CN107576001A - Estimate Calculation Method of Energy Consumption, system and air-conditioning - Google Patents

Abstract

The present invention proposes one kind and estimates Calculation Method of Energy Consumption, system and air-conditioning, wherein, energy consumption budget method is estimated, for air-conditioning, including：Setting signal is received, preset state and preset temperature are determined according to setting signal；Detection outdoor environment temperature and indoor environment temperature in real time；According to outdoor environment temperature, indoor environment temperature and the first preset formula corresponding to preset state, the compressor wasted work of air-conditioning is determined；According to design temperature, indoor environment temperature and the second preset formula corresponding to preset state, design temperature coefficient is determined；According to design temperature coefficient and compressor wasted work, the energy consumption of air-conditioning is determined；Generate and show the first prompt message corresponding to energy consumption.Pass through technical scheme, realize the budget to air conditioning energy consumption, user is facilitated to recognize the power consumption of the temperature that air-conditioning is set under current environment, user is allowd to adjust the design temperature of air-conditioning in time to reduce air conditioning energy consumption, reduce the possibility that air-conditioning is run with high energy consumption in the range of human comfort, energy consumption is saved, improves Consumer's Experience.

Description

Estimate Calculation Method of Energy Consumption, system and air-conditioning

Technical field

The present invention relates to field of air conditioning, estimates Calculation Method of Energy Consumption in particular to one kind, one kind estimates energy consumption calculation System, a kind of computer equipment, a kind of computer-readable recording medium and a kind of air-conditioning.

Background technology

With the enhancing of air conditioner energy saving environmental consciousness and the continuous improvement of home intelligence, the concept of intelligent air condition is more Popularization.In terms of air-conditioner temperature setting, when indoor temperature within the specific limits when, the comfort level of human body does not almost have difference, such as Fruit within the range, sets relatively low or higher temperature, and human comfort does not change, adds air conditioning energy consumption on the contrary, be unfavorable for The energy consumption of the air-conditioning corresponding to the temperature of user's setting is reminded, the long-time for being unfavorable for air-conditioning uses, and is unfavorable for environmental protection and energy saving.

The content of the invention

It is contemplated that at least solves one of technical problem present in prior art or correlation technique.

Therefore, estimate Calculation Method of Energy Consumption it is an object of the present invention to propose one kind.

Another object of the present invention is that proposing one kind estimates energy consumption calculation system.

A further object of the present invention is to propose a kind of computer equipment.

A further object of the present invention is to propose a kind of computer-readable recording medium.

A further object of the present invention is to propose a kind of air-conditioning.

In view of this, the technical scheme of first aspect present invention proposes one kind and estimates Calculation Method of Energy Consumption, including：Receive Setting signal, preset state and preset temperature are determined according to setting signal；Detection outdoor environment temperature and indoor environment temperature in real time Degree；According to outdoor environment temperature, indoor environment temperature and the first preset formula corresponding to preset state, the pressure of air-conditioning is determined Contracting machine wasted work；According to design temperature, indoor environment temperature and the second preset formula corresponding to preset state, it is determined that setting temperature Spend coefficient；According to design temperature coefficient and compressor wasted work, the energy consumption of air-conditioning is determined；Generate and show corresponding to complete machine energy First prompt message of consumption.

In the technical scheme, after air-conditioning receives setting signal, preset state and default temperature are determined according to setting signal Degree, that is, determine the preset state of air-conditioning corresponding to preset temperature corresponding to setting signal and the temperature；Then by examining in real time Outdoor environment temperature and indoor environment temperature are surveyed, to determine air-conditioning real-time environment outdoor and indoor under current preset state Temperature；Afterwards by the outdoor environment temperature that detects in real time, indoor environment temperature and corresponding to the first pre- of preset state If formula, the compressor wasted work of air-conditioning is determined, the budget for compressor wasted work under air-conditioning current preset state is realized, so as to true Determine the energy consumption of air-conditioning；Afterwards public affairs are preset according to design temperature, indoor environment temperature and corresponding to the second of preset state Formula, design temperature coefficient is determined, the temperature coefficient embodies the difference of user's design temperature and current environmental temperature for complete machine energy One proportionate relationship of consumption demand size, for calculating energy consumption；Afterwards according to design temperature coefficient and compressor wasted work, really Determine the energy consumption of air-conditioning, when the energy consumption of the air-conditioning calculated is larger, illustrate the temperature that air-conditioning is currently set in user Under, corresponding preset state power consumption is more, and user can reduce energy consumption by adjusting design temperature, when the air-conditioning calculated When energy consumption is smaller, illustrate air-conditioning under current design temperature, corresponding preset state less energy intensive, be advantageous to energy-saving ring Protect；Afterwards by generating and showing the first prompt message corresponding to energy consumption, the complete machine for showing air-conditioning to user consumes energy, side Just user recognizes the power consumption of the temperature that air-conditioning is set under current environment so that user can adjust the design temperature of air-conditioning in time To reduce air conditioning energy consumption, the possibility that air-conditioning is run with high energy consumption in the range of human comfort is reduced, energy consumption is saved, improves use Experience at family.

It should be noted that the preset state of air-conditioning is divided into refrigerating state and heating state.

In addition, it should also be noted that, outdoor environment temperature and indoor environment temperature can pass through the indoor and outdoor machine of air-conditioning The detection of environment temperature temperature-sensitive bag is carried, can also be by setting special temperature sensor to be detected.

In addition it is also necessary to explanation, air conditioner energy consumption can be directly displayed to user, can also be by by complete machine energy Consumption is converted into different power consumption energy levels and is shown to user, can also intuitively be shown energy consumption by other Graphic Methods To user, different energy consumption degree is such as shown by the number of number of squares on the display panel.

In the above-mentioned technical solutions, it is preferable that according to outdoor environment temperature, indoor environment temperature and corresponding to preset state The first preset formula, determine the compressor wasted work of air-conditioning, specifically include：If the preset state of air-conditioning is refrigerating state, according to Outdoor environment temperature determine compressor cooling pressure at expulsion and according to indoor environment temperature determine compressor cooling pressure of inspiration(Pi) and Compressor cooling suction temperature；According to compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling air-breathing temperature Degree determines compressor cooling wasted work.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, determine to compress according to outdoor environment temperature Mechanism cold pressure at expulsion and compressor cooling pressure of inspiration(Pi) and compressor cooling suction temperature are determined according to indoor environment temperature, had Body, by outdoor environment temperature and ensure that system high pressure is produced with the temperature difference needed for outdoor environment temperature to determine compressor jointly Condensation temperature, the saturation pressure as corresponding to condensation temperature looks into physical properties table and obtains compressor cooling pressure at expulsion, by room Interior environment temperature and evaporating temperature determine the evaporating temperature of compressor jointly with the temperature difference needed for indoor environment temperature, by evaporating Saturation pressure corresponding to temperature, look into physical properties table and obtain compressor cooling pressure of inspiration(Pi), by indoor environment temperature and guarantee Evaporate make a slip of the tongue temperature needed for temperature control and evaporating temperature and determine compressor cooling with the temperature difference needed for indoor environment temperature Suction temperature；Then determined according to compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature Compressor cooling wasted work, compressor cooling power consumption is by compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compression mechanism Cold suction temperature, adiabatic exponent determine jointly with compressor adiabatic compression efficiency.

It should be noted that when the preset state of air-conditioning is refrigerating state, refrigerant is compressed by the compressor, and turns into high temperature height Calm the anger body, into the heat exchanger of outdoor unit, condensation liquefaction heat release, turn into liquid, while heat discharges to air, liquid is through throttling Decompressor, the heat exchanger got in, evaporation gasification heat absorption, turn into gas, while draw the heat of room air, so as to reach To the purpose for reducing indoor temperature.

In the above-mentioned technical solutions, it is preferable that according to outdoor environment temperature, indoor environment temperature and corresponding to preset state The first preset formula, determine the compressor wasted work of air-conditioning, specifically include：If the preset state of air-conditioning is heating state, according to Outdoor environment temperature determines compressor heating pressure of inspiration(Pi) and compressor heating suction temperature and determined according to indoor environment temperature Compression mechanism thermal exhaust pressure；Pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor heating air-breathing temperature are heated according to compressor Degree determines compression mechanism heat consumption work(.

In the technical scheme, when the preset state of air-conditioning is heating state, determine to compress according to outdoor environment temperature The hot pressure of inspiration(Pi) of mechanism and compressor heat suction temperature and determine compression mechanism thermal exhaust pressure according to indoor environment temperature, have Body, make a slip of the tongue temperature needed for temperature control and evaporating temperature and indoor environment temperature institute are evaporated as outdoor environment temperature and guarantee The temperature difference needed determines that compressor heats suction temperature, as needed for outdoor environment temperature and the evaporating temperature with outdoor environment temperature The temperature difference determines the evaporating temperature of compressor jointly, the saturation pressure as corresponding to evaporating temperature, looks into physical properties table and is pressed The hot pressure of inspiration(Pi) of contracting mechanism, by indoor temperature and ensure that system high pressure can be produced with the temperature difference needed for indoor temperature Lai common Heat setting temperature is determined, the saturation pressure as corresponding to condensation temperature, physical properties table is looked into and obtains compression mechanism thermal exhaust pressure；So Pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor heating suction temperature are heated according to compressor afterwards and determine that compressor heats Wasted work, compression mechanism heat consumption work(heat pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor by compressor and heat air-breathing temperature Degree, adiabatic exponent and compressor adiabatic compression efficiency determine jointly.

