CN107101335A - Air conditioner control device and method - Google Patents

Abstract

The invention discloses an air conditioner control device and method. Wherein, the device includes: a controller: the controller is used for changing the set temperature to be a first preset energy-saving temperature when the air conditioner operates in a refrigeration/dehumidification mode and the set temperature of the air conditioner is not greater than the first preset energy-saving temperature corresponding to the refrigeration/dehumidification mode; and when the air conditioner operates in the heating mode and the set temperature of the air conditioner is not less than the second preset energy-saving temperature corresponding to the heating mode, changing the set temperature to be the second preset energy-saving temperature. The invention solves the technical problem of energy waste caused by insufficient intelligence of the air conditioner control device in the related art, and improves the user experience.

Description

Air conditioning control device and method

Technical field

The present invention relates to appliance field, in particular to a kind of air conditioning control device and method.

Background technology

In correlation technique, air conditioner does not possess people's sense identification function, when user withdraws from a room, it is often necessary to artificial operation To adjust air-conditioning so as to reach the purpose of energy-conservation.Adjusted by the way of air-conditioning, can existed using the artificial operation in correlation technique Some problems：On the one hand, user need to manually be operated according to different operating modes, relatively complicated；On the other hand, when user leaves When regulation air-conditioning is forgotten in room, the waste of the energy will result in.

The technical problem of the energy waste brought for the not enough intelligence of air conditioning control device in above-mentioned correlation technique, at present Not yet propose effective solution.

The content of the invention

The embodiments of the invention provide a kind of air conditioning control device and method, at least to solve airconditioning control in correlation technique The technical problem for the energy waste that device is not intelligent enough and brings.

One side according to embodiments of the present invention there is provided a kind of air conditioning control device, including：Controller：Controller, For in operation of air conditioner, under refrigeration/dehumidification pattern, and the design temperature of air-conditioning to be not more than refrigeration/dehumidification pattern corresponding During one default energy efficiency temperature, change design temperature is the first default energy efficiency temperature；In operation of air conditioner under heating mode, and it is empty When the design temperature of tune corresponding not less than heating mode second presets energy efficiency temperature, change design temperature is the second default energy-conservation Temperature.

Alternatively, the controller, is additionally operable to when it is the first default energy efficiency temperature to change design temperature, according to T_{It is cold to become}/Δt₁ Speed change design temperature be the first default energy efficiency temperature；When it is the second default energy efficiency temperature to change design temperature, according to T_{Thermal change}/Δt₂Speed change design temperature be the second default energy efficiency temperature, wherein, T_{It is cold to become}For the first default energy efficiency temperature and setting The temperature difference of temperature, T_{Thermal change}For the temperature difference of the second default energy efficiency temperature and design temperature, Δ t₁To be changed to by design temperature The time of one default energy efficiency temperature, Δ t₂To be changed to the time of the second default energy efficiency temperature by design temperature.

Alternatively, T_{It is cold to become}Span is 0.3-0.5 DEG C, wherein, Δ t₁Value is 10min-15min；T_{Thermal change}Span For 0.2-0.8 DEG C, wherein, Δ t₂Value is 10min-15min.

Alternatively, the air conditioning control device also includes：Temperature sampler, for using outdoor temperature T_{It is outdoor}, controller, also For by the outdoor temperature T of collection_{It is outdoor}First empirical temperature T corresponding with refrigeration/dehumidification pattern₁It is compared acquisition first Comparative result, by the outdoor temperature T of collection_{It is outdoor}Second empirical temperature T corresponding with heating mode₂It is compared acquisition second Comparative result；And the first default energy efficiency temperature is determined according to the first comparative result, determine that second is pre- according to the second comparative result If energy efficiency temperature.

Alternatively, controller includes：First determining unit, under refrigeration/dehumidification pattern, being in the first comparative result It is not more than T outside T rooms₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁, it is T in the first comparative result_{It is outdoor}More than T₁'s In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T1+ (T_{It is outdoor}-T₁)*K_{Refrigeration}；Second determining unit, in heating mode Under, it is T in the second comparative result_{It is outdoor}Not less than T₂In the case of, determine the second default energy efficiency temperature T_{Energy-conservation 2}=T₂, compare second As a result it is T_{It is outdoor}More than T₂In the case of, determine the second default energy efficiency temperature T_{Energy-conservation 2}=T₂-(T₂-T_{It is outdoor})*K_Heat；K_{Refrigeration}To freeze/removing Under wet model, energy efficiency temperature adjustment factor；K_HeatFor under heating mode, energy efficiency temperature adjustment factor.

Alternatively, T₁Value be one below：25 DEG C, 26 DEG C, 27 DEG C, 28 DEG C；T₂Value be one below：19 DEG C, 20 DEG C, 21 DEG C, 22 DEG C.

Alternatively, the first determining unit, is additionally operable to determine K_{Refrigeration}Span be 0.2-1；Second determining unit, is also used In it is determined that K_HeatSpan be 0.1-1.

Alternatively, the air conditioning control device also includes：Infrared people feels detector：Infrared people feels detector, for detecting sky Whether someone obtains testing result to predetermined space where tune, and testing result is sent into controller；Controller, in detection knot In the case that fruit is nobody and predetermined hold-time, control air-conditioning is according to the first default energy efficiency temperature and/or the second default section The corresponding energy saver mode operation of energy temperature, wherein, scheduled time t span is 5-10min.

