponding temperature respectively, description specific as follows:

(1) user's shutdown, it is T that energy-saving environment protection intelligent air conditioning system intelligent kernel parts 8 record Current Temperatures_Record;

(2) user exits intelligent mode, and it is T that intelligent kernel parts 8 record current design temperature_Record, and maintain Current Temperatures;

(3) user suspends automatic regulation function, and it is T that intelligent kernel parts 8 record current design temperature_Record, and maintain Current Temperatures; Or intelligent kernel parts 8 are automatically adjusted temperature and are set to T_Set=T_{Room temperature}-T_△, and to record this temperature be T_Record, and maintain this temperature; If T_SetBe more than or equal to T_Intelligence, then T_△< 0, if T_SetLess than or equal to T_Intelligence, then T_△> 0;

(4) user's artificial temperature that regulates under intelligent mode opening is arranged, intelligent kernel parts 8 record

Currently being manually set temperature is T_Record;

Whole recording process it is emphasized that if in a heating mode, T_Record<T_Outdoor, then by T_RecordValue change T into_Outdoor; If in cooling mode, T_Record>T_Outdoor, then by T_RecordValue change T into_Outdoor. Energy-saving environment protection intelligent air conditioning system is according to each T recorded over n (n > 0) sky_Record, draw T according to specific algorithm_Intelligence. N is used to one of key character characterizing individual subscriber situation and custom, unsuitable too small, otherwise can not embody the personal habits of user, also some improper records of unfavorable eliminating. T is obtained by adding up_IntelligenceIt is user's optimal comfort temperature, meets custom and the requirement of user, be also best suited for the healthy temperature environment of user.

Name instantiation one to be further elaborated.

Assume in summer, the T of record in energy-saving environment protection intelligent air-conditioning_IntelligenceIt is 22 DEG C, and outdoor temperature generally reaches 30 DEG C, T in cooling mode_IntelligenceFor effectively; If temperature decrease, outdoor temperature only has 20 DEG C, then in cooling mode, this T_IntelligenceBeing exactly invalid, energy-saving environment protection intelligent air-conditioning runs in cooling mode and just belongs to waste power consumption, now updates T_IntelligenceFor outdoor temperature 20 DEG C. Assume the T recorded in energy-saving environment protection intelligent air-conditioning when winter_IntelligenceIt is 27 DEG C, and outdoor temperature will be typically less than 20 DEG C, T in a heating mode_IntelligenceFor effectively; If temperature rises sharply, outdoor temperature reaches 30 DEG C, then in a heating mode, this T_IntelligenceBeing exactly invalid, air-conditioning runs in a heating mode and just belongs to waste power consumption, now updates T_IntelligenceFor outdoor temperature 30 DEG C. This situation is when changes in temperature replace, or long-time use this situation can often occur during air-conditioning.

Again such as in summer, user is often greedy pleasantly cool, when air-conditioning just brings into operation, temperature is got to minimum, such as 16 DEG C, although user can feel nice and cool within the shortest time, it is apparent that this is not the optimum temperature being suitable for human body, the pattern of power consumption neither be economized most by air-conditioning, air conditioning system thus continuous operation, wastes power consumption in order to keep low temperature state in a large number. If user is manual adjustments temperature not, air-conditioning will so operate down always. Recurrent situation is exactly that user has forgotten the setting of manual adjustments temperature, only somatosensory cold or uncomfortable time just can remember that the temperature that air-conditioning sets is too low, should heighten a bit, now air-conditioning has run significant period of time, not only waste a large amount of power consumption, and the health of user own is also unfavorable, but also need user's manual adjustments temperature to arrange, Consumer's Experience sense is very poor. And utilize energy-saving environment protection intelligent energy-saving environment protection intelligent air conditioning system of the present invention to be just automatically adjusted temperature, and making room temperature reach optimum health temperature, and avoid wasting a large amount of power consumption, Consumer's Experience sense and comfort level are all greatly promoted. Assume the optimum health temperature T of record in this section of time energy-saving environment-protecting intelligent air conditioning system_IntelligenceBeing 22 DEG C, outdoor temperature is 30 DEG C. The working method of energy-saving environment protection intelligent energy-saving environment protection intelligent air conditioning system so of the present invention is as follows:

(1) user opens air-conditioning, and opens intelligent mode. In order to lower the temperature as early as possible, temperature is set as 16 DEG C by user, i.e. T_Set=16 DEG C;

(2) air-conditioning brings into operation, it is judged that the T of system log (SYSLOG)_IntelligenceEffectively, T_SetIt is not equal to T_Intelligence, optional prompting user, user can be indifferent to. T_SetAnd T_IntelligenceIt is below outdoor temperature, is respectively provided with rationally.