It should be noted that when the preset state of air-conditioning is heating state, refrigerant is pressurizeed by compressor, turns into high temperature height Calm the anger body, get in the heat exchanger of machine, condensation liquefaction heat release, turn into liquid, while room air is heated, carried so as to reach The purpose of high indoor temperature, liquid depressurize through the decompressor that throttles, and into the heat exchanger of outdoor unit, evaporation gasification heat absorption, turn into Gas, while the quality of outdoor air is drawn, outdoor air is become colder.

In the above-mentioned technical solutions, it is preferable that according to design temperature, indoor environment temperature and corresponding to preset state Two preset formulas, design temperature coefficient is determined, is specifically included：According to design temperature, indoor environment temperature, default minimum setting temperature Degree and the second preset formula corresponding to preset state, it is determined that refrigeration design temperature coefficient, the second preset formula include：XS= (T₂-T_S)/(T₂-T_L), wherein, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LCharacterize default lowest set temperature.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, according to design temperature, indoor environment temperature Degree, default lowest set temperature and the second preset formula corresponding to preset state, it is determined that refrigeration design temperature coefficient, by the Two preset formula XS=(T₂-T_S)/(T₂-T_L), refrigeration design temperature coefficient is calculated, wherein, XS characterizes refrigeration design temperature system Number, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LDefault lowest set temperature is characterized, the temperature coefficient embodies user The difference of design temperature and current environmental temperature for energy consumption demand size a proportionate relationship, for calculating complete machine energy Consumption, can be drawn by the second preset formula, when user's design temperature is lower, the difference of current indoor environment temperature and design temperature Value is bigger, and design temperature coefficient is bigger, illustrates that the difference of current environmental temperature is bigger for energy consumption demand, correspondingly, with The energy consumption of the air-conditioning of design temperature operation also will be bigger.

In the above-mentioned technical solutions, it is preferable that also include：According to compressor cooling wasted work, refrigeration design temperature coefficient and 3rd preset formula determines the complete machine power consumption energy level of air-conditioning, and the 3rd preset formula includes：Wherein, W_CCharacterize pressure Contracting mechanism cold wasted work, XS characterize refrigeration design temperature coefficient, W_max-coolCharacterize maximum refrigeration work consumption.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, set according to compressor cooling wasted work, refrigeration Determine temperature coefficient and the 3rd preset formula determines the complete machine power consumption energy level of air-conditioning, pass through the 3rd preset formula Wherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_{max_cool}Maximum refrigeration work consumption is characterized, is passed through 3rd preset formula can show that when compressor wasted work is more, temperature coefficient is bigger corresponding power consumption energy level value is also higher, and The size of temperature coefficient is mainly set by the user temperature to determine, therefore, when the preset state of air-conditioning is refrigerating state, user The temperature of setting is lower, and corresponding air conditioning energy consumption is also bigger.

Pass through above-mentioned technical proposal, when the preset state for realizing air-conditioning is refrigerating state, consume energy electric level to air conditioner Determination, by the way that obtained power consumption energy level is shown into user, facilitate user to recognize the temperature that air-conditioning under current environment is set Power consumption so that user can adjust the design temperature of air-conditioning in time to reduce air conditioning energy consumption, reduce in the range of human comfort The possibility that air-conditioning is run with high energy consumption, energy consumption is saved, improves Consumer's Experience.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_cool}The maximum energy consumption for cooling situation of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum refrigeration work consumption under indoor and outdoor work condition environment.

In the above-mentioned technical solutions, it is preferable that according to design temperature, indoor environment temperature and corresponding to preset state Two preset formulas, design temperature coefficient is determined, is specifically included：Second preset formula includes：XS=(T_s-T₂)/(T_M-T₂), its In, XS characterizes heating design temperature coefficient, T_sCharacterize design temperature, T₂Characterize indoor environment temperature, T_MCharacterize default highest setting Temperature.

In the technical scheme, when the preset state of air-conditioning is heating state, according to design temperature, indoor environment temperature Degree, default highest setting temperature and the second preset formula corresponding to preset state, it is determined that heating design temperature coefficient, by the Two preset formula XS=(T_s-T₂)/(T_M-T₂), heating design temperature coefficient is calculated, wherein, XS characterizes heating design temperature coefficient, T₂ Characterize indoor environment temperature, T_SCharacterize design temperature, T_MDefault highest setting temperature is characterized, the temperature coefficient embodies user's setting The difference of temperature and current environmental temperature for energy consumption demand size a proportionate relationship, for calculating energy consumption, It can be drawn by the second preset formula, when user's design temperature is higher, the difference of current indoor environment temperature and design temperature Bigger, design temperature coefficient is bigger, illustrates that the difference of current environmental temperature is bigger for energy consumption demand, correspondingly, with this The energy consumption of the air-conditioning of design temperature operation also will be bigger.

In the above-mentioned technical solutions, it is preferable that also include：According to compression mechanism heat consumption work(, heating design temperature coefficient and 4th preset formula determines the complete machine power consumption energy level of air-conditioning, and the 4th preset formula includes：Wherein, W_CCharacterize pressure Contracting mechanism heat consumption work(, XS characterize heating design temperature coefficient, W_max-heatCharacterize maximum heats power.

In the technical scheme, when the preset state of air-conditioning is heating state, set according to compression mechanism heat consumption work(, heating Determine temperature coefficient and the 3rd preset formula determines the complete machine power consumption energy level of air-conditioning, pass through the 3rd preset formulaIts In, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_{max_heat}Maximum heats power is characterized, passes through Three preset formulas can show that, when compressor wasted work is more, temperature coefficient is bigger, corresponding power consumption energy level value is also higher, and warm The size of degree coefficient is mainly set by the user temperature to determine, therefore, when the preset state of air-conditioning is heating state, Yong Hushe Fixed temperature is higher, and corresponding air conditioning energy consumption is also bigger.

Pass through above-mentioned technical proposal, when the preset state for realizing air-conditioning is heating state, consume energy electric level to air conditioner Determination, by the way that obtained power consumption energy level is shown into user, facilitate user to recognize the temperature that air-conditioning under current environment is set Power consumption so that user can adjust the design temperature of air-conditioning in time to reduce air conditioning energy consumption, reduce in the range of human comfort The possibility that air-conditioning is run with high energy consumption, energy consumption is saved, improves Consumer's Experience.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_heat}The maximum heating energy consumption of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum heats power under indoor and outdoor work condition environment.

The technical scheme of second aspect of the present invention proposes one kind and estimates energy consumption calculation system, including：Setting signal receives Unit, for receiving setting signal, preset state and preset temperature are determined according to setting signal；Environment temperature determining unit, use In detection outdoor environment temperature and indoor environment temperature in real time；Energy consumption of compressor determining unit, for according to outdoor environment temperature, Indoor environment temperature and the first preset formula corresponding to preset state, determine the compressor wasted work of air-conditioning；Design temperature system Number determining units, for according to design temperature, indoor environment temperature and the second preset formula corresponding to preset state, it is determined that Design temperature coefficient；Air conditioning energy consumption determining unit, for according to design temperature coefficient and compressor wasted work, determining the complete machine of air-conditioning Energy consumption；First Tip element, for generating and showing the first prompt message corresponding to energy consumption.

In the technical scheme, setting signal is received by setting signal receiving unit, after air-conditioning receives setting signal, Preset state and preset temperature are determined according to setting signal, that is, determine that preset temperature corresponding to setting signal and the temperature are corresponding Air-conditioning preset state；Then by environment temperature determining unit, outdoor environment temperature and indoor environment temperature are detected in real time, To determine air-conditioning real-time environment temperature outdoor and indoor under current preset state；The outdoor environment detected in real time afterwards Temperature, indoor environment temperature and the first preset formula corresponding to preset state, by energy consumption of compressor determining unit, it is determined that The compressor wasted work of air-conditioning, the measuring and calculating for compressor wasted work under air-conditioning current preset state is realized, to determine the whole of air-conditioning Function consumes；Afterwards according to design temperature, indoor environment temperature and the second preset formula corresponding to preset state, pass through setting Temperature coefficient determining unit, design temperature coefficient is determined, the temperature coefficient embodies user's design temperature and current environmental temperature Difference for energy consumption demand size a proportionate relationship, for calculating energy consumption；Determined afterwards by air conditioning energy consumption Unit, according to design temperature coefficient and compressor wasted work, the energy consumption of air-conditioning is determined, when the energy consumption of the air-conditioning calculated When larger, illustrate air-conditioning at a temperature of user currently sets, the power consumption of corresponding preset state is more, and user can pass through tune Design temperature is saved to reduce energy consumption, when the energy consumption of the air-conditioning calculated is smaller, illustrates air-conditioning under current design temperature, Corresponding preset state less energy intensive, is advantageous to energy-conserving and environment-protective；Afterwards by generating and showing first corresponding to energy consumption Prompt message, the complete machine for showing air-conditioning to user consume energy, and facilitate user to recognize the consumption of the temperature that air-conditioning is set under current environment Can so that user can adjust the design temperature of air-conditioning in time to reduce air conditioning energy consumption, reduce air-conditioning in the range of human comfort The possibility run with high energy consumption, energy consumption is saved, improves Consumer's Experience.

It should be noted that the preset state of air-conditioning is divided into refrigerating state and heating state.

In addition, it should also be noted that, outdoor environment temperature and indoor environment temperature can pass through the indoor and outdoor machine of air-conditioning The detection of environment temperature temperature-sensitive bag is carried, can also be by setting special temperature sensor to be detected.