Alternatively, controller, is additionally operable in operation of air conditioner under refrigeration/dehumidification pattern, is consecutively detected time t₁Still without People, then into holding state；Or, in operation of air conditioner under heating mode, it is consecutively detected time t₂Still nobody, then enter and treat Machine state；Infrared people feels detector, is additionally operable in t₁Still continue whole scan afterwards, reach that temperature spot is shut down according to refrigeration/dehumidification Processing, and indoor fan closing；Or, in t₂Still continue whole scan afterwards, reach that temperature spot shutdown is handled according to heating；Its In, t₁, t₂Span be 1.5-2h.

Alternatively, controller, is additionally operable to during air-conditioning is run with energy saver mode, once where detecting air-conditioning Predetermined space someone, then exit energy saver mode.

Another aspect according to embodiments of the present invention, additionally provides a kind of air conditioning control method, including：In air-conditioning fortune Row is under refrigeration/dehumidification pattern, and the design temperature of air-conditioning is not more than the corresponding first default energy-saving warm of refrigeration/dehumidification pattern When spending, change design temperature is the first default energy efficiency temperature；In operation of air conditioner under heating mode, and the design temperature of air-conditioning During the corresponding not less than heating mode second default energy efficiency temperature, change design temperature is the second default energy efficiency temperature.

Alternatively, change design temperature is that the first default energy efficiency temperature includes：According to T_{It is cold to become}/Δt₁Speed change setting Temperature is the first default energy efficiency temperature；Change design temperature is that the second default energy efficiency temperature includes：According to T_{Thermal change}/Δt₂Speed It is the second default energy efficiency temperature to change design temperature；Wherein, T_{It is cold to become}For the temperature difference of the first default energy efficiency temperature and design temperature, T_{Thermal change}For the temperature difference of the second default energy efficiency temperature and design temperature, Δ t₁To be changed to the first default energy-saving warm by design temperature The time of degree, Δ t₂To be changed to the time of the second default energy efficiency temperature by design temperature.

Alternatively, T_{It is cold to become}Span is 0.3-0.5 DEG C, wherein, Δ t₁Value is 10min-15min；T_{Thermal change}Span For 0.2-0.8 DEG C, wherein, Δ t₂Value is 10min-15min.

Alternatively, before change design temperature is the first default energy efficiency temperature, or, change design temperature is second pre- If before energy efficiency temperature, in addition to：Gather outdoor temperature T_{It is outdoor}, by the outdoor temperature T of collection_{It is outdoor}With with refrigeration/dehumidification pattern pair The the first empirical temperature T answered₁The first comparative result of acquisition is compared, by the outdoor temperature T of collection_{It is outdoor}With with heating mode pair The the second empirical temperature T answered₂It is compared the second comparative result of acquisition；First default energy-saving warm is determined according to the first comparative result Degree, the second default energy efficiency temperature is determined according to the second comparative result.

Alternatively, determine that the first default energy efficiency temperature includes according to the first comparative result：Under refrigeration/dehumidification pattern, First comparative result is T_{It is outdoor}No more than T₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁, in the first comparative result For T_{It is outdoor}More than T₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁+(T_{It is outdoor}-T₁)*K_{Refrigeration}；According to the second comparative result Determine that the second default energy efficiency temperature includes：It is T in the second comparative result_{It is outdoor}Not less than T₂In the case of, determine the second default energy-conservation Temperature T_{Energy-conservation 2}=T₂, it is T in the second comparative result_{It is outdoor}More than T₂In the case of, determine the second default energy efficiency temperature T_{Energy-conservation 2}=T₂- (T₂-T_{It is outdoor})*K_Heat；K_{Refrigeration}For under refrigeration/dehumidification pattern, energy efficiency temperature adjustment factor；K_HeatFor under heating mode, energy efficiency temperature is adjusted Save coefficient.

Alternatively, T₁Value be one below：25 DEG C, 26 DEG C, 27 DEG C, 28 DEG C；T2 value is one below：19 DEG C, 20 DEG C, 21 DEG C, 22 DEG C.

Alternatively, K_{Refrigeration}Span be 0.2-1；K_HeatSpan be 0.1-1.

Alternatively, before change design temperature is the first default energy efficiency temperature, or, change design temperature is second pre- If before energy efficiency temperature, in addition to：Detect air-conditioning where predetermined space whether someone；Detecting nobody and persistently making a reservation for In the case of time, control air-conditioning is according to the first default energy efficiency temperature and/or the second corresponding energy saver mode of default energy efficiency temperature Operation, wherein, scheduled time t span is 5-10min.

Alternatively, in control air-conditioning according to the first default energy efficiency temperature and/or the second corresponding energy-conservation of default energy efficiency temperature After mode operation, in addition to：In operation of air conditioner under refrigeration/dehumidification pattern, time t is consecutively detected₁Still nobody, then enter Holding state；Or, in operation of air conditioner under heating mode, it is consecutively detected time t₂Still nobody, then into holding state； t₁Still continue whole scan afterwards, reach that temperature spot shutdown is handled according to refrigeration/dehumidification, and indoor fan is closed；Or, in t₂Afterwards Still continue whole scan, reach that temperature spot shutdown is handled according to heating, wherein, t₁, t₂Span be 1.5-2h.

Alternatively, during air-conditioning is run with energy saver mode, once predetermined space someone where detecting air-conditioning, Then exit energy saver mode.

According to the further aspect of the present invention there is provided a kind of storage medium, the storage medium includes the program of storage, its In, equipment described program controls the storage medium when running where performs following operate：In the operation of air conditioner in freezing/remove Under wet model, and the design temperature of the air-conditioning is when being not more than the corresponding first default energy efficiency temperature of refrigeration/dehumidification pattern, becomes The design temperature is the described first default energy efficiency temperature；In the operation of air conditioner under heating mode, and the air-conditioning Design temperature corresponding not less than heating mode the second default energy efficiency temperature when, change the design temperature pre- for described second If energy efficiency temperature.