(3) operation of air conditioner, room temperature is gradually lowered until reaching T_Set;

(4) T is worked as_{Room temperature}Reach T_SetTime, due to T_IntelligenceMore than T_Set, energy-saving environment protection intelligent air conditioning system starts to be automatically adjusted, and raises T_Set, room temperature gradually rises until reaching optimum health temperature T_Intelligence;

(5) T is worked as_{Room temperature}Reach T_IntelligenceTime, maintain current T_SetConstant, and maintain this temperature;

After the above, indoor temperature maintains T_IntelligenceConstant, it is not necessary to user participates in just reaching user's optimal comfort and healthy temperature, and at utmost saves power consumption. With the contrast of the working method of traditional air conditioner, as shown in table 1.

Table 1

Name instantiation three and energy-saving environment protection intelligent Analysis of air conditioning system calculating optimum health temperature T is expanded on further_Intelligence。

Assume system-computed optimum health temperature T_IntelligenceTime cycle be a week. Assuming within this time period, user starts shooting after running a period of time every time and shuts down, and record current room temperature is T_{Record A1}, T_{Record A2}, T_{Record A3}..., T_{Record An}, user exits intelligent mode every time, and record current room temperature is T_{Record B1}, T_{Record B2}, T_{Record B3}..., T_{Record Bm}, user suspends record temperature T during automatic regulation function_Set-T_△For T_{Record C1}, T_{Record C2}, T_{Record C3}..., T_{Record Cx}, user regulates under intelligent mode opening and records current design temperature when temperature is arranged is T_{Record D1}, T_{Record D2}, T_{Record D3}..., T_{Record Dy}. In week age, the value of these records is drawn last healthy temperature by certain algorithm by intelligent kernel parts 8. A kind of simple algorithm is average weighted mode, for instance

Wherein P, Q, R, S are weight coefficient. A kind of optimum health temperature T can be drawn by this algorithm_Intelligence。

Technical scheme compares traditional air-conditioning, off-premises station adds special temperature detector 6 to detect outdoor temperature, the temperature optimum health temperature to user can be automatically adjusted, without user's manual adjustments, and traditional air conditioner can be prevented effectively from because maintaining the non-optimal health temperature that user sets and the unnecessary power wastage produced, increase economic efficiency.

The foregoing is only preferred embodiment of the present invention; not thereby restriction embodiments of the present invention and protection domain; to those skilled in the art; all utilizations description of the present invention and the made equivalent replacement of diagramatic content and the obtained scheme of apparent change should be can appreciate that, all should be included in protection scope of the present invention.

Claims (11)

1. an energy-saving environment protection intelligent air conditioning system, it is characterized in that, described system includes an indoor apparatus of air conditioner, an air-conditioner outdoor unit, the trachea of some off-premises stations and indoor set and connection, wireless connections module between one air-conditioning remote control and indoor apparatus of air conditioner, one air-conditioning remote control, described energy-saving environment protection intelligent air conditioning system also includes: an outdoor temperature detector, a temperature signal transport module, one intelligent kernel parts, and an intelligent mode interface;

Wherein, described outdoor temperature detector is embedded in inside described air-conditioner outdoor unit, described temperature signal transport module one end is connected with described outdoor temperature detector, the described temperature signal transport module other end is connected with described indoor apparatus of air conditioner, described intelligent kernel parts are embedded in described indoor apparatus of air conditioner, and described intelligent mode interface is positioned on described air-conditioning remote control;

Described intelligent kernel parts include:

One computing module, described computing module includes at least one algorithm unit, and described computing module calculates, according to described algorithm unit, the temperature that secures good health;

One judge module, described judge module judges whether to have recorded in described air conditioning system unsoundness temperature, and judges whether the design temperature of air-conditioning is equal to outdoor temperature;

One adjustment module, described adjustment module obtains described healthy temperature, and regulates the extremely described healthy temperature of indoor temperature;

One memory module, described memory module preserves historical temperature record;

One signal output module, described signal output module exports the judged result of described judge module, to remind user.

2. energy-saving environment protection intelligent air conditioning system as claimed in claim 1, it is characterised in that described algorithm unit is renewable.

3. energy-saving environment protection intelligent air conditioning system as claimed in claim 1, it is characterised in that described outdoor temperature detector is installed on the place away from door and window, air outlet and other heat source.

4. energy-saving environment protection intelligent air conditioning system as claimed in claim 1, it is characterised in that described temperature signal transport module is for being wirelessly transferred.

5. energy-saving environment protection intelligent air conditioning system as claimed in claim 1, it is characterised in that described temperature signal transport module is wire transmission.