In addition it is also necessary to explanation, air conditioner energy consumption can be directly displayed to user, can also be by by complete machine energy Consumption is converted into different power consumption energy levels and is shown to user, can also intuitively be shown energy consumption by other Graphic Methods To user, different energy consumption degree is such as shown by the number of number of squares on the display panel.

In the above-mentioned technical solutions, it is preferable that air conditioning energy consumption determining unit, specifically include：Cooling parameters determining unit, use In when the preset state of air-conditioning is refrigerating state, compressor cooling pressure at expulsion is determined and according to room according to outdoor environment temperature Interior environment temperature determines compressor cooling pressure of inspiration(Pi) and compressor cooling suction temperature；Compressor cooling wasted work determining unit, For determining compression mechanism according to compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature Cold wasted work.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, by cooling parameters determining unit, according to Outdoor environment temperature determine compressor cooling pressure at expulsion and according to indoor environment temperature determine compressor cooling pressure of inspiration(Pi) and Compressor cooling suction temperature, specifically, as needed for outdoor environment temperature and guarantee system high pressure generation with outdoor environment temperature The temperature difference determine the condensation temperature of compressor jointly, the saturation pressure as corresponding to condensation temperature looks into physical properties table and pressed Contracting mechanism cold pressure at expulsion, determine to press jointly with the temperature difference needed for indoor environment temperature by indoor environment temperature and evaporating temperature The evaporating temperature of contracting machine, the saturation pressure as corresponding to evaporating temperature, look into physical properties table and obtain compressor cooling pressure of inspiration(Pi), Evaporated and made a slip of the tongue needed for temperature needed for temperature control and evaporating temperature and indoor environment temperature as indoor environment temperature and guarantee The temperature difference determines compressor cooling suction temperature；Then by compressor cooling wasted work determining unit, arranged according to compressor cooling Atmospheric pressure, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature determine compressor cooling wasted work, compressor cooling power consumption It is exhausted with compressor by compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature, adiabatic exponent Hot compression efficiency determines jointly.

It should be noted that when the preset state of air-conditioning is refrigerating state, refrigerant is compressed by the compressor, and turns into high temperature height Calm the anger body, into the heat exchanger of outdoor unit, condensation liquefaction heat release, turn into liquid, while heat discharges to air, liquid is through throttling Decompressor, the heat exchanger got in, evaporation gasification heat absorption, turn into gas, while draw the heat of room air, so as to reach To the purpose for reducing indoor temperature.

In the above-mentioned technical solutions, it is preferable that air conditioning energy consumption determining unit, specifically include：Parameter determination unit is heated, is used In when the preset state of air-conditioning is heating state, compressor heating pressure of inspiration(Pi) and compressor are determined according to outdoor environment temperature Heat suction temperature and compression mechanism thermal exhaust pressure is determined according to indoor environment temperature；Compression mechanism heat consumption work(determining unit, Compression mechanism is determined for heating pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor heating suction temperature according to compressor Heat consumption work(.

In the technical scheme, when the preset state of air-conditioning is heating state, by heating parameter determination unit, according to Outdoor environment temperature determines compressor heating pressure of inspiration(Pi) and compressor heating suction temperature and determined according to indoor environment temperature Compression mechanism thermal exhaust pressure, specifically, make a slip of the tongue temperature and steaming needed for temperature control are evaporated as outdoor environment temperature and guarantee Hair temperature determines that compressor heats suction temperature with the temperature difference needed for indoor environment temperature, by outdoor environment temperature and evaporation temperature Degree determines the evaporating temperature of compressor jointly with the temperature difference needed for outdoor environment temperature, the saturation pressure as corresponding to evaporating temperature Power, look into physical properties table and obtain compressor heating pressure of inspiration(Pi), by indoor temperature and guarantee system high pressure can produce and room Temperature difference needed for interior temperature determines heat setting temperature jointly, the saturation pressure as corresponding to condensation temperature, looks into physical properties table Obtain compression mechanism thermal exhaust pressure；Then by compression mechanism heat consumption work(determining unit, according to compressor heat pressure of inspiration(Pi), Compression mechanism thermal exhaust pressure, compressor heating suction temperature determine compression mechanism heat consumption work(, and compression mechanism heat consumption work(is by compressing The hot pressure of inspiration(Pi) of mechanism, compression mechanism thermal exhaust pressure, compressor heating suction temperature, adiabatic exponent and compressor adiabatic compression Efficiency determines jointly.

It should be noted that when the preset state of air-conditioning is heating state, refrigerant is pressurizeed by compressor, turns into high temperature height Calm the anger body, get in the heat exchanger of machine, condensation liquefaction heat release, turn into liquid, while room air is heated, carried so as to reach The purpose of high indoor temperature, liquid depressurize through the decompressor that throttles, and into the heat exchanger of outdoor unit, evaporation gasification heat absorption, turn into Gas, while the quality of outdoor air is drawn, outdoor air is become colder.

In the above-mentioned technical solutions, it is preferable that design temperature factor determination unit, specifically include：

Freeze design temperature factor determination unit, for according to design temperature, indoor environment temperature, default minimum setting temperature Degree and the second preset formula corresponding to refrigerating state, it is determined that refrigeration design temperature coefficient, the second preset formula include：XS= (T₂-T_S)/(T₂-T_L), wherein, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LCharacterize default lowest set temperature.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, by freezing, design temperature coefficient determines Unit, according to design temperature, indoor environment temperature, default lowest set temperature and the second default public affairs corresponding to preset state Formula, it is determined that refrigeration design temperature coefficient, passes through the second preset formula XS=(T₂-T_S)/(T₂-T_L), calculate refrigeration design temperature system Number, wherein, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LCharacterize and preset most Low design temperature, the temperature coefficient embody the difference of user's design temperature and current environmental temperature for energy consumption demand size A proportionate relationship, for calculating energy consumption, can be drawn by the second preset formula, when user's design temperature is lower, Current indoor environment temperature and the difference of design temperature are bigger, and design temperature coefficient is bigger, illustrate the difference of current environmental temperature It is bigger for energy consumption demand, correspondingly, also will be bigger with the energy consumption of the air-conditioning of design temperature operation.

In the above-mentioned technical solutions, it is preferable that also include：Refrigeration power consumption energy level determining unit, for according to compression mechanism Cold wasted work, refrigeration design temperature coefficient and the 3rd preset formula determine the complete machine power consumption energy level of air-conditioning；Refrigeration power consumption energy level prompting Unit, for generating and showing the second prompt message corresponding to complete machine power consumption energy level, the 3rd preset formula includes：Wherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_max-coolCharacterize maximum system Cold power.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, by freeze consume energy energy level determining unit, The complete machine power consumption energy level of air-conditioning is determined according to compressor cooling wasted work, refrigeration design temperature coefficient and the 3rd preset formula, is passed through 3rd preset formulaWherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_{max_cool}Maximum refrigeration work consumption is characterized, can be drawn by the 3rd preset formula when compressor wasted work is more, temperature coefficient is bigger When, corresponding power consumption energy level value is also higher, and the size of temperature coefficient is mainly set by the user temperature to determine, therefore, works as sky When the preset state of tune is refrigerating state, the temperature of user's setting is lower, and corresponding air conditioning energy consumption is also bigger；Pass through system afterwards Cold power consumption energy level Tip element, generate and show the second prompt message corresponding to complete machine power consumption energy level, prompt the user with air-conditioning Under current design temperature, the power consumption energy level of corresponding refrigerating state, user is facilitated to recognize the temperature that air-conditioning is set under current environment The power consumption of degree so that user can adjust the design temperature of air-conditioning in time to reduce air conditioning energy consumption, reduce human comfort scope The possibility that interior air-conditioning is run with high energy consumption, energy consumption is saved, improves Consumer's Experience.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_cool}The maximum energy consumption for cooling situation of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum refrigeration work consumption under indoor and outdoor work condition environment.

In the above-mentioned technical solutions, it is preferable that design temperature factor determination unit, specifically include：Heat design temperature system Number determining units, for according to design temperature, indoor environment temperature, default highest setting temperature and corresponding to heating state the Two preset formulas, it is determined that heating design temperature coefficient, the second preset formula include：XS=(T_s-T₂)/(T_M-T₂), wherein, XS tables Sign heating design temperature coefficient, T_sCharacterize design temperature, T₂Characterize indoor environment temperature, T_MCharacterize default highest setting temperature.

In the technical scheme, when the preset state of air-conditioning is heating state, determined by heating design temperature coefficient Unit, according to design temperature, indoor environment temperature, default highest setting temperature and the second default public affairs corresponding to preset state Formula, it is determined that heating design temperature coefficient, passes through the second preset formula XS=(T_s-T₂)/(T_M-T₂), calculate heating design temperature system Number, wherein, XS characterizes heating design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_MCharacterize and preset most High design temperature, the temperature coefficient embody the difference of user's design temperature and current environmental temperature for energy consumption demand size A proportionate relationship, for calculating energy consumption, can be drawn by the second preset formula, when user's design temperature is higher, Current indoor environment temperature and the difference of design temperature are bigger, and design temperature coefficient is bigger, illustrate the difference of current environmental temperature It is bigger for energy consumption demand, correspondingly, also will be bigger with the energy consumption of the air-conditioning of design temperature operation.

In the above-mentioned technical solutions, it is preferable that also include：Energy consumption energy level determining unit is heated, for according to compression mechanism Heat consumption work(, heating design temperature coefficient and the 4th preset formula determine the complete machine power consumption energy level of air-conditioning；Heat the prompting of energy consumption energy level Unit, for generating and showing the 3rd prompt message corresponding to complete machine power consumption energy level, the 4th preset formula includes：Wherein, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_max-heatCharacterize maximum system Thermal power.