According to the further aspect of the present invention there is provided a kind of processor, the processor is used for operation program, wherein, institute Following operate is performed when stating program operation：In the operation of air conditioner under refrigeration/dehumidification pattern, and the setting temperature of the air-conditioning When degree is not more than refrigeration/dehumidification pattern corresponding first default energy efficiency temperature, changes the design temperature and preset for described first Energy efficiency temperature；In the operation of air conditioner under heating mode, and the design temperature of the air-conditioning is corresponding not less than heating mode The second default energy efficiency temperature when, it is the described second default energy efficiency temperature to change the design temperature.

In embodiments of the present invention, on the one hand, utilize in operation of air conditioner under refrigeration/dehumidification pattern, and air-conditioning Design temperature when being not more than the corresponding first default energy efficiency temperature of refrigeration/dehumidification pattern, change design temperature is first to preset Energy efficiency temperature；On the other hand, in operation of air conditioner under heating mode, and the design temperature of air-conditioning is corresponding not less than heating mode The second default energy efficiency temperature when, change design temperature is the second default energy efficiency temperature.Because the air conditioning control device is using control Device processed is controlled to the operational mode of air-conditioning, overcomes some problems for manually operating and bringing, for example, it is cumbersome, and When user leaves, regulation air-conditioning may be forgotten to cause the waste of the energy, so as to solve air-conditioning in correlation technique The technical problem that control device is not intelligent enough and brings, improves Consumer's Experience.

Brief description of the drawings

Accompanying drawing described herein is used for providing a further understanding of the present invention, constitutes the part of the application, this hair Bright schematic description and description is used to explain the present invention, does not constitute inappropriate limitation of the present invention.In the accompanying drawings：

Fig. 1 is the schematic diagram of air conditioning control device according to embodiments of the present invention；

Fig. 2 is the flow chart of air conditioning control method according to embodiments of the present invention；And

Fig. 3 is the flow chart of optional air conditioning control method according to embodiments of the present invention.

Embodiment

In order that those skilled in the art more fully understand the present invention program, below in conjunction with the embodiment of the present invention Accompanying drawing, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only The embodiment of a part of the invention, rather than whole embodiments.Based on the embodiment in the present invention, ordinary skill people The every other embodiment that member is obtained under the premise of creative work is not made, should all belong to the model that the present invention is protected Enclose.

It should be noted that term " first " in description and claims of this specification and above-mentioned accompanying drawing, " Two " etc. be for distinguishing similar object, without for describing specific order or precedence.It should be appreciated that so using Data can exchange in the appropriate case, so as to embodiments of the invention described herein can with except illustrating herein or Order beyond those of description is implemented.In addition, term " comprising " and " having " and their any deformation, it is intended that cover Lid is non-exclusive to be included, for example, the process, method, system, product or the equipment that contain series of steps or unit are not necessarily limited to Those steps or unit clearly listed, but may include not list clearly or for these processes, method, product Or the intrinsic other steps of equipment or unit.

The problem of in above-mentioned correlation technique, the embodiment is using controller in operation of air conditioner in refrigeration/dehumidification pattern Under, and the design temperature of air-conditioning is when being not more than the corresponding first default energy efficiency temperature of refrigeration/dehumidification pattern, changes design temperature For the first default energy efficiency temperature；In operation of air conditioner under heating mode, and the design temperature of air-conditioning is not less than heating mode pair During the second default energy efficiency temperature answered, change design temperature is the second default energy efficiency temperature.It is specifically described below.

One side according to embodiments of the present invention is there is provided a kind of air conditioning control device, and Fig. 1 is according to present invention implementation The schematic diagram of the air conditioning control device of example, as shown in figure 1, the air conditioning control device 10 can include：Controller 11.Carry out below Describe in detail.

Controller 11, under refrigeration/dehumidification pattern, and the design temperature of air-conditioning to be not more than system in operation of air conditioner When cold/dehumidification mode corresponding first presets energy efficiency temperature, change design temperature is the first default energy efficiency temperature；In operation of air conditioner In under heating mode, and during corresponding not less than heating mode the second default energy efficiency temperature of design temperature of air-conditioning, change is set Constant temperature degree is the second default energy efficiency temperature.

Pass through above-described embodiment, on the one hand, utilize in operation of air conditioner under refrigeration/dehumidification pattern, and air-conditioning When design temperature is not more than refrigeration/dehumidification pattern corresponding first default energy efficiency temperature, change design temperature is the first default section Can temperature；On the other hand, in operation of air conditioner under heating mode, and the design temperature of air-conditioning is corresponding not less than heating mode During the second default energy efficiency temperature, change design temperature is the second default energy efficiency temperature.Because the air conditioning control device is using control Device is controlled to the operational mode of air-conditioning, overcomes some problems for manually operating and bringing, for example, it is cumbersome, and When user leaves, regulation air-conditioning may be forgotten to cause the waste of the energy, so as to solve the hollow regulation and control of correlation technique The technical problem for the energy waste that device processed is not intelligent enough and brings, improves Consumer's Experience.

In order that control of the controller to air-conditioning is eased up, further energy-conservation is reached, the controller can be also used for becoming When more design temperature is the first default energy efficiency temperature, according to T_{It is cold to become}/Δt₁Speed change design temperature be the first default energy-saving warm Degree；When it is the second default energy efficiency temperature to change design temperature, according to T_{Thermal change}/Δt₂Speed change design temperature be second pre- If energy efficiency temperature, wherein, T_{It is cold to become}For the temperature difference of the first default energy efficiency temperature and design temperature, T_{Thermal change}For the second default energy efficiency temperature With the temperature difference of design temperature, Δ t₁To be changed to the time of the first default energy efficiency temperature, Δ t by design temperature₂For by setting temperature Degree is changed to the time of the second default energy efficiency temperature.