6. an energy-saving environment protection intelligent air conditioning system working method, it is characterised in that adopt the system as described in claim 1 or 2, mainly comprise the steps that

Step one, user opens described energy-saving environment protection intelligent air-conditioning, sets a temperature T by described air-conditioning remote control under refrigeration or heating mode_Set;

Whether step 2, record effective user optimum health temperature T in energy-saving environment protection intelligent air conditioning system described in the judge module automatic decision in described energy-saving environment protection intelligent air conditioning system_Intelligence;

When described energy-saving environment protection intelligent air conditioning system records described T_IntelligenceTime, it is directly entered step 3;

When described energy-saving environment protection intelligent air conditioning system does not record described T_IntelligenceTime, described energy-saving environment protection intelligent air conditioning system is by current outdoor temperature T_OutdoorIt is arranged to described T_Intelligence, subsequently into step 3;

Step 3, described energy-saving environment protection intelligent air conditioning system judges described T_SetWhether equal to described T_Intelligence;

When described energy-saving environment protection intelligent air conditioning system judges described T_SetEqual to described T_IntelligenceTime, remain current and set;

When described energy-saving environment protection intelligent air conditioning system judges described T_SetIt is not equal to described T_IntelligenceTime, enter step 4;

Step 4, it is judged that described T in different modes_Set, described T_IntelligenceWith described T_OutdoorBetween relation, when the condition is satisfied, point out user, when being unsatisfactory for condition, remain current and set;

Step 5, user chooses whether by intelligent mode interface starting energy-saving environment-protecting intelligent mode of operation;

If being not turned on energy-saving environment protection intelligent mode of operation, then run described air conditioning system to room temperature and reach described T_SetAnd maintain room temperature equal to described T_Set;

If starting energy-saving environment-protecting intelligent mode of operation, then enter step 6;

Step 6, operation of air conditioner to room temperature reaches described T_SetAfter, energy-saving environment protection intelligent air conditioning system automatic decision current indoor temperature T_{Room temperature}Whether equal to described T_Intelligence;

If described T_{Room temperature}Equal to described T_Intelligence, then described T is maintained_{Room temperature};

If described T_{Room temperature}It is not equal to described T_Intelligence, then step 7 is entered;

Step 7, described intelligent kernel parts are automatically adjusted described T_Set, by described T_{Room temperature}Automatically plus a temperature difference temperature T_△, i.e. T_{Set new}=T_{Room temperature}+T_△; Run described air conditioning system and reach T to room temperature_{Set new};

Step 8, after a period of time, judges T again_{Room temperature}Whether equal to T_Intelligence;

If T_{Room temperature}Equal to T_Intelligence, then this temperature is maintained;

If T_{Room temperature}It is not equal to T_Intelligence, then step 7 is repeated.

7. energy-saving environment protection intelligent air conditioning system working method as claimed in claim 6, it is characterised in that described T_IntelligenceIt is that energy-saving environment protection intelligent air conditioning system draws according to the result statistical computation of each run;

The mode of operation of described energy-saving environment protection intelligent air conditioning system has shutdown, exits intelligent mode, suspends automatic regulation function, the artificial temperature that regulates arranges these four pattern, a corresponding T calculated according to algorithms of different respectively_Record, according to each described T of record in fixing natural law_RecordTo draw T_Intelligence。

8. energy-saving environment protection intelligent air conditioning system working method as claimed in claim 7, it is characterised in that described effective T_IntelligenceIt is the described energy-saving environment protection intelligent operation of air conditioner T that meets power conservation requirement_Intelligence;

Air-conditioning is T in cooling mode_OutdoorLess than T_Intelligence, the T of this record_IntelligenceIt is invalid;

Air-conditioning is T in a heating mode_OutdoorMore than T_Intelligence, the T of this record_IntelligenceIt is invalid.

9. energy-saving environment protection intelligent air conditioning system working method as claimed in claim 6, it is characterised in that described different mode includes heating mode and refrigeration mode.

10. energy-saving environment protection intelligent air conditioning system working method as claimed in claim 9, it is characterised in that the condition in step 4 is:

When described energy-saving environment protection intelligent operation of air conditioner is under described heating mode, described energy-saving environment protection intelligent air conditioning system can judge described T_SetWhether less than described T_Outdoor; If described T_SetLess than described T_Outdoor; The temperature of described energy-saving environment protection intelligent air conditioning system prompting user setup is less than outdoor temperature, and advises that user resets temperature; If described T_SetBe more than or equal to described T_OutdoorThen maintain current design temperature;

When described energy-saving environment protection intelligent operation of air conditioner is under described refrigeration mode, described energy-saving environment protection intelligent air conditioning system can judge described T_SetWhether more than described T_Outdoor; If described T_SetMore than described T_Outdoor, the temperature of described energy-saving environment protection intelligent air conditioning system prompting user setup is more than outdoor temperature, and advises that user resets temperature; If described T_SetLess than or equal to described T_Outdoor, then current design temperature is maintained.

11. energy-saving environment protection intelligent air conditioning system working method as claimed in claim 6, it is characterised in that temperature difference temperature T described in step 7_△Depend on described intelligent kernel parts be automatically adjusted before T_SetI.e. former T_SetAnd T_IntelligenceSize;

As former T_SetMore than T_IntelligenceTime, then T_△Less than zero, namely T_{Room temperature}It is reduced to T_Intelligence;

As former T_SetLess than T_IntelligenceTime, then T_△More than zero, namely T_{Room temperature}It is increased to T_Intelligence。