In the technical scheme, when the preset state of air-conditioning is heating state, by heating energy consumption energy level determining unit, The complete machine power consumption energy level of air-conditioning is determined according to compression mechanism heat consumption work(, heating design temperature coefficient and the 3rd preset formula, is passed through 3rd preset formulaWherein, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_{max_heat}Maximum heats power is characterized, can be drawn by the 3rd preset formula when compressor wasted work is more, temperature coefficient is bigger When, corresponding power consumption energy level value is also higher, and the size of temperature coefficient is mainly set by the user temperature to determine, therefore, works as sky When the preset state of tune is heating state, the temperature of user's setting is higher, and corresponding air conditioning energy consumption is also bigger；Pass through system afterwards Thermal energy consumption energy level Tip element, generate and show the 3rd prompt message corresponding to complete machine power consumption energy level, prompt the user with air-conditioning Under current design temperature, the power consumption energy level of corresponding heating state, user is facilitated to recognize the temperature that air-conditioning is set under current environment The power consumption of degree so that user can adjust the design temperature of air-conditioning in time to reduce air conditioning energy consumption, reduce human comfort scope The possibility that interior air-conditioning is run with high energy consumption, energy consumption is saved, improves Consumer's Experience.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_heat}The maximum heating energy consumption of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum heats power under indoor and outdoor work condition environment.

The technical scheme of third aspect present invention proposes a kind of computer equipment, including memory, processor and storage On a memory and the computer program that can run on a processor, any of the above-described is performed during computing device computer program Estimate Calculation Method of Energy Consumption.

In the technical scheme, the computer program for estimating Calculation Method of Energy Consumption for performing any of the above-described is stored in storage On device, during computing device computer program, the Calculation Method of Energy Consumption of estimating in any of the above-described technical scheme can be achieved, therefore have There are whole beneficial effects that Calculation Method of Energy Consumption is estimated in above-mentioned technical proposal, will not be repeated here.

The technical scheme of fourth aspect present invention proposes a kind of computer-readable recording medium, is stored thereon with computer Program, that any of the above-described is realized when computer program is executed by processor estimates Calculation Method of Energy Consumption.

In the technical scheme, processor realizes that Calculation Method of Energy Consumption of estimating as above is needed by computer program, this Kind computer program needs to be stored in computer-readable medium.This computer-readable medium ensure that computer program It can be executed by processor, it is achieved thereby that Calculation Method of Energy Consumption is estimated in any of the above-described technical scheme, therefore with above-mentioned Whole beneficial effects of Calculation Method of Energy Consumption are estimated in technical scheme, will not be repeated here.

The technical scheme of fifth aspect present invention proposes a kind of air-conditioning, including：Any one of second aspect of the present invention it is pre- Estimate energy consumption calculation system.

In the technical scheme, include the air-conditioning for estimating energy consumption calculation system of any one of second aspect of the present invention, can be real Calculation Method of Energy Consumption is estimated in existing any of the above-described technical scheme, therefore has in above-mentioned technical proposal and estimates Calculation Method of Energy Consumption Whole beneficial effects, will not be repeated here.

The additional aspect and advantage of the present invention will become obvious in following description section, or the practice by the present invention Recognize.

Brief description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention will become in the description from combination accompanying drawings below to embodiment Substantially and it is readily appreciated that, wherein：

Fig. 1 shows the schematic flow sheet according to an embodiment of the invention for estimating Calculation Method of Energy Consumption.

Fig. 2 shows the structural representation for estimating energy consumption calculation system according to still a further embodiment.

Fig. 3 shows the structural representation of computer equipment according to an embodiment of the invention；

Fig. 4 shows the schematic diagram of air-conditioning according to an embodiment of the invention；

Fig. 5 shows cooling condition figure according to an embodiment of the invention；

Fig. 6 shows heating condition figure according to an embodiment of the invention.

Embodiment

It is below in conjunction with the accompanying drawings and specific real in order to be more clearly understood that the above objects, features and advantages of the present invention Mode is applied the present invention is further described in detail.It should be noted that in the case where not conflicting, the implementation of the application Feature in example and embodiment can be mutually combined.

Many details are elaborated in the following description to facilitate a thorough understanding of the present invention, still, the present invention may be used also To be different from other modes described here using other to implement, therefore, protection scope of the present invention is not by described below Specific embodiment limitation.

Fig. 1 shows the schematic flow sheet according to an embodiment of the invention for estimating Calculation Method of Energy Consumption.

As shown in figure 1, Calculation Method of Energy Consumption is estimated, including：

Step S102, setting signal is received, preset state and preset temperature are determined according to setting signal；

Step S104, outdoor environment temperature and indoor environment temperature are detected in real time；

Step S106, public affairs are preset according to outdoor environment temperature, indoor environment temperature and corresponding to the first of preset state Formula, determine the compressor wasted work of air-conditioning；

Step S108, according to design temperature, indoor environment temperature and the second preset formula corresponding to preset state, really Determine design temperature coefficient；

Step S110, according to design temperature coefficient and compressor wasted work, determine the energy consumption of air-conditioning；

Step S112, generate and show the first prompt message corresponding to energy consumption.

In this embodiment, by step S102, after air-conditioning receives setting signal, default shape is determined according to setting signal State and preset temperature, that is, determine the preset state of air-conditioning corresponding to preset temperature corresponding to setting signal and the temperature；Then Outdoor environment temperature and indoor environment temperature are detected by step S104 in real time, to determine air-conditioning outdoor under current preset state With the real-time environment temperature of interior；Afterwards by step S106, according to detect in real time outdoor environment temperature, indoor environment Temperature and the first preset formula corresponding to preset state, the compressor wasted work of air-conditioning is determined, is realized currently pre- for air-conditioning If the budget of compressor wasted work under state, to determine the energy consumption of air-conditioning；Afterwards by step S108 according to design temperature, Indoor environment temperature and the second preset formula corresponding to preset state, determine design temperature coefficient, and the temperature coefficient embodies The difference of user's design temperature and current environmental temperature for energy consumption demand size a proportionate relationship, it is whole for calculating Function consumes；The energy consumption of air-conditioning is determined, works as calculating according to design temperature coefficient and compressor wasted work by step S110 afterwards When the energy consumption of the air-conditioning gone out is larger, illustrate air-conditioning at a temperature of user currently sets, the power consumption of corresponding preset state compared with More, user can reduce energy consumption by adjusting design temperature, when the energy consumption of the air-conditioning calculated is smaller, illustrate air-conditioning Under current design temperature, corresponding preset state less energy intensive, be advantageous to energy-conserving and environment-protective；Afterwards by step S112 generations simultaneously Display shows the complete machine power consumption of air-conditioning to user corresponding to the first prompt message of energy consumption.

It should be noted that the preset state of air-conditioning is divided into refrigerating state and heating state.

In addition, it should also be noted that, outdoor environment temperature and indoor environment temperature can pass through the indoor and outdoor machine of air-conditioning The detection of environment temperature temperature-sensitive bag is carried, can also be by setting special temperature sensor to be detected.

In addition it is also necessary to explanation, air conditioner energy consumption can be directly displayed to user, can also be by by complete machine energy Consumption is converted into different power consumption energy levels and is shown to user, can also intuitively be shown energy consumption by other Graphic Methods To user, different energy consumption degree is such as shown by the number of number of squares on the display panel.

In the above embodiment, it is preferable that step S106 is specifically included：If the preset state of air-conditioning is refrigerating state, root Compressor cooling pressure at expulsion is determined according to outdoor environment temperature and compressor cooling pressure of inspiration(Pi) is determined according to indoor environment temperature With compressor cooling suction temperature；According to compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling air-breathing Temperature determines compressor cooling wasted work.

In this embodiment, when the preset state of air-conditioning is refrigerating state, compressor is determined according to outdoor environment temperature Refrigeration and determines compressor cooling pressure of inspiration(Pi) and compressor cooling suction temperature at pressure at expulsion according to indoor environment temperature, specifically Ground, by outdoor environment temperature and ensure that system high pressure is produced with the temperature difference needed for outdoor environment temperature to determine compressor jointly Condensation temperature, the saturation pressure as corresponding to condensation temperature looks into physical properties table and obtains compressor cooling pressure at expulsion, by interior Environment temperature and evaporating temperature determine the evaporating temperature of compressor jointly with the temperature difference needed for indoor environment temperature, by evaporation temperature Saturation pressure corresponding to degree, look into physical properties table and obtain compressor cooling pressure of inspiration(Pi), by indoor environment temperature and ensure to steam Send make a slip of the tongue temperature needed for temperature control and evaporating temperature and determine compression mechanism enfleurage with the temperature difference needed for indoor environment temperature Temperature degree；Then pressure is determined according to compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature Contracting mechanism cold wasted work, compressor cooling power consumption is by compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling Suction temperature, adiabatic exponent determine jointly with compressor adiabatic compression efficiency.

It should be noted that when the preset state of air-conditioning is refrigerating state, refrigerant is compressed by the compressor, and turns into high temperature height Calm the anger body, into the heat exchanger of outdoor unit, condensation liquefaction heat release, turn into liquid, while heat discharges to air, liquid is through throttling Decompressor, the heat exchanger got in, evaporation gasification heat absorption, turn into gas, while draw the heat of room air, so as to reach To the purpose for reducing indoor temperature.