Regulation of the above-mentioned energy efficiency temperature adjustment factor to presetting energy efficiency temperature can be with a variety of, for instance, it is preferred that T_{It is cold to become}Value Scope is 0.3-0.5 DEG C, wherein, Δ t₁Value is 10min-15min；T_{Thermal change}Span is 0.2-0.8 DEG C, wherein, Δ t₂Take It is worth for 10min-15min.

In order that the energy-saving effect of the air conditioning control device is more preferably, the air conditioning control device can also include：Temperature acquisition Device, for gathering outdoor temperature T_{It is outdoor}, the controller can be also used for the outdoor temperature T of collection_{It is outdoor}With with refrigeration/dehumidification mould The corresponding first empirical temperature T of formula₁The first comparative result of acquisition is compared, by the outdoor temperature T of collection_{It is outdoor}With with heating mould The corresponding second empirical temperature T of formula₂It is compared the second comparative result of acquisition；And determine that first is pre- according to the first comparative result If energy efficiency temperature, the second default energy efficiency temperature is determined according to the second comparative result.

In addition, the controller can include：First determining unit, under refrigeration/dehumidification pattern, comparing knot first Fruit is no more than T outside T rooms₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁, it is T in the first comparative result_{It is outdoor}It is more than T₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T1+ (T_{It is outdoor}-T₁)*K_{Refrigeration}；Second determining unit, for heating mould It is T in the second comparative result under formula_{It is outdoor}Not less than T₂In the case of, determine the second default energy efficiency temperature T_{Energy-conservation 2}=T₂, in the second ratio Relatively result is T_{It is outdoor}More than T₂In the case of, determine the second default energy efficiency temperature T_{Energy-conservation 2}=T₂-(T₂-T_{It is outdoor})*K_Heat；K_{Refrigeration}For refrigeration/ Under dehumidification mode, energy efficiency temperature adjustment factor；K_HeatFor under heating mode, energy efficiency temperature adjustment factor.

Specifically, T₁Value can be to be a variety of, for example, one below can be taken：25 DEG C, 26 DEG C, 27 DEG C, 28 DEG C；T₂'s Value is one below：19 DEG C, 20 DEG C, 21 DEG C, 22 DEG C.

It is preferred that first determining unit, can be also used for determining K_{Refrigeration}Span be 0.2-1；Second determines list Member, can be also used for determining K_HeatSpan be 0.1-1.

In order that air-conditioning intelligently controls air-conditioning to be run with energy saver mode in the case of nobody, the air conditioning control device It can also include：Infrared people feels detector：Infrared people sense detector, for detect predetermined space where air-conditioning whether someone Testing result is obtained, and testing result is sent to controller；Controller, is nobody and predetermined hold-time in testing result In the case of, control air-conditioning is preset the corresponding energy saver mode of energy efficiency temperature according to the first default energy efficiency temperature and/or second and run, Wherein, scheduled time t span is 5-10min.

In order to improve the energy saving of the air conditioning control device, controller can be also used in operation of air conditioner in refrigeration/dehumidification Under pattern, time t is consecutively detected₁Still nobody, then into holding state；Or, in operation of air conditioner under heating mode, continuously Detect time t₂Still nobody, then into holding state；Infrared people feels detector, is additionally operable in t₁Still continue whole scan afterwards, press Reach that temperature spot shutdown is handled according to refrigeration/dehumidification, and indoor fan is closed；Or, in t₂Still continue whole scan afterwards, according to system Heat reaches that temperature spot shutdown is handled；Wherein, t₁, t₂Span be 1.5-2h.

In order that the experience lifting of user, controller can be also used for during air-conditioning is run with energy saver mode, one Denier detects predetermined space someone where air-conditioning, then exits energy saver mode.Facilitate manual control air-conditioning, improve the facility of user Property.

According to embodiments of the present invention there is provided a kind of embodiment of the method for air conditioning control method, it is necessary to illustrate, attached The step of flow of figure is illustrated can perform in the computer system of such as one group computer executable instructions, though also, So logical order is shown in flow charts, but in some cases, can be shown to be performed different from order herein Or the step of description.

Fig. 2 is the flow chart of air conditioning control method according to embodiments of the present invention, as shown in Fig. 2 the air conditioning control method Comprise the following steps：

Step S202, in operation of air conditioner under refrigeration/dehumidification pattern, and the design temperature of air-conditioning is not more than and freezes/remove When wet model corresponding first presets energy efficiency temperature, change design temperature is the first default energy efficiency temperature.

Step S204, in operation of air conditioner under heating mode, and the design temperature of air-conditioning is corresponding not less than heating mode The second default energy efficiency temperature when, change design temperature is the second default energy efficiency temperature.

By above-mentioned steps, in operation of air conditioner under refrigeration/dehumidification pattern, and the design temperature of air-conditioning is not more than system When cold/dehumidification mode corresponding first presets energy efficiency temperature, change design temperature is the first default energy efficiency temperature；In operation of air conditioner In under heating mode, and during corresponding not less than heating mode the second default energy efficiency temperature of design temperature of air-conditioning, change is set Constant temperature degree is the second default energy efficiency temperature.So as to overcome some problems for manually operating and bringing, for example, it is cumbersome, and When user leaves, regulation air-conditioning may be forgotten to cause the waste of the energy, so as to solve air-conditioning in correlation technique The technical problem for the energy waste that control device is not intelligent enough and brings, improves Consumer's Experience.