In the above embodiment, it is preferable that step S106 is specifically included：If the preset state of air-conditioning is heating state, root Compressor heating pressure of inspiration(Pi) and compressor heating suction temperature and true according to indoor environment temperature are determined according to outdoor environment temperature Determine compression mechanism thermal exhaust pressure；Pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor heating air-breathing are heated according to compressor Temperature determines compression mechanism heat consumption work(.

In this embodiment, when the preset state of air-conditioning is heating state, compressor is determined according to outdoor environment temperature Heating pressure of inspiration(Pi) and compressor heat suction temperature and determine compression mechanism thermal exhaust pressure according to indoor environment temperature, specifically Ground, evaporated and made a slip of the tongue needed for temperature needed for temperature control and evaporating temperature and indoor environment temperature as outdoor environment temperature and guarantee The temperature difference determine that compressor heats suction temperature, as outdoor environment temperature and evaporating temperature and the temperature needed for outdoor environment temperature Difference determines the evaporating temperature of compressor jointly, the saturation pressure as corresponding to evaporating temperature, looks into physical properties table and is compressed The hot pressure of inspiration(Pi) of mechanism, by indoor temperature and ensure that system high pressure can be produced with the temperature difference needed for indoor temperature Lai common true Determine heat setting temperature, the saturation pressure as corresponding to condensation temperature, look into physical properties table and obtain compression mechanism thermal exhaust pressure；Then Pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor heating suction temperature are heated according to compressor and determine compression mechanism heat consumption Work(, compression mechanism heat consumption work(by compressor heat pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor heat suction temperature, Adiabatic exponent determines jointly with compressor adiabatic compression efficiency.

It should be noted that when the preset state of air-conditioning is heating state, refrigerant is pressurizeed by compressor, turns into high temperature height Calm the anger body, get in the heat exchanger of machine, condensation liquefaction heat release, turn into liquid, while room air is heated, carried so as to reach The purpose of high indoor temperature, liquid depressurize through the decompressor that throttles, and into the heat exchanger of outdoor unit, evaporation gasification heat absorption, turn into Gas, while the quality of outdoor air is drawn, outdoor air is become colder.

In the above embodiment, it is preferable that step S108 is specifically included：According to design temperature, indoor environment temperature, preset Lowest set temperature and the second preset formula corresponding to preset state, it is determined that refrigeration design temperature coefficient, the second preset formula Including：XS=(T₂-T_S)/(T₂-T_L), wherein, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize Design temperature, T_LCharacterize default lowest set temperature.

In this embodiment, when the preset state of air-conditioning is refrigerating state, according to design temperature, indoor environment temperature, Default lowest set temperature and the second preset formula corresponding to preset state, it is determined that refrigeration design temperature coefficient, passes through second Preset formula XS=(T₂-T_S)/(T₂-T_L), refrigeration design temperature coefficient is calculated, wherein, XS characterizes refrigeration design temperature coefficient, T₂ Characterize indoor environment temperature, T_SCharacterize design temperature, T_LDefault lowest set temperature is characterized, the temperature coefficient embodies user's setting The difference of temperature and current environmental temperature for energy consumption demand size a proportionate relationship, for calculating energy consumption, It can be drawn by the second preset formula, when user's design temperature is lower, the difference of current indoor environment temperature and design temperature Bigger, design temperature coefficient is bigger, illustrates that the difference of current environmental temperature is bigger for energy consumption demand, correspondingly, with this The energy consumption of the air-conditioning of design temperature operation also will be bigger.

In the above embodiment, it is preferable that step S110 also includes：According to compressor cooling wasted work, refrigeration design temperature Coefficient and the 3rd preset formula determine the complete machine power consumption energy level of air-conditioning, and the 3rd preset formula includes：

Wherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_max-cool Characterize maximum refrigeration work consumption.

In this embodiment, when the preset state of air-conditioning is refrigerating state, set according to compressor cooling wasted work, refrigeration Temperature coefficient and the 3rd preset formula determine the complete machine power consumption energy level of air-conditioning, pass through the 3rd preset formulaIts In, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_{max_cool}Maximum refrigeration work consumption is characterized, passes through Three preset formulas can show that, when compressor wasted work is more, temperature coefficient is bigger, corresponding power consumption energy level value is also higher, and warm The size of degree coefficient is mainly set by the user temperature to determine, therefore, when the preset state of air-conditioning is refrigerating state, Yong Hushe Fixed temperature is lower, and corresponding air conditioning energy consumption is also bigger.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_cool}The maximum energy consumption for cooling situation of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum refrigeration work consumption under indoor and outdoor work condition environment.

In the above embodiment, it is preferable that step S108 is specifically included：Second preset formula includes：XS=(T_s-T₂)/ (T_M-T₂), wherein, XS characterizes heating design temperature coefficient, T_sCharacterize design temperature, T₂Characterize indoor environment temperature, T_MCharacterize pre- If highest setting temperature.

In this embodiment, when the preset state of air-conditioning is heating state, according to design temperature, indoor environment temperature, Default highest setting temperature and the second preset formula corresponding to preset state, it is determined that heating design temperature coefficient, passes through second Preset formula XS=(T_s-T₂)/(T_M-T₂), heating design temperature coefficient is calculated, wherein, XS characterizes heating design temperature coefficient, T₂Table Levy indoor environment temperature, T_SCharacterize design temperature, T_MDefault highest setting temperature is characterized, the temperature coefficient embodies user and sets temperature The difference of degree and current environmental temperature, for calculating energy consumption, is led to for a proportionate relationship of energy consumption demand size Crossing the second preset formula can be drawn, when user's design temperature is higher, the difference of current indoor environment temperature and design temperature is got over Greatly, design temperature coefficient is bigger, illustrates that the difference of current environmental temperature is bigger for energy consumption demand, correspondingly, is set with this The energy consumption of the air-conditioning of constant temperature degree operation also will be bigger.

In the above embodiment, it is preferable that step S110 also includes：According to compression mechanism heat consumption work(, heating design temperature Coefficient and the 4th preset formula determine the complete machine power consumption energy level of air-conditioning, and the 4th preset formula includes：

Wherein, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_max-heatTable Levy maximum heats power.

In this embodiment, when the preset state of air-conditioning is heating state, set according to compression mechanism heat consumption work(, heating Temperature coefficient and the 3rd preset formula determine the complete machine power consumption energy level of air-conditioning, pass through the 3rd preset formulaIts In, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_{max_heat}Maximum heats power is characterized, passes through Three preset formulas can show that, when compressor wasted work is more, temperature coefficient is bigger, corresponding power consumption energy level value is also higher, and warm The size of degree coefficient is mainly set by the user temperature to determine, therefore, when the preset state of air-conditioning is heating state, Yong Hushe Fixed temperature is higher, and corresponding air conditioning energy consumption is also bigger.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_heat}The maximum heating energy consumption of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum heats power under indoor and outdoor work condition environment.

Specific embodiment one：

Fig. 2 shows the structural representation for estimating energy consumption calculation system according to still a further embodiment.

As shown in Fig. 2 energy consumption calculation system 200 is estimated, including：Setting signal receiving unit 202, for receiving setting letter Number, preset state and preset temperature are determined according to setting signal；Environment temperature determining unit 204, for real-time sensing chamber's outer shroud Border temperature and indoor environment temperature；Energy consumption of compressor determining unit 206, for according to outdoor environment temperature, indoor environment temperature And the first preset formula corresponding to preset state, determine the compressor wasted work of air-conditioning；Design temperature factor determination unit 208, for according to design temperature, indoor environment temperature and the second preset formula corresponding to preset state, it is determined that setting temperature Spend coefficient；Air conditioning energy consumption determining unit 210, for according to design temperature coefficient and compressor wasted work, determining the complete machine energy of air-conditioning Consumption；First Tip element 212, for generating and showing the first prompt message corresponding to energy consumption.

In the technical scheme, setting signal is received by setting signal receiving unit, after air-conditioning receives setting signal, Preset state and preset temperature are determined according to setting signal, that is, determine that preset temperature corresponding to setting signal and the temperature are corresponding Air-conditioning preset state；Then by environment temperature determining unit, outdoor environment temperature and indoor environment temperature are detected in real time, To determine air-conditioning real-time environment temperature outdoor and indoor under current preset state；The outdoor environment detected in real time afterwards Temperature, indoor environment temperature and the first preset formula corresponding to preset state, by energy consumption of compressor determining unit, it is determined that The compressor wasted work of air-conditioning, the measuring and calculating for compressor wasted work under air-conditioning current preset state is realized, to determine the whole of air-conditioning Function consumes；Afterwards according to design temperature, indoor environment temperature and the second preset formula corresponding to preset state, pass through setting Temperature coefficient determining unit, design temperature coefficient is determined, the temperature coefficient embodies user's design temperature and current environmental temperature Difference for energy consumption demand size a proportionate relationship, for calculating energy consumption；Determined afterwards by air conditioning energy consumption Unit, according to design temperature coefficient and compressor wasted work, the energy consumption of air-conditioning is determined, when the energy consumption of the air-conditioning calculated When larger, illustrate air-conditioning at a temperature of user currently sets, the power consumption of corresponding preset state is more, and user can pass through tune Design temperature is saved to reduce energy consumption, when the energy consumption of the air-conditioning calculated is smaller, illustrates air-conditioning under current design temperature, Corresponding preset state less energy intensive, is advantageous to energy-conserving and environment-protective；Afterwards by generating and showing first corresponding to energy consumption Prompt message, the complete machine for showing air-conditioning to user consume energy.

It should be noted that the preset state of air-conditioning is divided into refrigerating state and heating state.

In addition, it should also be noted that, outdoor environment temperature and indoor environment temperature can pass through the indoor and outdoor machine of air-conditioning The detection of environment temperature temperature-sensitive bag is carried, can also be by setting special temperature sensor to be detected.

In addition it is also necessary to explanation, air conditioner energy consumption can be directly displayed to user, can also be by by complete machine energy Consumption is converted into different power consumption energy levels and is shown to user, can also intuitively be shown energy consumption by other Graphic Methods To user, different energy consumption degree is such as shown by the number of number of squares on the display panel.

In the above-mentioned technical solutions, it is preferable that energy consumption of compressor determining unit 206, specifically include：Cooling parameters determine single Member 2062, for when the preset state of air-conditioning is refrigerating state, compressor cooling exhaust pressure to be determined according to outdoor environment temperature Power and compressor cooling pressure of inspiration(Pi) and compressor cooling suction temperature are determined according to indoor environment temperature；Compressor cooling wasted work Determining unit 2064, for according to compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature Determine compressor cooling wasted work.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, by cooling parameters determining unit 2062, Compressor cooling pressure at expulsion is determined according to outdoor environment temperature and compressor cooling pressure of inspiration(Pi) is determined according to indoor environment temperature Power and compressor cooling suction temperature, specifically, by outdoor environment temperature and ensure system high pressure generation and outdoor environment temperature The required temperature difference determines the condensation temperature of compressor jointly, and the saturation pressure as corresponding to condensation temperature looks into physical properties table and obtain To compressor cooling pressure at expulsion, by indoor environment temperature and evaporating temperature with the temperature difference needed for indoor environment temperature Lai common true Determine the evaporating temperature of compressor, the saturation pressure as corresponding to evaporating temperature, look into physical properties table and obtain compressor cooling air-breathing Pressure, make a slip of the tongue temperature needed for temperature control and evaporating temperature and indoor environment temperature institute are evaporated as indoor environment temperature and guarantee The temperature difference needed determines compressor cooling suction temperature；Then by compressor cooling wasted work determining unit 2064, according to compression Mechanism cold pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature determine compressor cooling wasted work, compressor Power consumption of freezing by compressor cooling pressure at expulsion, compressor cooling pressure of inspiration(Pi), compressor cooling suction temperature, adiabatic exponent with Compressor adiabatic compression efficiency determines jointly.

It should be noted that when the preset state of air-conditioning is refrigerating state, refrigerant is compressed by the compressor, and turns into high temperature height Calm the anger body, into the heat exchanger of outdoor unit, condensation liquefaction heat release, turn into liquid, while heat discharges to air, liquid is through throttling Decompressor, the heat exchanger got in, evaporation gasification heat absorption, turn into gas, while draw the heat of room air, so as to reach To the purpose for reducing indoor temperature.

In the above-mentioned technical solutions, it is preferable that energy consumption of compressor determining unit 206, specifically include：Heat parameter and determine list Member 2066, for when the preset state of air-conditioning is heating state, determining that compressor heats pressure of inspiration(Pi) according to outdoor environment temperature Power and compressor heat suction temperature and determine compression mechanism thermal exhaust pressure according to indoor environment temperature；Compression mechanism heat consumption work( Determining unit 2068, suction temperature is heated for heating pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor according to compressor Determine compression mechanism heat consumption work(.

In the technical scheme, when the preset state of air-conditioning is heating state, by heating parameter determination unit 2066, Compressor heating pressure of inspiration(Pi) and compressor heating suction temperature are determined and according to indoor environment temperature according to outdoor environment temperature Compression mechanism thermal exhaust pressure is determined, specifically, temperature needed for temperature control of making a slip of the tongue is evaporated as outdoor environment temperature and guarantee And evaporating temperature determines that compressor heats suction temperature with the temperature difference needed for indoor environment temperature, by outdoor environment temperature and steaming Hair temperature determines the evaporating temperature of compressor jointly with the temperature difference needed for outdoor environment temperature, the saturation as corresponding to evaporating temperature Pressure, look into physical properties table obtain compressor heating pressure of inspiration(Pi), by indoor temperature and ensure system high pressure can produce and Temperature difference needed for indoor temperature determines heat setting temperature jointly, the saturation pressure as corresponding to condensation temperature, looks into physical properties Table obtains compression mechanism thermal exhaust pressure；Then by compression mechanism heat consumption work(determining unit 2068, heated and inhaled according to compressor Atmospheric pressure, compression mechanism thermal exhaust pressure, compressor heating suction temperature determine compression mechanism heat consumption work(, compression mechanism heat consumption work( It is exhausted by compressor heating pressure of inspiration(Pi), compression mechanism thermal exhaust pressure, compressor heating suction temperature, adiabatic exponent and compressor Hot compression efficiency determines jointly.

It should be noted that when the preset state of air-conditioning is heating state, refrigerant is pressurizeed by compressor, turns into high temperature height Calm the anger body, get in the heat exchanger of machine, condensation liquefaction heat release, turn into liquid, while room air is heated, carried so as to reach The purpose of high indoor temperature, liquid depressurize through the decompressor that throttles, and into the heat exchanger of outdoor unit, evaporation gasification heat absorption, turn into Gas, while the quality of outdoor air is drawn, outdoor air is become colder.

In the above-mentioned technical solutions, it is preferable that design temperature factor determination unit 208, specifically include：Freeze design temperature Factor determination unit 2082, for according to design temperature, indoor environment temperature, default lowest set temperature and corresponding to refrigeration shape Second preset formula of state, it is determined that refrigeration design temperature coefficient, the second preset formula include：XS=(T₂-T_S)/(T₂-T_L), its In, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LCharacterize and preset minimum setting Temperature.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, by freezing, design temperature coefficient determines Unit 2082, according to design temperature, indoor environment temperature, default lowest set temperature and corresponding to the second default of preset state Formula, it is determined that refrigeration design temperature coefficient, passes through the second preset formula XS=(T₂-T_S)/(T₂-T_L), calculate refrigeration design temperature Coefficient, wherein, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LCharacterize default Lowest set temperature, the temperature coefficient embodies user's design temperature and the difference of current environmental temperature is big for energy consumption demand A small proportionate relationship, for calculating energy consumption, can be drawn, user's design temperature is lower by the second preset formula When, the difference of current indoor environment temperature and design temperature is bigger, and design temperature coefficient is bigger, illustrates the difference of current environmental temperature Value is bigger for energy consumption demand, correspondingly, also will be bigger with the energy consumption of the air-conditioning of design temperature operation.

In the above-mentioned technical solutions, it is preferable that also include：Refrigeration power consumption energy level determining unit 214, for according to compressor Refrigeration wasted work, refrigeration design temperature coefficient and the 3rd preset formula determine the complete machine power consumption energy level of air-conditioning；Refrigeration power consumption energy level carries Show unit 216, for generating and showing the second prompt message corresponding to complete machine power consumption energy level, the 3rd preset formula includes：Wherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_max-coolCharacterize maximum Refrigeration work consumption.

In the technical scheme, when the preset state of air-conditioning is refrigerating state, pass through the energy level determining unit that consumes energy of freezing 214, the complete machine power consumption energy level of air-conditioning is determined according to compressor cooling wasted work, refrigeration design temperature coefficient and the 3rd preset formula, Pass through the 3rd preset formulaWherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_{max_cool}Maximum refrigeration work consumption is characterized, can be drawn by the 3rd preset formula when compressor wasted work is more, temperature coefficient is bigger When, corresponding power consumption energy level value is also higher, and the size of temperature coefficient is mainly set by the user temperature to determine, therefore, works as sky When the preset state of tune is refrigerating state, the temperature of user's setting is lower, and corresponding air conditioning energy consumption is also bigger；Pass through system afterwards Cold power consumption energy level Tip element 216, generate and show the second prompt message corresponding to complete machine power consumption energy level, prompt the user with sky Adjust under current design temperature, the power consumption energy level of corresponding refrigerating state.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_cool}The maximum energy consumption for cooling situation of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum refrigeration work consumption under indoor and outdoor work condition environment.

In the above-mentioned technical solutions, it is preferable that design temperature factor determination unit 208, specifically include：Heat design temperature Factor determination unit 2084, for according to design temperature, indoor environment temperature, default highest setting temperature and corresponding to heating shape Second preset formula of state, it is determined that heating design temperature coefficient, the second preset formula include：XS=(T_s-T₂)/(T_M-T₂), its In, XS characterizes heating design temperature coefficient, T_sCharacterize design temperature, T₂Characterize indoor environment temperature, T_MCharacterize default highest setting Temperature.

In the technical scheme, when the preset state of air-conditioning is heating state, determined by heating design temperature coefficient Unit 2084, according to design temperature, indoor environment temperature, default highest setting temperature and corresponding to the second default of preset state Formula, it is determined that heating design temperature coefficient, passes through the second preset formula XS=(T_s-T₂)/(T_M-T₂), calculate heating design temperature system Number, wherein, XS characterizes heating design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_MCharacterize and preset most High design temperature, the temperature coefficient embody the difference of user's design temperature and current environmental temperature for energy consumption demand size A proportionate relationship, for calculating energy consumption, can be drawn by the second preset formula, when user's design temperature is higher, Current indoor environment temperature and the difference of design temperature are bigger, and design temperature coefficient is bigger, illustrate the difference of current environmental temperature It is bigger for energy consumption demand, correspondingly, also will be bigger with the energy consumption of the air-conditioning of design temperature operation.