In above-mentioned steps S202 into step S204, in operation of air conditioner under refrigeration/dehumidification pattern, and the setting of air-conditioning When temperature is not more than refrigeration/dehumidification pattern corresponding first default energy efficiency temperature, change design temperature is the first default energy-saving warm Degree；In operation of air conditioner under heating mode, and design temperature the second default energy-conservation corresponding not less than heating mode of air-conditioning During temperature, change design temperature is the second default energy efficiency temperature.

Specifically, change design temperature is that the first default energy efficiency temperature can include：According to T_{It is cold to become}/Δt₁Speed change Design temperature is the first default energy efficiency temperature；Change design temperature is that the second default energy efficiency temperature includes：According to T_{Thermal change}/Δt₂'s Speed change design temperature is the second default energy efficiency temperature；Wherein, T_{It is cold to become}For the temperature of the first default energy efficiency temperature and design temperature Difference, T_{Thermal change}For the temperature difference of the second default energy efficiency temperature and design temperature, Δ t₁To be changed to the first default energy-conservation by design temperature The time of temperature, Δ t₂To be changed to the time of the second default energy efficiency temperature by design temperature.

In order that control of the controller to air-conditioning is more accurate, so as to reach the comfort level of user, T_{It is cold to become}Span is 0.3-0.5 DEG C, wherein, Δ t₁Value is 10min-15min；T_{Thermal change}Span is 0.2-0.8 DEG C, wherein, Δ t₂Value is 10min-15min。

The energy-saving effect of default energy efficiency temperature to cause determination is more preferable, is the first default energy-saving warm in change design temperature Before degree, or, before change design temperature is the second default energy efficiency temperature, the air conditioning control method can also include：Using Outdoor temperature T_{It is outdoor}, by the outdoor temperature T of collection_{It is outdoor}First empirical temperature T corresponding with refrigeration/dehumidification pattern₁It is compared The first comparative result is obtained, by the outdoor temperature T of collection_{It is outdoor}Second empirical temperature T corresponding with heating mode₂It is compared Obtain the second comparative result；First default energy efficiency temperature is determined according to the first comparative result, the is determined according to the second comparative result Two default energy efficiency temperatures.

Specifically, determine that the first default energy efficiency temperature includes according to the first comparative result：Under refrigeration/dehumidification pattern, First comparative result is T_{It is outdoor}No more than T₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁, in the first comparative result For T_{It is outdoor}More than T₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁+(T_{It is outdoor}-T₁)*K_{Refrigeration}；According to the second comparative result Determine that the second default energy efficiency temperature includes：It is T in the second comparative result_{It is outdoor}Not less than T₂In the case of, determine the second default energy-conservation Temperature T_{Energy-conservation 2}=T₂, it is T in the second comparative result_{It is outdoor}More than T₂In the case of, determine the second default energy efficiency temperature T_{Energy-conservation 2}=T₂- (T₂-T_{It is outdoor})*K_Heat；K_{Refrigeration}For under refrigeration/dehumidification pattern, energy efficiency temperature adjustment factor；K_HeatFor under heating mode, energy efficiency temperature is adjusted Save coefficient.

Specifically, T₁Value be one below：25 DEG C, 26 DEG C, 27 DEG C, 28 DEG C；T2 value is one below：19 DEG C, 20 DEG C, 21 DEG C, 22 DEG C.

Specifically, K_{Refrigeration}Span be 0.2-1；K_HeatSpan be 0.1-1.

In order that control of the controller to air-conditioning is more accurate, so that the comfort level of user is reached, in change design temperature Before the first default energy efficiency temperature, or, before change design temperature is the second default energy efficiency temperature, the air conditioning control method It can also include：Whether someone obtains testing result to predetermined space where detection air-conditioning；Testing result is nobody and holds In the case of the continuous scheduled time, control air-conditioning is according to the first default energy efficiency temperature and/or the second corresponding section of default energy efficiency temperature Energy mode operation, wherein, scheduled time t span is 5-10min.

Specifically, in control air-conditioning according to the first default energy efficiency temperature and/or the second corresponding energy-conservation of default energy efficiency temperature After mode operation, the air conditioning control method can also include：In operation of air conditioner under refrigeration/dehumidification pattern, it is consecutively detected Time t₁Still nobody, then into holding state；Or, in operation of air conditioner under heating mode, it is consecutively detected time t₂Still without People, then into holding state；In t₁Still continue whole scan afterwards, reach that temperature spot shutdown is handled according to refrigeration/dehumidification, and it is indoor Blower fan is closed；Or, in t₂Still continue whole scan afterwards, reach that temperature spot shutdown is handled according to heating, wherein, t₁, t₂Value Scope is 1.5-2h.

In order that the experience of the lifting user of user, during air-conditioning is run with energy saver mode, once detect sky Predetermined space someone where tune, then exit energy saver mode.

A complete embodiment of the invention is described in detail below in conjunction with the accompanying drawings.

Fig. 3 is the flow chart of optional air conditioning control method according to embodiments of the present invention, as shown in figure 3, opening people's sense After function, if detecting in room nobody, i.e. room no man signal A_{Room no man flag bit}Behind=0, and duration t, air-conditioning enters Energy conservation model is run, wherein, time t value 5-10min.

For different operating conditions, after air-conditioning starting energy-saving operational mode, using corresponding control method, carry out below It is discussed in detail.

Under refrigeration/dehumidification pattern, if design temperature T_Setting≤T_{Energy-conservation}, then design temperature T_SettingAccording to T_{It is cold to become}/ Δ t speed is changed To energy efficiency temperature T_{Energy-conservation}, otherwise then maintain former setting state.

Wherein T_{It is cold to become}Span is 0.3-0.5 DEG C, and time interval Δ t values are 10min-15min.

T_{Energy-conservation}It is able to can also can also be opened from monitoring and setting function according to the actual requirements by User Defined.Open from prison Survey after set-up function, the outdoor temperature that air-conditioning is detected according to temperature sensor is carried out self-defined by following control method：

T_{Energy-conservation}=27 DEG C, outdoor temperature T_{It is outdoor}≤27℃；

T_{Energy-conservation}=27 DEG C+(T_{It is outdoor}-27℃)*K_{Refrigeration}, outdoor temperature T_{It is outdoor}27 DEG C of ＞, wherein K_{Refrigeration}For under refrigeration/dehumidification pattern, Energy efficiency temperature adjustment factor, its span is 0.2-1, and with the rising of outdoor temperature, K_{Refrigeration}Value gradually reduce.

Under refrigeration/dehumidification pattern, time t is consecutively detected₁Afterwards still nobody, then into holding state.Infrared people's sense is still held Continuous whole scan, reaches that temperature spot shutdown is handled according to refrigeration/dehumidification, and indoor fan is closed.Wherein time t₁Span For 1.5-2h.

Under heating mode, if design temperature T_Setting≥T_{Energy-conservation}, then design temperature is according to T_{Thermal change}/ Δ t speed changes to T_{Energy-conservation}, it is no Then maintain former setting state.

Wherein T_{Thermal change}Span is 0.2-0.8 DEG C, and time interval Δ t values are 10min-15min.

Under heating mode, T_{Energy-conservation}It is able to can also be opened from monitoring and setting function according to the actual requirements by User Defined.Open Open from after monitoring and setting function, the outdoor temperature that air-conditioning is detected according to temperature sensor is carried out self-defined by following control method：

T_{Energy-conservation}=20 DEG C, outdoor temperature T_{It is outdoor}≥20℃；

T_{Energy-conservation}=20 DEG C-(20 DEG C of-T_{It is outdoor})*K_Heat, outdoor temperature T_{It is outdoor}20 DEG C of ＜, wherein K_HeatFor under heating mode, energy-saving warm Adjustment factor is spent, its span is 0.1-1, and with the decline of outdoor temperature, K_HeatValue gradually reduce.

Under heating mode, time t is consecutively detected₂Afterwards still nobody, then into holding state, infrared people sense continues the overall situation and swept Retouch, reach that temperature spot shutdown is handled according to heating.Wherein time t₂Span is 1.5-2h.

If once detecting room someone, i.e. room someone signal A_{Room no man flag bit}=1, then exit energy conservation model fortune OK, unit recovers user's setting state operation.

According to the further aspect of the present invention there is provided a kind of storage medium, storage medium includes the program of storage, wherein, Equipment where control storage medium performs following operate when program is run：In operation of air conditioner under refrigeration/dehumidification pattern, and it is empty When the design temperature of tune is not more than refrigeration/dehumidification pattern corresponding first default energy efficiency temperature, change design temperature is first pre- If energy efficiency temperature；In operation of air conditioner under heating mode, and the design temperature of air-conditioning is not less than heating mode corresponding second During default energy efficiency temperature, change design temperature is the second default energy efficiency temperature.

According to the further aspect of the present invention there is provided a kind of processor, processor is used for operation program, wherein, program fortune Following operate is performed during row：In operation of air conditioner under refrigeration/dehumidification pattern, and the design temperature of air-conditioning is not more than and freezes/remove When wet model corresponding first presets energy efficiency temperature, change design temperature is the first default energy efficiency temperature；In operation of air conditioner in system Under heat pattern, and during corresponding not less than heating mode the second default energy efficiency temperature of design temperature of air-conditioning, change setting temperature Spend for the second default energy efficiency temperature.

The embodiments of the present invention are for illustration only, and the quality of embodiment is not represented.

In the above embodiment of the present invention, the description to each embodiment all emphasizes particularly on different fields, and does not have in some embodiment The part of detailed description, may refer to the associated description of other embodiment.

In several embodiments provided herein, it should be understood that disclosed technology contents, others can be passed through Mode is realized.Wherein, device embodiment described above is only schematical, such as division of described unit, Ke Yiwei A kind of division of logic function, can there is other dividing mode when actually realizing, such as multiple units or component can combine or Person is desirably integrated into another system, or some features can be ignored, or does not perform.Another, shown or discussed is mutual Between coupling or direct-coupling or communication connection can be the INDIRECT COUPLING or communication link of unit or module by some interfaces Connect, can be electrical or other forms.

The unit illustrated as separating component can be or may not be it is physically separate, it is aobvious as unit The part shown can be or may not be physical location, you can with positioned at a place, or can also be distributed to multiple On unit.Some or all of unit therein can be selected to realize the purpose of this embodiment scheme according to the actual needs.

In addition, each functional unit in each embodiment of the invention can be integrated in a processing unit, can also That unit is individually physically present, can also two or more units it is integrated in a unit.Above-mentioned integrated list Member can both be realized in the form of hardware, it would however also be possible to employ the form of SFU software functional unit is realized.

If the integrated unit is realized using in the form of SFU software functional unit and as independent production marketing or used When, it can be stored in a computer read/write memory medium.Understood based on such, technical scheme is substantially The part contributed in other words to prior art or all or part of the technical scheme can be in the form of software products Embody, the computer software product is stored in a storage medium, including some instructions are to cause a computer Equipment (can for personal computer, server or network equipment etc.) perform each embodiment methods described of the invention whole or Part steps.And foregoing storage medium includes：USB flash disk, read-only storage (ROM, Read-Only Memory), arbitrary access are deposited Reservoir (RAM, Random Access Memory), mobile hard disk, magnetic disc or CD etc. are various can be with store program codes Medium.

Described above is only the preferred embodiment of the present invention, it is noted that for the ordinary skill people of the art For member, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications also should It is considered as protection scope of the present invention.