In the above-mentioned technical solutions, it is preferable that also include：Energy consumption energy level determining unit 218 is heated, for according to compressor Heating wasted work, heating design temperature coefficient and the 4th preset formula determine the complete machine power consumption energy level of air-conditioning；Heating energy consumption energy level carries Show unit 220, for generating and showing the 3rd prompt message corresponding to complete machine power consumption energy level, the 4th preset formula includes：Wherein, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_max-heatCharacterize maximum Heats power.

In the technical scheme, when the preset state of air-conditioning is heating state, by heating energy consumption energy level determining unit 218, the complete machine power consumption energy level of air-conditioning is determined according to compression mechanism heat consumption work(, heating design temperature coefficient and the 3rd preset formula, Pass through the 3rd preset formulaWherein, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_{max_heat}Maximum heats power is characterized, can be drawn by the 3rd preset formula when compressor wasted work is more, temperature coefficient is bigger When, corresponding power consumption energy level value is also higher, and the size of temperature coefficient is mainly set by the user temperature to determine, therefore, works as sky When the preset state of tune is heating state, the temperature of user's setting is higher, and corresponding air conditioning energy consumption is also bigger；Pass through system afterwards Thermal energy consumption energy level Tip element 220, generate and show the 3rd prompt message corresponding to complete machine power consumption energy level, prompt the user with sky Adjust under current design temperature, the power consumption energy level of corresponding heating state.

It should be noted that power consumption energy level is a numerical value between 0~1, according to corresponding different power consumption energy level, near Show that corresponding power consumption energy level is used to prompt user in end remote control or indoor display board.

In addition, it should also be noted that, W_{max_heat}The maximum heating energy consumption of expression system, the value can be that complete machine exists The peak power of acquisition is tested under most bad working environments environment, or obtained according to historical record during operation of air conditioner current Maximum heats power under indoor and outdoor work condition environment.

Fig. 3 shows the structural representation of computer equipment 30 according to an embodiment of the invention.

The embodiment of third aspect present invention proposes a kind of computer equipment, including memory 32, processor 34 and deposits The computer program that can be run on memory 32 and on a processor is stored up, processor 34 performs above-mentioned when performing computer program Any one estimates Calculation Method of Energy Consumption.

In this embodiment, the computer program for estimating Calculation Method of Energy Consumption for performing any of the above-described is stored in memory On 32, when processor 34 performs computer program, the Calculation Method of Energy Consumption of estimating in any of the above-described embodiment can be achieved, therefore have There are whole beneficial effects that Calculation Method of Energy Consumption is estimated in above-described embodiment, will not be repeated here.

Fig. 4 shows the schematic diagram of air-conditioning according to an embodiment of the invention.

The embodiment of fifth aspect present invention proposes a kind of air-conditioning 40, including：Any one of second aspect of the present invention it is pre- Estimate energy consumption calculation system 200.

In this embodiment, include the air-conditioning for estimating energy consumption calculation system of any one of second aspect of the present invention, can be achieved Calculation Method of Energy Consumption is estimated in any of the above-described embodiment, therefore with the whole that Calculation Method of Energy Consumption is estimated in above-described embodiment Beneficial effect, it will not be repeated here.

Specific embodiment 2：

Fig. 5 shows cooling condition figure according to an embodiment of the invention.

As shown in figure 5, when air-conditioning preset state is refrigerating state, state when unit operates ensures the high pressure energy of system It is enough to produce and outdoor environment temperature T₁The temperature difference be Δ T_1c, ensure the evaporating temperature of evaporator and indoor environment temperature T₂The temperature difference For Δ T_2e.It is Tesh that unit allocation guarantee simultaneously, which evaporates temperature control of making a slip of the tongue,.K represents compressor adiabatic exponent, and η represents compression Machine adiabatic compression efficiency.

Evaporating pressure Pe=Pe_sat (T₂-ΔT_2e, Ref), evaporating pressure saturation pressure as corresponding to evaporating temperature, look into system Cryogen physical property table obtains.

Condensing pressure Pc=Pc_sat (T₁+ΔT_1c, Ref), condensing pressure saturation pressure as corresponding to condensation temperature, look into system Cryogen physical property table obtains.

Actual wasted work Wc=Wc (Pe, Pc, the T of compressor₂-ΔT_2e+ Tesh, K, η), the actual wasted work of compressor is inhaled by compressor Atmospheric pressure Pe, Compressor Discharge Pressure Pc, compressor air suction temperature T₂-ΔT_2e+ Tesh, adiabatic exponent and compressor adiabatic compression Efficiency obtains.

Design temperature coefficient XS=(T₂-T_S)/(T₂-T_L), wherein T_LFor remote control lowest set temperature, T_SSet for user Temperature.The temperature coefficient embodies the difference of user's design temperature and current environmental temperature for one of energy consumption demand size Proportionate relationship, for calculating complete machine power consumption.

Power consumption energy level isPower consumption energy level is a numerical value between 0~1, according to corresponding different power consumption Energy level, show that corresponding power consumption energy level is used to prompt user in near-end remote control or indoor display board.Wherein W_{max_cool}Represent system The maximum energy consumption for cooling situation of system, the value can be the peak power that complete machine tests acquisition under most bad working environments environment, also may be used Think the maximum refrigeration work consumption under the outer work condition environment of current indoor obtained according to historical record during operation of air conditioner.

Fig. 6 shows heating condition figure according to an embodiment of the invention.

As shown in fig. 6, when the preset state of air-conditioning is heating state, state when unit operates ensures the high pressure of system It can produce and indoor environment temperature T₂The temperature difference be Δ T_1c, ensure the evaporating temperature of evaporator and outdoor environment temperature T₁Temperature Difference is Δ T_2e.It is Tesh that unit allocation guarantee simultaneously, which evaporates temperature control of making a slip of the tongue,.K represents compressor adiabatic exponent, and η represents pressure Contracting machine adiabatic compression efficiency

Evaporating pressure Pe=Pe_sat (T₁-ΔT_2e, Ref), evaporating pressure saturation pressure as corresponding to evaporating temperature, look into system Cryogen physical property table obtains.

Condensing pressure Pc=Pc_sat (T₂+ΔT_1c, Ref), condensing pressure saturation pressure as corresponding to condensation temperature, look into system Cryogen physical property table obtains.

The actual wasted work W of compressor_h=W_h(Pe,Pc,T₁-ΔT_2e+ Tesh, K, η), the actual wasted work of compressor is inhaled by compressor Atmospheric pressure Pe, Compressor Discharge Pressure Pc, compressor air suction temperature T1- Δ T2e+Tesh, adiabatic exponent and the adiabatic pressure of compressor Contracting efficiency obtains.

Design temperature coefficient XS=(T_s-T₂)/(T_M-T₂), wherein T_MFor remote control highest setting temperature, T_sSet for user Temperature.The temperature coefficient embodies the difference of user's design temperature and current environmental temperature for one of energy consumption demand size Proportionate relationship, for calculating complete machine power consumption.

Power consumption energy level isA numerical value between 0~1 during power consumption energy level, according to corresponding different power consumption Energy level, show that corresponding power consumption energy level is used to prompt user in near-end remote control or indoor display board.

Wherein W_{max_heat}The maximum heating energy consumption of expression system, the value can be complete machine under most bad working environments environment Test the peak power obtained, or under the outer work condition environment of current indoor obtained according to historical record during operation of air conditioner Maximum heats power.

Technical scheme is described in detail above in association with accompanying drawing, the present invention proposes one kind and estimates energy consumption calculation side Method, system and air-conditioning, by technical scheme, the budget to air conditioning energy consumption is realized, facilitates user to recognize currently The power consumption for the temperature that air-conditioning is set under environment so that user can adjust the design temperature of air-conditioning in time to reduce air conditioning energy consumption, The possibility that air-conditioning is run with high energy consumption in the range of human comfort is reduced, energy consumption is saved, improves Consumer's Experience.

In the description of this specification, the description of term " one embodiment ", " some embodiments ", " specific embodiment " etc. Mean to combine at least one reality that specific features, structure, material or the feature that the embodiment or example describe are contained in the present invention Apply in example or example.In this manual, identical embodiment or reality are not necessarily referring to the schematic representation of above-mentioned term Example.Moreover, description specific features, structure, material or feature can in any one or more embodiments or example with Suitable mode combines.

The preferred embodiments of the present invention are these are only, are not intended to limit the invention, for those skilled in the art For member, the present invention can have various modifications and variations.Any modification within the spirit and principles of the invention, being made, Equivalent substitution, improvement etc., should be included in the scope of the protection.

Claims (17)

1. one kind estimates Calculation Method of Energy Consumption, for air-conditioning, it is characterised in that including：

Setting signal is received, preset state and preset temperature are determined according to the setting signal；

Detection outdoor environment temperature and indoor environment temperature in real time；

Public affairs are preset according to the outdoor environment temperature, the indoor environment temperature and corresponding to the first of the preset state Formula, determine the compressor wasted work of the air-conditioning；

According to the design temperature, the indoor environment temperature and the second preset formula corresponding to the preset state, really Determine design temperature coefficient；

According to the design temperature coefficient and the compressor wasted work, the energy consumption of the air-conditioning is determined；

Generate and show the first prompt message corresponding to the energy consumption.

2. according to claim 1 estimate Calculation Method of Energy Consumption, it is characterised in that described according to the outdoor environment temperature Degree, the indoor environment temperature and the first preset formula corresponding to the preset state, determine the compressor consumption of the air-conditioning Work(, specifically include：

If the preset state of air-conditioning is refrigerating state, compressor cooling pressure at expulsion is determined according to the outdoor environment temperature And compressor cooling pressure of inspiration(Pi) and compressor cooling suction temperature are determined according to the indoor environment temperature；

According to the compressor cooling pressure at expulsion, the compressor cooling pressure of inspiration(Pi), the compressor cooling suction temperature Determine compressor cooling wasted work.