Claims (22)

1. a kind of air conditioning control device, it is characterised in that including：Controller：

The controller, under refrigeration/dehumidification pattern, and the design temperature of the air-conditioning to be little in the operation of air conditioner When refrigeration/dehumidification pattern corresponding first default energy efficiency temperature, it is the described first default energy-saving warm to change the design temperature Degree；In the operation of air conditioner under heating mode, and the design temperature of the air-conditioning is not less than heating mode corresponding second During default energy efficiency temperature, it is the described second default energy efficiency temperature to change the design temperature.

2. device according to claim 1, it is characterised in that the controller, is additionally operable to changing the design temperature During for the described first default energy efficiency temperature, according to T_{It is cold to become}/Δt₁Speed to change the design temperature be the described first default energy-conservation Temperature；When changing the design temperature for the described second default energy efficiency temperature, according to T_{Thermal change}/Δt₂Speed change described in set Constant temperature degree is the described second default energy efficiency temperature, wherein, T_{It is cold to become}For the temperature of the described first default energy efficiency temperature and the design temperature Spend poor, T_{Thermal change}For the described second default energy efficiency temperature and the temperature difference of the design temperature, Δ t₁To be changed by the design temperature For the time of the described first default energy efficiency temperature, Δ t₂To be changed to the described second default energy efficiency temperature by the design temperature Time.

3. device according to claim 2, it is characterised in that

T_{It is cold to become}Span is 0.3-0.5 DEG C, wherein, Δ t₁Value is 10min-15min；

T_{Thermal change}Span is 0.2-0.8 DEG C, wherein, Δ t₂Value is 10min-15min.

4. device according to claim 1, it is characterised in that also include：Temperature sampler, for using outdoor temperature T_{It is outdoor}, the controller is additionally operable to the outdoor temperature T of collection_{It is outdoor}The first experience temperature corresponding with refrigeration/dehumidification pattern Spend T₁The first comparative result of acquisition is compared, by the outdoor temperature T of collection_{It is outdoor}The second warp corresponding with heating mode Test temperature T₂It is compared the second comparative result of acquisition；And the described first default energy-conservation is determined according to first comparative result Temperature, the described second default energy efficiency temperature is determined according to second comparative result.

5. device according to claim 4, it is characterised in that the controller includes：

First determining unit, for being T in first comparative result under refrigeration/dehumidification pattern_{It is outdoor}No more than T₁Situation Under, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁, it is T in first comparative result_{It is outdoor}More than T₁In the case of, it is determined that described First default energy efficiency temperature T_{Energy-conservation 1}=T₁+(T_{It is outdoor}-T₁)*K_{Refrigeration}；

Second determining unit, for being T in second comparative result in a heating mode_{It is outdoor}Not less than T₂In the case of, it is determined that Described second default energy efficiency temperature T_{Energy-conservation 2}=T₂, it is T in second comparative result_{It is outdoor}More than T₂In the case of, determine described Two default energy efficiency temperature T_{Energy-conservation 2}=T₂-(T₂-T_{It is outdoor})*K_Heat；

K_{Refrigeration}For under refrigeration/dehumidification pattern, energy efficiency temperature adjustment factor；K_HeatFor under heating mode, energy efficiency temperature adjustment factor.

6. device according to claim 5, it is characterised in that T₁Value be one below：25 DEG C, 26 DEG C, 27 DEG C, 28 ℃；T₂Value be one below：19 DEG C, 20 DEG C, 21 DEG C, 22 DEG C.

7. device according to claim 5, it is characterised in that

First determining unit, is additionally operable to determine K_{Refrigeration}Span be 0.2-1；

Second determining unit, is additionally operable to determine K_HeatSpan be 0.1-1.

8. device according to any one of claim 1 to 7, it is characterised in that also include：Infrared people feels detector：

The infrared people sense detector, for the predetermined space that detects where the air-conditioning, whether someone obtains testing result, and The testing result is sent to the controller；

The controller, in the case where the testing result is nobody and predetermined hold-time, control the air-conditioning according to Described first default energy efficiency temperature and/or the corresponding energy saver mode operation of the second default energy efficiency temperature, wherein, it is described predetermined Time t span is 5-10min.

9. device according to claim 8, it is characterised in that

The controller, is additionally operable in the operation of air conditioner under refrigeration/dehumidification pattern, is consecutively detected time t₁Still nobody, then Into holding state；Or, in the operation of air conditioner under heating mode, it is consecutively detected time t₂Still nobody, then enter and treat Machine state；

Infrared people's sense detector, is additionally operable in t₁Still continue whole scan afterwards, reach that temperature spot is shut down according to refrigeration/dehumidification Processing, and indoor fan closing；Or, in t₂Still continue whole scan afterwards, reach that temperature spot shutdown is handled according to heating；Its In, t₁, t₂Span be 1.5-2h.

10. device according to claim 8, it is characterised in that

The controller, is additionally operable to during the air-conditioning is run with the energy saver mode, once detect the air-conditioning The predetermined space someone at place, then exit the energy saver mode.

11. a kind of air conditioning control method, it is characterised in that including：

In the operation of air conditioner under refrigeration/dehumidification pattern, and the design temperature of the air-conditioning is not more than refrigeration/dehumidification pattern During the corresponding first default energy efficiency temperature, it is the described first default energy efficiency temperature to change the design temperature；

In the operation of air conditioner under heating mode, and the design temperature of the air-conditioning is not less than heating mode corresponding second During default energy efficiency temperature, it is the described second default energy efficiency temperature to change the design temperature.