3. according to claim 1 estimate Calculation Method of Energy Consumption, it is characterised in that described according to the outdoor environment temperature Degree, the indoor environment temperature and the first preset formula corresponding to the preset state, determine the compressor consumption of the air-conditioning Work(, specifically include：

If the preset state of air-conditioning is heating state, determine that compressor heats pressure of inspiration(Pi) according to the outdoor environment temperature Suction temperature is heated with compressor and compression mechanism thermal exhaust pressure is determined according to the indoor environment temperature；

Pressure of inspiration(Pi), the compression mechanism thermal exhaust pressure, compressor heating suction temperature are heated according to the compressor Determine compression mechanism heat consumption work(.

4. according to claim 2 estimate Calculation Method of Energy Consumption, it is characterised in that described according to the design temperature, institute Indoor environment temperature and the second preset formula corresponding to the preset state are stated, design temperature coefficient is determined, specifically includes：

According to the design temperature, the indoor environment temperature, preset lowest set temperature and corresponding to the preset state Second preset formula, the refrigeration design temperature coefficient is determined,

Second preset formula includes：

XS=(T₂-T_S)/(T₂-T_L)

Wherein, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LCharacterize and preset most Low design temperature.

5. estimate Calculation Method of Energy Consumption according to claim 2 or 4, it is characterised in that also include：

The whole of the air-conditioning is determined according to the compressor cooling wasted work, the refrigeration design temperature coefficient and the 3rd preset formula Machine power consumption energy level,

3rd preset formula includes：

<mrow> <mi>E</mi> <mo>=</mo> <mfrac> <mrow> <msub> <mi>W</mi> <mi>C</mi> </msub> <mo>&amp;times;</mo> <mi>X</mi> <mi>S</mi> </mrow> <msub> <mi>W</mi> <mrow> <mi>max</mi> <mo>-</mo> <mi>c</mi> <mi>o</mi> <mi>o</mi> <mi>l</mi> </mrow> </msub> </mfrac> </mrow>

Wherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_max-coolCharacterize maximum refrigeration work consumption.

6. according to claim 3 estimate Calculation Method of Energy Consumption, it is characterised in that described according to the design temperature, institute Indoor environment temperature and the second preset formula corresponding to the preset state are stated, design temperature coefficient is determined, specifically includes：

Second preset formula includes：

XS=(T_s-T₂)/(T_M-T₂)

Wherein, XS characterizes heating design temperature coefficient, T_sCharacterize design temperature, T₂Characterize indoor environment temperature, T_MCharacterize and preset most High design temperature.

7. estimate Calculation Method of Energy Consumption according to claim 3 or 6, it is characterised in that also include：

The whole of the air-conditioning is determined according to the compression mechanism heat consumption work(, the heating design temperature coefficient and the 4th preset formula Machine power consumption energy level,

4th preset formula includes：

<mrow> <mi>E</mi> <mo>=</mo> <mfrac> <mrow> <msub> <mi>W</mi> <mi>C</mi> </msub> <mo>&amp;times;</mo> <mi>X</mi> <mi>S</mi> </mrow> <msub> <mi>W</mi> <mrow> <mi>m</mi> <mi>a</mi> <mi>x</mi> <mo>-</mo> <mi>h</mi> <mi>e</mi> <mi>a</mi> <mi>t</mi> </mrow> </msub> </mfrac> </mrow>

Wherein, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_max-heatCharacterize maximum heats power.

8. one kind estimates energy consumption calculation system, it is characterised in that including：

Setting signal receiving unit, for receiving setting signal, preset state and preset temperature are determined according to the setting signal；

Environment temperature determining unit, for detecting outdoor environment temperature and indoor environment temperature in real time；

Energy consumption of compressor determining unit, for according to the outdoor environment temperature, the indoor environment temperature and corresponding to institute The first preset formula of preset state is stated, determines the compressor wasted work of the air-conditioning；

Design temperature factor determination unit, for according to the design temperature, the indoor environment temperature and corresponding to described Second preset formula of preset state, determines design temperature coefficient；

Air conditioning energy consumption determining unit, for according to the design temperature coefficient and the compressor wasted work, determining the air-conditioning Energy consumption；

First Tip element, for generating and showing the first prompt message corresponding to the energy consumption.

9. according to claim 8 estimate energy consumption calculation system, it is characterised in that the energy consumption of compressor determining unit, Specifically include：

Cooling parameters determining unit, for when the preset state of air-conditioning is refrigerating state, according to the outdoor environment temperature Degree determines compressor cooling pressure at expulsion and determines compressor cooling pressure of inspiration(Pi) and compressor according to the indoor environment temperature Refrigeration suction temperature；

Compressor cooling wasted work determining unit, for according to the compressor cooling pressure at expulsion, the compressor cooling air-breathing Pressure, the compressor cooling suction temperature determine compressor cooling wasted work.

10. according to claim 8 estimate energy consumption calculation system, it is characterised in that the energy consumption of compressor determining unit, Specifically include：

Parameter determination unit is heated, for when the preset state of air-conditioning is heating state, according to the outdoor environment temperature Degree determines compressor heating pressure of inspiration(Pi) and compressor heating suction temperature and determines compressor according to the indoor environment temperature Heat pressure at expulsion；

Compression mechanism heat consumption work(determining unit, for heating pressure of inspiration(Pi), the compression mechanism thermal exhaust according to the compressor Pressure, compressor heating suction temperature determine compression mechanism heat consumption work(.

11. according to claim 9 estimate energy consumption calculation system, it is characterised in that the design temperature coefficient determines single Member, specifically include：

Freeze design temperature factor determination unit, for according to the design temperature, the indoor environment temperature, default minimum set Constant temperature degree and the second preset formula corresponding to the refrigerating state, it is determined that refrigeration design temperature coefficient,

Second preset formula includes：

XS=(T₂-T_S)/(T₂-T_L)

Wherein, XS characterizes refrigeration design temperature coefficient, T₂Characterize indoor environment temperature, T_SCharacterize design temperature, T_LCharacterize and preset most Low design temperature.

12. estimate energy consumption calculation system according to claim 9 or 11, it is characterised in that also include：

Refrigeration power consumption energy level determining unit, for according to the compressor cooling wasted work, the refrigeration design temperature coefficient and the Three preset formulas determine the complete machine power consumption energy level of the air-conditioning；

Refrigeration power consumption energy level Tip element, for generating and showing the second prompt message corresponding to complete machine power consumption energy level,

3rd preset formula includes：

<mrow> <mi>E</mi> <mo>=</mo> <mfrac> <mrow> <msub> <mi>W</mi> <mi>C</mi> </msub> <mo>&amp;times;</mo> <mi>X</mi> <mi>S</mi> </mrow> <msub> <mi>W</mi> <mrow> <mi>max</mi> <mo>-</mo> <mi>c</mi> <mi>o</mi> <mi>o</mi> <mi>l</mi> </mrow> </msub> </mfrac> </mrow>

Wherein, W_CCompressor cooling wasted work is characterized, XS characterizes refrigeration design temperature coefficient, W_max-coolCharacterize maximum refrigeration work consumption.

13. according to claim 10 estimate energy consumption calculation system, it is characterised in that the design temperature coefficient determines single Member, specifically include：

Design temperature factor determination unit is heated, for being set according to the design temperature, the indoor environment temperature, default highest Constant temperature degree and the second preset formula corresponding to the heating state, it is determined that heating design temperature coefficient,

Second preset formula includes：

XS=(T_s-T₂)/(T_M-T₂)

Wherein, XS characterizes heating design temperature coefficient, T_sCharacterize design temperature, T₂Characterize indoor environment temperature, T_MCharacterize and preset most High design temperature.

14. estimate energy consumption calculation system according to claim 10 or 13, it is characterised in that also include：

Energy consumption energy level determining unit is heated, for according to the compression mechanism heat consumption work(, the heating design temperature coefficient and the Four preset formulas determine the complete machine power consumption energy level of the air-conditioning；

Energy consumption energy level Tip element is heated, for generating and showing the 3rd prompt message corresponding to complete machine power consumption energy level,

4th preset formula includes：

<mrow> <mi>E</mi> <mo>=</mo> <mfrac> <mrow> <msub> <mi>W</mi> <mi>C</mi> </msub> <mo>&amp;times;</mo> <mi>X</mi> <mi>S</mi> </mrow> <msub> <mi>W</mi> <mrow> <mi>m</mi> <mi>a</mi> <mi>x</mi> <mo>-</mo> <mi>h</mi> <mi>e</mi> <mi>a</mi> <mi>t</mi> </mrow> </msub> </mfrac> </mrow>

Wherein, W_CCompression mechanism heat consumption work(is characterized, XS characterizes heating design temperature coefficient, W_max-heatCharacterize maximum heats power.

15. a kind of computer equipment, including memory, processor and it is stored on the memory and can be on the processor The computer program of operation, it is characterised in that perform such as claim 1 to 7 described in the computing device during computer program Any one of estimate Calculation Method of Energy Consumption.

16. a kind of computer-readable recording medium, is stored thereon with computer program, it is characterised in that the computer program Realized when being executed by processor and estimate Calculation Method of Energy Consumption as any one of claim 1 to 7.

A kind of 17. air-conditioning, it is characterised in that including：Energy consumption calculation system is estimated any one of claim 8 to 14.