12. method according to claim 11, it is characterised in that

Change the design temperature includes for the described first default energy efficiency temperature：According to T_{It is cold to become}/Δt₁Speed change the setting Temperature is the described first default energy efficiency temperature；

Change the design temperature includes for the described second default energy efficiency temperature：According to T_{Thermal change}/Δt₂Speed change the setting Temperature is the described second default energy efficiency temperature；

Wherein, T_{It is cold to become}For the described first default energy efficiency temperature and the temperature difference of the design temperature, T_{Thermal change}For the described second default section Can temperature and the temperature difference of the design temperature, Δ t₁To be changed to the described first default energy efficiency temperature by the design temperature Time, Δ t₂To be changed to the time of the described second default energy efficiency temperature by the design temperature.

13. method according to claim 12, it is characterised in that

T_{It is cold to become}Span is 0.3-0.5 DEG C, wherein, Δ t₁Value is 10min-15min；

T_{Thermal change}Span is 0.2-0.8 DEG C, wherein, Δ t₂Value is 10min-15min.

14. method according to claim 11, it is characterised in that preset section in the change design temperature for described first Before energy temperature, or, before changing the design temperature for the described second default energy efficiency temperature, in addition to：

Gather outdoor temperature T_{It is outdoor}；

By the outdoor temperature T of collection_{It is outdoor}First empirical temperature T corresponding with refrigeration/dehumidification pattern₁It is compared acquisition One comparative result, by the outdoor temperature T of collection_{It is outdoor}Second empirical temperature T corresponding with heating mode₂It is compared and obtains Obtain the second comparative result；

Described first default energy efficiency temperature is determined according to first comparative result, according to being determined second comparative result Second default energy efficiency temperature.

15. method according to claim 14, it is characterised in that

Determine that the described first default energy efficiency temperature includes according to first comparative result：Under refrigeration/dehumidification pattern, described First comparative result is T_{It is outdoor}No more than T₁In the case of, determine the first default energy efficiency temperature T_{Energy-conservation 1}=T₁, compare described first As a result it is T_{It is outdoor}More than T₁In the case of, determine the described first default energy efficiency temperature T_{Energy-conservation 1}=T₁+(T_{It is outdoor}-T₁)*K_{Refrigeration}；

Determine that the described second default energy efficiency temperature includes according to second comparative result：It is T in second comparative result_{It is outdoor} Not less than T₂In the case of, determine the described second default energy efficiency temperature T_{Energy-conservation 2}=T₂, it is T in second comparative result_{It is outdoor}It is more than T₂In the case of, determine the described second default energy efficiency temperature T_{Energy-conservation 2}=T₂-(T₂-T_{It is outdoor})*K_Heat；

K_{Refrigeration}For under refrigeration/dehumidification pattern, energy efficiency temperature adjustment factor；K_HeatFor under heating mode, energy efficiency temperature adjustment factor.

16. method according to claim 15, it is characterised in that T₁Value be one below：25 DEG C, 26 DEG C, 27 DEG C, 28℃；T₂Value be one below：19 DEG C, 20 DEG C, 21 DEG C, 22 DEG C.

17. method according to claim 15, it is characterised in that

K_{Refrigeration}Span be 0.2-1；

K_HeatSpan be 0.1-1.

18. the method according to any one of claim 11 to 17, it is characterised in that changing the design temperature be institute Before stating the first default energy efficiency temperature, or, before changing the design temperature for the described second default energy efficiency temperature, also wrap Include：

Detect predetermined space where the air-conditioning whether someone；

In the case where detecting nobody and predetermined hold-time, the air-conditioning is controlled according to the described first default energy efficiency temperature And/or the described second corresponding energy saver mode operation of default energy efficiency temperature, wherein, the span of the scheduled time t is 5- 10min。

19. method according to claim 18, it is characterised in that controlling the air-conditioning according to the described first default energy-conservation After temperature and/or the corresponding energy saver mode operation of the second default energy efficiency temperature, in addition to：

In the operation of air conditioner under refrigeration/dehumidification pattern, time t is consecutively detected₁Still nobody, then into holding state；Or Person, in the operation of air conditioner under heating mode, is consecutively detected time t₂Still nobody, then into holding state；

In t₁Still continue whole scan afterwards, reach that temperature spot shutdown is handled according to refrigeration/dehumidification, and indoor fan is closed；Or, In t₂Still continue whole scan afterwards, reach that temperature spot shutdown is handled according to heating, wherein, t₁, t₂Span be 1.5-2h.

20. method according to claim 18, it is characterised in that

During the air-conditioning is run with the energy saver mode, once the predetermined space where detecting the air-conditioning has People, then exit the energy saver mode.

21. a kind of storage medium, it is characterised in that the storage medium includes the program of storage, wherein, when described program is run Equipment where controlling the storage medium performs following operate：

In operation of air conditioner under refrigeration/dehumidification pattern, and the design temperature of the air-conditioning is not more than refrigeration/dehumidification pattern correspondence The first default energy efficiency temperature when, it is the described first default energy efficiency temperature to change the design temperature；

In the operation of air conditioner under heating mode, and the design temperature of the air-conditioning is not less than heating mode corresponding second During default energy efficiency temperature, it is the described second default energy efficiency temperature to change the design temperature.

22. a kind of processor, it is characterised in that the processor is used for operation program, wherein, performed when described program is run with Lower operation：

In operation of air conditioner under refrigeration/dehumidification pattern, and the design temperature of the air-conditioning is not more than refrigeration/dehumidification pattern correspondence The first default energy efficiency temperature when, it is the described first default energy efficiency temperature to change the design temperature；

In the operation of air conditioner under heating mode, and the design temperature of the air-conditioning is not less than heating mode corresponding second During default energy efficiency temperature, it is the described second default energy efficiency temperature to change the design temperature.